5-YEAR REVIEWBFGOODRICH/AIRCO SUPERFUND SITECALVERT CITY, KY
Prepared for:SETTLING PARTIESCALVERT CITY, KENTUCKY
JOB NO.: 30765-020-121July 9, 2001
36 East 7Th Street, Suite 2300 Cincinnati, Ohio 45202 Voice (513) 651-3440 Fax (513) 651-3452
July 17, 2001
Mr. Derek MatoryU.S. EPA Region IVNorth Superfund Remediation Branch 100 Alabama Street, S.W. Atlanta, GA 30303
Mr. Robert H. DaniellDirector, Division of Waste Management Kentucky Department of Environmental Protection 18 Reilly RoadFrankfort, KY 40601
Re: 5-Year Review Report BFGoodrich/AIRCO Superfund Site Calvert City, Kentucky
Gentlemen:
On behalf of the Settling Parties (BFGoodrich Company and The BOC Group, Inc.), URS has provided thisreport presenting findings the 5-Year Review performed at the BFGoodrich/ AIRCO Superfund Site inCalvert City, Kentucky.
If you have any questions or require additional information, please call the undersigned or Mr. ChristianOrsborn at 270-395-3290.
Attachments
cc: Christian OrsbornMichael Resh
URS Corporation36 East 7th Street, Suite 2300 Cincinnati, OH 45202 Tel: 513.651.3440 Fax: 513.651.3452
Settling Parties i July 9, 200130765-020-121
EPA Five-Year Review Signature Cover
Key Review Information
Site Identification
Site names: BFGoodrichAIRCO
EPA IDs: BFGoodrich KYD006370167AIRCO KYD041981010
Region: 4 State: Kentucky City/County: Calvert City/Marshall
Site Status
NPL status: Final
Remediation status (under construction, operating, complete): Operating
Multiple OU’s’ (highlight): Y N (One OU per site)
Construction completion site: September 27, 1997
Fund/PRP/Federal facility lead: PRP Lead agency: U.S. EPA Region 4
Has site been put into reuse? (highlight): Y N
Review Status
Who conducted the review (EPA Region, State, Federal agency): PRP (Settling Parties), directed byU.S. EPA Region 4
Author name: Gautam Trivedi, P.E. Author title: Associate
Author affiliation: URS Corporation (Consultant to Settling Parties)
Review period:’’ January 1 through June 30, 2001 Date(s) of site inspection: January 23, 2001
Highlight: Statutory ’’’
Policy
Policy Type (name): NA1. Pre-SARA2. Ongoing3. Removal only4. Regional Discretion
Review number(1, 2, etc.): 1
Triggering action event: RA onsite construction/onsite mobilization
Trigger action date: June 30, 1996
Due date: June 30, 2001
* [“OU” refers to operable unit.]** [Review period should correspond to the actual start and end dates of the five-year review in WasteLAN.]*** [see page B-8 and Chapter 1 for further explanation.]**** [see page B-9 and Chapter 1 for further explanation.]
Settling Parties ii July 9, 200130765-020-121
EPA Five-Year Review Signature Cover (continued)
Deficiencies:Two general deficiencies, not affecting protectiveness, were identified:
• Leachate collection source control measures do not appear to be effective at minimizing further contaminantrelease to the ground water.
• There appears to be incomplete capture of ground water downgradient of monitoring well GA-29, as evidenced by 1,2-dichloroethane (EDC) concentration increases.
Recommendations and Required Actions:There are recommendations:
• Propose more efficient source control measures to shorten the time required for operation of the extraction wells
• Investigate the cause of EDC concentration increases at the well GA-29
• Collect additional information about ground-water quality and hydraulic head data for the area being monitored by wellGA-29
None of these recommended actions are required to ensure the protection of human health and the environment.
Protectiveness Statement(s):The remedy is protective of human health and the environment.
Other Comments:Consistently high levels of EDC were observed in several near-source area monitoring wells. This may indicatethat current remedial action – source control activities are having limited effectiveness at reducing contaminantconcentrations in near-source areas and that modifications may be needed to shorten the period of time required tooperate site extraction wells.
Signature of EPA Regional Administrator or Division Director and Date
Signature Date
Richard D. Green, Director, Waste Management DivisionName and Title
Settling Parties iii July 9, 200130765-020-121
CONTENTSSection Page
1.0 INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
2.0 SITE CHRONOLOGY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
3.0 BACKGROUND . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 3.1 PHYSICAL CHARACTERISTICS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 3.2 AREA ENVIRONMENTAL ISSUES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
3.2.1 Calvert City Wellfield . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 3.2.2 Tennessee River Water Quality . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 3.2.3 Aquatic Life . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 3.2.4 Threatened and Endangered Species – Marshall County . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
3.3 LAND AND RESOURCE USE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 3.3.1 AIRCO Landfill . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 3.3.2 BFGoodrich Landfill . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 3.3.3 Current Land Use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
3.4 HISTORY OF CONTAMINATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 3.4.1 AIRCO Landfill . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 3.4.2 BFGoodrich Landfill . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 3.4.3 Former Burning and Burial Area . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 3.4.4 Discovery of Contamination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
3.5 INITIAL RESPONSE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103.5.1 AIRCO Landfill . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103.5.2 BFGoodrich Landfill . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
3.6 CONTAMINANTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113.6.1 CONTAMINATED SURFACE SOIL AND SEDIMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 123.6.2 GROUNDWATER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 133.6.3 CONCEPTUAL MODEL OF RELEASE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 133.6.4 RESULTS OF ENDANGERMENT ASSESSMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
3.6.4.1 Contaminant Identification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 153.6.4.2 Exposure and Toxicity Evaluation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 163.6.4.3 Risk Characterization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
4.0 REMEDIAL ACTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 174.1 REMEDY SELECTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 184.2 REMEDY IMPLEMENTATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
4.2.1 Remedial Design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 214.2.2 Remedial Action . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
4.2.2.1 Phase I - Pre-Construction Activities . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 234.2.2.2 Phase II - Construction Activities . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 244.2.2.3 Variances From The Approved Design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
4.3 SYSTEM OPERATIONS/O&M . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 294.3.1 Description Of Normal Operation And Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
4.3.1.1 Security Fencing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 304.3.1.2 Erosion Damage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 314.3.1.3 Mowing Activities . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 314.3.1.4 Storm Water Management System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 324.3.1.5 Groundwater Well Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 324.3.1.6 Leachate Extraction System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 324.3.1.7 Organic Vapor Recovery System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
4.3.2 Environmental Monitoring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 344.3.2.1 Groundwater Monitoring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 344.3.2.2 Surface Water Monitoring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
4.3.3 Reporting and Record Retention . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 364.3.4 Cost Estimate For Post-Closure Care . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 374.3.5 Actual Costs to Date For Post-Closure Care . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
4.4 PROGRESS SINCE LAST 5-YEAR REVIEW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
5.0 FIVE-YEAR REVIEW FINDINGS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 385.1 FIVE-YEAR REVIEW PROCESS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
Settling Parties iv July 9, 200130765-020-121
CONTENTSSection Page
5.1.1 Document Review . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 395.1.2 Interviews . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 395.1.3 Site Inspection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 395.1.4 Risk Information Review . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 405.1.5 Data Review . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
5.1.5.1 Piezometric Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 425.1.5.2 Water Quality Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 425.1.5.3 Soil Vapor Extraction System Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
5.1.6 Five-Year Review Team . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
6.0 ASSESSMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48
7.0 DEFICIENCIES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
8.0 RECOMMENDATIONS AND REQUIRED ACTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
9.0 PROTECTIVENESS STATEMENT(S) BY EPA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
10.0 NEXT REVIEW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
11.0 OTHER COMMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
12.0 REFERENCES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
TABLES (follow text)
Number
1 MCLS AND AWQCS FOR INDICATOR CHEMICALS2 ENDANGERMENT ASSESSMENT SUMMARY3 FEASIBILITY ALTERNATIVE MATRIX4 SUMMARY OF KEY PROJECT MILESTONE EVENTS5 POST-CLOSURE CARE COST ESTIMATE6 COMPARISON OF INDICATOR CONSTITUENTS
FIGURES(follow tables)
1 SITE VICINITY MAP2 SITE PLAN3 CROSS SECTION A-A’4 CROSS SECTION B-B’5 CROSS SECTION A-C6 PRE-REMEDIATION SHALLOW POTENTIOMETRIC SURFACE7 SHALLOW POTENTIOMETRIC SURFACE JULY 20008 PRE-REMEDIATION SHALLOW EDC PLUME9 SHALLOW EDC PLUME JULY 200010 EDC AND TVOCS REMOVAL1 l MONITORING WELL CONCENTRATION CHANGES12 SVE AND LEACHATE SYSTEMS EDC REMOVAL
APPENDICES (follow figures)
Number
A AS-BUILT DRAWING OF FINAL REMEDY CONSTRUCTIONB PUBLIC NOTICES REGARDING FIVE-YEAR REVIEWC 5-YEAR REVIEW SITE INSPECTION CHECKLIST
Settling Parties v July 9, 200130765-020-121
CONTENTSSection Page
D SITE INSPECTION PHOTOGRAPHSE GROUNDWATER CONCENTRATION TRENDSF POTENTIOMETRIC MONITORING DATAG COPIES OF DEED RESTRICTIONS
Settling Parties 1 July 9, 200130765-020-121
1.0 INTRODUCTION
This document presents the 5-Year Review Report for the BFGoodrich/AIRCO Superfund Site in Calvert
City, Marshall County, Kentucky (site) (Figures 1 and 2). This 5-Year Review Report was prepared by URS
Corporation under the direction of United States Environmental Protection Agency Region 4 (EPA), with
input from the Settling Parties, BFGoodrich Company (BFGoodrich) and the BOC Group (formerly known
as AIRCO). This review was conducted from January 2001 through June 2001.
The 5-Year Review was conducted in accordance with the EPA-approved Workplan, 5-Year Review,
BFGoodrich/AIRCO Superfund Site, Calvert City, Kentucky dated July 13, 2000 (Workplan). EPA has
prepared draft guidance describing the requirements of 5-year reviews: Comprehensive 5-Year Review
Guidance, EPA 540R-98-050 OSWER Directive 9355.7-03B-P, PB99-963214, Draft, dated April 1999
(Guidance Document [EPA 1999]). The approved Workplan utilizes review procedures in the Guidance
Document as appropriate to the remedial action ongoing at the site.
The purpose of the 5-Year Review is to determine whether the remedy at this site remains protective of
human health and the environment. The methods, findings, and conclusions of reviews are documented in
5-year review reports. In addition, 5-year review reports identify deficiencies found during the review, if
any, and recommendations to address them.
The site is categorized as requiring a statutory 5-year review. A statutory 5-year review is required if a
post-Superfund Amendments and Reauthorization Act (SARA) remedial action will result in hazardous
substances, pollutants, or contaminants remaining at the site above levels that allow for unlimited use and
unrestricted exposure. EPA must implement 5-year reviews consistent with the Comprehensive
Environmental Response, Compensation, and Liability Act (CERCLA) and the National Oil and Hazardous
Substances Pollution Contingency Plan (NCP). CERCLA §121(c), as amended, states:
If the President selects a remedial action that results in any hazardous substances, pollutants, orcontaminants remaining at the site, the President shall review such remedial action no less often thaneach five years after the initiation of such remedial action to assure that human health and theenvironment are being protected by the remedial action being implemented.
The NCP part 300.430(f)(4)(ii) of the Code of Federal Regulations (CFR) states:
Settling Parties 3 July 9, 200130765-020-121
3.0 BACKGROUND
3.1 PHYSICAL CHARACTERISTICS
BFGoodrich/AIRCO site is located in Marshall County, Kentucky, approximately 2 miles northeast of
Calvert City off Highway 1523 (Figure 1). The site is located near the southern bank of the Tennessee River
approximately 18.5 river miles upstream from the confluence with the Ohio River and approximately 4
miles downstream of the Kentucky Dam.
The site as referenced is actually two adjacent Superfund sites, the 2-acre BFGoodrich Landfill and the
2.75-acre AIRCO Landfill (Figure 2). The sites were named on the National Priorities List (NPL) in 1983
(BFGoodrich) and 1984 (AIRCO) and consist of the two landfills and a former burning and burial area
referred to as the Burn Pit Area. The BFGoodrich Landfill and the AIRCO Landfill were studied as one
entity because they are adjacent and they share a somewhat common history of use.
As part of the Remedial Investigation (RI) Remedial Investigation Report: BFGoodrich/AIRCO Site, Calvert
City, Kentucky dated March 14, 1988 (Remedial Investigation Report [Dames & Moore 1988a] activities,
geographic and geologic conditions were investigated and reported for the site and surrounding areas. The
terrain in the vicinity of the site is characterized by an alluvial floodplain and river bank along the Tennessee
River and a broad terrace capped by lacustrine deposits. The elevation of the active floodplain ranges from
the normal pool elevation of the Tennessee River at 302 feet above mean sea level (feet, msl) to about 320
feet, msl at the edge of the floodplain. The river bank rises abruptly at the edge of the active floodplain to
the terrace level typically greater than 340 feet, msl. The 100-year flood elevation is approximately 344.10
feet, msl (TVA, 1993). The terrace is a broad, relatively flat topographic feature that ranges in elevation
from about 340 to 350 feet, msl. The former Burn Pit Area is located on the terrace area at an elevation of
approximately 345 feet, msl.
A slough was also present in the immediate vicinity of the site, roughly parallel to the river (from east to
west) along the toe of slope boundary between the floodplain and terrace. The BFGoodrich and AIRCO
Landfills were constructed by blocking the western portions of the slough, and backfilling the resulting
depression with soil, construction debris, and other waste materials. Prior to construction of the landfills,
the slough channel had a bottom elevation of approximately 310 to 320 feet, msl.
Settling Parties 5 July 9, 200130765-020-121
3.2 AREA ENVIRONMENTAL ISSUES
3.2.1 Calvert City Wellfield
One environmental issue that prompted the BFGoodrich/AIRCO Remedial Investigation/Feasibility Study
(RI/FS) was concern that groundwater contamination from the site could potentially migrate toward the
Calvert City wellfield during floods in the Tennessee River. Data collected during the RI showed
conclusively that the Calvert City wellfield was not contaminated, nor were the upgradient wells at the site.
From the RI, it is now known that groundwater contaminants are not migrating toward the wellfield.
3.2.2 Tennessee River Water Quality
The Tennessee River flows approximately 22 miles from the Kentucky Dam to the confluence with the Ohio
River at Paducah, Kentucky. Many industries in the Calvert City area discharge permitted effluent to the
Tennessee River through the Kentucky Pollutant Discharge Elimination System (KPDES). The river is
generally classified for use as domestic water supply, primary and secondary contact recreation, warm water
aquatic habitat, and navigation. From River Mile 13, below the last industrial discharge in Calvert City to
the Kentucky Dam (River City Mile 22.4), the Tennessee River is classified as Outstanding Resource Water
(ORW) due to the discovery of endangered species of Tennessee River mussels. For practical purposes, this
essentially means that the warm water aquatic habitat criteria are to be maintained.
One former drinking water intake, Northstar Steel, is located on the Tennessee River downstream of
Kentucky Dam at River Mile 13.7. The Paducah Water Works’ intake is on the south bank of the Ohio
River, approximately 2 miles downstream of the confluence with the Tennessee River and approximately
20.5 miles downstream of the BFGoodrich/AIRCO site.
The presence of several contaminants in the vicinity of Calvert City and downstream to Paducah Water
Works has been associated with industrial effluent and contaminated groundwater discharge from the
industrial complex at Calvert City (Dames & Moore, 1988a). Northstar Steel now uses Calvert City water.
Also, Paducah Water Works has an activated carbon system for adsorption that is used as needed to reduce
organic contaminants to acceptable levels. Therefore, an exposure point by drinking water ingestion no
longer exists. Although incidental ingestion and dermal contact by recreational users is possible, the river
quality data that are available reflect multiple
Settling Parties 7 July 9, 200130765-020-121
failed to distinguish any differences between the two sites in the adjoining counties.
3.2.4 Threatened and Endangered Species – Marshall County
One avian species and three aquatic species, listed below, are likely protected by the Endangered Species
Act in Marshall County (U.S. Department of Interior, 1987).
Bald eagle – Haliaetus leucocephalus
Rough pigtoe – Pleurobema plenum
Orange-footed pearly mussel – Plethobasus cooperianus
Pink mucket pearly mussel – Lampsilis orbiculata
The gulf stick pearly mussel, Obobaria retusa, is classified as a “status review species” that may be listed
in the future.
The pink mucket pearly mussel has been found in the Tennessee River downstream of Kentucky Dam
(Sickel, 1985a, 1985b, and TVA, 1979). A mussel sanctuary between River Mile 17.8 and 22.4 was
established by the Kentucky Department of Fish and Wildlife Resources and an abundant number of mussel
species thrive in the sanctuary, especially between River Mile 17.6 and 18.2. The mussel habitats in this area
and in other areas of the river have been associated primarily with favorable bottom conditions in the river
channel, i.e., clean current-swept substrates. TVA (1987a) identified the maintenance of adequate discharges
from the Kentucky Dam as an important factor for the mussel’s continued existence in the area.
The area adjacent to the slough may provide a suitable habitat for the bald eagle; however, the highly
industrialized nature of the area will tend to deter their presence. If present, the eagles could prey on animals
that inhabit the site. If the animals were affected by the site, the possibility would exist for the eagle to in
turn be affected. However, because no studies of terrestrial animal populations were performed, further
evaluation of this pathway is not presented in the Endangerment Assessment (EA) (Dames & Moore,
1988b).
3.3 LAND AND RESOURCE USE
The BFGoodrich/AIRCO site refers collectively to three separate former waste disposal areas: the
BFGoodrich Landfill, the AIRCO Landfill, and a former burning and burial
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area. Each area was operated under different conditions during different but generally overlapping time
periods. Former and current land uses are presented in the following subsections.
3.3.1 AIRCO Landfill
The AIRCO Landfill occupies approximately 2.7 acres. It is located directly west of a small creek that, for
many years flowed intermittently to the west toward the existing BFGoodrich property. The slough to the
east of the landfill is a remnant of the former creek.
AIRCO has owned the property on which the landfill is located since 1956. A 1984 site aerial photographic
analysis performed by the Environmental Photographic Interpretation Center (EPIC) states that filling
activity at the AIRCO Landfill was first noted in 1959 (EPIC 1984). In 1971, AIRCO sold its Calvert City
Chemical Division to Air Products & Chemicals, Inc. (Air Products) and signed an “Omnibus Easement
Agreement” allowing Air Products to lease the landfill. In May 1980, AIRCO terminated the “Omnibus
Easement Agreement” regaining possession of the landfill site.
3.3.2 BFGoodrich Landfill
The BFGoodrich Landfill occupies approximately 1 acre directly west of the AIRCO Landfill. It is also
located in a former creek channel made suitable for landfilling by the construction of dikes on the north and
west sides. This land was purchased from AIRCO in 1964. However, AIRCO retained access to the site with
a lease until 1965. It is unclear whether AIRCO used this land for waste disposal activities prior to 1964.
An aerial photograph from 1961 does not show filling activity on the land eventually purchased by
BFGoodrich.
3.3.3 Current Land Use
The current use of the site is limited to operation of the remediation systems. The landfills and Burn Pit Area
are fenced so that access by the public is unlikely. Projected land uses for the surrounding properties
adjacent to the site consist of potential further industrial development by Westlake Group on the south. The
ROD mentions the possibility of residential development in the immediate vicinity of the site although this
is unlikely owing to the heavy industry zoning classification of the area encompassing the Calvert City
Industrial Complex along the loop Highway 1523.
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Human use of resources in the immediate vicinity of the site is limited to recreational fishing in the
Tennessee River and possibly to hunting in the forested areas east of the site. Groundwater or surface water
use as a drinking water supply is not known to occur because potable water is supplied to the community
water users (residential, commercial, industrial) by the Calvert City Municipal Water Works.
3.4 HISTORY OF CONTAMINATION
3.4.1 AIRCO Landfill
AIRCO used the landfill for the disposal of waste material from its Calvert City plant. The types and
quantities of all wastes that were placed in the landfill are not known and have only been estimated by
former plant personnel. An estimated total of 18,000 tons (dry basis) were alleged to have been disposed.
Some of the wastes allegedly buried in the landfill include caustics, acids, volatile organics, zinc acetate,
mercuric acetate, and mercuric chloride (Dames & Moore, 1988a).
From 1971 to 1980, Air Products used the landfill to dispose of approximately 14,000 tons (dry basis) of
ashes from coal operated boilers, off-grade or non-processible polyvinyl chloride solids, inert ferric
hydroxide sludge from the wastewater treatment plant, and a small amount of non-combustible construction
wastes.
3.4.2 BFGoodrich Landfill
From 1965 to 1973, BFGoodrich used the landfill to dispose of approximately 54,000 tons of inert and
non-hazardous wastes. From 1973 to 1980, the only material disposed of in the landfill was excavated dirt
from the adjoining plant site.
3.4.3 Former Burning and Burial Area
An area south of the BFGoodrich Landfill (Figure 2) was used for the burning and burial of wastes.
Approximately 2.6 million gallons of liquid chlorinated organic wastes were burned in pits between 1965
and 1968. Another area adjacent to the Burn Pits was used to bury approximately 370 cubic yards of
salt-brine sludge during a one time disposal event in 1972. From 1970 to 1983, scrap lumber and fuel oil
were burned in this area two to three times per year for fire-training.
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3.4.4 Discovery of Contamination
In May 1980, an inspection by Kentucky Department of Waste Management (KDWM) disclosed a leaching
problem along the river side of the BFGoodrich Landfill. KDWM instructed BFGoodrich to correct the
problem, and BFGoodrich completed repair of the problem in June 1980.
3.5 INITIAL RESPONSE
3.5.1 AIRCO Landfill
Between 1956 and 1968 before Kentucky instituted a solid waste management program, the AIRCO Landfill
was operated without regulatory overview. In October 1968, AIRCO applied for and was granted a Solid
Waste Disposal Operation Permit by the Kentucky Department for Natural Resources and Environmental
Protection (KDNREP). When the site was leased by Air Products in 1971, KDNREP issued a renewal
permit for Air Products to operate the AIRCO Landfill.
In 1978, the AIRCO Landfill site was included on the Eckhardt List of potential hazardous waste sites in
the United States. After an inspection of the site, KDNREP instructed Air Products to construct a dike at
its northern boundary to protect the landfill from a 100-year flood. The KDNREP landfill operating permit
was cancelled in 1980 when Air Products discontinued use of the site. Air Products submitted a closure plan
to KDNREP for capping the landfill. The plan was approved by the KDNREP in October 1980 and the
landfill was capped in September 1981.
In 1984, the EPA’s nationwide program to rank abandoned or uncontrolled hazardous waste sites under
mandate of CERCLA initially ranked the site 459 out of 538 sites. As a result of that ranking, an RI/FS was
initiated to ascertain the potential threat to human health and the environment, it any, posed by the AIRCO
Landfill.
3.5.2 BFGoodrich Landfill
From its start-up in 1965 until 1968 before Kentucky instituted a solid waste management program, the
BFGoodrich disposal area was an unregulated industrial waste landfill. In August 1968, BFGoodrich
submitted an application to KDNREP for a Solid Waste Disposal Permit. The application identified the
types of wastes that were to be disposed of in the landfill, and also described the construction of a
compacted fill dike between the
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disposal area and the Tennessee River to prevent the flow of leachate and erosion of the fill cover.
Additionally, the following measures were proposed:
• A drainage ditch was to be constructed on the south side of the disposal area to divert rainfallrunoff around the site;
• Disposal of refuse in the Tennessee River floodplain was to cease; and
• Putrescible wastes were no longer to be disposed of at the site.
Operations of the BFGoodrich Landfill continued under permit until 1973 when industrial waste disposal
at the site was curtailed. From 1973 to 1980, the BFGoodrich site was used solely for the dumping of
excavated dirt.
In 1978, the BFGoodrich site was included on the Eckhardt List of potential hazardous waste sites in the
United States. In response, KDNREP and EPA Region 4 personnel inspected the site several times in 1980.
In a May 30, 1980, inspection, state personnel noted an apparent “leaching problem” along the north (river)
side of the landfill, and instructed BFGoodrich personnel to correct the problem. In June 1980, BFGoodrich
used clay to seal the north face and to cap the disposal area, and graded the site to promote rainfall runoff
drainage to the west and away from the AIRCO property. In September 1980, the site was revegetated to
control erosion.
In 1984, the EPA’s nationwide program to rank hazardous waste sites under mandate of CERCLA ranked
the site 461 out of 538 waste sites. Consequently, an RI/FS was initiated to ascertain the potential threat to
human health and the environment, if any, posed by the BFGoodrich site.
3.6 CONTAMINANTS
The BFGoodrich Landfill was listed on the NPL in September 1983, and the AIRCO Landfill was listed on
the NPL in September 1984.
Through implementation of the RI/FS process, five general areas of concern were identified at the
BFGoodrich/AIRCO site. These included the BFGoodrich Landfill; the AIRCO Landfill; the former
BFGoodrich Burn Pit Area, areas of identified surficial soil and sediment contamination, and groundwater
migrating from beneath these areas.
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3.6.1 CONTAMINATED SURFACE SOIL AND SEDIMENT
Section III of Attachment I to the Consent Decree (CD) required the Settling Parties to investigate the
possible presence of contaminated surface soils around the perimeter of the waste management units
described above. Results of these investigations were reported in the following pre-design documents: Phase
I Contamination Soil Limit Investigation, Revision 1 dated August 12, 1993 (Phase I [Dames & Moore,
1993a]) and Phase II Contaminated Soil Limit Investigation dated September 7, 1994 (Phase II [Dames &
Moore, 1994a]). A brief summary of the results of these investigations is presented in the following
paragraphs.
The Phase I investigation resulted in the identification of seven indicator chemicals of concern, and the
development of appropriate Remedial Action Levels (RALs) for each compound. Comparison of the Phase
I analytical results from samples collected within those areas defined in the ROD as “requiring soil
remediation” revealed that none of the samples exhibited concentrations of indicator chemicals of concern
above their respective RALs. During Phase II of investigation, analytical testing was performed on a total
of 39 surface soil samples collected from outside those areas previously characterized. Results from this
testing identified an approximately 16,000-square foot area, within and adjacent to the southwest corner of
the Burn Pit Area, that exhibited soil contamination slightly above the RALs. Since none of the samples
recovered from within the areas designated for surficial soil remediation in the RODs exceed the RALs
established as part of the Phase 1 pre-design investigation activities, removal of surficial soils from those
areas was not required. Based upon the extent of soil identified above the RALs during the Phase II
pre-design investigation activities (as discussed above), the volume of surface soil to be excavated has
changed from the previously estimated 5,000 cubic yards to approximately 900 cubic yards.
During the RI (Dames & Moore, 1988a), concentrations of volatile organic compounds (VOCs), PCBs,
PAHs, several metal species (arsenic, chromium, iron, mercury, and vanadium), and cyanide were identified
in one or more sediment samples collected from a drainage ditch on the BFGoodrich portion of the site. The
ROD specified that remediation of the sediments be accomplished by removal of sediments along the
drainage ditch north of the landfills.
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3.6.2 GROUNDWATER
Results of the RI (Dames & Moore, 1988a) revealed the presence of groundwater contamination by VOCs,
principally 1,2-dichloroethane (EDC); semivolatile organic compounds (SVOCs); and low levels of
inorganic constituents. The detected compounds were generally similar in the affected wells, although the
concentrations varied considerably. In those monitoring wells in which groundwater contamination was
observed, total VOC concentrations ranged from 0.0012 milligrams per liter (mg/L) to 4,017 mg/L and total
SVOC concentrations ranged from 0.002 mg/L to 7.8 mg/L. EDC was the most commonly detected
constituent and was present at the highest concentrations in groundwater beneath the site.
Given the waste disposal history of the site, the most likely source of contamination in the area was believed
to be the Burn Pit, in which approximately 2.6 million gallons of liquid chlorinated organic compounds were
burned between 1965 and 1968. The highest concentrations of VOCs in groundwater samples at the site
were identified in the shallow monitoring wells located to the north and northwest of the Burn Pit. The
distribution of contaminants in groundwater beneath the site is presented in the RI Report (Dames & Moore,
1988a). It was postulated that the “slug” of contaminants introduced to the subsurface at the unlined Burn
Pit Area migrated downward to the groundwater and subsequently toward the river with natural groundwater
flow. The identified presence of elevated VOCs in subsurface soils beneath the Burn Pit during the RI
supported this interpretation.
3.6.3 CONCEPTUAL MODEL OF RELEASE
Further evaluation of the hydrogeologic and chemical data collected since the RI has resulted in
development of the following conceptual model of the release. The fine-grained lacustrine and interbedded
units of sand silt and clay, shown in the cross sections in Figures 3, 4, and 5, are of particular interest
because of their likely role in establishing the migration pattern of the release. It is believed that as the
downward-moving slugs of contaminants released to the burn pits reached the silt and sand layers
interbedded within the clay layers, lateral migration likely occurred along these preferential pathways.
Lateral migration would have occurred as:
• Gravity drainage of DNAPL through silt and sand along clay layers and through other discontinuitiesin the clay layers (e.g., vertical-subvertical microfractures)
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• Advective transport of dissolved constituents within the groundwater flow field, as affected bygradient-altering phenomena such as bank storage during periods of high river stage, through silt andsand layers between the clay layers
• Adsorption of DNAPL and dissolved constituents into the clay layers.
The conceptual model for the areal extent of VOCs is that the unit of interbedded clay, silt, and sand serves
as the preferential lateral migration pathway in the vadose zone where present, and in the shallow
groundwater zone for the constituents released to the burn pit.
3.6.4 RESULTS OF ENDANGERMENT ASSESSMENT
Risk assessment findings were presented in the EA prepared for the site Endangerment Assessment,
BFGoodrich/AIRCO site, Calvert City, Kentucky dated March 14, 1988 (Dames & Moore, 1988b). The EA
presented the potential human health effects that may result from exposure to site releases in the absence
of any site remediation. The EA evaluated and interpreted physical, chemical, demographic, and geographic
factors at the site to describe and assess the extent of potential harm to the public. The EA process consisted
of the following four major components:
1. Contaminant identification2. Exposure evaluation 3. Toxicity evaluation 4. Risk characterization
These components collectively addressed the following key issues:
• Identification and quantification of contaminants in relevant media (e.g., air, water, soil,sediment, biota).
• Environmental fate and transport mechanisms within each medium, such as physical, chemical,and biological degradation processes, and hydrogeological evaluations and assessments.
• Exposure pathways and estimated extent of exposure.
• Exposed population(s).
• Toxicological properties of specified contaminants.
• Characterization of risk(s) associated with estimated exposure(s).
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3.6.4.1 Contaminant Identification
As part of the contaminant identification and quantification component of the EA, 13 indicator chemicals
were selected from the 110 chemicals identified at the site during the RI. Selection of indicator chemicals
employed indicator scores based on measured concentrations, toxicity, mobility, and persistence. The
chemicals were ranked by their indicator scores for carcinogenic and non-carcinogenic effects. The ten
highest-ranked carcinogenic and ten highest-ranked non-carcinogenic chemicals were selected as initial
indicator chemicals. Because a number of chemicals have both carcinogenic and non-carcinogenic effects,
there was significant overlap between the two groups, and the list was narrowed to 15 chemicals. The
inorganic constituents arsenic, barium, and nickel were removed from the initial indicator list because their
concentrations in soil and sediment at the site were found to be similar to site background levels or within
the range of natural background levels for the eastern United States (USGS, 1984). In addition, groundwater
concentrations for arsenic, barium, and nickel are below MCLs or lifetime health advisory levels, and
surface water concentrations are within ambient water quality criteria or are near background levels. PCBs
have a high bioaccumulation potential and were added to the indicator chemical list because they were
detected in a soil sample and in sediment samples from the drainage ditch and the Tennessee River. PCBs
were not detected in groundwater samples from the site, and were not considered in the calculation of
Alternate Concentration Limits (ACLs) for the site. Therefore, PCBs are not considered as an indicator
chemical for groundwater quality.
The final indicator chemical list is as follows:
1,2-dichloroethane (EDC) 1,1,2,2-tetrachloroethane
carbon tetrachloride Trichloroethene
chloroform Chlorobenzene
1,1,2-trichloroethane 1,1-dichloroethane
benzene bis(2-chloroethyl)ether
polynuclear aromatic hydrocarbons (PAHs) PCBs (Soil and sediment only)
tetrachloroethene
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3.6.4.2 Exposure and Toxicity Evaluation
Exposure pathways at the BFGoodrich/AIRCO site were evaluated for two land use scenarios: current use
and future use. Both scenarios evaluated the potential exposure by humans and aquatic species to
contaminants via the following media:
• Groundwater
• Soil
• Surface water
• Sediment
• Air
Under the current and future use scenarios, the EA evaluated complete exposure pathways to be dermal
contact/incidental ingestion of surface soil, ditch surface water, and ditch sediment. Although the air
inhalation pathway was considered complete, the evaluation indicated that the worst-case particulate
emissions were approximately zero. The EA also considered contact with groundwater to be a potentially
complete pathway under the future use scenario as a result of potential residential development of the area
between the landfills and Highway 1523. However, because of deed restrictions currently in place, this
scenario is no longer possible.
The EA estimated most probable and worst-case exposure point concentrations for the indicator chemicals
using data from the RI. The EA estimated the intake of indicator chemicals by ingestion, inhalation, and
dermal contact using absorption factors available from the literature, or for chemicals without literature
values, absorption factors for similar chemicals. The EA presented a detailed toxicity profile for each of the
indicator chemicals providing a synthesis of pertinent toxicological literature and data regarding actual or
potential toxic effects.
3.6.4.3 Risk Characterization
Included in the indicator chemicals toxicity profiles were the recommended standards, criteria, and
guidelines that were applicable or were considered by the EPA to be relevant and appropriate for
comparisons with projected concentrations of the indicator chemicals. Applicable or relevant and
appropriate requirements (ARARS) included drinking water maximum contaminant levels (MCLs),
maximum contaminant level goals (MCLGs), and
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federal ambient water quality criteria (AWQC). ARARS were not available for dermal exposure to surface
or groundwater (Table 1). Accordingly, a health risk assessment was completed for all 13 indicator
chemicals.
Potential human health risks associated with current exposure by ingestion of surface soil and ditch sediment
contaminants at the site were outside the target risk range of 10-4 to 10-7 in the absence of remediation. The
worst-case current use scenario total risk was estimated to be 2.3 x 10-3. The primary contributors to the
worst case risk estimate were PAHs. The risk for the worst-case future use scenario, which included
exposure to contaminated soil, sediment, and groundwater by residents, was estimated to be greater than
the current use scenario. Table 2 presents a summary of the risk assessment findings of the EA.
4.0 REMEDIAL ACTIONS
The Report, Feasibility Study, BFGoodrich/AIRCO Site, Calvert City, Kentucky, dated March 14, 1988 (FS
[Dames & Moore, 1988c]), identified and evaluated a range of remedial alternatives for the site as required
by CERCLA, SARA, and the National Contingency Plan (NCP). The FS selected the most “cost-effective
remedial alternative that effectively mitigates and minimizes threats to and provides adequate protection
of the public health, welfare, and environment” (40 CFR 300.68(i)). The FS used the 13 indicator chemicals
selected in the EA to establish strategies for attaining ARARs for remediation.
The ARARs for site remediation strategies were summarized as follows:
• The ARARs for the landfills were solid waste disposal closure standards and the Kentuckystatute regarding structures on a 100-year floodplain.
• The performance standards for surface soil were established from the EA to reduce public healthrisks to within the target risk range.
• Under the current use scenario, the ARARs for groundwater were those target concentrationlimits (TCLs) at the site that would not exceed MCLs or AWQCs in the Tennessee River. TheTCLs were calculated in the FS using a relatively straightforward mass-balance approach. Underthe future use scenario, which incorporated groundwater use at the site, the ARAR was the MCLfor the portion of the site within the zone of influence of a potential water supply source.
• The performance standards for subsurface soil were based on reducing soil
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contaminant levels so that leachable concentrations that entered the water table did not exceedthe groundwater ARARs.
The selection of site remedial actions resulted from a successive development and screening process. First,
the general response actions that addressed remediation of individual site areas were listed. These general
response actions were subdivided into specific technologies that were screened for applicability and
feasibility for remediation. Those technologies that passed this screening were assembled into
media-specific alternatives that address each of the site problem areas. These media alternatives were
reviewed to screen out those that were clearly infeasible or inappropriate. Environmental, public health, and
cost criteria formed the basis for this screening.
The media alternatives that were carried through were combined into the site alternatives, which address
remediation of the combined BFGoodrich/AIRCO site. Nine site alternatives resulted from this analysis.
Table 3 summarizes each component of the site alternatives in a matrix form together with economic
information.
4.1 REMEDY SELECTION
The objectives of the remedial action activities at the site, as stipulated in the ROD, were to:
• Contain the on-site contaminated groundwater plume by extraction and treatment
• Eliminate leachate production in the Burn Pit Area
• Bring the landfills into compliance with Kentucky statutes regarding structures on a 100-yearfloodplain
• Protect the public health and environment from exposure to on-site contaminated soils andsediments
Alternative 3 was selected by the EPA, through the ROD dated June 24, 1988, as the remedial alternative.
On June 29, 1992, BFGoodrich and BOC agreed to a Consent Decree (CD) for implementation of the
prescribed remedial action at the site. The remedial alternative selected for the BFGoodrich/AIRCO
Superfund Site included the following components:
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• Groundwater monitoring
• Impose deed restrictions preventing residential development
• Construct flood protection dike around landfills
• Upgrade landfill clay caps
• Install leachate extraction system
• Pump contaminated groundwater plume and treat by air stripping
• Excavate surface soil and place in Burn Pit
• Install organic vapor recovery system in Burn Pit and cover with a RCRA cap
Attachment I to the CD further refined the selected remedy to include:
• Providing geologic assurance that the flood protection dike would adequately protect thelandfills;
• If necessary, installation of leachate sumps as part of remedial design activities and attemptingto correlate water levels within the leachate sumps and monitoring wells with the TennesseeRiver stage;
• Expanding soil remediation activities to include removal of surface soils exceeding soilremediation action levels (RALs) to be established for specific indicator parameters;
• Provide assurances that groundwater flow into the landfills shall be minimized such that releasesfrom the landfill, if any, shall not result in a statistically significant increase in site-relatedcontaminants to the Tennessee River upon attainment of groundwater clean-up goals as definedin the RODs;
• Provide assurances that the flood protection dike, as set forth in the RODs, meets the design andperformance requirements of KRS 151 for construction within a 100-year floodplain;
• Provide assurances that the flood protection dike shall be able to maintain structural integritythrough repeated flood events.
Site alternative 3 represented a cost-effective means of mitigating the threat to the public health, welfare,
and the environment. This site alternative met all ARARs and reduced public health risks to within the target
risk range.
The present landfill clay cap would be upgraded. A flood dike would be constructed to protect the landfills
from the 100-year flood. A leachate collection system would be
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installed to prevent contaminants from being released into the groundwater or other media.
Contaminated surface soils would be excavated and removed to the Burn Pit Area. A RCRA cap would be
installed over the contaminated soils in the Burn Pit. Soils in this area above the water table would be
contained and isolated from all exposure routes. This approach to soils remediation attains
chemical-specific, location-specific, and action-specific ARARs.
The plume of contaminated groundwater at the site would be contained by installing excavation wells and
withdrawing water at a rate of 100 gpm. This rate would ensure that MCLs are achieved in the Tennessee
River. Contaminated groundwater would be treated to meet NPDES requirements and discharged to the
Tennessee River. Groundwater extraction and treatment would continue for 10 years, at which time the
plume of contamination would be such that MCLs in the Tennessee River are achieved without extraction.
The ROD established groundwater ACLs from the TCLs calculated in the FS. The ACLs are:
Indicator Constituent ACL (mg/L) Indicator Constituent ACL (mg/L)
1,2-dichloroethane(EDC)
8.5 1,1,2,2-tetrachloroethane
0.29
carbon tetrachloride 8.5 trichloroethene 8.5
chloroform 0.32 chlorobenzene 8.5
1,1,2-trichloroethane 1.0 1,1-dichloroethane 8.5
benzene 8.5 bis(2-chloroethyl)ether
0.051
fluoranthene 8.5 tetrachloroethene 1.5
acenaphthene 8.5
Groundwater monitoring would continue for a period of 30 years to ensure that the measures summarized
above are achieved.
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Deed restrictions would be imposed at the site to limit future use and prevent residential development.
4.2 REMEDY IMPLEMENTATION
4.2.1 Remedial Design
The Remedial Design/Remedial Action Work Plan, BFGoodrich/AIRCO Site, Calvert City, Kentucky, dated
October 19, 1992 (RD/RA Work Plan, Dames & Moore [1992]) was prepared in compliance with the CD
and incorporated the requirements and guidelines of the following:
• Feasibility Study
• ROD
• Consent Decree
• Consent Decree Attachment I
• EPA “Superfund Remedial Design and Remedial Action Guidance” OSWER Directive9355.04-4A
The RDRA Workplan set forth the Statement of Work (SOW), reflecting the requirements of the CD and
ROD, required for the implementation of the RD/RA. The contents of the SOW are presented in Section 4.1,
above.
Remedial Design activities consisted of: pre-design studies; preparation of construction drawings and
specifications, including supporting engineering calculations; preparation of construction health and safety,
construction quality assurance, and construction sampling and analysis plans; and establishment of
post-construction operations and maintenance activities, including groundwater monitoring. These activities
were intended to support and document the remedial design's ability to achieve the Applicable or Relevant
and Appropriate Requirements as presented in the FS and ROD. Specific deliverables that were submitted
during the RD/RA program are shown in Table 4.
4.2.2 Remedial Action
The groundwater extraction component of the remedy, consisting of wells SW-1942, SW-1943, BW-1944,
BW-1945, and BW-1946, was installed as part of the adjacent former BFGoodrich Calvert City Plant’s
RCRA Plantwide Corrective Action Program (PCAP) in
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1991 (Dames & Moore, 1992 [Well Installation]). These wells were activated in 1992 and have been in
operation since then. Extracted groundwater is piped to the C Stripper at the Westlake wastewater treatment
plant where it is treated by steam stripping. Performance reporting for the 5 BFGoodrich/AIRCO site
extraction wells has been conducted since 1992 as part of the semiannual PCAP Effectiveness Monitoring
Reports submitted to KDWM and EPA. Annual performance monitoring of the groundwater extraction
system required for the remedy has been conducted since 1998 and is explained in further detail in Sections
4.3.2 and 5.1.5.
The Remedial Action Report, BFGoodrich/AIRCO Superfund Site, Calvert City, Kentucky, dated August
1997 (Remedial Action Report, Dames & Moore [1997]) was prepared to describe construction of the
remainder of the site remedy. The Remedial Action Report presented information to support the certification
of remedial construction activities associated with the BFGoodrich/AIRCO Superfund Site.
As discussed in the approved design documents, the construction activities were separated into two discrete
phases in order to provide a mechanism for agency review of specific remedial construction materials and
protocols prior to their implementation. The Phase I construction activities were performed in May through
July 1996. In summary, Phase I (pre-construction activities) consisted of:
• Preparation of the Health & Safety/Contingency Plan,
• Finalization of the Construction Quality Assurance Project Plan, and
• Completion of the Phase II Borrow Investigation.
Following review and/or approval of the Phase I pre-construction documents, Phase II construction activities
were implemented. Phase II construction activities were conducted from June 1996 to June 1997. In
summary, Phase II construction activities consisted of:
• Site preparation,
• Consolidation of designated ditch sediment and surface soil,
• Installation of the vapor recovery system in the Burn Pit Area,
• Placement of subgrade fill and construction of Resource Conservation and Recovery Act(RCRA) cover system over the Burn Pit Area,
• Construction of cover system improvements over BFGoodrich and AIRCO Landfills,
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• Installation of the leachate extraction system,
• Construction of flood protection dike,
• Seeding and mulching,
• Construction of the site fencing, and
• Site restoration.
The Phase I and Phase II activities were performed in substantial accordance with the applicable design
documents, except as noted. Additional information regarding implementation of the remedial construction
activities is presented in the following sections.
The Settling Parties retained Sevenson Environmental Services, Inc. (Sevenson) of Delmont, Pennsylvania
as the remedial contractor for the project. Sevenson was responsible for site preparation, consolidation of
designated ditch sediment and surface soil, placement of subgrade fill and construction of the RCRA cover
system over the Burn Pit Area, construction of the flood protection dike, and final site restoration. The
Settling Parties retained Dames & Moore to fulfill the role of the Quality Assurance Firm described in the
technical specifications, Remedial Action Plan, and Construction Quality Assurance Project Plan.
4.2.2.1 Phase I - Pre-Construction Activities
The Phase I - Pre-Construction Activities were initiated in May 1996 and were completed in July 1996. The
Phase I - Pre-Construction Activities consisted of preparation of the Construction Health and
Safety/Contingency Plan and finalization of the Construction Quality Assurance Project Plan. These
documents were submitted to EPA on June 13, 1996 and June 18, 1996, respectively.
As part of the Pre-Construction Activities, the Phase II Borrow Investigation was also implemented. This
investigation was performed to identify materials that achieved the project specifications for the various
earthen materials used on the project.
It should be noted that during the Phase II Construction Activities, Sevenson proposed an alternate source
of drainage material for the project. The alternate material source (Greer Borrow Source) was proposed due
to commercial obstacles with the approved source of the material (Old Hickory Clay Company). Samples
of the proposed alternate drainage
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material analyzed by Simmons indicated that the sand met the criteria for drainage material, and a letter
dated September 19, 1996 was submitted to the EPA requesting the change. The proposed change was
accepted by EPA.
4.2.2.2 Phase II - Construction Activities
The Phase II construction activities consisted of site preparation, consolidation of surface soil and drainage
ditch sediment, installation of vapor recovery system, construction of RCRA cover system over the Burn
Pit Area, construction of landfill cover improvements, installation of the leachate extraction system,
construction of the Flood Protection Dike, installation of site fencing, and site restoration. These activities
are described in the following sections.
Site Preparation
The primary site preparation activities included erection of erosion controls, construction of the
decontamination area, extension or abandonment of specified wells, and abandonment of a fire hydrant.
Consolidation of Designated Surface Soil and Drainage Ditch Sediment
The approved design documents required that a designated area of surface soil outside the Burn Pit Area
be removed and consolidated within the Burn Pit Area. These documents also required that drainage ditch
sediment between two identified points be removed and consolidated within the Burn Pit Area.
Based on the results from two pre-design investigations, one approximately 10,000-square foot area of
potentially contaminated surface soil was identified for consolidation within the Burn Pit Area. As required
under Attachment I to the Consent Decree, the uppermost 18 inches of soil from this area was required to
be excavated and placed within the Burn Pit Area. Excavation and consolidation of the soil material was
completed on June 26, 1996. Additional excavation was also required within and around the former Surface
Soil Contamination Area in order to construct a proposed storm water drainage ditch and storm water
culvert.
The ROD specifies that remediation of drainage ditch sediments be accomplished by removal of sediments
along the specified section of the drainage ditch north of the landfills between Ditch Sampling Points 1 and
3 on the BFGoodrich portion of the site. On August 15, 1996, identified sediments were excavated from the
drainage ditch and
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transferred to the Burn Pit Area.
Installation of Organic Vapor Recovery System
An organic vapor recovery system was installed within the Burn Pit Area to remove organic constituents
from the subsurface soil beneath the Burn Pit Area. The system accomplished this objective by utilizing a
positive-displacement blower to induct a negative pressure in each of the wells installed within the Burn
Pit Area.
In accordance with the approved design documents, 13 vapor recovery wells were installed within the limits
of the Burn Pit Area. The surveyed location of these wells are depicted on the as-built drawing, presented
in Appendix A. The slotted 4-inch-diameter stainless steel well screens (20-foot length) were connected to
the risers then installed such that the base of the screened interval corresponded to elevation 317 (feet, msl).
The blower system was connected to the wells through a network of Schedule 40 polyvinyl chloride (PVC)
pipe. The PVC pipe was connected to the top of each well using a vacuum-rated well cap. At each well cap,
a vacuum shut-off valve and pressure gauge have been installed.
Originally, vapor extracted from the well system was treated utilizing two 1,000-pound activated carbon
units, operated in series. The carbon units (along with the blower system) were installed in an equipment
shed located immediately north of the Burn Pit Area. In May 1998, vapor treatment was changed such that
vapor is now piped to the C-Stripper at the Westlake Plant, and the activated carbon units now serve as
backup treatment capability during stripper maintenance.
Pilot system operation of the Vapor Recovery System was conducted during the week of December 16,
1996. Observations during the initial operation suggested that the air conductivity of the subsurface soil
within the Burn Pit Area is lower than assumed for the design basis of the system. In response to this
information, several system and operational modifications were recommended.
Construction of RCRA Cover System Over Burn Pit Area
The approved remedial action required that a RCRA cover system be installed over the limits of the Burn
Pit Area. In accordance with the provisions of the design documents, the RCRA cover system consisted of
a 2-foot-thick layer of engineered fill overlain by a geosynthetic clay liner (GCL), a 40-mil high-density
polyethylene (HDPE) liner, a 1-foot-
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thick granular drainage layer, and a 2-foot-thick vegetative cover layer. Prior to installation of the cover
system, fill material was placed to achieve the required minimum slope of 3 percent over the unit.
Construction of Cover System Improvements Over the BFGoodrich and AIRCO Landfills
The approved design required that the existing BFGoodrich and AIRCO Landfill covers be improved by
stripping approximately 4 inches of the existing vegetative cover, adding compacted low-permeability (k#1
x 10-7 cm/s) clay fill to achieve the desired grades (5-percent to 25-percent), and adding a 12-inch layer over
vegetative fill. Subsequent to design approval, the Settling Parties requested two revisions to the approved
Final Design with respect to the landfill cover system improvements. Each of these revisions was
subsequently accepted by EPA.
Installation of the Leachate Extraction System
The ROD required the Settling Parties to install a leachate extraction system to collect and remove leachate
that may pond upon the underlying relatively low-permeability strata beneath the BFGoodrich/AIRCO
Landfill Areas and the Burn Pit Area. In summary, the leachate extraction consists of a series of six sumps
located within the BFGoodrich/AIRCO Landfill Areas. Sumps LS-1, LS-2, LS-3, LS-4, LS-5, and LS-6
were installed to depths identified during pre-design investigations (which are 2 feet below the landfill
bottom elevations). Each of the sumps was equipped with a positive air displacement pump to convey
leachate, which collects in the sumps. In addition to the sumps in the landfill area, each of the vapor
recovery wells located within the Burn Pit Area was equipped with a positive air displacement pump. In
accordance with approved design, each of the pumps was individually piped to the Equipment Shed where
it discharged through a manifold to the temporary leachate storage tank.
Pilot system operation of the Leachate Extraction System was conducted during the week of December 16,
1996. During this period, collected leachate was pumped to the 1,100-gallon temporary leachate storage.
Each time the temporary leachate storage tank was filled, samples of the liquid were collected from a
sampling port located near the base of the container. Evaluation of the analytical results by BFGoodrich
personnel indicated the leachate can be treated to achieve the applicable KPDES discharge standards in the
existing BFGoodrich groundwater treatment plant. In light of this information, it was recommended that the
design of the leachate extraction system be revised to permanently convey collected leachate to the existing
groundwater treatment system. This system
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modification was completed on June 2, 1997.
Construction of the Flood Protection Dike
The ROD required that the Settling Parities construct a Flood Protection Dike around the landfills to prevent
inundation of the BFGoodrich and AIRCO Landfill Areas from floodwaters. The approved design also
required that the Flood Protection Dike be constructed to a minimum elevation of 347.0, which is
approximately 2.9 feet above the estimated 100-year flood elevation.
In accordance with the approved design, the Flood Protection Dike was situated with the outboard crest
located approximately 5 feet riverward of the established unit boundaries. Due to the close proximity of the
AIRCO Landfill with the slough located on the east side of the site, it was necessary to construct a portion
of the Flood Protection Dike over the slough area.
Approximately 45,000 cubic yards of fill material was placed for construction of the Flood Protection Dike.
The height of the Flood Protection Dike achieved the requirements of the Construction Sampling and
Analysis Plan.
Installation of Site Fencing
After substantial completion of construction activities, a chain-link fence system was installed around the
Burn Pit Area, the BFGoodrich/AIRCO Landfill Areas, and along the outer crest of the Flood Protection
Dike. The constructed fence system is 6-foot chain-link fence and is equipped with three strands of barbed
wire. The fence was installed by AAA Fencing of Paducah, Kentucky.
Site Restoration
Following completion of the earthwork activities, site restoration activities were implemented. These
consisted of removing equipment and debris associated with the construction activities, fertilizing, liming,
and seeding and mulching soil areas disturbed by construction. Seeding and mulching activities were
performed by Holly’s Nursery of Calvert City, Kentucky. These activities were performed utilizing typical
landscaping equipment (tractor, leveling disk, and mulch/seed blower). Silt fences and rock check dams
were utilized to prevent erosion until the vegetative cover was established over the Flood Protection Dike
and BFGoodrich/AIRCO Landfill area.
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4.2.2.3 Variances From The Approved Design
Remedial construction activities associated with the BFGoodrich/AIRCO Superfund Site were performed
in substantial conformance with the Final Design Report and the Construction Quality Assurance Project
Plan with no significant modifications or variances observed. The minor modifications/variances that were
implemented included:
• Rock rip-rap was utilized for erosion protection on the exterior face of the Flood ProtectionDike. This material was utilized in lieu of seeding with crown vetch as described in the FinalDesign documents. In addition, Kentucky Standard Specifications for Road and BridgeConstruction Seed Mixture I was used in lieu of crown vetch for the interior face of the FloodProtection Dike.
• The roadway culvert adjacent to the southwest corner of the Burn Pit Area was extended to thewestern drainage ditch, eliminating the depression adjacent to the roadway.
• Several minor modifications to the design drawings were implemented to facilitate futuremaintenance of the remedy. These modifications included constructing a gravel roadway on thecrest of the Flood Protection Dike, constructing a gravel roadway over portions of the AIRCOLandfill, installing an earthen ramp on the northeast corner of the Burn Pit Area, and installingstairways to storm water outlet facilities.
• As described in the January 22, 1996 letter to EPA, the upper vegetative layer of theBFGoodrich and AIRCO Landfill was scarified to a depth of 4 inches. This scarification wasperformed in lieu of material removal for those areas which did not require additional fillmaterial to achieve the required grades.
• The Construction Sampling and Analysis Plan required that elevation information be collectedto demonstrate removal of the upper 4 inches of the vegetative layer (for areas receivingadditional fill only) within the BFGoodrich and AIRCO Landfill. Elevation information for twosurvey grid points (E28+00, S1+00 and E28+00, S0+50) was not collected due to an oversightby the surveyor. Although survey data is not available for these two points, field observationsby Dames & Moore indicate that removal of the upper 4 inches of the vegetative layer in thisarea was performed in accordance with the technical specifications.
• As described in the November 1, 1996 letter to EPA, a composite geosynthetic clay liner andriverside soil blanket system was utilized in place of the low-permeability soil layers on thelandfill cover systems.
Settling Parties 29 July 9, 200130765-020-121
• A minor deficiency in quality control testing (failure to record lift thickness and to correlate fieldmoisture/density testing results with specific laboratory tests) was experienced during the initialfew days of the Flood Protection Dike installation. During construction of this portion of thedike, the material was periodically observed by Dames & Moore to be placed in maximum8-inch lifts and no deficiencies in the compaction procedure were observed. The quality controltesting deficiency was identified and corrected, and is not considered to adversely affect theperformance of the Flood Protection Dike.
• The proposed fence alignment adjacent to the Burn Pit Area has been modified to the west ofthe access road, and the fence separating the BFGoodrich and AIRCO Landfill has been omitted,in order to facilitate maintenance activities.
• Several isolated areas of apparently stained surficial material were observed in the vicinity ofthe BFGoodrich and AIRCO Landfill. EPA was notified of the presence of these materials andthe proposed remedial actions in letters dated July 15, 1996 and July 18, 1996. Following reviewby EPA, the proposed remedial actions were accepted. In accordance with the process describedin the July 18, 1996 letter, the areas of apparently stained surficial material were excavated bySevenson (to a depth not exceeding 1.5 feet) and consolidated within the Burn Pit Area (beneaththe RCRA cover system). Excavated areas within the limits of the AIRCO Landfill were backfilland compacted with approved low-permeability soil material (k#1x10-7 cm/sec) from theapproved Old Hickory Clay Borrow Source.
4.3 SYSTEM OPERATIONS/O&M
The Operation and Maintenance Plan, BFGoodrich/AIRCO Superfund Site, Calvert City, Kentucky, dated
May 1997 (O&MP) was prepared to address post-closure care requirements and activities. The main
narrative of the O&MP provides an overview of the site and the systems requiring operation and
maintenance, a description of the operation and maintenance requirements, and a discussion of the reporting
and record-keeping mechanisms. The individual modules within the O&MP provide the specific
requirements and procedures for implementing the operation and maintenance activities. Specifically,
modules are provided to detail the groundwater and surface water monitoring requirements, the sluice gate
maintenance procedures, and the process systems operation and maintenance procedures.
Operation and maintenance of the C-Stripper, which treats extracted groundwater and soil vapor from the
site, is performed by Westlake. Downtime due to C-Stripper maintenance is noted in the semiannual RCRA
PCAP Effectiveness Monitoring Reports. During the periods of C-Stripper maintenance, vapor treatment
occurs through activated carbon beds.
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4.3.1 Description Of Normal Operation And Maintenance
Operation, inspection, and maintenance activities at the site are performed by Industrial Well Services, Inc.
(IWS) of Calvert City, Kentucky under the direction of Christian J. Orsborn the Remediation Project
Manager, on behalf of BFGoodrich. IWS keeps an onsite office and equipment storage facility at the site
and has maintained daily logs of operation and maintenance activities performed since system startup. These
activities include: mowing of the Flood Protection Dikes and landfill cover system vegetation, maintenance
of equipment (i.e., lubrication of transfer pump and air compressor bearings, checking air compressor belt
tension, etc.), and monitoring of system operation. In accordance with the provisions of the Operation and
Maintenance Plan, semi-annual inspections of the various remedial action components are performed. IWS
performs the inspections, and these include the following activities:
• Inspection of the condition/effectiveness of the site security devices,
• Inspection of landfill/Burn Pit Area cover systems for excessive erosion,
• Inspection of the drainage ditches for excessive sediment accumulation,
• Verification that the storm water pumping system is functioning effectively,
• Inspection of the groundwater monitoring well condition,
• Inspection of the Leachate Extraction Well pumping systems,
• Inspection of the Organic Vapor Recovery System equipment, and
• Review of the equipment maintenance schedules in order to verify preventative maintenance hasbeen performed in accordance with the manufacturer’s recommendations.
In addition to these maintenance activities, groundwater and surface water monitoring are conducted. These
activities are further addressed in Section 4.3.2.
4.3.1.1 Security Fencing
For security purposes, fencing and warning signs surround the BFGoodrich/AIRCO Landfill areas and the
Burn Pit Area. Semi-annual inspections of these features are conducted during the post-closure care period.
During the semi-annual inspections, the fence system and gates that surround the residual waste
management areas are inspected for breaches or serious damage.
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4.3.1.2 Erosion Damage
Inspection for erosion damage is performed over the various cover systems as part of the semi-annual
inspections. A reconnaissance of the landfill area, flood protection dike, and Burn Pit Area is performed
during each inspection and significant bare spots and rutting is noted in the inspector’s field log. Areas of
erosion damage which are not of sufficient severity to warrant corrective action are monitored during each
subsequent inspection.
O&M Issues
As noted in the October 12, 1999 inspection report and reported in Semiannual Operation and Maintenance
Report, BFGoodrich and AIRCO Superfund Sites, Calvert City, Kentucky, dated October 29, 1999 (URS,
1999), a black tar-like material was observed on the surface of the AIRCO Landfill during the week of May
25, 1999. Representatives of The BOC Group believed the material was most likely a chlorinated wax (one
of the materials disposed at the landfill). In response to this condition, the area containing the wax material
was isolated with engineering controls and a sample was collected for subsequent analysis. The toxicity
characteristic leaching procedure (TCLP) analytical results indicated that the material would be classified
as a non-hazardous waste. Based on correspondence provided by the Remediation Project Manager, the wax
material and associated stained landfill cover soils were excavated, containerized, and incinerated at the
LWD facility in Calvert City, Kentucky. Approximately 31 tons of stained soil material was removed and
disposed as part of the excavation effort.
Following excavation activities, the removed landfill clay cover material was replaced with new clay
material (Old Hickory Clay Company). The new clay material was keyed into the existing landfill clay cover
in order to provide a continuous barrier. A minimum clay thickness of 32 inches was used to seal the landfill
cover. Following clay placement, an approximately 18-inch topsoil layer was placed over the disturbed area
and the area was seeded on October 4, 1999.
4.3.1.3 Mowing Activities
Semi-annual mowing and/or bush-hogging is conducted over the limits of the BFGoodrich/AIRCO Landfill
and Burn Pit Area to inhibit deep-rooted vegetative growth which may harm the effectiveness of the cover
systems. The mowing is performed using standard farming/landscaping equipment and will be scheduled
in the months of April and September to allow for visual identification of areas requiring repair or
revegetation.
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4.3.1.4 Storm Water Management System
To enhance drainage and inhibit storm water run-on, the landfill and Burn Pit cover systems include a storm
water management system. Drainage ditches within and outside the unit limits are inspected during the
semi-annual inspections for damage due to erosion and significant sediment accumulation.
The flood protection dike is equipped with a storm water drainage system consisting of a 24-inch CMP
which extends through the flood protection dike near the northeast corner of the AIRCO Landfill.
Maintenance personnel operating the groundwater treatment system monitor river levels daily. During flood
conditions (e.g., when the river is above the outlet of the drainage pipe (elevation 326.1), the sluice gate is
manually lowered by maintenance personnel and storm water is permitted to temporarily pond on the
landfill cover. During flood conditions, the storm water pumping system is activated (concurrent with the
closing of the sluice gate).
Following activation, the storm water pumping system operates automatically by float switches. During
periods in which the sluice gate is closed and the storm water pumping system is active, the system is
inspected at least once per week to verify proper operation.
The storm water inlet discharge structures are inspected during the semi-annual inspections for significant
sediment and/or debris accumulation. The sluice gate system and storm water pumping system is inspected
on a semi-annual basis and maintained in accordance with the manufacturers recommendations.
4.3.1.5 Groundwater Well Maintenance
The wells associated with the groundwater monitoring program are observed at each semi-annual inspection
for evidence of damage to the casing, cap, or locking system.
4.3.1.6 Leachate Extraction System
Leachate extraction sumps are installed at 6 locations in the BFGoodrich/AIRCO Landfill area. In addition,
thirteen organic vapor recovery wells are installed in the Burn Pit Area. The components of the leachate
extraction system are inspected and maintained on a semi-annual basis. More frequent maintenance of the
air compressor and transfer pump (i.e., quarterly inspection of air compressor lubricant and valves, quarterly
lubrication of transfer pump, etc.) is conducted as needed and/or recommended by the manufacturer.
Settling Parties 33 July 9, 200130765-020-121
O&M Issues
As noted in the September 25, 2000 inspection report and reported in Semiannual Operation and
Maintenance Report, BFGoodrich and AIRCO Superfund Sites, Calvert City, Kentucky, dated October 31,
2000 (URS, 2000), the high-level indicator probes in the leachate sumps have been the subject of frequent
malfunction and are not currently operating properly. In lieu of use of the unreliable high level probes as
an indicator of possible pump problems, the flow totalizer for each sump will be checked frequently to
assess whether additional leachate has been removed or not. If the totalizer readings for any sump have not
been noted to increase, manual water level readings and/or leachate pump operation verification will then
be performed to assess the condition.
A mortar base has been poured into each of the wellhead and junction boxes in order to ease maintenance
and to keep them cleaner. Each wellhead and junction box has also been insulated. Pitless adapters have
been added to the leachate sumps.
4.3.1.7 Organic Vapor Recovery System
The 13 vapor recovery wells, also referred to as soil vapor extraction wells, consist of a slotted 4-inch
stainless steel well casing installed to depth of approximately 30 feet. The vapor recovery system is
maintained semi-annually to ensure efficient operation of the system.
O&M Issues
In May 1998, vapor treatment was changed such that vapor is now piped to the C-Stripper, and the activated
carbon units now serve as backup treatment capability during stripper maintenance. As noted in the October
12, 1999 inspection report and reported in Semiannual Operation and Maintenance Report, BFGoodrich
and AIRCO Superfund Sites, Calvert City, Kentucky, dated October 29, 1999 (URS, 1999), the Organic
Vapor Recovery System was tested to evaluate system efficiency. Vapor samples were collected from each
of the thirteen Organic Vapor Recovery System wells and analyzed for the historically predominant organic
compounds (vinyl chloride, 1,2 dichloroethane, and benzene). Based on the analytical results, the vacuum
was adjusted in five wells to increase the system efficiency and provide a higher overall mass removal rate.
These adjustments resulted in an approximately 176 percent increase in the organic removal rate as
compared to the average from the four previous sampling events.
In May 2000, IWS replaced a 3-foot section of deteriorated PVC in Burn Pit well BP-8.
Settling Parties 34 July 9, 200130765-020-121
Because vapor analyses in Burn Pit wells BP-1 and BP-2 have shown consistently low concentrations, these
wells were shut off in July 2000 in order to optimize performance of the remaining SVE wells having higher
vapor concentrations.
A mortar base has been poured into each of the wellhead and junction boxes in order to ease maintenance
and to keep them cleaner. Each wellhead and junction box has also been insulated.
4.3.2 Environmental Monitoring
Monitoring of groundwater and surface water is required during the post-closure care period. A summary
of the groundwater and surface water monitoring requirements is provided below. Detailed information
regarding the groundwater and surface water monitoring requirements, schedule, procedures, parameter list,
etc. is provided in Groundwater and Surface Water Monitoring Program (provided as Attachment 4 to the
O&MP).
With regard to the environmental monitoring activities, the Consent Decree includes several requirements
which should be noted. In accordance with Section XII of the Consent Decree, the Settling Parties are
required to notify EPA in writing at least 21 days in advance of sample collection activity, with subsequent
verbal notice not less than 3 working days prior to implementation of these activities. The Consent Decree
also requires that the laboratories used for analyses perform such analyses in accordance with EPA Contract
Laboratory Program (CLP) protocol. Laboratory analyses and validation activities will be performed in
accordance with the site-specific Quality Assurance Project Plan for Pre-Design and Remedial Design
Activities dated October 21, 1992.
4.3.2.1 Groundwater Monitoring
The objectives of the groundwater monitoring program are to:
• Monitor groundwater quality at the outer edges of the plume to determine if the plume ismigrating toward the Tennessee River or laterally due to dispersion
• Monitor the effectiveness of the groundwater extraction system
• Provide a warning of hazardous constituent releases that may represent an environmentallysignificant change in conditions, as indicated by the exceedance of alert levels
During the aquifer restoration period, the remediation monitoring program consists of the
Settling Parties 35 July 9, 200130765-020-121
following activities. Groundwater samples are collected annually from the effectiveness monitoring wells,
including the extraction wells, and analyzed for indicator parameters in order to evaluate the effectiveness
of the pumping program. Annual groundwater samples for indicator parameters are collected from the
background wells and downgradient monitoring wells to evaluate background water quality and the position
of the plume. Semi-annual groundwater samples are collected from the five extraction wells and analyzed
for the indicator parameters EDC and benzene only. In addition, piezometric levels in the wells listed in
Section 1.6 and the Tennessee River stage are measured on a quarterly basis.
Twelve indicator parameters were selected for the site based on the selection criteria established in the
Endangerment Assessment Report (Dames & Moore, 1988b). ACLs were assigned to each of the parameters
as presented in the Groundwater and Surface Water Monitoring Program (Dames & Moore, 1997).
When the annual sampling results indicate that ACLs are being achieved in the effectiveness monitoring
group (i.e., when the concentration of EDC and benzene in any given well approaches 125 percent of the
respective ACL for two consecutive monitoring events), and at the option of the Settling Parties, quarterly
indicator and piezometric monitoring may be initiated.
Quarterly indicator monitoring will be conducted to assess whether ACLs have been achieved. For each
indicator parameter, four quarters of monitoring data will be compared to the ACLs. If the ACL exceeds
the detected value of each indicator parameter, it will be determined that the remediation goals for the
aquifer have been achieved, and the groundwater collection system will be shut off. At this point, the 30-
year post-remediation monitoring period will commence.
Groundwater is collected from wells selected to achieve the goals of downgradient monitoring, remediation
effectiveness monitoring, and background monitoring. The downgradient horizontal and vertical extent of
the plume boundary is monitored from the Downgradient Monitoring Group. The Effectiveness Monitoring
Group and the Extraction Wells are used to monitor the effectiveness of plume remediation within the core
of the plume. Background Wells monitor water quality upgradient of the site and beyond the influence of
the extraction system. The monitoring wells are arranged in clusters of consecutively numbered shallow and
deep wells, with the odd numbered well having the shallow depth. The monitoring wells are distributed
within the groups as
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follows:
DowngradientMonitoring
Wells
EffectivenessMonitoring
WellsExtraction
WellsBackground
Wells
GA-21 GA-1 BW-1944 GA-37GA-22 GA-2 BW-1945 GA-38GA-25 GA-11 BW-1946GA-26 GA-12 SW-1942GA-27 GA-33 SW-1943GA-28 GA-34GA-29 GA-35GA-30 GA-36
Groundwater flow characteristics are determined from piezometric data collected from the above wells and
the following additional wells: GA-15, GA-16, GA-23, GA-24, GA-31, and GA-32.
4.3.2.2 Surface Water Monitoring
The overall goal of the collection well network is to eliminate the discharge of contaminated groundwater
to the Tennessee River. During the remediation monitoring program, Tennessee River monitoring will be
triggered only if downgradient wells GA-27 and GA-28 both show confirmed levels of indicator parameters
at concentrations greater than or equal to ACLs. If confirmation occurs, the Tennessee River will be
monitored annually for indicator parameters and every 5 years for TCL/TAL constituents.
4.3.3 Reporting and Record Retention
Semi-annual inspections and maintenance of the site will be conducted throughout the post-closure care
period. A report for submission to EPA is completed following each semi-annual inspection. In accordance
with the provisions of the Consent Decree, these reports are submitted to the EPA by May 1 and November
1 of each year. In the event that remedial actions are necessary, the actions will be identified and their
completion documented in the report.
Settling Parties 37 July 9, 200130765-020-121
Annual reports are prepared to meet the reporting requirements for evaluation of the effectiveness of the
extraction system. Reports are submitted by November 1 of each year. Each report summarizes the
evaluation of data compiled over the previous 12 months and includes discussions and/or graphical
representations of the following:
• Groundwater quality trends for extraction wells and select monitoring wells to evaluate theprogress toward groundwater quality restoration
• Data showing the comparison between piezometric elevations in the Tennessee River barrierwell network and the Tennessee River stage elevations
• Confidence interval analysis, if appropriate
• Seasonal variations in groundwater flow characteristics and groundwater quality
• Calculated quantities of contaminants removed from the aquifer
• The effects of system maintenance and down time on effectiveness of the extraction system
• Recommendations for improvements in the system, if appropriate
In accordance with the provision of the Consent Decree, the Settling Parties are required to retain
documentation and records relating to operation and maintenance for a minimum of six years after the
completion of the Remedial Action. These records are specified in the Health and Safety Plan (HASP) for
the system O&M (IWS, 1997) and include:
• Health and safety briefings and meetings records
• HASP signoff forms
• O&M staff training acknowledgement forms and certificates
These records are maintained by IWS and are kept in the onsite office trailer files. Forms for personal
protective equipment instrument calibration and safety violations are available, but have not been needed
for any O&M activities to date. After the 6 year period, the Settling Parties are required to notify EPA
within 30 days prior to the destruction of these documents.
4.3.4 Cost Estimate For Post-Closure Care
The cost estimate for post-closure care is presented in Table 5.
Settling Parties 38 July 9, 200130765-020-121
4.3.5 Actual Costs to Date For Post-Closure Care
The actual costs for post-closure care is presented below.
Annual O&M Costs
Dates
Total Cost rounded to nearest $100From To
9/9/97 12/31/97 555,800 / 220,100*
1/98 12/31/98 493,400 / 251,300*
1/99 12/31/99 362,300 / 149,200*
1/00 12/31/00 459,900 / 99,300*
1/01 2/28/01 108,500 / 32,800*
* Without water treatment cost.
4.4 PROGRESS SINCE LAST 5-YEAR REVIEW
This is the first 5-Year Review Report for the BFGoodrich/AIRCO Site.
5.0 FIVE-YEAR REVIEW FINDINGS
The 5-Year Review was conducted in accordance with the EPA-approved Workplan (URS, 2000). The
approved Workplan utilizes review procedures in the Guidance Document (EPA, 1999) as appropriate to
the remedial action ongoing at the site.
5.1 FIVE-YEAR REVIEW PROCESS
This 5-Year Review Report was prepared by URS Corporation for the Settling Parties under the direction
of EPA, with input from BFGoodrich and the BOC Group (formerly known as AIRCO).
This 5-year review consisted of the following activities: a review of relevant documents (see Section 12.0);
interviews with the Remediation Project Manager and the representative of the construction and the
operations contractor; and a site inspection. The completed 5-year review report, along with the approved
Work Plan, is available in the site’s information repository, the Marshall County Library, Calvert City
Branch. Notices regarding the performance and completion of the 5-year review were placed in
Settling Parties 39 July 9, 200130765-020-121
the local newspaper, the Lake News, Calvert City, Kentucky (Appendix B). An announcement and a
15-minute remediation review was made at the Calvert City Industrial Complex Citizens Advisory Team
meeting about the performance of the 5-year review on February 27, 2001 on behalf of BFGoodrich by
Christian J. Orsborn.
5.1.1 Document Review
The documents reviewed for this 5-year review report are referenced throughout this document and listed
in Section 12.0. The deed restrictions for both parcels (one each for BFGoodrich and The BOC Group) are
recorded at the Marshall County Clerk’s office and are reproduced in Appendix G.
5.1.2 Interviews
Because there is an ongoing presence at the site and the status of the remedy is known, interviews were
limited to the remedial project manager and the remediation operations and maintenance contractor. The
following individuals were interviewed during the site visit on January 23, 2001 as part of the 5-year review:
• Christian J. Orsborn, Remediation Project Manager
• Thomas Anthony, Industrial Well Service
Mr. Orsborn and Mr. Anthony made their project files and operations and maintenance records available
for the document review portion of the 5-year review and answered specific questions about their content.
A remediation status review was presented to the CCIC Citizens Advisory Team on July 23, 1996. Mr.
Orsborn added that since construction of the remedy, neither he nor any representative of BFGoodrich at
the Calvert City Plant had ever been contacted by a member of the public regarding any issue at the
BFGoodrich/AIRCO site.
5.1.3 Site Inspection
Representatives of EPA, the Settling Parties, and URS took part in the site inspection on January 23, 2001.
During the site inspection, the remedial systems were observed. The inspection evaluated the groundwater
and soil vapor treatment systems, the Burn Pit cap, SVE system and leachate collection wellheads, the
BFGoodrich and the AIRCO Landfill cap, selected groundwater extraction wellheads, the flood protection
dike, and the site fencing. The Site Inspection checklist is presented in Appendix C. Photographs from the
site inspection are presented in Appendix D.
Settling Parties 40 July 9, 200130765-020-121
All landfill caps were found to be in good condition. The vegetative cover was thorough and abundant, with
no trees or shrubs established.
The groundwater and soil vapor treatment system (C-Stripper, at the Westlake Plant) was found to be
operating and functioning properly. The five groundwater extraction wells at the site were withdrawing
water at an average rate of 100 gpm. The IWS representative, Mr. Anthony, stated that ongoing activities
were operating smoothly and that O&M issues are addressed as quickly as possible as they arise.
A review of the Health and Safety Plan (HASP) indicated it was sufficient to control risks at the site and
was properly implemented, except for the lack of Daily Health and Safety Meeting logs. Mr. Anthony stated
that IWS health and safety briefings are held before each O&M activity takes place and that these activities
do not occur daily. These “as-needed” briefings are summarized in the Weekly Safety Reports on file at the
onsite IWS office trailer.
The as-builts have been updated to reflect the conveyance of extracted soil vapor to the C-Stripper.
5.1.4 Risk Information Review
The following applicable or relevant and appropriate requirements (ARARs) were reviewed for changes that
could affect protectiveness:
• Drinking Water Standards and Health Advisories (EPA, Summer 2000, EPA 822-B-00-001)
• National Recommended Water Quality Criteria – Correction (EPA, April 1999, EPA822-Z-99-001)
ARARs for four of the contaminants of concern have become more stringent since the signing of the ROD
in 1988. These changes affect the protectiveness of the current ACLs. As a result of the recalculation of the
cleanup levels using the new values for the ARARs and the same mass-balance methodology employed in
the FS, the revised cleanup levels for 1,2-dichloroethane, carbon tetrachloride, benzene, and trichloroethene
are lower than the ACLs from the 1988 ROD as presented below.
Settling Parties 41 July 9, 200130765-020-121
Indicator ConstituentRevisedCleanupLevels
ARAR Source/Year
1,2-Dichloroethane 0.64 mg/L Previous 0.005 mg/L EPA MCL, 1988
New 0.00038mg/L
EPA AWQC,1999
Benzene 2.04 mg/L Previous 0.005 mg/L EPA MCL, 1988
New 0.0012 mg/L EPA AWQC,1999
Carbon Tetrachloride 0.43 mg/L Previous 0.005 mg/L EPA MCL, 1988
New 0.00025mg/L
EPA AWQC,1999
Trichloroethene 4.59 mg/L Previous 0.005 mg/L EPA MCL, 1988
New 0.0027 mg/L EPA AWQC,1999
Action-specific ARARs, setting controls or restrictions on hazardous substances, pollutants or contaminants,
have not become more stringent since the signing of the ROD. These ARARs include the Kentucky
regulations that may be more stringent or different from the federal RCRA regulations and additional media
not administered under the RCRA program.
5.1.5 Data Review
In accordance with the Groundwater and Surface Water Monitoring Program (Dames & Moore, 1997)
approved for the site, annual groundwater monitoring is conducted during the aquifer restoration period (i.e.,
continuous groundwater extraction). The effectiveness of the five extraction wells was assessed using a
combination of site-specific piezometric data and water quality data. Site-specific piezometric data were
evaluated to monitor actual effects of pumping on the piezometric surface. Water quality data, including
data obtained from monitoring wells and extraction wells, were evaluated for trends in concentrations of
indicator parameters as a means of determining whether water quality improved with continued operation
of the corrective action program and that the objectives of the program were achieved.
Settling Parties 42 July 9, 200130765-020-121
To date, three annual groundwater reports have been prepared and submitted to EPA: Dames & Moore
(1998) and URS (1999, 2000). The following information is summarized from these reports and is compared
against pre-remediation data collected during the RI.
5.1.5.1 Piezometric Data
Sitewide groundwater elevations were measured during the RI in October 1987 (Figure 6). At this time
before installation of the extraction wells, groundwater was flowing toward the Tennessee River under a
gradient ranging from approximately 0.001 in the terrace area to approximately 0.03 beneath the landfill
areas. Following installation and startup of the groundwater extraction wells in January 1992, groundwater
flow was induced toward the Tennessee River Barrier wells. Figure 7 shows the potentiometric surface map
from measurements collected in July 2000. The conditions shown in Figure 7 are typical of all previous
groundwater level measurements observed for the site since activation of the extraction system.
Potentiometric monitoring data collected at the site since activation of the extraction system in 1992 are
provided in Appendix F. During the July 2000 water level survey, the five extraction wells were operating
at an average combined pumping rate of approximately 135 gpm. The cones of depression around the
Tennessee River Barrier wells indicate that under current conditions the system is providing a hydraulic
barrier between the regulated units and the Tennessee River. In the third quarter of 2000 the natural
hydraulic gradient was pronounced (steep) as a result of the Tennessee River pool stage of 302.2 feet.
However, the cone of depressions observed around individual extraction wells, particularly BW-1944,
BW-1945, BW-1946, BW-1947, BW-1953, and SW-1942 indicate the extraction wells are capable of
maintaining the hydraulic barrier from the Tennessee River and preventing plume migration during periods
slightly exceeding pool stage.
5.1.5.2 Water Quality Data
The EDC analytical results prior to and during the remediation period are presented in Appendix E and
discussed in the following sections. Figure 8 shows the extent of the shallow EDC plume based on sampling
in October 1987, prior to remediation. Figure 9 shows the current plume configuration based on sampling
from July 2000.
Settling Parties 43 July 9, 200130765-020-121
Extraction Wells
Semi-annual sampling of the extraction wells for EDC and benzene as part of the RCRA effectiveness
evaluation program has occurred since January 1992. EDC trends in the site’s extraction wells are plotted
in Figures E-1 through E-3 in Appendix E. In general, BW-1944 and BW-1945 contained the highest EDC
concentrations and BW-1946 contained the lowest. Review of these data shows that wells BW-1946,
SW-1942, and SW-1943 have maintained EDC concentrations significantly below the ACLs since
extraction system activation in 1992. BW-1944 has also maintained EDC concentrations below the ACLs
but with more variation. Well BW-1945 EDC concentrations have fluctuated to above the ACL on several
occasions between 1992 and 1996. Since April 1996, EDC in BW-1945 has been below the ACL.
Mass Removal
Groundwater samples are collected from the extraction wells annually and are analyzed for the list of
indicator parameters. These data, along with the recorded discharge rate for the wells on the day of
sampling, were used to calculate annual EDC and TVOC mass removal rates. For sampling years 1992
through 1997, TVOCs mass was estimated based on the ratio of EDC mass to TVOCs mass for the years
1998 through 2000. The results are shown on Figure 10.
Total mass removal since activation of the five extraction wells in 1992 was on the order of 20,000 pounds.
EDC mass removal since activation is on the order of 5,000 pounds. TVOCs and EDC mass removal rates
are currently increasing from low values in 1998 and 1999, respectively. Wells BW-1945 and BW-1944
have been the most effective at removing mass of volatile constituents, with extracted TVOCs mass values
on the order of 15,000 pounds and 4,600 pounds respectively. Wells BW-1946, SW-1942, and SW-1943
extracted TVOCs mass values are significantly lower and are on the order of less than 200 pounds (Figure
10).
Effectiveness Monitoring Wells
The effectiveness monitoring wells are a group of four well clusters located in close proximity to the source
areas and represent constituent levels in the core of the plume. Table 6 shows the pre-remediation indicator
constituent results, from October 1987, compared against the current results from July 2000. The 2000
sampling results indicate that the ACLs were exceeded for multiple compounds in all four shallow wells
(GA-1, GA-11, GA-33, and GA-35) and in one of the deep wells (GA-2). Estimated limits of the
Settling Parties 44 July 9, 200130765-020-121
EDC plume in the shallow zone of the aquifer based on data from the 2000 sampling event is graphically
presented in Figure 9. Figure 11 shows that for most of the effectiveness monitoring wells (GA-1, GA-12,
GA-33, GA-34, GA-35, and GA-36), a larger number of detected compounds showed decreasing
concentrations between 1987 and 2000 than the number of detected compounds showing increasing
concentrations. As shown in Appendix E, EDC concentrations are increasing in well GA-1, and EDC
concentrations show no strong trend in wells GA-2, GA-11, GA-33, and GA-35.
Downgradient Monitoring Wells
The downgradient monitoring wells are arranged in four shallow and deep well clusters to the north and east
of the source areas between the Tennessee River and the extraction wells. Well clusters GA-21/GA-22 and
GA-25/GA-26 are located to the north-northeast of the source areas. Samples from these two well clusters
have been below detection limits for all indicator constituents in the 1987 and 2000 sampling events (Table
6). Indicator constituent concentrations in wells GA-27/GA-28 remain below ACLs at levels just above
instrument detection limits.
Downgradient monitoring well cluster GA-29/GA-30 is located due north of the Superfund Site Burn Pit
source area and northeast of another former waste organics burn pit, known as SWMU 3, on the adjacent
Westlake property (Figure 2). These two wells showed elevated amounts of several of the indicator
parameters. The ACL for EDC was exceeded in shallow well GA-29, and every detected indicator
constituent except benzene and bis(2-chloroethyl)ether showed a concentration increase relative to 1987
data in this well. The companion deep well GA-30 showed increasing concentrations in 10 indicator
constituents, however all are currently below their respective ACLs (Table 6).
Constituents at GA-29 most likely are the result of a release from the former waste organics burn pit, known
as SWMU 3, on the adjacent Westlake property. This area is being addressed under RCRA Corrective
Action.
As described in the RCRA-program required Revised Workplan, Corrective Action Program, Former
BFGoodrich Company Facility, Calvert City, Kentucky dated April 10, 2001 (RCRA CAP Workplan) (this
document is currently in review by Kentucky Division of Waste Management [KDWM]), SWMU No. 3 is
an unlined, 0.5-acre disposal area buried approximately 10 feet below grade located east of the barge slip
(Figure 2). The unit was used to burn a variety of plant wastes, including over 3,000 cubic yards of
chlorinated organics. The unit was active from 1962 until 1965. In 1966,
Settling Parties 45 July 9, 200130765-020-121
noncombustible residues from this landfill were bulldozed to the CERCLA landfill. Soil sample data
collected from this unit and vicinity have been submitted to KDWM as part of a Preliminary Design. A soil
vapor extraction/air sparging (SVE/AS) system has been installed in the vicinity of this unit and is awaiting
an operational agreement. These data indicate that the capillary fringe, the upper saturated soils, and the
upper aquifer contain significant concentrations of EDC.
It is likely that SWMU 3 represents a source of release, and that the interbedded unit of clay, silt, and sand
in the vadose and shallow aquifer zone (see Section 3.6.3) represents a preferential lateral migration
pathway in the subsurface. It is therefore likely that varying concentrations in GA-29, which intersects the
interbedded unit, may be the result of pulses of variable-concentration contaminant advectively moving
through the aquifer past GA-29 within the groundwater flow field induced by pumping at BW-1944.
The implication of the observed concentrations in GA-29, namely that concentrations approaching the ACLs
of constituents are present in the aquifer in close proximity to the Tennessee River (via the Barge Slip), is
also a source of concern under the ongoing RCRA Corrective Action Program at the adjacent Westlake site.
Because of this finding, the site has responded by implementing the following activities toward enhancing
the hydraulic barrier in the vicinity of the Barge Slip:
• Rehabilitation and activation of extraction well BW-1951 on May 25, 2001. This well is currentlypumping at approximately 20 gpm.
• Monitoring of potentiometric levels in the Barge Slip vicinity during the BW-1951 startup periodon a weekly basis after the Tennessee River stage falls to 304 feet msl.
• Contracting and other preparations to install a new extraction well, power supply, and dischargepiping in the vicinity of MW-22a. Activation of this new extraction point is currently planned tocommence on or before August 1, 2001.
Background Monitoring Wells
Background monitoring well cluster GA-37/GA-38 is located upgradient of the source areas near the
southern corner of the AIRCO Landfill (Figure 2). The shallow well GA-37 showed only an estimated
concentration of benzene (1:g/L), and no indicator parameters were detected in deep well GA-38 in the July
2000 sampling event. No
Settling Parties 46 July 9, 200130765-020-121
indicator constituents were detected in the October 1987 sampling event.
Other Monitoring Wells
In addition to the monitoring well groups discussed above, several additional wells in the vicinity of the site
are sampled to provide better plume delineation. Well cluster GA-3/GA-4, downgradient from the AIRCO
Landfill, showed increased concentrations of most of the detected indicator constituents between 1987 and
2000 (Table 6, Figure 11). The associated deep well, GA-4, showed EDC present at a concentration above
the ACL since 1999 (Appendix E). Shallow well GA-31, located downgradient of the BFGoodrich Landfill,
also showed high concentrations above the ACLs, but more indicator constituent concentrations were
showing a decrease than an increase in concentration between 1987 and 2000 (Table 6, Figure 11).
Surface Water Sampling
The overall goal of the extraction well system is to provide a hydraulic barrier to eliminate the discharge
of contaminated groundwater to the Tennessee River. Pursuant with the Groundwater and Surface Water
Monitoring Program (Dames & Moore, 1997) Tennessee River monitoring will be conducted only if
downgradient wells GA-27 and GA-28 both show confirmed levels of the indicator parameters at
concentrations greater or equal to the ACLs.
Sampling results throughout the remediation period to date do not identify any indicator parameters above
their ACLs in wells GA-27 or GA-28; and therefore, surface water sampling has not been required.
5.1.5.3 Soil Vapor Extraction System Data
As part of operation of the SVE system, weekly samples are collected from the vapor effluent stream and
the leachate effluent stream, and these samples are analyzed for EDC. Field tests conducted by IWS
indicated that the leachate stream was composed of approximately 70 percent Burn Pit leachate and 30
percent landfill leachate. Figure 12 shows the average weekly extraction rates and the cumulative extracted
mass of EDC from the SVE and leachate collection systems since data collection began in 1998. The total
mass and average rate of EDC extraction by the SVE system was consistently an order of magnitude greater
than those for the leachate system. The rate of EDC mass removal has decreased for the SVE system from
approximately 450 lbs/week in 1998 to approximately 270 lbs/week in 2000. Cumulative EDC mass
removal for these systems
Settling Parties 47 July 9, 200130765-020-121
was on the order of 57,000 lbs for the SVE system and 3,800 lbs for the leachate collection system (Figure
12).
5.1.6 Five-Year Review Team
The BFGoodrich/AIRCO site 5-year review was lead by Christian J. Orsborn, the Remediation Project
Manager for the BFGoodrich/AIRCO site. Mr. Orsborn has served in various environmental capacities at
the site, including Environmental Manager for the BFGoodrich Calvert City Plant from 1967 to 1993.
The following team members assisted in the review:
• Derek C. Matory, EPA Remedial Project Manager;
• Gautam Trivedi, P.E., Principal, URS Corporation;
• Anthony J. Limke, P.G. Senior Geologist and Project Manager, URS Corporation;
• John D. Priebe, P.E., Project Engineer, URS Corporation;
• Maria C. Eichelberger, Project Environmental Scientist, URS Corporation.
• Thomas Anthony, President, Industrial Well Service
Gautam Trivedi, P.E., is an Associate with URS, and has over 26 years of environmental engineering and
regulatory experience, much of which for sites in Calvert City, Kentucky. Mr. Trivedi assists URS clients
in matters involving complex multi-disciplinary environmental issues based on his regulatory, industrial and
consulting experience, particularly in the areas of air, waste and chemical management.
Anthony J. Limke, P.G., is a Senior Geologist with URS and has conducted and managed geologic and
hydrogeologic investigation services for numerous projects in Calvert City, Kentucky and throughout the
continental U.S. since joining the firm in 1989. His management responsibilities have included project
strategy and scoping, cost estimation, contract negotiation, subcontractor selection and supervision, and
coordination of fieldwork.
John Priebe, P.E., is a Project Engineer with URS and has managed civil and environmental engineering
projects related to site assessments, design, and remediation since joining the firm in 1990. Mr. Priebe was
the project manager for Dames & Moore
Settling Parties 48 July 9, 200130765-020-121
during the BFGoodrich/AIRCO site remedial construction.
Maria C. Eichelberger, is a Project Environmental Scientist and has managed and conducted numerous risk
assessments since joining the firm in 1992. Ms. Eichleberger has conducted risk assessments and
development cleanup levels for sites in Kentucky that were regulated under CERCLA and RCRA.
Thomas Anthony is president of Industrial Well Service, Inc. (IWS). IWS has been providing O&M services
for the BFGoodrich/AIRCO site since 1996. These services include general SVE and groundwater
extraction system equipment maintenance, well drilling, well rehabilitation, pump and motor changeout,
environmental sample collection, and recordkeeping. Mr. Anthony is a licensed Water Well and Monitoring
Well Driller and Pump Installer in the states of Kentucky and Missouri and has over 25 years experience
in the drilling and environmental service businesses.
6.0 ASSESSMENT
The following conclusions support the determination that the remedy at the BFGoodrich/AIRCO site
remains protective of human health and the environment:
Question A: Have Conditions External to the Remedy Changed Since the Remedy Was Selected?
• No Changes in Land Use: There are no current or planned changes in land use.
• No Changes in Known Contaminants, Sources, or Pathways at the Site: No newcontaminants, sources, or exposure pathways were identified as part of this 5-year review.
• Changes in Known Hydrologic/Hydrogeologic Conditions: Operation of the groundwaterextraction system has altered the natural groundwater flow pattern, as intended in the ROD. Thecones of depression around the Tennessee River Barrier wells indicate that under currentconditions the system is providing a hydraulic barrier between the regulated units and theTennessee River.
Settling Parties 49 July 9, 200130765-020-121
Question B: Has the Remedy Been Implemented in Accordance With Decision Documents?
• HASP/Contingency Plan: Both the HASP and the Contingency Plan are in place, sufficient tocontrol risks, and properly implemented. One exception is the lack of Daily Health and SafetyMeeting logs as specified in the HASP. IWS indicates that health and safety briefings are heldbefore each O&M activity takes place and that these activities do not occur daily. These “as-needed” briefings are summarized in the Weekly Safety Reports on file at the onsite IWS officetrailer.
• Access and Institutional Controls: The fence and warning signs are maintained. Institutionalcontrols are in place and no current or planned changes in land use at the site suggest that theyare not effective.
• Remedy Performance: As documented in the semiannual O&M Reports and confirmed duringthe site inspection for the 5-Year Review, groundwater and soil vapor treatment systems, theBurn Pit cap, SVE system and leachate collection wellheads, the BFGoodrich and the AIRCOLandfill cap, groundwater extraction wells, the flood protection dike, and the site access controlsare in place and performing in accordance with design documents. The remediation goal ofcontaining the plume of contaminated groundwater is being met by the operation of thegroundwater extraction system. Indicator constituent concentrations in the downgradient groupof monitoring wells indicate that no surface water sampling of the Tennessee River is required,although for shallow well GA-29, concentrations have increased since 1987, including an ACLexceedance for EDC in 2000.
• Contaminant Mass Removal from Groundwater: For the groundwater extraction andtreatment system, approximately 98 percent of the cumulative mass of removed TVOCs wasextracted by wells BW-1944 and BW-1945. Cumulative mass removal since activation of thefive extraction wells in 1992 is on the order of 20,000 pounds. Most of the group of effectivenessmonitoring wells show a larger number of decreasing indicator constituent concentrationsbetween 1987 and 2000. However, the primary indicator, EDC, shows no decreasingconcentration trend in any of the shallow effectiveness monitoring wells.
• Contaminant Mass Removal from the Vadose Zone: Cumulative EDC mass removal is onthe order of 57,000 lbs for the SVE system and 3,800 lbs for the leachate collection system.
• Adequacy of System Operations: System operations procedures are consistent withrequirements.
Settling Parties 50 July 9, 200130765-020-121
• Need for Optimization: Given the performance of the remediation systems documented inSection 5.0, it may be possible to optimize the groundwater and SVE system performance byincreasing the output from extraction points characterized by high constituent mass removal andreducing or deactivating points having low mass removal.
• Early Indicators of Potential Remedy Failure: Costs and maintenance activities have beenconsistent with expectations. Timely maintenance of affected systems has prevented significantdowntime and remedy failure. The increase in indicator constituent concentrations indowngradient shallow well GA-29 represents a potential shallow plume migration issue notadequately controlled by the current extraction system.
Question C: Has Any Risk Information Changed Since the Remedy Was Selected?
• Changes in ARARs: ARARs for four of the contaminants of concern have become morestringent since the signing of the ROD in 1988. These changes affect the protectiveness of thecleanup levels. As a result, the revised cleanup levels of 1,2-dichloroethane, carbontetrachloride, benzene, and trichloroethene are lower than the previous levels of the 1988 RODas presented in Section 5.1.4. Action-specific ARARs, setting controls or restrictions onhazardous substances, pollutants or contaminants, have not become more stringent since thesigning of the ROD.
7.0 DEFICIENCIES
Deficiencies were discovered during the 5-year review and are noted below. None of these are sufficientto warrant a finding of not protective as long as corrective actions are taken.
Deficiencies Currently AffectsProtectiveness (Y/N)
Lack of Daily Health and Safety Meetings logs as required by HASP N
8.0 RECOMMENDATIONS AND REQUIRED ACTIONS
Based on the ARARs becoming more stringent for 1,2-dichloroethane, carbon tetrachloride, benzene, and
trichloroethene, the groundwater ACLs for these compounds need to be revised, as follows, in order to
remain protective:
Settling Parties 51 July 9, 200130765-020-121
Constituent New ACL
1,2-dichloroethane 0.64
Carbon tetrachloride 0.43
Benzene 2.04
Trichloroethene 4.59
The new ACLS will be utilized for all subsequent groundwater monitoring and reporting for the site.
The HASP will be modified to eliminate the requirement for Daily Health and Safety Meeting logs. Instead,
per occurrence Health and Safety Meeting logs will be maintained. Experience has shown that contractor
health and safety are adequately protected by this change.
The Settling Parties will evaluate options for system optimization and present findings of the evaluation to
EPA within 6 months of this 5-year review report.
9.0 PROTECTIVENESS STATEMENT(S) BY EPA
The remedy is protective of human health and the environment. Protectiveness is largely maintained by the
effectiveness of barrier wells at arresting contaminant migration toward the Tennessee River.
10.0 NEXT REVIEW
Another 5-year review is required, and will be conducted in 2006. The scope of the next 5-year review is
anticipated to be the same as that presented herein.
11.0 OTHER COMMENTS
The apparent limited effectiveness of the remedial action – source control activities at this site for reducing
contaminant concentrations in near-source areas - should be addressed. EDC concentrations over time for
several near-source area monitoring wells (most obviously, effectiveness monitoring wells GA-1, GA-2,
GA-35 and also GA-3) show that EDC concentrations have been consistently high over the period of
monitoring shown.
Settling Parties 52 July 9, 200130765-020-121
This observation implies that remedial actions to address ground-water contaminant movement from within,
or beneath the source area(s) have not been fully effective, and may indicate that control of the burn pit
source, by leachate collection alone, is insufficient to minimize further contaminant release to the ground
water.
12.0 REFERENCES
Dames & Moore (1998) Annual CERCLA Groundwater Report, BFGoodrich/AIRCO Site, Calvert City,Kentucky.
Dames & Moore, 1988b, Endangerment Assessment: BFGoodrich/AIRCO Site, Calvert City, Kentucky.Job No. 14632-001-017. Report date March 14, 1988b. Cincinnati, Ohio.
Dames & Moore, 1988c, Feasibility Study BFGoodrich/Airco Site, Calvert City, Kentucky. Report dateMarch 14, 1988.
Dames & Moore (1997) Groundwater and Surface Water Monitoring Plan, BFGoodrich/AIRCO Site,Calvert City, Kentucky, 14632-013-120, June 4, 1997.
Dames & Moore (1997) Operation and Maintenance Plan, BFGoodrich/AIRCO Site, Calvert City,Kentucky, 14632-013-8080-121, May 1997.
Dames & Moore, 1993a, Phase I Contaminated Soil Limit Investigation: (Revision 1) BFGoodrich/AIRCOSite, Calvert City, Kentucky. Report date August 12, 1993. Cincinnati, Ohio.
Dames & Moore, 1994a, Phase II Contaminated Soil Limit Investigation: BFGoodrich/AIRCO Site, CalvertCity, Kentucky. Job No. 14632-008-017. Report date September 7, 1994, as amended December 1,1994. Cincinnati, Ohio.
Dames & Moore (1997) Remedial Action Report, BFGoodrich/AIRCO Site, Calvert City, Kentucky,14632-013-120, August 4, 1997.
Dames & Moore, 1988a, Remedial Investigation Report: BFGoodrich/AIRCO Site, Calvert City, Kentucky.Job No. 14632-001-017. Report date March 14, 1988. Cincinnati, Ohio.
Dames & Moore (1992) Workplan, Remedial Design/Remedial Action, BFGoodrich/AIRCO Site, CalvertCity, Kentucky, 04235-085-017, October 21, 1992.
Environmental Photographic Interpretation Center (EPIC), 1984, Site Analysis, BFGoodrich Landfill andAIRCO Landfill, Calvert City, Kentucky.
IWS, 1997, Health and Safety Plan for System Operations Monitoring, BFGoodrich/AIRCO Site, CalvertCity, Kentucky. Report date July 1997.
Settling Parties 53 July 9, 200130765-020-121
Sickel, J., 1985a. Biological Assessment of the Freshwater Mussels in the Kentucky DamTailwaters of the Tennessee River. Report to Kentucky Division of Water. 42pp.
Sickel, J., 1985b. Endangered Mussel Species Within the Kentucky Dam Tailwater Area,Tennessee River, Kentucky. Report for Nashville District Army Corps ofEngineers, Contract DACW62-85-M-1170.
Tennessee Valley Authority (TVA), personal communication: letter from J.W. Blackburnto R.C. Pelle of Dames & Moore. January 26, 1993 Knoxville, Tennessee.
Tennessee Valley Authority, 1979. Recent Mollusk Investigations on the TennesseeRiver, 1978. Draft report. 126 pp.
Tennessee Valley Authority, 1987a. Screening for Toxics in Biota and Sediment fromthe Lower Tennessee River.
URS (1999) Annual CERCLA Groundwater Report, BFGoodrich/AIRCO Site, CalvertCity, Kentucky.
URS (2000) Annual CERCLA Groundwater Report, BFGoodrich/AIRCO Site, CalvertCity, Kentucky.
URS Dames & Moore (1999) Semiannual CERCLA O&M Reports, BFGoodrich/AIRCOSite, Calvert City, Kentucky.
URS (2000) Semiannual CERCLA O&M Reports, BFGoodrich/AIRCO Site, CalvertCity, Kentucky.
URS (2000) Workplan, 5-Year Review, BFGoodrich/AIRCO Site, Calvert City,Kentucky, 30765-017-121, July 13, 2000.
U.S. Department of the Interior, 1987. Fish and Wildlife Service. Letter from V. GaryHenry with list of federally listed endangered and/or threatened species.November 2, 1987.
U.S. District Court, Western Kentucky District, Paducah Division (1992) ConsentDecree, Civil Action C-89-0005-P(CS), June 29, 1992.
U.S. EPA (1988) Record of Decision, Remedial Alternative Selection, BFGoodrich/AIRCO Site, Calvert City, Kentucky, U.S. EPA Region 4, Atlanta, Georgia, June24, 1988.
U.S. EPA (1999) Comprehensive 5-Year Review Guidance, EPA 540R-98-050, OSWERDirective 9355.7-03B-P, PB99-963214, Draft April 1999.
U.S. Geologic Survey, 1984. Element Concentration in Soils and other Surficial Materialof the Conterminous, United States. USGS professional paper 1270.
Settling Parties 130765-020-0103 June 28, 2001
TABLE 1MCLs AND AWQC FOR INDICATOR CHEMICALS
B.F. GOODRICH/AIRCO SITECALVERT CITY, KENTUCKY
CHEMICAL CRITERION ORSTANDARD
VALUE OF CRITERIONOR STANDARD (mg/L)
1,2-Dichloroethane (EDC) MCL 0.005AWQC *
Carbon tetrachloride MCL 0.005AWQC 0.00042
Chloroform** MCL** 0.1AWQC 0.00019
1,1,2-Trichloroethene MCL *AWQC 0.0006
Benezene MCL 0.005AWQC 0.00067
Polynuclear aromatic MCL *hydrocarbons (PAHs) AWQC 0.000031
Tetrachloroethene MCL *AWQC 0.00088
1,1,2,2-Tetrachloroethane MCL *AWQC 0.00017
Trichloroethene MCL 0.005AWQC 0.0028
Chlorobenzene MCL *MCLG 0.060
1,1-Dichloroethane MCL *AIC 0.0042
bis(2-Chloroethyl) ether MCL *AWQC 0.00003
PCBs*** - -
* None available** Total Trihalomethanes*** Applies to soil only
Settling Parties 130765-020-0103 June 28, 2001
TABLE 2ENDANGERMENT ASSESSMENT SUMMARY
B.F. GOODRICH/AIRCO SITECALVERT CITY, KENTUCKY
EXPOSURE MEDIUM TOTAL CARCINOGENICRISK
HAZARD INDEX CONCLUSION
Current Use:Most
ProbableWorstCase
MostProbable
WorstCase
Drainage ditch-surface watersediment
2.40E-07
2.00E-09
2.20E-05
1.80E-06
0 0 Within target risk range;no action required Within target risk range;no action required;however remediation of PCB-contaminatedsedimentswill be performed
Slough-surface water
0 0 0 0 No indicator chemicalsdetected; no actionrequired
sediment 0 0 0 0 No indicator chemicalsdetected; no actionrequired
Tennessee River-surface water
0 0 0 0 No indicator chemicalsdetected; no actionrequired
sediment 1.06E-08 6.40E-06 0 0 Within target risk range;no action required
Surface soil 9.90E-07 2.20E-03 5.50E-07 6.30E-04 Worst case exceeds targetrisk range; remediationrequired
Subsurface soil 0 0 0 0 No human exposure tosubsurface soils
Future Use:
Groundwater 0.8 1 3.2 5.8 Both cases exceed targetrisk range; remediationrequired
Settling Parties30765-020-121 June 28, 2001
TABLE 3FEASIBILITY ALTERNATIVE MATRIX
BFGOODRICH/AIRCO SITECALVERT CITY, KENTUCKY
No Action Improves Meets ARARs --------------------------- Exceeds ARARs Off Site
Remedial Action Alternative 1 2 3 4 5 6 7 8 9
• No Action X• Groundwater Monitoring X X X X X X X X X• Impose Deed Restrictions X X X X X X X• Pump and treat groundwater, 5 wells X X X X X X X• Clay cap over burn pit X• Construct Flood Protection Dike
around landfillsX X X X X X
• Upgrade Clay Cap over landfills X X X X X• Install Leachate Extraction System X X X X X X• RCRA cap over Burn Pit, with
vapor recovery systemX X
• RCRA Cap over Landfills X• Excavate surface, subsurface soils
& place in onsite RCRA LandfillX
• Excavate surface, subsurface soils and treat by land application(composting)
X
• Excavate surface soils, place inburn pit, treat In-situ by solventflushing/biological
X
• In-situ vitrify landfills X• Pump and treat groundwater, 6 wells X• Excavate surface soils, place in
burn pit, In-situ vitrify X
• Excavate surface soils, transport tooff site RCRA facility
X
Settling Parties June 28, 200130765-020-121 Calvert City, KY
TABLE 4
SUMMARY OF KEY PROJECT MILESTONE EVENTS
BFGOODRICH/AIRCO SUPERFUND SITECALVERT CITY, KENTUCKY
Project Milestone/Event
Issuance of Record of Decision
Execution of Consent Decree
U.S. EPA approval of the RD/RA WorkPlan
Submission of the Phase I Pre-designReport to U.S. EPA
U.S. EPA approval of the Phase I Pre-design Report
Submission of the Phase II Pre-designReport to U.S. EPA
U.S. EPA approval of the Phase II Pre-design Report
Submission of the Preliminary Design toU.S. EPA
U.S. EPA approval of Preliminary Design
Submission of the Intermediate Design toU.S. EPA
Submission of the Pre-Final Design to U.S.EPA
U.S. EPA approval of the Final Design
Submission of Remedial Action Plan toU.S. EPA
U.S. EPA approval of Remedial ActionPlan
Pre-Construction Conference
Pre-Final Inspection
Final Inspection
Date
June 24, 1988
June 29, 1992
November 10, 1992
April 13, 1993
September 27, 1993
October 20, 1994
December 1, 1994
December 14, 1994
January 25, 1995
April 28, 1995
June 27, 1995
September 29, 1995
November 29, 1995
April 17, 1996
May 21, 1996
December 20, 1996
June 4, 1997
Settling Parties30765-020-121 June 28, 2001
TABLE 5
POST-CLOSURE CARE COST ESTIMATE^
BFGOODRICH/AIRCOCALBERT CITY, KENTUCKY
Years1 - 5
Years6 - 10
Years11 - 12
Years13 - 30
Years30 - 40
Security Inspection and Repair $1,000 $1,000 $1,000 $1,000 -
Cover Maintenance $3,500 $3,500 $3,500 $3,500 -
Stormwater Management SystemInspection and Repair $1,600 $1,600 $1,600 $1,600 -
Leachate Extraction SystemInspection and Repair^^ $4,100 $4,100 $4,100 $4,100 -
Vapor Recovery SystemInspection and Repair^^^ $31,000 - - - -
Groundwater Well Maintenance $1,200 $1,200 $1,200 $1,200 -
Groundwater Monitoring^^^^ $82,100 $82,100 $90,500 $23,300 $23,300
Surface Water Monitoring (if necessary) $5,700 $5,700 $5,700 $5,700 $5,700
Subtotal $130,200 $99,200 $107,600 $40,400 $29,000
Contingency (10%) $13,000 $9,900 $10,800 $4,000 $2,900
TOTAL $143,200 $109,100 $118,400 $44,400 $31,900
^ Based on 1997 Dollars ^^ Estimate does not include cost for leachate treatment in existing BFGoodrich Groundwater Treatment Plant ^^^ Assumes that the vapor recovery system blower will operate for a period of 5 years^^^^ Assumes that groundwater monitoring will consist of a 10-year remediation monitoring program followed by the post-remediation monitoring program
Settling Parties Page 1 of 9 June 28, 200130765-020-121
TABLE 6
GROUNDWATER DATA COMPARISON - 1987 TO 2000
BFGOODRICH/AIRCO SITE - CALVERT CITY, KENTUCKY
Downgradient Monitoring WellsACLs^ GA-21
1987GA-212000 Change
GA-221987
GA-222000 Change
GA-251987
GA-252000 Change
Volatile Organic Compounds(Method 8260; :g/L)
Benzene 8,500 ND ND None ND ND None ND ND NoneCarbon Tetrachloride 8,500 ND ND None ND ND None ND ND NoneChlorobenzene 8,500 ND ND None ND ND None ND ND NoneChloroform 320 ND ND None ND ND None ND ND None1,1-Dichloroethane 8,500 ND ND None ND ND None ND ND None1,2-Dichloroethane 8,500 ND ND None ND ND None ND ND None1,1,2,2-Tetrachloroethane 290 ND ND None ND ND None ND ND NoneTetrachloroethene 1,500 ND ND None ND ND None ND ND None1,1,2-Trichloroethane 1,000 ND ND None ND ND None ND ND NoneTrichloroethene 8,500 ND ND None ND ND None ND ND None
Semivolatile Organic Compounds(Method 8270; :g/L)
Acenaphthene 8,500 ND ND None ND ND None ND ND NoneBis(2-chloroethyl) ether 51 ND ND None ND ND None ND ND NoneFluoranthene 8,500 ND ND None ND ND None ND ND None
^ = Alternate Concentration Limits as defined in Groundwater and Surface Water Monitoring Program (Dames & Moore, 1997)J = Estimated value (detected below quantitation limit)
Settling Parties Page 2 of 9 June 28, 200130765-020-121
TABLE 6
Downgradient Monitoring Wells (continued)ACLs^ GA-26
1987GA-262000 Change
GA-271987
GA-272000 Change
GA-281987
GA-282000 Change
Volatile Organic Compounds(Method 8260; :g/L)
Benzene 8,500 ND ND None 40 4 J Decrease ND 1 J IncreaseCarbon Tetrachloride 8,500 ND ND None ND ND None ND ND NoneChlorobenzene 8,500 ND ND None 37 1 J Decrease ND ND NoneChloroform 320 ND ND None ND ND None ND ND None1,1-Dichloroethane 8,500 ND ND None 2 J ND Decrease ND ND None1,2-Dichloroethane 8,500 ND ND None ND ND None 3 J ND Decrease1,1,2,2-Tetrachloroethane 290 ND ND None ND ND None ND ND NoneTetrachloroethene 1,500 ND ND None ND ND None ND ND None1,1,2-Trichloroethane 1,000 ND ND None ND ND None ND ND NoneTrichloroethene 8,500 ND ND None ND ND None ND ND None
Semivolatile Organic Compounds(Method 8270; :g/L)
Acenaphthene 8,500 ND ND None ND ND None ND ND NoneBis(2-chloroethyl) ether 51 ND ND None ND ND None ND ND NoneFluoranthene 8,500 ND ND None ND ND None ND ND None
^ = Alternate Concentration Limits as defined inJ = Estimated value (detected below quantitation
Settling Parties Page 3 of 9 June 28, 200130765-020-121
TABLE 6
Downgradient Monitoring Wells (continued)ACLs^ GA-29
1987GA-292000 Change
GA-301987
GA-302000 Change
Volatile Organic Compounds(Method 8260; :g/L)
Benzene 8,500 610 500 Decrease 10 4,300 IncreaseCarbon Tetrachloride 8,500 ND ND None ND ND NoneChlorobenzene 8,500 600 700 Increase 23 230 J IncreaseChloroform 320 ND 95 Increase ND 50 Increase1,1-Dichloroethane 8,500 990 740 Decrease 15 810 Increase1,2-Dichloroethane 8,500 62 18,000 Increase 2 J 75 Increase1,1,2,2-Tetrachloroethane 290 ND 16 Increase ND ND NoneTetrachloroethene 1,500 ND 350 Increase ND 2 J Increase1,1,2-Trichloroethane 1,000 ND 440 Increase ND 5 J IncreaseTrichloroethene 8,500 9.0 J 180 Increase 3 J 9 Increase
Semivolatile Organic Compounds(Method 8270; :g/L)
Acenaphthene 8,500 ND ND None ND 0.9 J IncreaseBis(2-chloroethyl) ether 51 9 J 2 J Decrease ND 62 IncreaseFluoranthene 8,500 ND ND None ND ND None
^ = Alternate Concentration Limits as defined inJ = Estimated value (detected below quantitation
Settling Parties Page 4 of 9 June 28, 200130765-020-121
TABLE 6
Effectiveness Monitoring WellsACLs^ GA-1
1987GA-12000 Change
GA-21987
GA-22000 Change
GA-111987
GA-112000 Change
Volatile Organic Compounds(Method 8260; :g/L)
Benzene 8,500 40,000 33,000 J Decrease 160 2600 Increase 800 2800 IncreaseCarbon Tetrachloride 8,500 11,000 J 10,000 Decrease 57 1,100 J Increase ND ND NoneChlorobenzene 8,500 16,000 10,000 Decrease 1,000 930 Decrease 1,100 1,600 IncreaseChloroform 320 64,000 70,000 Increase 150 4,300 Increase 680 3,700 Increase1,1-Dichloroethane 8,500 71,000 68,000 Decrease 140 3,600 Increase 2,300 11,000 Increase1,2-Dichloroethane 8,500 780,000 1,400,000 Increase 1,900 77,000 Increase 21,000 48,000 Increase1,1,2,2-Tetrachloroethane 290 5,200 J 2,900 Decrease 18 J 270 Increase ND ND NoneTetrachloroethene 1,500 3,500 J 2,500 Decrease 34 J 200 Increase 130 J ND Decrease1,1,2-Trichloroethane 1,000 49,000 59,000 Increase 140 4,700 Increase 200 J 880 J IncreaseTrichloroethene 8,500 3,800 J 3,400 Decrease 34 J 300 Increase 78J 260J Increase
Semivolatile Organic Compounds(Method 8270; :g/L)
Acenaphthene 8,500 23 50 J Increase 5.0 J 2 J Decrease ND 6 J IncreaseBis(2-chloroethyl) ether 51 310 410 Increase ND 14 Increase ND 5 J IncreaseFluoranthene 8,500 6.8 J 24 J Increase ND ND None ND ND None
^ = Alternate Concentration Limits as defined inJ = Estimated value (detected below quantitation
Settling Parties Page 5 of 9 June 28, 200130765-020-121
TABLE 6
Effectiveness Monitoring Wells (continued)ACLs^ GA-12
1987GA-122000 Change
GA-331987
GA-332000 Change
GA-341987
GA-342000 Change
Volatile Organic Compounds(Method 8260; :g/L)
Benzene 8,500 2 J ND Decrease 47,000J 14,000 J Decrease 1 J ND DecreaseCarbon Tetrachloride 8,500 ND ND None 13,000 ND Decrease ND ND NoneChlorobenzene 8,500 4 J ND Decrease 14,000J 6,100 J Decrease 1 J ND DecreaseChloroform 320 ND ND None 71,000 21,000 J Decrease 3 J ND Decrease1,1-Dichloroethane 8,500 ND 14 Increase 110,000 28,000 Decrease 2 J ND Decrease1,2-Dichloroethane 8,500 24 ND Decrease 1,900,000 610,000 Decrease 48 ND Decrease1,1,2,2-Tetrachloroethane 290 ND ND None 3,200 ND Decrease ND ND NoneTetrachloroethene 1,500 ND ND None 3,700 ND Decrease ND ND None1,1,2-Trichloroethane 1,000 1 J ND Decrease 55,000 19,000 J Decrease 2 J ND DecreaseTrichloroethene 8,500 ND ND None 4,600 ND Decrease ND ND None
Semivolatile Organic Compounds(Method 8270; :g/L)
Acenaphthene 8,500 ND ND None 180 270 J Increase ND ND NoneBis(2-chloroethyl) ether 51 ND ND None 940 210 J Decrease ND ND NoneFluoranthene 8,500 ND ND None 80 91 J Increase ND ND None
^ = Alternate Concentration Limits as defined inJ = Estimated value (detected below quantitation
Settling Parties Page 6 of 9 June 28, 200130765-020-121
TABLE 6
Effectiveness Monitoring Wells (continued)ACLs^ GA-35
1987GA-352000 Change
GA-361987
GA-362000 Change
Volatile Organic Compounds(Method 8260; :g/L)
Benzene 8,500 32,000J 28,000 Decrease 200J ND DecreaseCarbon Tetrachloride 8,500 16,000 J 16,000 None ND ND NoneChlorobenzene 8,500 34,000 J 20,000 Decrease ND ND NoneChloroform 320 130,000 42,000 J Decrease 590 ND Decrease1,1-Dichloroethane 8,500 120,000 47000J Decrease 580 ND Decrease1,2-Dichloroethane 8,500 3,600,000 850,000 Decrease 15,000 3 J Decrease1,1,2,2-Tetrachloroethane 290 ND 380 J Increase ND ND NoneTetrachloroethene 1,500 ND 3,200 Increase ND ND None1,1,2-Trichloroethane 1,000 37,000 J 17,000 Decrease ND ND NoneTrichloroethene 8,500 ND 4,000 Increase ND ND None
Semivolatile Organic Compounds(Method 8270; :g/L)
Acenaphthene 8,500 46 11 J Decrease ND ND NoneBis(2-chloroethyl) ether 51 520 130 Decrease ND ND NoneFluoranthene 8,500 26 ND Decrease ND ND None
^ = Alternate Concentration Limits as defined inJ = Estimated value (detected below quantitation
Settling Parties Page 7 of 9 June 28, 200130765-020-121
TABLE 6
Background WellsACLs^ GA-37
1987GA-372000 Change
GA-381987
GA-382000 Change
Volatile Organic Compounds(Method 8260; :g/L)
Benzene 8,500 ND 1 J Increase ND ND NoneCarbon Tetrachloride 8,500 ND ND None ND ND NoneChlorobenzene 8,500 ND ND None ND ND NoneChloroform 320 ND ND None ND ND None1,1-Dichloroethane 8,500 ND ND None ND ND None1,2-Dichloroethane 8,500 ND ND None ND ND None1,1,2,2-Tetrachloroethane 290 ND ND None ND ND NoneTetrachloroethene 1,500 ND ND None ND ND None1,1,2-Trichloroethane 1,000 ND ND None ND ND NoneTrichloroethene 8,500 ND ND None ND ND None
Semivolatile Organic Compounds(Method 8270; :g/L)
Acenaphthene 8,500 ND ND None ND ND NoneBis(2-chloroethyl) ether 51 ND ND None ND ND NoneFluoranthene 8,500 ND ND None ND ND None
^ = Alternate Concentration Limits as defined inJ = Estimated value (detected below quantitation
Settling Parties Page 8 of 9 June 28, 200130765-020-121
TABLE 6
Other WellsACLs^ GA-3
1987GA-32000 Change
GA-41987
GA-42000 Change
GA-151987
GA-152000 Change
Volatile Organic Compounds(Method 8260; :g/L)
Benzene 8,500 7300 28000 Increase 330 390 J Increase ND ND NoneCarbon Tetrachloride 8,500 1,500 9,500 J Increase ND ND None ND ND NoneChlorobenzene 8,500 3,300 11,000 J Increase 100 150 Increase ND ND NoneChloroform 320 11,000 58,000 Increase 91 120 Increase ND ND None1,1-Dichloroethane 8,500 14,000 62,000 Increase 740 960 Increase ND ND None1,2-Dichloroethane 8,500 100,000 860,000 Increase 4,400 14,000 Increase ND ND None1,1,2,2-Tetrachloroethane 290 ND ND None ND ND None ND ND NoneTetrachloroethene 1,500 1,600 ND Decrease 10 24 Increase ND ND None1,1,2-Trichloroethane 1,000 10,000 61,000 Increase ND ND None ND ND NoneTrichloroethene 8,500 1,300 ND Decrease 29 87 Increase ND ND None
Semivolatile Organic Compounds(Method 8270; :g/L)
Acenaphthene 8,500 66 160 J Increase ND ND None ND ND NoneBis(2-chloroethyl) ether 51 100 490 J Increase 5.6 J 4 J Decrease ND 6 J IncreaseFluoranthene 8,500 13 J 59 J Increase ND ND None ND ND None
^ = Alternate Concentration Limits as defined inJ = Estimated value (detected below quantitation
Settling Parties Page 9 of 9 June 28, 200130765-020-121
TABLE 6
Other Wells (continued)ACLs^ GA-16
1987GA-162000 Change
GA-311987
GA-312000 Change
GA-321987
GA-132000 Change
Volatile Organic Compounds(Method 8260; :g/L)
Benzene 8,500 ND ND None 24,000 J 8,200 Decrease 2.0 J 1 J DecreaseCarbon Tetrachloride 8,500 ND ND None ND 970 J Increase ND ND NoneChlorobenzene 8,500 ND ND None 8 6,100 Increase 1.2 J 1 J DecreaseChloroform 320 ND ND None 28,000 17,000 Decrease 1.4 J ND Decrease1,1-Dichloroethane 8,500 ND ND None 50,000 21,000 Decrease ND ND None1,2-Dichloroethane 8,500 ND ND None 810,000 350,000 Decrease 28 ND Decrease1,1,2,2-Tetrachloroethane 290 ND ND None ND 550 J Increase ND ND NoneTetrachloroethene 1,500 ND ND None 2,300 1400 Decrease ND ND None1,1,2-Trichloroethane 1,000 ND ND None 46,000 13,000 Decrease ND ND NoneTrichloroethene 8,500 ND ND None 3,200 910 J Decrease ND ND None
Semivolatile Organic Compounds(Method 8270; :g/L)
Acenaphthene 8,500 ND ND None ND 6 J Increase ND ND NoneBis(2-chloroethyl) ether 51 ND ND None 490 160 Decrease ND ND NoneFluoranthene 8,500 ND ND None ND ND None ND ND None
^ = Alternate Concentration Limits as defined inJ = Estimated value (detected below quantitation
APPENDICES
APPENDIX A
AS-BUILT DRAWING OF FINAL REMEDY CONSTRUCTION
APPENDIX B
PUBLIC NOTICES REGARDING FIVE-YEAR REVIEW
The Lake News, Calvert City, Ky., Wednesday, January 10, 2001 - 9.
Legal NoticePUBLIC NOTICE
The BFGoodrich/AIRCO Superfund Site (site), located in Calvert City,Kentucky is beginning a 5-Year Review process, as required underSection 121 of the Comprehensive Environmental Response, Com-pensation, and Liability Act (CERCLA), as amended by the SuperfundAmendments and Reauthorization Act of 1986. This site is catego-rized as requiring a statutory 5-Year Review. The purpose of the 5-year review is to determine whether the remedy at this site contin-ues to be protective of human health and the environment. The 5-year review will be in accordance with the US EPA Region IV-approvedworkplan entitled, “Workplan, 5-Year Review, BFGoodrich/AIRCOSuperfund Site, Calvert City, Kentucky, prepared by URS Corpora-tion, Job No. 30765-017-121, July 13, 2000". A copy of this Workplanis available for public review in the Calvert City Public Library. As part of the 5-year review process, a report will be prepared. The 5-Year Review Report will be issued on or before June 30, 2001, and acopy of this report will be available for public review at the CalvertCity Public Library. Additional information regarding this 5-year re-view can be obtained by contacting:
Mr. Derek Matory or The BFGoodrich CompanyNSMB Waste Division Superfund Site ManagerUSEPA Region 4 P.O. Box 30961 Forsyth Street, SW Calvert City, KY 42029Atlanta, GA 30303 (270) 395-3290(404) 562-8800
Submitted to The Lake News, Calvert City, KY, for publishing in the July 11, 2001edition.
PUBLIC NOTICE
The BFGoodrich/AIRCO Superfund Site (site), located in Calvert City, Kentucky isbeginning a 5-Year Review process, as required under Section 121 of theComprehensive Environmental Response, Compensation, and Liability Act (CERCLA),as amended by Superfund Amendments and Reauthorization Act of 1986. This site iscategorized as requiring a statutory 5-year review. The purpose of the 5-year review isto determine whether the remedy at this site continues to be protective of human healthand the environment. The 5-year review was conducted in accordance with the USEPA Region IV-approved workplan entitled “Workplan, 5-Year Review,BFGoodrich/AIRCO Superfund Site, Calvert City, Kentucky, prepared by URSCorporation, Job No. 30765-017-121, July 13, 2000”. A copy of this Workplan isavailable for public review in the Calvert City Public Library. As part of the 5-year,review process, a report entitled “5-Year Review Report, BFGoodrich/AIRCO SuperfundSite, Calvert City, Kentucky, prepared by URS Corporation, Job No. 30765-020-121,July 9, 2001” was prepared. The 5-Year Review Report will be issued on or before July11, 2001, and a copy of this report will be available for public review at the Calvert CityPublic Library. Additional information regarding this 5-year review can be obtained bycontacting:
Mr. Derek Matory or GOODRICH CorporationNSMB Waste Division Superfund Site ManagerUSEPA Region 4 P.O. Box 30961 Forsyth Street, SW Calvert City, KY 42029Atlanta, GA 30303 (270) 395-3290(404) 562-8800
APPENDIX C
5-YEAR REVIEW SITE INSPECTION CHECKLIST
Settling Parties C-1 April 5, 200130765-020-121 DRAFT
I. SITE INFORMATION
Site name: BFGoodrich/AIRCO Superfund Site Date of inspection: January 23, 2001
Location and Region: Calvert City, Kentucky
US EPA Region 4
EPA ID:
Agency, office or company leading the five-yearreview: URS Corporation, 36 East 7th Street, Suite2300, Cincinnati, Ohio 45202
Weather/temperature:Partly Cloudy, 45 degrees F.
Remedy Includes (Check all that apply)
: Landfill cover/containment
: Groundwater pump and treatment
9 Surface water collection and treatment
: Other Organic Vapor Recovery (i.e., Soil Vapor Extraction) and Treatment, and FloodProtection Dike.
: Inspection team roster attached 9 Site map attached
II. INTERVIEWS (Check all that apply)
1. O&M site manager Chris Orsborn Remediation Project Manager 1/22/01
Name Title Date
Interviewed 9 at site 9 at office 9 by phone Phone no.
Problems, suggestions; 9 Report attached
2. O&M staff Tom Anthony President, IWS January 22, 2001
Name Title Date
Interviewed : at site 9 at office 9 by phone Phone no.
Problems, suggestions; : Report attached
Settling Parties C-2 April 5, 200130765-020-121 DRAFT
3. Local regulatory authorities and response agencies (i.e., State and Tribal offices, emergency responseoffice, police department, office of public health or environmental health, zoning office, recorder ofdeeds, or other city and county offices, etc.) Fill in all that apply.
Agency
Contact
Name Title Date Phone no.
Problems; suggestions; 9 Report attached
Agency
Contact
Name Title Date Phone no.
Problems; suggestions; 9 Report attached
Agency
Contact
Name Title Date Phone no.
Problems; suggestions; 9 Report attached
Agency
Contact
Name Title Date Phone no.
Problems; suggestions; 9 Report attached
Settling Parties C-3 April 5, 200130765-020-121 DRAFT
4. Other interviews (optional) 9 Report attached.
III. ONSITE DOCUMENTS & RECORDS VERIFIED (Check all that apply)
1. O&M Manual and As-Builts : Readily available : Up to date 9 N/A
: As-builts : Readily available : Up to date 9 N/A
: Maintenance Logs 9 Readily available 9 Up to date 9 N/A
Remarks Construction and Maintenance Records found to be well organized and readily
available in site trailer.
2. Site Specific Health and Safety Plan : Readily available : Up to date 9 N/A
: Contingency plan/emergency response plan : Readily available : Up to date 9 N/A
Remarks Emergency Response Plan is a component of the Site Health and Safety Plan. The
Health and Safety Plan is available for review in the site trailer.
3. O&M and OSHA Training Records : Readily available : Up to date 9 N/A
Remarks Training records are up to date and available for review in the site trailer.
4. Permits and Service Agreements
9 Air discharge permit 9 Readily available 9 Up to date : N/A
9 Effluent discharge 9 Readily available 9 Up to date : N/A
9 Waste disposal, POTW 9 Readily available 9 Up to date : N/A
9 Other permits 9 Readily available 9 Up to date 9 N/A
Remarks: Recovered vapor and leachate are conveyed to the BFGoodrich Steam Stripper.
Discharge records are available at the Westlake Plant.
Settling Parties C-4 April 5, 200130765-020-121 DRAFT
5. Gas Generation Records : Readily available : Up to date 9 N/A
Remarks: Soil vapor generation records are available in the Operational Log Binders
at the site trailer.
6. Settlement Monument Records 9 Readily available 9 Up to date : N/A
Remarks: There are no settlement monuments on the site, and no settlement is observable.
7. Groundwater Monitoring Records 9 Readily available : Up to date 9 N/A
Remarks: Sampling and well information is kept in a binder at the site trailer. The official
records are maintained at the site manager’s office.
8. Leachate Extraction Records : Readily available : Up to date 9 N/A
Remarks: Leachate extraction records are maintained with the daily Operational Logs
In the site trailer.
9. Discharge Compliance Records
: Air : Readily available 9 Up to date 9 N/A
: Water (effluent) : Readily available 9 Up to date 9 N/A
Remarks: Discharge compliance records are maintained at the Westlake Plant.
10. Daily Access/Security Logs
: Readily available : Up to date 9 N/A
Remarks: Daily access logs are maintained in the Visitor's Register at the site trailer.
IV. O&M COSTS
1. O&M Organization
9 State in-house 9 Contractor for State
9 PRP in-house : Contractor for PRP
9 Other
Settling Parties C-5 April 5, 200130765-020-121 DRAFT
2. O&M Cost Records
9 Readily available 9 Up to date
9 Funding mechanism/agreement in place
Original O&M cost estimate 9 Breakdown attached
Total annual cost by year for review period if available
From To 9 Breakdown attached
Dates Total cost
From To 9 Breakdown attached
Dates Total cost
From To 9 Breakdown attached
Dates Total cost
From To 9 Breakdown attached
Dates Total cost
From To 9 Breakdown attached
Dates Total cost
3. Unanticipated or Unusually High O&M Costs During Review Period
Describe costs and reasons: None
V. GENERAL SITE CONDITIONS
Whenever possible, actual site conditions should be documented with photographs.
A. Fencing
1. Fencing damaged 9 Location shown on site map : Gates secured 9 N/A
Remarks: Fencing observed to be in good condition.
B. Site Access
1. Access restrictions, signs, other security measures 9 Location shown on map : N/A
Remarks:
Settling Parties C-6 April 5, 200130765-020-121 DRAFT
C. Perimeter Roads
1. Roads damaged 9 Location shown on site map : Roads adequate 9 N/A
Remarks: Perimeter road in good condition.
D. General
1. Vandalism/trespassing 9 Location shown on site map : No vandalism evident
Remarks: No evidence of vandalism or trespassing observed during last five years.
2. Land use changes onsite 9 N/A
Remarks: No changes in land use onsite.
3. Land use changes offsite 9 N/A
Remarks: No changes in land use off site.
4. Institutional controls (site conditions imply institutional controls not being enforced) 9 N/A
Agency
Contact
Name Title Date Phone no.
Problems; suggestions; 9 Report attached
Institutional controls (Deed Restrictions, Fencing) are effective.
VI. LANDFILL COVERS 9 Applicable 9 Not applicable
A. Landfill Surface
1. Settlement (Low spots) 9 Location shown on site map : Settlement not evident
Areal extent Depth
Remarks: No evidence of settlement was observed during the site inspection.
2. Cracks 9 Location shown on site map : Cracking not evident
Lengths Widths Depths
Remarks: No cracks in the landfill cover or flood protection dike were observed during
the site inspection.
Settling Parties C-7 April 5, 200130765-020-121 DRAFT
3. Erosion 9 Location shown on site map : Erosion not evident
Areal extent Depth
Remarks: No significant erosion observed. Site contacts indicate minor erosion is quickly
repaired before it becomes significant.
4. Holes 9 Location shown on site map : Holes not evident
Areal extent Depth
Remarks: No evidence of holes or burrowing animals observed.
5. Vegetative Cover : Grass : Cover properly established : No signs of stress
9 Trees/Shrubs (indicate size and locations on a diagram)
Remarks: Vegetative cover was observed to be in good condition.
6. Alternative Cover (armored rock, concrete, etc.) 9 N/A
Remarks: Alternative cover (rock) on outside of flood protection dike observed to be in good
condition.
7. Bulges 9 Location shown on site map : Bulges not evident
Areal extent Height
Remarks: No bulges observed.
8. Wet Areas/Water Damage : Wet areas/water damage not evident
9 Wet areas 9 Location shown on site map Areal extent
9 Ponding 9 Location shown on site map Areal extent
9 Seeps 9 Location shown on site map Areal extent
9 Soft subgrade 9 Location shown on site map Areal extent
Remarks: No wet areas or areas of ponding observed.
9. Slope Instability 9 Slides 9 Location shown on site map : No evidence of slope instability
Areal extent
Remarks
Settling Parties C-8 April 5, 200130765-020-121 DRAFT
B. Benches 9 Applicable : Not applicable
(Horizontally constructed mounds of earth placed across a steep landfill side slope to interrupt the
slope in order to slow down the velocity of surface runoff and intercept and convey the runoff to a
lined channel.)
1. Flows Bypass Bench 9 Location shown on site map : N/A or okay
Remarks
2. Bench Breached 9 Location shown on site map : N/A or okay
Remarks
3. Bench Overtopped 9 Location shown on site map : N/A or okay
Remarks
C. Letdown Channels : Applicable 9 Not applicable
(Channel lined with erosion control mats, riprap, grout bags, or gabions that descend down the steep
side slope of the cover and will allow the runoff water collected by the benches to move off of the
landfill cover without creating erosion gullies.)
1. Settlement 9 Location shown on site map : No evidence of settlement
Areal extent Depth
Remarks
2. Material Degradation 9 Location shown on site map
: No evidence of degradation
Material type Areal extent
Remarks
3. Erosion 9 Location shown on site map : No evidence of erosion
Areal extent Depth
Remarks RIP RAP (ROCK) channel performing effectively.
Settling Parties C-9 April 5, 200130765-020-121 DRAFT
4. Undercutting 9 Location shown on site map : No evidence of undercutting
Areal extent Depth
Remarks
5. Obstructions Type : No obstructions
9 Location shown on site map Areal extent
Size
Remarks
6. Excessive Vegetative Growth Type
: No evidence of excessive growth
: Vegetation in channels does not obstruct flow
9 Location shown on site map Areal extent
Remarks
D. Cover Penetrations : Applicable 9 Not applicable
1. Gas Vents : Active 9 Passive 9 Properly secured/locked 9 Functioning
9 Routinely sampled : Good condition 9 Needs O&M 9 Evidence of leakage at penetration
9 N/A
Remarks Organic vapor recovery system wells in burn pit area observed to be in good condition.
2. Gas Monitoring Probes 9 Properly secured/locked 9 Functioning
9 Routinely sampled 9 Good condition 9 Needs O&M 9 Evidence of leakage at penetration
: N/A
Remarks
3. Monitoring Wells (within surface area of landfill) 9 Properly secured/locked
: Functioning : Routinely sampled : Good condition 9 Needs O&M
9 Evidence of leakage at penetration 9 N/A
Remarks
Settling Parties C-10 April 5, 200130765-020-121 DRAFT
4. Leachate Extraction Wells 9 Properly secured/locked : Functioning
9 Routinely sampled : Good condition 9 Needs O&M
9 Evidence of leakage at penetration 9 N/A
Remarks: Leachate extraction wells are functioning properly and in good condition.
5. Settlement Monuments 9 Located 9 Routinely surveyed : N/A
Remarks
E. Gas Collection and Treatment
1 . Gas Treatment Facilities
9 Flaring 9 Thermal destruction 9 Collection for reuse
: Good condition 9 Needs O&M
Remarks: Organic vapor recovery system observed to be functioning effectively.
2. Gas Collection Wells, Manifolds and Piping
: Good condition 9 Needs O&M
Remarks: No leaks or deficiencies observed.
F. Cover Drainage Layer : Applicable 9 Not applicable
1. Outlet Pipes Inspected : Functioning 9 N/A
Remarks: All outlets observed to be functional. No obstructions observed.
2. Outlet Rock Inspected 9 Functioning : N/A
Remarks:
G. Detention/Sedimentation Ponds 9 Applicable : Not applicable
1. Siltation Areal extent Depth : N/A
9 Siltation not evident
Remarks:
Settling Parties C-11 April 5, 200130765-020-121 DRAFT
2. Erosion Areal extent Depth
: Erosion no evident
Remarks:
3. Outlet Works 9 Functioning : N/A
Remarks:
4. Dam 9 Functioning : N/A
Remarks:
H. Retaining Walls 9 Applicable : Not applicable
1. Deformations 9 Location shown on site map : Deformation not evident
Horizontal displacement Vertical displacement
Rotational displacement
Remarks:
2. Degradation 9 Location shown on site map : Degradation not evident
Remarks:
I. Perimeter Ditches/Off-Site Discharge : Applicable 9 Not applicable.
1. Siltation 9 Location shown on site map : Siltation not evident
Areal extent Depth
Remarks:
2. Vegetative Growth 9 Location shown on site map 9 N/A
: Vegetation does not impede flow
Areal extent Type
Remarks:
Settling Parties C-12 April 5, 200130765-020-121 DRAFT
3. Erosion 9 Location shown on site map : Erosion not evident
Areal extent Depth
Remarks
4. Discharge Structure : Functioning 9 N/A
Remarks: Sluice gate and discharge structure functioning effectively.
VII. VERTICAL BARRIER WALLS 9 Applicable : Not applicable
1. Settlement 9 Location shown on site map 9 Settlement not evident
Areal extent Depth
Remarks
2. Performance Monitoring Type of monitoring
9 Performance not monitored
Frequency 9 Evidence of breaching
Remarks
VIII. GROUNDWATER/SURFACE WATER REMEDIES : Applicable 9 Not applicable
A. Groundwater Extraction Wells, Pumps, and Pipelines
: Applicable 9 Not applicable
1. Pumps, Wellhead Plumbing, and Electrical
: Good condition : All required wells located 9 Needs O&M 9 N/A
Remarks: All wells present and in good condition.
Settling Parties C-13 April 5, 200130765-020-121 DRAFT
2. Extraction System Pipelines, Valves, Valve Boxes, and Other Appurtenances
: Good condition 9 Needs O&M
Remarks: Piping and other process equipment in good condition.
B. Surface Water Collection Structures, Pumps, and Pipelines
9 Applicable : Not applicable
1. Collection Structures, Pumps, and Electrical
9 Good condition 9 Needs O&M
Remarks
2. Surface Water Collection System Pipelines, Valves, Valve Boxes, and Other Appurtenances
9 Good condition 9 Needs O&M
Remarks
C. Treatment System : Applicable 9 Not applicable
1. Treatment Train (Check components that apply)
9 Metals removal 9 Oil/water separation 9 Bioremediation
9 Air stripping 9 Carbon adsorbers
9 Filters : Others Steam Stripping
9 Good condition 9 Needs O&M
: Sampling ports properly marked and functional
: Sampling/maintenance log displayed and up to date
: Equipment properly identified
9 Quantity of groundwater treated annually
9 Quantity of surface water treated annually
Remarks: Collected vapor and liquid are treated by the RCRA Corrective Action Treatment
Facility located at the Westlake Plant.
2. Electrical Enclosures and Panels (properly rated and functional) 9 N/A
: Good condition 9 Needs O&M
Remarks
Settling Parties C-14 April 5, 200130765-020-121 DRAFT
3. Tanks, Vaults, Storage Vessels 9 N/A
: Good condition : Proper secondary containment 9 Needs O&M
Remarks: No evidence of leakage.
4. Discharge Structure and Appurtenances : N/A
9 Good condition 9 Needs O&M
Remarks
5. Treatment Building(s) : N/A
9 Good condition 9 Needs repair
9 Chemicals and equipment properly stored
Remarks
6. Monitoring Wells (pump and treatment remedy) : Properly secured/locked
: Functioning 9 Routinely sampled : Good condition : All required wells located
9 Needs O&M 9 N/A
Remarks
D. Monitored Natural Attenuation
1. Monitoring Wells (natural attenuation remedy) 9 Properly secured/locked
9 Functioning 9 Routinely sampled
9 Good condition 9 All required wells located 9 Needs O&M : N/A
Remarks
IX. OTHER REMEDIES
If there are remedies applied at the site which are not covered above, attach an inspection sheet
describing the physical nature and condition of any facility associated with the remedy. An example
would be soil vapor extraction.
Settling Parties C-15 April 5, 200130765-020-121 DRAFT
X. OVERALL OBSERVATIONS
A. Implementation of the Remedy
The remedy was designed to protect the BFGoodrich/Airco Landfill from inundation during
seasonal flood events, provide an effective landfill cover to minimize infiltration, remove leachate
from the burn pit and BFGoodrich/Airco Landfill areas, extract soil vapor from the Burn Pit Area,
and extract and treat groundwater. All systems are operational and functioning in accordance
with the design intent.
B. Adequacy of O&M
The remedy components (i.e., flood protection dike, landfill cover systems, leachate extraction
systems, organic vapor recovery system, etc.) appear to be well maintained. In the isolated
instances where equipment has malfunctioned or failed, the equipment has been repaired and/or
replaced in a timely manner with minimal downtime. The current O&M procedures are effective
in maintaining the long-term viability of the remedy components.
C. Early Indicators of Potential Remedy Failure
No major issues. Following startup, it was discovered that the pipes/tubing within the leachate
extraction junction boxes was prone to freezing. This minor operational issue was addressed by
insulating each of the well head and junction boxes.
D. Opportunities for Optimization
The high level indicator switches installed in each of the leachate extraction wells has been shown
to be very prone to fouling and malfunction. This has resulted in the frequent erroneous
indication of high leachate levels. Rather than rely on the high level switches as the only
indication of potential high leachate levels, manual measurement is also periodically performed as
an additional monitoring task.
Settling Parties C-16 April 5, 200130765-020-121 DRAFT
INTERVIEW REPORT
5-YEAR REVIEWBFGOODRICH/AIRCO SUPERFUND SITE
CALVERT CITY, KENTUCKY
Persons Interviewed: Christian J. Orsborn Remediation Project Manager
Tom AnthonyPresident, Industrial Well Services
Interview Date: January 22, 2001
Interview Conducted by: John D. Priebe, P.E.
What are the Remediation Project Manager’s responsibilities on the project?
Christian J. Orsborn is responsible for overall management of the site activities and ensuring that the siteactivities are implemented effectively on behalf of BFGoodrich and BOC.
What are the Industrial Well Services responsibilities on the project?
Industrial Well Services has been retained by the Remediation Project Manager to perform the requiredoperation and maintenance activities for the BFGoodrich/Airco Superfund Site.
Are the various remedial systems functioning effectively?
Yes. The components are functioning effectively.
Is there a continuous O&M presence?
The systems are generally designed to operate automatically. O&M personnel are at the site Mondaythrough Friday during normal business hours.
Have there been any significant changes in the O&M requirements, maintenance schedules, samplingroutines since start-up?
No. The current requirements and schedules are effective.
Settling Parties C-17 April 5, 200130765-020-121 DRAFT
What O&M problems has the site experienced?
The O&M problems the site has experienced have been relatively minor. For example, we found that thepiping within the leachate extraction well head and junction boxes was prone to freezing during extendedperiods of cold weather. This condition was addressed through insulating each box.
In addition, the high level indicators present in each of the leachate extraction sumps are prone tomalfunction resulting in wrong indicator readings. We have addressed this issue by implementing periodicdirect measurement of the leachate levels in each sump.
Have there been any other changes to the components since you have been involved with theproject?
With the exception of connecting the leachate and vapor flows to the RCRA Corrective Action TreatmentPlan, the changes have been minor.
For example, a mortar base was poured in each of the wellhead and junction boxes. This has enabled us tobetter maintain these boxes and keep them cleaner. We have also added pitless adapters to the leachatesumps.
Where are the O&M files kept?
The operation and maintenance files are maintained in the site trailers. In the office of the trailer, you willfind the various O&M documents including the daily operational logs, well logs, health and safety plan,repair logs, visitor register, etc.
Do you feel your current Health and Safety Plan is adequate for worker protection duringimplementation of the required O&M activities?
Yes. All of the site employees are appropriately trained and we hold formal site safety meetings on a weeklybasis. In addition to this, informal safety meetings are held on a daily basis.
Have there been any safety incidents since you have been involve with the project?
No.
Have you observed any evidence of trespassing at the site?
We have not seen any evidence of people trespassing at the site. However, occasionally a deer has beenknown to jump the fence. When this occurs, the deer is chased out without incident.
Settling Parties C-18 April 5, 200130765-020-121 DRAFT
Have there been any erosion problems with the landfill caps or drainage ditches?
We have only seen minor evidence of erosion. It has been our objective to stabilize any observed minorerosion areas before these become significant issues. There are reporting criteria for erosion rills in theOperation and Maintenance Plan. We have never experienced a reportable event.
Do you have any suggested ways to optimize the operation, maintenance or sampling efforts?
No. The current activities are efficient and effective.
Have there been any complaints regarding the site or site activities?
We are not aware of any complaints.
Settling Parties C-19 April 5, 200130765-020-121 DRAFT
BFGOODRICH/AIRCO SUPERFUND SITE
5-YEAR REVIEW INSPECTION
JANUARY 23, 2001
NAME
John Priebe
Gautam Trivedi
Derek Matory
Tony Limke
Michael Resh
Christian J. Orsborn
COMPANY/AGENGY
URS
URS
EPA Region 4
URS
BOC Gases
Remediation Project Manager
PHONE
(513) 651-3440
(513) 651-3440
(404) 562-8800
(513) 651-3440
(908) 771-1452
(270) 395-3290
APPENDIX D
SITE INSPECTION PHOTOGRAPHS
PHOTOGRAPH 1: Typical SVE well (#13) on burn pit cap.
PHOTOGRAPH 2: Southwest corner of burn pit cap.
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PHOTOGRAPH 3: Motor control room, backup carbon beds.
PHOTOGRAPH 4: North end of burn pit cap showing typical junction box completion and MotorControl Building in background.
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PHOTOGRAPH 5: Typical junction box on burn pit cap.
PHOTOGRAPH 6: Motor control room, liquid flow meters and totalizer.
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PHOTOGRAPH 7: Motor control room, backup carbon beds andcontrols.
PHOTOGRAPH 8: Motor control room, leachate manifold and tank.
SETTLING PARTNERS – 30765-020-0103-121 – 5-YEAR REVIEW
PHOTOGRAPH 9:Vapor sampling port.
PHOTOGRAPH 10: View to the north showing landfill cap and stormwater system.
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PHOTOGRAPH 11: View to northeast showing landfill cap and dike.
PHOTOGRAPH 12: Drainage ditch on east side of burn pit cap.
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PHOTOGRAPH 13: Motor control room, converter for liquid pumps.
PHOTOGRAPH 14: View to north, from the dike, showing boundary fence and BW-1945.
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PHOTOGRAPH 15: View to east showing stormwater system,dike interior slope.
PHOTOGRAPH 16: View to west showing stormwater system, rip-rapped dike exterior slope.
SETTLING PARTNERS – 30765-020-0103-121 – 5-YEAR REVIEW
PHOTOGRAPH 17:View to east showing sluicegate and slough in background.
PHOTOGRAPH 18: View to east, of dike and landfill cap.
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PHOTOGRAPH 19: Typical landfill leachate system junction box,
PHOTOGRAPH 20: Typical landfill leachate system well (LS2).
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APPENDIX E
GROUNDWATER CONCENTRATION TRENDS
APPENDIX F
POTENTIOMETRIC MONITORING DATA
CJ-88 Page 1 of 4
TABLE 3
GROUNDWATER ELEVATION SURVEY - NOVEMBER 10-12, 1992
BFGOODRICH COMPANY - CALVERT CITY, KENTUCKY
Boring No.
Elevation ofReference(feet, msl)
Depthto Water
(feet)
Measured WaterElevation(feet, msl)
Water Elevationby LevelIndicator
(feet)
AveragePumping Rate
(gpm)
MW-3 346.40 41.72 304.68 NA NAMW-8S 346.92 32.37 314.55 NA NAMW-8D 345.18 30.51 314.67 NA NAMW-10 343.14 30.31 312.83 NA NAMW-14 328.90 24.02 304.88 NAMW-15 345.19 41.30 303.89 NA NAMW-16 343.36 39.44 303.92 NA NAMW-17 320.23 15.16 305.07 NA NALMW-20 314.63 11.70 302.93 NA NAMW-22 327.78 23.17 304.61MW-23 344.41 38.81 305.60MW-34D 344.78 41.89 302.89 NA NAMW-26M 345.43 NR - NA NAMW-26M 345.07 42.09 302.98 NA NAMW-32S 343.19 38.52 304.67 NA NAMW-32D 343.31 38.13 305.18 NA NAMW-33S 345.49 42.59 302.90 NA NAMW-33D 345.44 42.31 303.13 NA NAMW-34S 344.90 42.09 302.81 NA NAMW-35 314.80 12.15 302.65 NAMW-43 347.63 36.05 311.58 NA NA
GA-1 320.37 17.16 303.21 NA NAGA-2 320.11 15.35 304.76 NA NAGA-3 325.73 21.07 304.66 NA NAGA-4 325.43 21.42 304.01 NA NAGA-5 344.62 31.07 313.55 NA NAGA-6 345.10 NR - NA NAGA-7 350.06 Dry - NA NAGA-8 350.60 37.81 312.79 NA NAGA-9 347.80 33.85 313.95 NA NAGA-10 348.07 35.87 312.20 NA NAGA-11 347.92 Dry - NA NAGA-12 348.54 36.59 311.95 NA NAGA-13 355.75 Dry - NA NAGA-14 356.93 44.53 312.40 NA NAGA-15 325.30 20.54 304.76 NA NAGA-16 325.91 20.64 305.27 NA NA
NA = Not applicable* = Difficulty obtaining measurement. Data suspect** = Control piezometer out of calibration
CJ-88 Page 2 of 4
TABLE 3 (Continued)
Boring No.
Elevation ofReference(feet, msl)
Depthto Water
(feet)
Measured WaterElevation(feet, msl)
Water Elevationby LevelIndicator
(feet)
AveragePumping Rate
(gpm)
GA-17 329.69 23.25 306.44 NA NAGA-18 328.77 21.20 307.57 NA NAGA-19 330.26 26.31 303.95 NA NAGA-20 329.21 24.73 304.48 NA NAGA-21 323.72 19.90 303.82 NA NAGA-22 323.65 17.60 306.05 NA NAGA-23 328.78 25.42 303.36 NA NAGA-24 329.30 25.73 303.57 NA NAGA-25 322.30 19.40 302.90 NA NAGA-26 322.68 16.94 305.74 NA NAGA-27 314.05 11.44 302.61 NA NAGA-28 316.16 13.50 302.66 NA NAGA-29 320.17 18.39 301.78 NA NAGA-31 337.91 34.72 303.19 NA NAGA-32 337.86 32.03 305.83 NA NAGA-33 341.98 29.82 312.16 NA NAGA-34 341.75 34.06 307.69 NA NAGA-35 344.48 28.32 316.16 NA NAGA-36 344.72 35.67 309.05 NA NAGA-37 357.15 41.06 316.09 NA NAGA-38 357.19 44.33 312.86 NA NA
1924 345.50 25.53 319.97 NA 01926 337.13 NR - NA 31928 322.99 NR - NA 221929 327.30 30.24* 297.06* NA 151930 325.23 26.24 298.99 NA 131931 320.95 30.96 289.99 NA 101932 317.87 25.06 292.81 NA 111934 319.70 22.83 296.87 NA 271935 331.37 31.75 299.62 NA 271936 338.62 39.99 298.63 NA 641937 338.35 42.30 296.05 NA 551938 333.54 38.77 294.77 NA 551939 338.16 43.08 295.08 NA 321940 341.04 45.63 295.41 NA 301941 344.60 43.76 300.84 NA 461942 341.77 33.90 307.87 NA 51943 340.44 28.56* 311.88* NA 81944 317.19 25.06 292.13 NA 351945 321.17 25.32 295.85 NA 35
NA = Not applicableNR = No measurement* = Difficulty obtaining measurement. Data suspect** = Control piezometer out of calibration
CJ-88 Page 3 of 4
TABLE 3 (Continued)
Boring No.
Elevation ofReference(feet, msl)
Depthto Water
(feet)
Measured WaterElevation(feet, msl)
Water Elevationby LevelIndicator
(feet)
AveragePumping Rate
(gpm)
1946 316.49 16.70 299.79 NA 351947 346.83 42.27 304.56 NA 18
202M 352.73 38.46 314.27 NA NA203M 344.83 30.86 313.97 NA NA204M 350.87 36.22 314.65 NA NA205M 351.72 37.56 314.16 NA NA207M 353.06 38.99 314.07 NA NA208M 347.71 34.64 313.07 NA NA210M 347.52 33.31 314.21 NA NA211M 350.35 36.92 313.43 NA NA215S 346.56 32.20 314.36 NA NA215D 346.56 32.48 314.08 NA NA216S 335.96 21.56 314.40 NA NA216D 335.45 21.89 313.56 NA NA217S 346.92 34.18 312.24 NA NA217D 345.18 35.18 310.00 NA NA218S 346.93 32.73 314.20 NA NA218D 346.38 32.15 314.23 NA NA220S 347.09 32.95 314.14 NA NA220D 347.58 33.47 314.11 NA NA222S 341.91 27.88 314.03 NA NA222D 344.45 NR - NA NA224S 318.27 12.50 305.77 NA229S 333.85 19.59 314.26 NA NA229D 333.80 19.44 314.36 NA NA230S 340.30 25.96 314.34 NA NA230D 340.42 26.11 314.31 NA NA231S 346.35 31.40 314.95 NA NA231D 346.67 32.62 314.05 NA NA233S 347.68 32.42 315.26 NA NA233D 347.56 34.64 312.92 NA NA234S 349.22 34.31 314.91 NA NA234D 347.56 38.92 308.64 NA NA238S 337.96 23.70 314.26 NA NA238D 337.68 23.46 314.22 NA NA243S 351.07 36.47 314.6 NA NA240D 351.33 40.64 310.69 NA NA241S 347.07 35.43 311.64 NA NA241D 346.02 36.06 309.96 NA NA242S 348.57 34.38 314.19 NA NA242D 349.00 37.11 311.89 NA NA
NA = Not applicable* = Difficulty obtaining measurement. Data suspect** = Control piezometer out of calibration
CJ-88 Page 4 of 4
TABLE 3 (Continued)
Boring No.
Elevation ofReference(feet, msl)
Depthto Water
(feet)
Measured WaterElevation(feet, msl)
Water Elevationby LevelIndicator
(feet)
AveragePumping Rate
(gpm)
243S 347.27 33.38 313.89 NA NA243D 346.90 32.89 314.01 NA NA244S 349.12 35.42 313.70 NA NA244D 349.11 37.65 311.46 NA NA
Airco 1S 342.53 27.88 314.65 NA NAAirco 1D 342.15 29.07 313.08 NA NAAirco 5S 350.47 35.58 314.89 NA NAAirco 5D 350.30 38.24 312.06 NA NA
PC-1 319.56 15.21 304.35 329.00** NAPC-2 325.00 20.17 304.83 275.59** NAPC-3 323.24 17.98 305.26 247.82** NAPC-4 324.00 19.25 304.75 253.38** NAPC-6 318.91 15.82 303.09 267.05** NAPC-7 341.38 33.04 308.34 297.29**PC-8 336.68 28.83 307.85 289.79**PC-9 337.36 28.02 309.34 292.93** NAPC-10 346.01 37.15 308.86 288.75** NAPC-11 343.95 35.19 308.76 287.15** NA
NA = Not applicable* = Difficulty obtaining measurement. Data suspect** = Control piezometer out of calibration
rcpbfg-12 Page 1 of 3
TABLE 3
GROUNDWATER ELEVATION SURVEYSJULY 1993
BFGOODRICH COMPANY - CALVERT CITY, KENTUCKY
Boring No.
Elevation ofReference(feet, msl)
Depthto Water*
(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 33.23 309.86MW-2 342.21 32.87 309.34MW-3 346.40 33.38 313.02MW-8S 346.92 30.20 316.72MW-8D 345.18 28.34 316.84MW-10a 344.84 28.42 316.42MW-14 328.90 17.86 311.04MW-14A 331.26 20.36 310.90MW-15 345.19 30.50 314.69MW-16 343.36 29.24 314.12MW-17 320.23 5.77 314.46MW-26Ma 345.43 30.62 314.81MW-26Da 345.07 32.19 312.88MW-32Sa 343.19 30.44 312.75MW-32Da 343.31 32.29 311.02MW-33Sa 345.49 31.29 314.20MW-33Da 345.44 32.08 313.36MW-34Sa 344.90 31.38 313.52MW-34Da 344.78 31.42 313.36MW-43 347.63 34.33 313.30P-44 324.20 13.66 310.54P-45 324.58 15.70 308.88
GA-1 320.37 6.37 314.00GA-2 320.11 6.54 313.57GA-5 344.62 28.12 316.50GA-6 345.10 27.68 317.42GA-7 350.06 32.80 317.26GA-8 350.60 34.65 315.95GA-19 330.26 15.96 314.30GA-33 341.98 26.56 315.42GA-34 341.75 28.54 313.21GA-35 344.48 27.04 317.44GA-36 346.83 31.07 315.76LMW-21 322.30 29.91 292.39
201M 348.38 32.52 315.86202M 352.73 37.07 315.66202D 352.43 37.12 315.31
NA = Not available* = Measured from the top of the inner casing
rcpbfg-12 Page 2 of 3
TABLE 3 (Continued)
Boring No.
Elevation ofReference(feet, msl)
Depthto Water *
(feet)
GroundwaterElevation(feet, msl)
203M 344.83 29.55 315.28203D 345.26 30.63 314.63204M 350.87 35.33 315.54205M 351.72 36.07 315.65206M 347.41 31.55 315.86207M 353.06 37.42 315.64207D 353.87 39.14 314.73208M 347.71 32.43 315.28210M 347.52 31.78 315.74211M 350.35 34.61 315.74215S 346.56 30.61 315.95215D 346.56 30.58 315.98216S 335.96 19.80 316.16216D 335.45 19.84 315.61217S 346.92 32.89 314.03217D 345.18 33.07 312.11218S 346.93 30.75 316.18218D 346.38 30.21 316.17222S 341.91 25.89 316.02222D 344.45 28.75 315.70223S 326.51 15.46 311.05223D 326.50 15.95 310.55224M 319.22 14.84 304.38229S 333.85 17.51 316.34229D 333.80 17.47 316.33230S 340.30 24.31 315.99230D 340.42 24.55 315.87231S 346.35 30.09 316.26231D 346.67 30.68 315.99232S 326.12 12.94 313.18232D 325.56 12.41 313.15233S 347.68 31.08 316.60233D 347.56 32.10 315.46235S 341.22 24.33 316.892235D 341.31 25.48 315.83238S 337.96 21.77 316.19238D 337.68 21.51 316.17240S 351.07 35.04 316.03240D 351.33 36.15 315.18242S 348.57 32.72 315.85242D 349.00 34.44 314.56
NA = Not available* = Measured from the top of the inner casing
rcpbfg-12 Page 3 of 3
TABLE 3 (Continued)
Boring No.
Elevation ofReference(feet, msl)
Depthto Water *
(feet)
GroundwaterElevation(feet, msl)
Airco 1S 342.53 26.44 316.09Airco 1D 342.15 27.14 315.01Airco 5S 350.47 34.20 316.27Airco 5D 350.30 34.98 315.32
OW-1914 342.22 29.17 313.05OW-1915 343.11 29.05 314.06SW-1921 350.49 37.40 313.09SW-1924 345.50 32.85 312.65BW-1929 327.30 26.45 300.85BW-1932 317.87 39.05 278.82BW-1933 320.00 27.83 292.17BW-1934 319.70 21.93 297.77BW-1939 338.16 36.20 301.96SW-1942 341.77 32.30 309.47SW-1944 317.19 18.55 298.64BW-1945 321.17 11.29 309.88BW-1947 346.83 44.83 302.00
LT-0601 (222M) 343.65 27.66 315.99LT-0602 (231M) 346.39 29.00 317.39LT-0604 (Airco 5M) 348.92 32.72 316.20LT-0605 (PC-12) 348.89 33.29 315.60LT-0606 (240M) 349.79 33.87 315.92LT-0607 (PC-1) 319.56 5.39 314.17LT-0608 (PC-2) 325.00 12.14 312.86LT-0609 (PC-3) 323.24 11.65 311.59LT-0610 (PC-4) 324.00 13.50 310.50LT-0611 (224S) 318.27 6.71 311.56LT-0612 (PC-5) 323.50 15.83 307.67LT-0613 (PC-6) 318.91 10.82 308.09LT-0615 (MW-14B) 328.90 18.18 310.72LT-0616 (PC-7) 341.38 28.20 313.18LT-0617 (PC-8) 336.68 23.28 313.40LT-0618 (PC-9) 337.36 22.69 314.67LT-0619 (PC-10) 346.01 32.22 313.79LT-0620 (PC-11) 343.95 29.64 314.31LT-0622 (MW-22) 327.78 14.85 312.93LT-0623 (GA-29) 320.12 6.50 313.62
NA = Not available* = Measured from the top of the inner casing
BFG(18)/148ps04235-104-148 Page 1 of 3 December 27, 1995
TABLE 3
GROUNDWATER ELEVATION MEASUREMENTSTHIRD QUARTER 1995
BFGOODRICH COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 36.95 306.14MW-2 342.21 34.30 307.91MW-3 346.40 38.00 308.40MW-8 345.18 27.20 317.98MW-10 344.34 26.83 317.51MW-14 328.79 21.95 306.84
MW-14A 331.26 24.90 306.36MW-15 345.19 40.60 304.59MW-16 343.36 39.45 303.91MW-17 320.23 16.80 303.43MW-22 327.78 NM -MW-23 344.41 37.69 306.72
MW-26Ma 345.07 Dry -MW-26D 345.43 40.94 304.49MW-32S 343.19 36.60 306.59MW-32D 343.31 37.32 305.99MW-33S 345.49 41.07 304.42MW-33D 345.44 41.48 303.96MW-34Sa 344.90 41.90 303.00MW-34D 344.78 42.10 302.68MW-210S 347.64 19.10 328.54MW-210M 347.52 30.51 317.01MW-210D 346.71 29.90 316.81MW-215D 346.56 29.06 317.50MW-215M 346.63 29.01 317.62MW-216S 335.96 17.90 318.06MW-216M 336.02 17.50 318.52MW-216D 335.45 18.20 317.25MW-217S 346.92 31.28 315.64MW-217D 345.18 31.72 313.46MW-218S 346.93 29.25 317.68MW-218M 347.17 29.55 317.62MW-218D 346.38 28.75 317.63MW-222M 344.69 27.00 317.69MW-223S 326.51 17.36 309.15MW-223D 326.50 17.82 308.68
NM = Not measuredNA = Not available
BFG(18)/148ps04235-104-148 Page 2 of 3 December 27, 1995
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-224D 318.29 12.22 306.07 MW-224M 319.22 15.17 304.05MW-225D 319.03 14.30 304.73MW-229 333.85 Unable to locate -MW-230 340.30 Unable to locate -
MW-231S 346.35 28.36 317.99MW-231D 346.67 29.02 317.65MW-232D 325.56 17.57 307.99MW-232S 326.12 17.99 308.13MW-235S 341.22 22.44 318.78MW-235M 341.03 23.60 317.43MW-235D 341.31 23.90 317.41MW-238D 337.68 20.01 317.67
GA-1 320.37 15.32 305.05GA-2 320.11 14.46 305.65GA-3 325.73 18.83 306.90GA-4 325.43 19.70 305.73GA-5 344.62 27.80 316.82GA-6 345.10 26.82 318.28GA-7 350.06 31.90 318.16GA-8 350.60 Dry -GA-27 314.05 10.71 303.34GA-28 316.16 12.83 303.33GA-33 341.98 26.53 315.45GA-34 341.75 32.55 309.20
LMW-21 346.83 29.90 316.93
SW1918 342.78 NM -SW1920 NA NM -SW1921 350.49 34.10 316.39SW1924 345.50 NM -SW1925 340.90 NM -SW1942 341.77 55.42 286.35SW1943 340.44 32.22 308.22
Airco #1S 342.53 24.65 317.88Airco #1M 342.13 24.40 317.73Airco #1D 343.15 25.53 317.62
NM = Not measuredNA = Not available
BFG(18)/148ps04235-104-148 Page 3 of 3 December 27, 1995
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1928 322.99 NM -BW-1929 327.30 NM -BW-1930 325.23 NM -BW-1931 320.95 NM -BW-1932 317.87 NM -BW-1933 320.00 26.83 293.17BW-1934 319.70 27.48 292.22BW-1935 331.37 NM -BW-1936 338.62 Dry -BW-1937 338.35 51.40 286.95BW-1938 333.54 NM -BW-1939 338.16 46.19 291.97BW-1940 341.04 38.43 302.61BW-1941 344.60 NM -BW-1944 317.19 21.35 295.84BW-1945 321.17 24.48 296.69BW-1950 348.63 37.96 310.67BW-1951 345.85 37.00 308.85BW-1952 342.96 40.00 302.96BW-1953 343.74 40.01 303.73
OW1913 343.14 NM -OW1914 342.22 26.29 315.93OW1915 343.11 25.50 317.61OW1916 343.80 26.38 317.42OW1917 347.57 NM -OW1919 347.46 NM -OW1922 351.37 24.42 326.95OW1923 351.93 NM -
PC-1 319.56 12.63 306.93PC-2 325.00 NM -PC-3 323.24 14.60 308.64PC-4 324.00 14.65 309.35PC-6 318.91 NM -PC-7 341.38 30.48 310.90PC-8 336.68 26.00 310.68PC-9 337.36 25.15 312.21
PC-10 346.01 31.45 314.56PC-11 343.95 32.17 311.78
NM = Not measuredNA = Not available
pw-123(BFG)04235-113-121 Page 1 of 4 6/26/96
TABLE 3
GROUNDWATER ELEVATION MEASUREMENTSFIRST QUARTER 1996
BFGOODRICH COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 Unable to measure -MW-2 342.21 34.70 307.51MW-3 346.40 37.86 308.54
MW-8S 346.92 30.00 316.92MW-8M 346.90 30.00 316.90MW-8D 345.18 28.20 316.98MW-9 343.21 26.33 316.88MW-10 344.34 28.15 316.19MW-14 328.79 19.15 309.64
MW-14A 331.26 20.98 310.28MW-15 345.19 26.82 318.37MW-16 343.36 27.44 315.92MW-17 320.23 Under Water -MW-22 327.78 11.64 316.14MW-23 344.41 29.78 314.63
MW-24D 345.95 28.46 317.49MW-26Ma 345.07 26.75 318.32MW-26D 345.43 29.41 316.02MW-32S 343.19 29.37 313.82MW-32D 343.31 32.04 311.27MW-33S 345.49 28.02 317.47MW-33D 345.44 29.26 316.18MW-34Sa 344.90 28.22 316.68MW-34D 344.78 28.34 316.44MW-35 316.94 Under Water -
MW-203S 344.58 22.30 322.28 *MW-203M 344.83 29.52 315.31MW-203D 345.26 29.71 315.55MW-210S 347.64 31.00 316.64MW-210M 347.52 31.48 316.04MW-210D 346.71 30.32 316.39MW-215D 346.56 30.28 316.28MW-215M 346.63 30.38 316.25MW-215S 346.56 30.33 316.23MW-216S 335.96 19.58 316.38MW-216M 336.02 19.62 316.40MW-216D 335.45 19.51 315.94MW-217S 346.92 32.98 313.94MW-217M 349.95 34.65 315.30MW-217D 345.18 32.91 312.27
* = Readings may reflect a perched water table
pw-123(BFG)04235-113-121 Page 2 of 4 6/26/96
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-218S 346.93 31.55 315.38MW-218M 347.17 30.84 316.33MW-218D 346.38 30.00 316.38MW-222M 344.69 28.42 316.27MW-222S 341.91 Unable to measure -MW-222D 344.95 27.30 317.65MW-223S 326.51 16.77 309.74MW-223D 326.50 16.98 309.52MW-224D 318.29 Under Water -MW-224M 319.22 Under Water -MW-225D 319.03 Under Water -MW-229S 333.85 17.27 316.58MW-229M 334.30 17.70 316.60MW-229D 333.80 17.22 316.58MW-230S 340.3 23.73 316.57MW-230M 340.23 Unable to measure -MW-230D 340.42 24.11 316.31MW-231S 346.35 29.82 316.53MW-231M 346.39 28.56 317.83MW-231D 346.67 30.32 316.35MW-232D 325.56 11.45 314.11MW-232S 326.12 13.68 312.44MW-233S 347.68 30.65 317.03MW-233M 347.67 31.45 316.22MW-233D 347.56 31.33 316.23MW-234S 349.22 32.59 316.63MW-234M 349.04 33.61 315.43MW-234D 348.97 32.04 316.93MW-235S 341.22 23.82 317.40MW-235M 341.03 24.83 316.20MW-235D 341.31 25.07 316.24MW-238D 337.68 21.20 316.48MW-238M 337.66 21.22 316.44MW-238S 337.96 21.49 316.47MW-240S 351.07 35.00 316.07MW-240M 351.14 34.78 316.36MW-240D 351.33 34.72 316.61
GA-1 320.37 4.14 316.23GA-2 320.11 1.70 318.41GA-3 325.73 9.71 316.02GA-4 325.43 9.31 316.12GA-5 344.62 28.20 316.42GA-6 345.10 27.72 317.38GA-7 350.06 32.99 317.07
pw-123(BFG)04235-113-121 Page 3 of 4 6/26/96
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-8 350.60 34.67 315.93GA-19 330.26 14.67 315.59GA-20 329.21 13.85 315.36GA-21 323.72 7.38 316.34GA-22 323.65 8.58 315.07GA-23 328.78 12.96 315.82GA-24 329.30 12.95 316.35GA-25 322.30 6.60 315.70GA-26 322.68 6.11 316.57GA-27 314.05 Under Water -GA-28 316.16 Under Water -GA-29 320.17 Under Water -GA-30 319.96 Under Water -GA-33 341.98 26.05 315.93GA-34 341.75 26.12 315.63GA-35 344.48 27.20 317.28GA-36 344.72 29.36 315.36
LMW-20 314.63 Under Water -LMW-21 346.83 30.00 316.83
Airco #1S 342.53 26.22 316.31Airco #1M 342.13 25.75 316.38Airco #1D 343.15 26.77 316.38Airco #5S 350.47 34.00 316.47Airco #5M 350.00 32.45 317.55Airco #5D 350.30 33.77 316.53
SW1918 342.78 Unable to measure -SW1920 350.49 Unable to measure -SW1921 350.49 36.25 314.24SW1924 345.50 34.63 310.87SW1925 340.90 29.23 311.67SW1926 337.13 33.32 303.81SW1942 341.77 44.43 297.34SW1943 340.44 25.55 314.89
BW-1928 322.99 26.64 296.35BW-1929 327.30 20.53 306.77BW-1930 325.23 33.65 291.58BW-1931 320.95 22.23 298.72BW-1932 317.87 Under Water -
pw-123(BFG)04235-113-121 Page 4 of 4 6/26/96
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1933 320.00 25.65 294.35BW-1934 319.70 23.52 296.18BW-1935 331.37 Unable to measure -BW-1936 338.62 50.62 288.00BW-1937 338.35 43.82 294.53BW-1938 333.54 Unable to measure -BW-1939 338.16 47.27 290.89BW-1940 341.04 37.29 303.75BW-1941 344.60 Unable to measure -BW-1944 317.19 Under Water -BW-1945 321.17 14.48 306.69BW-1946 316.49 Under Water -BW-1947 346.83 34.90 311.93BW-1948 317.64 Under Water -BW-1949 317.59 Under Water -
OW1913 343.14 27.73 315.41OW1914 342.22 27.98 314.24OW1915 343.11 Unable to measure -OW1916 343.80 7.12 336.68 †OW1917 347.57 Unable to measure -OW1919 347.46 Unable to measure -OW1922 351.37 8.44 342.93 †OW1923 351.93 38.81 313.12
PC-1 319.56 5.21 314.35PC-2 325.00 12.51 312.49PC-3 323.24 12.31 310.93PC-4 324.00 14.39 309.61PC-5 323.50 15.42 308.08PC-6 318.91 Under Water -PC-7 341.38 30.14 311.24PC-8 336.68 24.62 312.06PC-9 337.36 24.27 313.09
PC-10 346.01 33.27 312.74PC-11 343.95 29.63 314.32
P-44 324.20 14.88 309.32P-45 324.50 16.00 308.50P-47 NA Unable to measure -
† = Readings are not believed to be accurate due to high sediment content in well
pw-123(BFG)04235-113-121 6/26/96Page 1 of 5
TABLE 4
GROUNDWATER ELEVATION MEASUREMENTSSECOND QUARTER 1996
BFGOODRICH COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 33.14 309.95MW-2 342.21 31.96 310.25MW-3 346.40 35.85 310.55
MW-8D 345.18 27.25 317.93MW-14 328.79 20.22 308.57
MW-14A 331.26 22.75 308.51MW-15 NA Unable to Measure -
MW-15A 345.19 301.01 44.18MW-16 343.36 30.27 313.09MW-17 320.23 4.87 315.36MW-19 349.31 12.56 336.75MW-22 327.78 11.93 315.85MW-23 344.41 29.43 314.98
MW-24D 345.95 12.02 333.93MW-25 344.48 5.18 339.30
MW-26Ma 345.07 29.70 315.37MW-26D 345.43 31.68 313.75MW-32S 343.19 35.63 307.56MW-32D 343.31 35.82 307.49MW-33S 345.49 30.73 314.76MW-33D 345.44 31.68 313.76MW-34Sa 344.90 30.67 314.23MW-34D 344.78 30.61 314.17MW-36 321.25 13.00 308.25MW-37 336.50 27.98 308.52MW-41 307.95 Under Water -MW-43 347.63 34.23 313.40
MW-201S 347.55 30.12 317.43MW-201M 348.38 48.55 299.83MW-202S 352.16 39.72 312.44MW-202D 352.43 36.64 315.79MW-203S 344.58 21.32 323.26MW-203M 344.83 28.51 316.32MW-203D 345.26 30.47 314.79MW-204S 350.86 33.67 317.19MW-204D 350.87 33.70 317.17MW-205S 351.75 32.62 319.13MW-205M 351.72 34.70 317.02
pw-123(BFG)04235-113-121 6/26/96Page 2 of 5
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-206S 347.42 29.52 317.90MW-206M 347.41 30.27 317.14MW-207D 353.87 38.18 315.69MW-207S 352.94 32.12 320.82MW-207M 353.06 36.57 316.49MW-208S 348.04 29.27 318.77MW-208M 347.71 32.19 315.52MW-211S 350.45 31.62 318.83MW-211M 350.35 34.20 316.15MW-215D 346.56 28.21 318.35MW-215S 346.56 29.35 317.21MW-216S 335.96 18.00 317.96MW-216M 336.02 18.10 317.92MW-216D 335.45 18.02 317.43MW-217S 346.92 32.00 314.92MW-217D 345.18 31.90 313.28MW-218S 346.93 28.66 318.27MW-218D 346.38 29.36 317.02MW-222M 344.69 27.29 317.40MW-222S 341.91 Unable to measure -MW-222D 344.95 26.21 318.74MW-223S 326.51 14.82 311.69MW-223D 326.50 15.38 311.12MW-224D 318.29 7.61 310.68MW-224M 319.22 12.12 307.10MW-225D 319.03 11.47 307.56MW-229S 333.85 25.70 308.15MW-229M 334.30 26.16 308.14MW-229D 333.80 25.65 308.15MW-230S 340.3 21.96 318.34MW-230M 340.23 Unable to measure -MW-230D 340.42 22.04 318.38MW-231S 346.35 29.00 317.35MW-231D 346.67 29.37 317.30MW-232D 325.56 12.88 312.68MW-232S 326.12 13.99 312.13MW-233S 347.68 29.71 317.97MW-233M 347.67 30.13 317.54MW-233D 347.56 29.98 317.58MW-235S 341.22 22.28 318.94MW-235M 341.03 23.30 317.73MW-235D 341.31 24.56 316.75
pw-123(BFG)04235-113-121 6/26/96Page 3 of 5
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-238D 337.68 19.60 318.08MW-238M 337.66 19.60 318.06MW-238S 337.96 19.86 318.10MW-240S 351.07 34.90 316.17MW-240D 351.33 34.96 316.37MW-241S 347.07 31.91 315.16MW-241M 346.58 32.53 314.05MW-241D 346.02 32.26 313.76MW-242S 348.57 32.19 316.38MW-242M 348.90 32.73 316.17MW-242D 349.00 33.90 315.10MW-244S 349.12 32.86 316.26MW-244M 349.19 34.00 315.19MW-244D 349.11 34.22 314.89
GA-1 320.37 5.61 314.76GA-2 320.11 5.16 314.95GA-3 325.73 14.58 311.15GA-4 325.43 14.92 310.51GA-5 344.62 26.68 317.94GA-6 345.10 26.25 318.85GA-7 350.06 25.35 324.71GA-8 350.60 33.88 316.72
GA-19 330.26 18.55 311.71GA-25 322.30 12.09 310.21GA-26 322.68 11.36 311.32GA-27 314.05 Under Water -GA-28 316.16 Under Water -GA-29 320.17 4.84 315.33GA-30 319.96 Unable to measure -GA-33 341.98 24.80 317.18GA-34 341.75 27.20 314.55GA-35 344.48 26.90 317.58GA-36 344.72 30.13 314.59
LMW-20 314.63 Under Water -LMW-21 346.83 29.00 317.83
Airco #1S 342.53 24.23 318.30Airco #1D 343.15 25.26 317.89Airco #5S 350.47 33.75 316.72Airco #5D 350.30 33.12 317.18
pw-123(BFG)04235-113-121 6/26/96Page 4 of 5
TABLE 4 (Continued)
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MonitoringWell Number
SW1918 342.78 Unable to measure -SW1920 350.49 Unable to measure -SW1921 350.49 33.61 316.88SW1924 345.50 40.10 305.40SW1925 340.90 32.24 308.66SW1926 337.13 32.26 304.87SW1942 341.77 52.49 289.28SW1943 340.44 25.82 314.62
BW-1928 322.99 32.25 290.74BW-1929 327.30 18.02 309.28BW-1930 325.23 41.14 284.09BW-1931 320.95 27.65 293.30BW-1932 317.87 32.90 284.97BW-1933 320.00 25.42 294.58BW-1934 319.70 25.97 293.73BW-1935 331.37 29.00 302.37BW-1936 338.62 50.51 288.11BW-1937 338.35 7.27 331.08*BW-1938 333.54 Unable to measure -BW-1939 338.16 47.57 290.59BW-1940 341.04 41.98 299.06BW-1941 344.60 Unable to measure -BW-1944 317.19 12.62 304.57BW-1945 321.17 15.27 305.90BW-1946 316.49 Under Water -BW-1947 346.83 18.22 328.61*BW-1948 317.64 9.86 307.78BW-1949 317.59 16.57 301.02
OW1913 343.14 10.78 332.36*OW1914 342.22 27.96 314.26OW1915 343.11 29.30 313.81OW1916 343.80 5.99 337.81*OW1917 347.57 Unable to measure -OW1919 347.46 Unable to measure -OW1922 351.37 1.69 349.68*OW1923 351.93 41.89 310.04
PC-1 319.56 Under Water -PC-2 325.00 Under Water -PC-3 323.24 Under Water -
pw-123(BFG)04235-113-121 6/26/96Page 5 of 5
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
PC-4 324.00 Under Water -PC-5 323.50 Under Water -PC-6 318.91 Under Water -PC-7 341.38 28.30 313.08PC-8 336.68 23.15 313.53PC-9 337.36 22.62 314.74
PC-10 346.01 31.95 314.06PC-11 343.95 26.85 317.10PC-12 348.89 31.85 317.04
P-40 339.58 31.92 307.66P-44 324.20 15.45 308.75P-45 324.50 17.75 306.75P-46 321.21 9.19 312.02
*= Readings are not believed to be accurate due to high sediment content in well.
CJ-166-(BFG)04235-113-121 12/20/96Page 1 of 4
TABLE 3
GROUNDWATER ELEVATION MEASUREMENTSTHIRD QUARTER 1996
BFGOODRICH COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 36.42 306.67MW-2 342.21 35.24 306.97MW-3 346.40 40.78 305.62
MW-8S 344.83 27.45 317.38MW-8D 345.18 25.24 319.94MW-9 343.21 24.28 318.93
MW-10 343.14 25.84 317.30MW-14 328.79 22.22 306.57
MW-14A 331.26 26.00 305.26MW-15 345.19 40.13 305.06MW-16 343.36 39.95 303.41MW-17 320.23 14.80 305.43MW-22 327.78 20.82 306.96MW-23 344.41 36.04 308.37
MW-26Ma 345.07 DRY -MW-26Da 345.43 40.73 304.70MW-32Sa 343.19 37.64 305.55MW-32Da 343.31 38.16 305.15MW-33Sa 345.49 41.88 303.61MW-33Da 345.44 41.38 304.06MW-34Sa 344.90 DRY -MW-34Da 344.78 40.37 304.41
MW-36 321.25 16.13 305.12MW-37 336.50 29.62 306.88MW-43 347.63 33.86 313.77
MW-201M 348.38 29.85 318.53MW-202S 352.16 33.00 319.16MW-203M 344.83 26.55 318.28MW-204M 350.87 31.74 319.13MW-205M 351.72 33.03 318.69MW-206M 347.41 29.33 318.08MW-207M 353.06 34.50 318.56MW-208M 347.71 30.33 317.38MW-210M 347.52 29.64 317.88MW-210D NA 28.20 -MW-211M 350.35 32.02 318.33MW-215D 346.56 28.32 318.24MW-215S 346.56 28.16 318.40MW-216S 335.96 17.02 318.94
CJ-166-(BFG)04235-113-121 12/20/96Page 2 of 4
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-216D 335.45 17.36 318.09MW-217S 346.92 30.40 316.52MW-217D 345.18 30.77 314.41MW-218S 346.93 27.82 319.11MW-218D 346.38 27.45 318.93MW-222S 341.91 22.90 319.01MW-222D 344.95 25.25 319.70MW-223S 326.51 17.37 309.14MW-223D 326.50 17.74 308.76MW-224S 318.27 12.76 305.51MW-224D 318.29 11.94 306.35MW-225D 319.03 14.07 304.96MW-229S 333.85 15.07 318.78MW-229D 333.80 15.06 318.74MW-230S 340.30 21.14 319.16MW-230D 340.42 22.11 318.31MW-231S 346.35 27.06 319.29MW-231D 346.67 28.13 318.54MW-232D 325.56 17.37 308.19MW-232S 326.12 18.26 307.86MW-233S 347.68 27.95 319.73MW-233D 347.56 30.20 317.36MW-235S 341.22 23.19 318.03MW-235D 341.31 21.76 319.55MW-238D 337.68 19.25 318.43MW-238S 337.96 19.10 318.86MW-240S 351.07 31.86 319.21MW-240D 351.33 Unable to Measure -MW-242S 348.57 29.12 319.45
GA-1 320.37 13.37 307.00GA-2 320.11 13.55 306.56GA-3 325.73 24.94 300.79GA-4 325.43 24.79 300.64GA-5 344.62 26.20 318.42GA-6 345.10 25.46 319.64GA-7 350.06 DRY -GA-8 350.60 33.70 316.90
GA-19 330.26 14.12 316.14GA-20 329.21 23.34 305.87GA-21 323.72 18.67 305.05GA-22 323.65 16.75 306.90GA-23 328.78 23.55 305.23
CJ-166-(BFG)04235-113-121 12/20/96Page 3 of 4
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-24 329.30 24.47 304.83GA-25 322.30 17.88 304.42GA-26 322.68 15.67 307.01GA-27 314.05 10.81 303.24GA-28 316.16 12.67 303.49GA-29 320.17 17.17 303.00GA-30 319.96 16.41 303.55GA-33 341.98 21.35 320.63GA-34 341.75 31.36 310.39GA-35 344.48 25.87 318.61GA-36 344.72 33.03 311.69
LMW-20 314.63 10.64 303.99LMW-21 346.83 27.86 318.97
Airco #1S 342.53 23.85 318.68Airco #1D 343.15 24.74 318.41Airco #5S 350.47 31.00 319.47Airco #5D 350.30 35.07 315.23
SW1918 342.78 Unable to measure -SW1920 350.49 Unable to measure -SW1921 350.49 32.52 317.97SW1924 345.50 40.95 304.55SW1925 340.90 34.60 306.30SW1926 337.13 55.42 281.71SW1942 341.77 37.11 304.66SW1943 340.44 31.62 308.82
BW-1928 322.99 unable to measure -BW-1929 327.30 41.24 286.06BW-1930 325.23 43.80 281.43BW-1931 320.95 31.67 289.28BW-1932 317.87 29.63 288.24BW-1933 320.00 27.82 292.18BW-1934 319.70 19.44 300.26BW-1935 331.37 Unable to measure -BW-1936 338.62 55.40 283.22BW-1937 338.35 36.22 302.13BW-1938 333.54 Unable to measure -BW-1939 338.16 67.70 270.46BW-1940 341.04 52.48 288.56BW-1941 344.60 Unable to measure -BW-1944 317.19 Unable to measure -BW-1945 321.17 21.62 299.55
CJ-166-(BFG)04235-113-121 12/20/96Page 4 of 4
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1946 316.49 19.62 296.87BW-1947 346.83 41.06 305.77BW-1948 317.64 17.48 300.16BW-1949 317.59 20.59 297.00
OW1913 343.14 Unable to measure -OW1914 342.22 26.69 315.53OW1915 343.11 Unable to measure -OW1916 343.80 35.42 308.38OW1917 347.57 Unable to measure -OW1919 347.46 Unable to measure -OW1922 351.37 Unable to measure -OW1923 351.93 42.03 309.90
PC-1 319.56 13.95 305.61PC-2 325.00 16.68 308.32PC-3 323.24 14.25 308.99PC-4 324.00 14.55 309.45PC-5 323.50 15.24 308.26PC-6 318.91 12.12 306.79PC-7 341.38 30.98 310.40PC-8 336.68 26.41 310.27PC-9 337.36 25.22 312.14
PC-10 346.01 33.51 312.50PC-11 343.95 31.85 312.10PC-12 349.79 30.72 319.07
P-44 324.20 16.43 307.77P-45 324.50 19.68 304.82P-46 321.21 18.91 302.30
* = Depth to groundwater measurements collected on July 18-19, 1996
CJ-166(BFG)04235-113-121 Page 1 of 5 12/20/96
TABLE 4
GROUNDWATER ELEVATION MEASUREMENTSFOURTH QUARTER 1996
BFGOODRICH COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 31.24 DRYMW-2 342.21 35.54 306.67MW-3 346.40 39.61 306.79
MW-8S 344.83 30.00 314.83MW-8D 345.18 28.28 316.90MW-9 343.21 26.07 317.14
MW-10 343.14 27.74 315.40MW-14 328.79 23.95 304.84
MW-14A 331.26 26.05 305.21MW-15 345.19 39.93 DRYMW-16 343.36 38.58 304.78MW-17 320.23 15.17 305.06MW-22 327.78 23.29 304.49MW-23 344.41 33.12 311.29
MW-26Ma 345.07 DRY -MW-26Da 345.43 41.49 303.94MW-27D 323.99 10.04 313.95MW-32Sa 343.19 38.42 304.77MW-32Da 343.31 38.32 304.99MW-33Sa 345.49 41.98 303.51MW-33Da 345.44 41.91 303.53MW-34Sa 344.90 41.24 303.66MW-34Da 344.78 41.06 303.72
MW-35 317.27 17.32 299.95MW-37 336.50 31.13 305.37MW-38 320.95 16.91 304.04MW-41 307.95 4.42 303.53MW-43 347.63 35.56 312.07
MW-201M 348.38 31.70 316.68MW-202S 352.16 DRY -MW-303M 344.83 32.23 312.60MW204M 350.87 33.86 317.01MW-205M 351.72 35.59 316.13MW-206M 347.41 30.95 316.46MW-207S 352.94 37.10 315.84MW-207M 353.06 37.28 315.78MW-208M 347.71 34.42 313.29MW-210M 347.52 31.16 316.36MW-210D NA 30.02 -MW-211M 350.35 35.35 315.00
CJ-166(BFG)04235-113-121 Page 2 of 5 12/20/96
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-215D 346.56 28.32 318.24MW-215S 346.56 29.82 316.74MW-216S 335.96 18.81 317.15MW-216D 335.45 19.11 316.34MW-217S 346.92 32.14 314.78MW-217D 345.18 32.71 312.47MW-218S 346.93 30.28 316.65MW-218D 346.38 19.79 326.59MW-222S 341.91 24.95 316.96MW-222D 344.95 26.83 318.12MW-223S 326.51 21.54 304.97MW-223D 326.50 21.66 304.84MW-224S 318.27 11.53 306.74MW-224D 318.29 14.11 304.18MW-225D 319.03 17.01 302.02MW-229S 333.85 17.01 316.84MW-229D 333.80 17.00 316.80MW-230S 340.3 17.75 322.55MW-230D 340.42 18.66 321.76MW-231S 346.35 28.67 317.68MW-231D 346.67 29.77 316.90MW-232D 325.56 29.87 295.69MW-232S 326.12 21.53 304.59MW-233S 347.68 29.56 318.12MW-233D 347.56 31.75 315.81MW-235S 341.22 23.09 318.13MW-235D 341.31 24.72 316.59MW-238D 337.68 20.81 316.87MW-238S 337.96 20.97 316.99MW-240S 351.07 34.05 317.02MW-240D 351.33 39.54 311.79MW-241S 347.07 33.79 313.28MW-241M 346.58 34.46 312.12MW-241D 346.02 35.29 310.73MW-242S 348.57 32.58 315.99MW-244S 349.12 34.02 315.10MW-244M 349.19 36.77 312.42MW-244D 349.11 37.08 312.03
GA-1 320.37 DRY -GA-2 320.11 15.76 304.35GA-5 344.62 28.18 316.44GA-6 345.10 27.86 317.24
CJ-166(BFG)04235-113-121 Page 3 of 5 12/20/96
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-7 350.06 33.06 317.00GA-8 350.60 35.90 314.70
GA-15 325.30 20.15 305.15GA-16 325.91 21.23 304.68GA-19 330.26 26.95 303.31GA-20 329.21 25.84 303.37GA-21 323.72 21.13 302.59GA-22 323.65 17.83 305.82GA-23 328.78 26.58 302.20GA-24 329.30 26.96 302.34GA-25 322.30 20.91 301.39GA-26 322.68 17.95 304.73GA-27 314.05 13.21 300.84GA-28 316.16 14.92 301.24GA-29 320.17 19.58 300.59GA-30 319.96 19.02 300.94GA-31 337.91 35.29 302.62GA-32 337.86 31.74 306.12GA-33 341.98 27.32 314.66GA-34 341.75 33.38 308.37GA-35 344.48 27.38 317.10GA-36 344.72 35.28 309.44
LMW-20 314.63 13.42 301.21LMW-21 346.83 30.09 316.74
Airco #1S 342.53 25.39 317.14 Airco #1D 343.15 26.36 316.79 Airco #5S 350.47 32.79 317.68 Airco #5D 350.30 36.89 313.41
SW1918 342.78 Unable to measure -SW1920 350.49 Unable to measure -SW1921 350.49 34.42 316.07SW1924 345.50 36.17 309.33SW1925 340.90 29.30 311.60SW1926 337.13 Unable to measure -SW1942 341.77 46.67 295.10SW1943 340.44 33.49 306.95
BW-1928 322.99 36.96 286.03BW-1929 327.30 42.89 284.41BW-1930 325.23 34.02 291.21BW-1931 320.95 Unable to measure -BW-1932 317.87 19.18 298.69
CJ-166(BFG)04235-113-121 Page 4 of 5 12/20/96
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1933 320.00 27.28 292.72BW-1934 319.70 30.69 289.01BW-1935 331.37 Unable to measure -BW-1936 338.62 49.11 289.51BW-1937 338.35 49.44 288.91BW-1938 333.54 Unable to measure -BW-1939 338.16 40.99 297.17BW-1940 341.04 46.18 294.86BW-1941 344.60 Unable to measure -BW-1944 317.19 28.72 288.47BW-1945 321.17 19.41 301.76BW-1946 316.49 19.14 297.35BW-1947 346.83 50.33 296.50BW-1948 317.64 18.05 299.59BW-1949 317.59 19.50 298.09BW-1950 348.63 Unable to measure -BW-1951 343.96 Unable to measure -BW-1952 345.85 Unable to measure -BW-1953 343.74 Unable to measure -
OW1913 343.14 Unable to measure -OW1914 342.22 28.07 314.15OW1915 343.11 29.31 313.80OW1916 343.80 41.67 302.13OW1917 347.57 Unable to measure -OW1919 347.46 Unable to measure -OW1922 351.37 39.49 311.88OW1923 351.93 38.80 313.13
PC-1 319.56 15.45 304.11PC-2 325.00 20.00 305.00PC-3 323.24 18.12 305.12PC-4 324.00 18.80 305.20PC-5 323.50 19.53 303.97PC-6 318.91 14.89 304.02PC-7 341.38 32.50 308.88PC-8 336.68 29.22 307.46PC-9 337.36 33.28 304.08
PC-10 346.01 36.60 309.41PC-11 343.95 34.73 309.22PC-12 349.79 30.72 319.07
P-40 339.58 34.69 304.89P-44 324.20 17.55 306.65P-45 324.50 20.88 303.62
CJ-166(BFG)04235-113-121 Page 5 of 5 12/20/96
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
P-46 321.21 18.11 303.10
* Depth to groundwater measurements collected on November 4-6, 1996.
CJ-166(B)04235-119-121 Page 1 of 4 6/24/97
TABLE 3
GROUNDWATER ELEVATION MEASUREMENTSFIRST QUARTER 1997
BFGOODRICH COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 Unable to measure -MW-2 342.21 Unable to measure -MW-3 346.40 35.31 311.09
MW-8D 345.18 26.71 318.47MW-9 343.21 26.07 317.14
MW-10 343.14 25.91 317.23MW-14 328.79 14.35 314.44
MW-14A 331.26 14.66 316.60MW-15 345.19 Unable to measure -MW-16 343.36 25.12 318.24MW-17 320.23 Under Water -
MW-26Ma 345.07 26.37 318.70MW-26Da 345.43 29.31 316.12MW-27D 323.99 Under Water -MW-32Sa 343.19 28.50 314.69MW-32Da 343.31 30.79 312.52MW-33Sa 345.49 28.62 316.87MW-33Da 345.44 27.67 317.77MW-34Sa 344.90 24.73 320.17MW-34Da 344.78 28.41 316.37
MW-35 317.27 Under Water -MW-37 336.50 31.13 305.37MW-38 320.95 Under Water -MW-41 307.95 Under Water -MW-43 347.63 30.78 316.85
MW-201M 348.38 31.11 317.27MW-202S 352.16 34.20 317.96MW-203M 344.83 26.25 318.58MW-204M 350.87 23.95 326.92MW-205M 351.72 33.80 317.92MW-206M 347.41 28.97 318.44MW-207M 353.06 35.33 317.73MW-208M 347.71 33.28 314.43MW-210M 347.52 29.60 317.92MW-210S 347.56 29.16 318.40MW-211M 350.35 33.29 317.06MW-215D 346.56 28.03 318.53MW-215S 346.56 28.02 318.54
CJ-166(B)04235-119-121 Page 2 of 4 6/24/97
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-216S 335.96 17.55 318.41MW-216D 335.45 17.60 317.85MW-217S 346.92 31.15 315.77MW-217D 345.18 30.93 314.25MW-218S 346.93 28.20 318.73MW-218D 346.38 28.45 317.93MW-222S 341.91 Under Water -MW-222D 344.95 26.31 318.64MW-223S 326.51 Under Water -MW-223D 326.50 Under Water -MW-224S 318.27 Under Water -MW-224D 318.29 Under Water -MW-225D 319.03 Under Water -MW-229S 333.85 15.10 318.75MW-229D 333.80 15.19 318.61MW-230S 340.3 21.57 318.73MW-230D 340.42 21.75 318.67MW-231S 346.35 26.66 319.69MW-231D 346.67 28.11 318.56MW-232D 325.56 Under Water -MW-232S 326.12 Under Water -MW-233S 347.68 28.83 318.85MW-233D 347.56 29.34 318.22MW-235S 341.22 21.52 319.70MW-235D 341.31 22.89 318.42MW-238D 337.68 19.00 318.68MW-238S 337.96 19.31 318.65MW-240S 351.07 32.64 318.43MW-240D 351.33 31.97 319.36MW-241S 347.07 31.57 315.50MW-242S 348.57 31.40 317.17MW-244S 349.12 32.75 316.37
GA-1 320.37 4.36 316.01GA-2 320.11 3.87 316.24GA-5 344.62 26.20 318.42GA-6 345.10 26.89 318.21GA-7 350.06 30.16 319.90GA-8 350.60 33.32 317.28
GA-19 330.26 13.12 317.14GA-20 329.21 12.17 317.04
CJ-166(B)04235-119-121 Page 3 of 4 6/24/97
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-21 323.72 6.82 316.90GA-22 323.65 7.77 315.88GA-23 328.78 12.13 316.65GA-24 329.30 12.61 316.69GA-25 322.30 5.10 317.20GA-26 322.68 5.24 317.44GA-27 314.05 Under Water -GA-28 316.16 14.92 301.24GA-29 320.17 3.06 317.11GA-33 341.98 23.82 318.16GA-34 341.75 28.49 313.26GA-35 344.48 25.55 318.93GA-36 344.72 31.45 313.27
LMW-20 314.63 Under Water -LMW-21 346.83 27.59 319.24
Airco #1S 342.53 23.75 318.78Airco #1D 343.15 24.59 318.56Airco #5S 350.47 31.85 318.62Arico #5D 350.30 31.77 318.53
MC-1 348.49 31.86 316.63MC-2 349.66 29.89 319.77MC-3 349.84 33.64 316.20
SW1918 342.78 26.45 316.33SW1920 350.49 41.82 308.67SW1921 350.49 33.61 316.88SW1924 345.50 15.28 330.22SW1925 340.90 27.73 313.17SW1926 337.13 26.87 310.26SW1942 341.77 36.89 304.88SW1943 340.44 3.79 336.65
BW-1928 322.99 Under Water -BW-1929 327.30 Under Water -BW-1930 325.23 Under Water -BW-1931 320.95 Under Water -BW-1932 317.87 Under Water -BW-1933 320.00 Under Water -BW-1934 319.70 Under Water -BW-1935 331.37 24.67 306.70BW-1936 338.62 38.76 299.86BW-1937 338.35 50.52 287.83
CJ-166(B)04235-119-121 Page 4 of 4 6/24/97
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1938 333.54 30.42 303.12BW-1939 338.16 51.43 286.73BW-1940 341.04 62.02 279.02BW-1941 344.60 Unable to measure -BW-1944 317.19 Under Water -BW-1945 321.17 8.22 312.95BW-1946 316.49 Under Water -BW-1947 346.83 54.03 292.80BW-1948 317.64 Under Water -BW-1949 317.59 Under Water -BW-1950 348.63 Unable to measure -BW-1951 343.96 34.08 309.88BW-1952 345.85 46.77 292.80BW-1953 343.74 Unable to measure -
OW1913 343.14 Unable to measure -OW1914 342.22 26.61 315.61OW1915 343.11 28.01 315.10OW1916 343.80 39.42 304.38OW1917 347.57 42.22 305.35OW1919 347.46 29.99 317.47OW1922 351.37 24.24 327.13OW1923 351.93 41.26 310.67
PC-1 319.56 Under Water -PC-2 325.00 Under Water -PC-3 323.24 Under Water -PC-4 324.00 Under Water -PC-5 323.50 Under Water -PC-6 318.91 Unable to measure -PC-7 341.38 28.34 313.04PC-8 336.68 24.44 312.24PC-9 337.36 28.83 308.53
PC-10 346.01 32.71 313.30PC-11 343.95 27.83 316.12PC-12 349.79 30.71 319.08
P-40 339.58 Under Water -P-44 324.20 Under Water -P-45 324.50 Under Water -P-46 321.21 Under Water -
* Depth to groundwater measurements collected on January 28-29, 1997.
CJ-166(B)04235-119-121 Page 1 of 5 6/24/97
TABLE 4
GROUNDWATER ELEVATION MEASUREMENTSSECOND QUARTER 1997
BFGOODRICH COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 27.64 315.45MW-2 342.21 28.72 313.49MW-3 346.40 29.87 316.53
MW-8S 346.92 24.21 322.71MW-8D 345.18 25.27 319.91MW-9 343.21 - -
MW-10 343.14 22.42 320.72MW-14 328.79 10.36 318.43
MW-14A 331.26 18.11 313.15MW-15 345.19 37.54 307.65MW-16 343.36 - -MW-17 320.23 9.94 310.29MW-22 327.78 - -MW-23 344.41 27.84 316.57MW-24 345.95 26.64 319.31
MW-26Ma 345.07 37.04 308.03MW-26Da 345.43 36.69 308.74MW-27S 323.95 8.49 315.46MW-27D 323.99 8.92 315.07MW-32Sa 343.19 35.46 307.73MW-32Da 343.31 36.94 306.37MW-33Sa 345.49 37.67 307.82MW-33Da 345.44 34.93 310.51MW-34Sa 344.90 34.82 310.08MW-34Da 344.78 35.94 308.84
MW-35 317.27 8.76 308.51 MW-36 321.25 7.09 314.16MW-37 336.50 - -MW-38 320.95 9.98 310.97MW-39 318.88 8.79 310.09MW-41 307.95 - -MW-43 347.63 29.04 318.59
MW-201M 348.38 25.87 322.51MW-202S 352.16 33.07 -MW-203M 344.83 23.16 321.67MW-204M 350.87 29.74 321.13MW-205M 351.72 29.10 322.62MW-206M 347.41 24.32 323.09MW-207S 352.94 - -MW-207M 353.06 - -
CJ-166(B)04235-119-121 Page 2 of 5 6/24/97
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-208M 347.71 27.43 320.28MW-210S 347.54 25.04 322.50MW-210M 347.52 25.67 321.85MW210D 346.71 - -
MW-211M 350.35 28.47 321.88MW-215S 346.56 23.69 322.87MW-215D 346.56 24.11 322.45MW-216S 335.96 13.91 322.05MW-216D 335.45 14.16 321.29MW-217S 346.92 27.91 319.01MW-217D 345.18 27.26 317.92MW-218S 346.93 24.63 322.30MW-218D 346.38 24.10 322.28MW-222S 341.91 - -MW-222D 344.95 21.87 323.08MW-223S 326.51 11.64 314.87MW-223D 326.50 10.62 315.88MW-224S 318.27 6.21 312.06MW-224D 318.29 6.78 311.51MW-225D 319.03 4.87 314.16MW-229S 333.85 11.47 322.38MW-229D 333.80 11.73 322.07MW-230S 340.30 27.21 313.09MW-230D 340.42 28.64 311.78MW-231S 346.35 23.96 322.39MW-231D 346.67 23.96 322.71MW-232S 326.12 14.21 311.91MW-232D 325.56 12.87 312.69MW-233S 347.68 31.24 316.44MW-233D 347.56 32.79 314.77MW-235S 341.22 27.73 313.49MW-235D 341.31 29.42 311.89MW-238D 337.68 15.76 321.92MW-238S 337.96 15.69 322.27MW-240S 351.07 29.21 321.86MW-240D 351.33 33.71 317.62MW-241S 347.07 26.08 320.99MW241M 346.58 - -MW-241D 346.02 - -MW-242S 348.57 27.83 320.74MW-244S 349.12 28.67 320.45MW-244M 349.19 - -MW-244D 349.11 - -
CJ-166(B)04235-119-121 Page 3 of 5 6/24/97
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-1 320.37 9.78 -GA-2 320.11 9.12 310.99GA-3 325.43 19.89 305.54GA-4 325.73 20.24 305.49GA-5 344.62 22.67 321.95GA-6 345.10 22.43 322.67GA-7 350.06 24.78 325.28GA-8 350.60 29.89 320.71
GA-15 325.30 - -GA-16 325.91 - -GA-19 330.26 17.12 313.14GA-20 329.21 18.04 311.17GA-21 323.72 12.50 311.22GA-22 323.65 9.36 314.29GA-23 328.78 18.64 310.14GA-24 329.30 17.73 311.57GA-25 322.30 11.83 310.47GA-26 322.68 10.05 312.63GA-27 314.05 7.12 306.93GA-28 316.16 - -GA-29 320.17 9.73 310.44GA-30 319.96 11.21 308.75GA-31 337.91 - -GA-32 337.86 - -GA-33 341.98 22.46 319.52GA-34 341.75 28.73 313.02GA-35 344.48 22.78 321.70GA-36 344.72 29.64 315.08
LMW-20 314.63 5.06 309.57LMW-21 346.83 24.48 322.35
Airco #1S 342.53 27.47 315.06Airco #1D 343.15 28.42 314.73Airco #5S 350.47 26.74 323.73Airco #5D 350.30 25.82 324.48
SW1918 342.78 22.42 320.36SW1920 350.49 35.51 314.98SW1921 350.49 30.96 319.53SW1924 345.50 33.18 312.32SW1925 340.90 29.86 311.04SW1926 337.13 21.10 316.03SW1942 341.77 41.42 300.35SW1943 340.44 - -
CJ-166(B)04235-119-121 Page 4 of 5 6/24/97
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1928 322.99 15.76 307.23BW-1929 327.30 26.24 301.06BW-1930 325.23 25.04 300.19BW-1931 320.95 23.02 297.93BW-1932 317.87 32.78 285.09BW-1933 320.00 39.87 280.13BW-1934 319.70 5.41 314.29BW-1935 331.37 16.84 314.53BW-1936 338.62 28.97 309.65BW-1937 338.35 42.96 295.39BW-1938 333.54 31.32 -BW-1939 338.16 56.62 281.54BW-1940 341.04 28.42 312.62BW-1941 344.60 - -BW-1944 317.19 8.96 308.23BW-1945 321.17 39.64 281.53BW-1946 316.49 16.08 300.41BW-1947 346.83 49.61 297.22BW-1948 317.64 9.86 307.78BW-1949 317.59 9.11 308.48BW-1950 348.63 42.71 305.92BW-1951 343.96 52.46 291.50BW-1952 345.85 38.42 307.43BW-1953 343.74 47.81 295.93
OW1913 343.14 29.27 313.87OW1914 342.22 29.42 312.80OW1915 343.11 26.14 316.97OW1916 343.80 38.74 305.06OW1917 347.57 - -OW1919 347.46 - -OW1922 351.37 36.78 314.59OW1923 351.93 42.46 309.47
PC-1 319.56 9.32 310.24PC-2 325.00 12.86 312.14PC-3 323.24 9.87 313.37PC-4 324.00 7.89 316.11PC-5 323.50 2.87 320.63PC-6 318.91 - -PC-7 341.38 27.56 313.82PC-8 336.68 22.57 314.11PC-9 337.36 26.64 310.72
PC-10 346.01 27.94 318.07PC-11 343.95 27.64 316.31
CJ-166(B)04235-119-121 Page 5 of 5 6/24/97
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
PC-12 349.79 27.84 321.95
P-40 339.58 6.02 333.56P-44 324.20 9.82 314.38P-45 324.50 9.64 314.86P-46 321.21 13.78 307.43
* Depth to groundwater measurements collected on April 10-11, 1997.- = Not measuredNA = Not available
CJ-166C04235-119-121 Page 1 of 4 12/30/97
TABLE 3
GROUNDWATER ELEVATION MEASUREMENTSTHIRD QUARTER 1997
BFGOODRICH COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 23.34 319.75MW-2 342.21 22.76 319.45MW-3 346.40 37.92 308.48
MW-8S 346.92 25.61 321.31MW-8D 345.18 24.13 321.05MW-10 343.14 21.32 321.82MW-14 328.79 20.76 308.03
MW-14A 331.26 17.03 314.23MW-15 345.19 37.82 307.37MW-16 343.36 21.94 321.42MW-17 320.23 11.73 308.50MW-22 327.78 25.67 302.11MW-23 344.41 - -MW-24 345.95 28.84 317.11
MW-26Ma 345.07 42.40 302.67MW-26Da 345.43 42.86 302.57MW-27S 323.95 13.49 310.46MW-27D 323.99 12.76 311.23MW-32Sa 343.19 33.75 309.44MW-32Da 343.31 33.42 309.89MW-33Sa 345.49 34.79 310.70MW-33Da 345.44 38.14 307.30MW-34Sa 344.90 37.32 307.58MW-34Da 344.78 37.26 307.52
MW-35 317.27 9.46 307.81MW-36 321.25 13.78 307.47MW-37 336.50 - -MW-38 320.95 15.62 305.33MW-39 318.88 13.76 305.12MW-41 307.95 9.92 298.03MW-43 347.63 24.67 322.96
MW-201M 348.38 28.46 319.92MW-202S 352.16 27.64 324.52MW-203M 344.83 21.73 323.10MW-204M 350.87 28.64 322.23MW-205M 351.72 29.63 322.09MW-206M 347.41 26.56 320.85MW-207M 353.06 29.42 323.64MW-208M 347.71 27.21 320.50MW-210S 347.54 25.87 321.67MW-210M 347.52 25.31 322.21MW-210D 346.71 - -
CJ-166C04235-119-121 Page 2 of 4 12/30/97
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-211M 350.35 28.73 321.62MW-215S 346.56 25.32 321.24MW-215D 346.56 25.47 321.09MW-216S 335.96 12.72 323.24MW-216D 335.45 11.95 323.50MW-217S 346.92 30.12 316.80MW-217D 345.18 28.48 316.70MW-218S 346.93 26.74 320.19MW-218D 346.38 26.01 320.37MW-222S 341.91 23.87 318.04MW-222D 344.95 23.36 321.59MW-223S 326.51 13.54 312.97MW-223D 326.50 13.76 312.74MW-224S 318.27 7.96 310.31MW-224D 318.29 8.32 309.97MW-225D 319.03 9.63 309.40MW-229S 333.85 13.13 320.72MW-229D 333.80 12.98 320.82MW-230S 340.30 18.67 321.63MW-230D 340.42 18.21 322.21MW-231S 346.35 25.78 320.57MW-231D 346.67 26.52 320.15MW-232S 326.12 15.73 310.39MW-232D 325.56 14.67 310.89MW-233S 347.68 24.56 323.12MW-233D 347.56 24.32 323.24MW-235S 341.22 19.64 321.58MW-235D 341.31 20.32 320.99MW-238D 337.68 10.24 327.44MW-238S 337.96 10.76 327.20MW-240S 351.07 36.01 315.06MW-240D 351.33 35.92 315.41MW-241S 347.07 28.56 318.51MW-242S 348.57 32.56 316.01MW-244S 349.12 23.61 325.51
GA-1 320.37 14.23 306.14GA-2 320.11 14.11 306.00GA-3 325.43 24.89 300.54GA-4 325.73 25.23 300.50GA-5 344.62 22.13 322.49GA-6 345.10 23.56 321.54GA-7 350.06 27.55 322.51GA-8 350.60 28.12 322.48GA-11 347.92 29.63 318.29GA-12 348.54 28.46 320.08
CJ-166C04235-119-121 Page 3 of 4 12/30/97
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-19 330.26 23.76 306.50GA-20 329.21 23.11 306.10GA-21 323.72 14.98 308.74GA-22 323.65 14.82 308.83GA-23 328.78 24.12 304.66GA-24 329.30 25.21 304.09GA-25 322.30 17.51 304.79GA-26 322.68 17.96 304.72GA-27 314.05 10.14 303.91GA-28 316.16 13.13 303.03GA-29 320.17 18.05 302.12GA-30 319.96 17.95 302.01GA-33 341.98 31.87 310.11GA-34 341.75 31.27 310.48GA-35 344.48 21.76 322.72GA-36 344.72 22.32 322.40
LMW-20 314.63 12.21 302.42LMW-21 346.83 25.81 321.02
Airco #1S 342.53 22.51 320.02Airco #1D 343.15 23.14 320.01Airco #5S 350.47 33.36 317.11Airco #5D 350.30 33.12 317.18
SW1918 342.78 38.23 304.55SW1920 350.49 36.76 313.73SW1921 350.49 37.38 313.11SW1924 345.50 38.36 307.14SW1925 340.90 36.37 304.03SW1926 337.13 33.76 303.37SW1942 341.77 31.36 310.41SW1943 340.44 32.76 307.68
BW-1928 322.99 36.21 286.78BW-1929 327.30 33.64 293.66BW-1930 325.23 37.68 287.55BW-1931 320.95 36.46 284.49BW-1932 317.87 28.86 289.01BW-1933 320.00 34.67 285.33BW-1934 319.70 36.62 283.08BW-1935 331.37 29.16 302.21BW-1936 338.62 41.52 297.10BW-1937 338.35 34.24 304.11BW-1938 333.54 35.12 298.42BW-1939 338.16 33.44 304.72
CJ-166C04235-119-121 Page 4 of 4 12/30/97
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1940 341.04 40.89 300.15BW-1941 344.60 22.67 321.93BW-1944 317.19 30.92 286.27BW-1945 321.17 21.07 300.10BW-1946 316.49 31.62 284.87BW-1947 346.83 43.82 303.01BW-1948 317.64 28.63 289.01BW-1949 317.59 31.48 286.11BW-1950 348.63 41.73 306.90BW-1951 343.96 52.73 291.23BW-1952 345.85 42.37 303.48BW-1953 343.74 40.63 303.11
OW1913 343.14 36.21 306.93OW1914 342.22 35.42 306.80OW1915 343.11 36.97 306.14OW1916 343.80 37.61 306.19OW1917 347.57 39.43 308.14OW1919 347.46 - -OW1922 351.37 32.73 318.64OW1923 351.93 42.84 309.09
PC-1 319.56 14.32 305.24PC-2 325.00 17.64 307.36PC-3 323.24 13.76 309.48PC-4 324.00 14.67 309.33PC-5 323.50 13.41 310.09PC-6 318.91 - -PC-7 341.38 29.97 311.41PC-8 336.68 26.92 309.76PC-9 337.36 25.24 312.12
PC-10 346.01 30.67 315.34PC-11 343.95 26.74 317.21PC-12 349.79 22.31 327.48
P-40 339.58 26.46 313.12P-44 324.20 18.17 306.03P-45 324.50 20.42 304.08P-46 321.21 Dry -
* Depth to groundwater measurements collected on July 9-10, 1997.- = Not measured
CJ-166C04235-119-121 Page 1 of 4 12/30/97
TABLE 4
GROUNDWATER ELEVATION MEASUREMENTSFOURTH QUARTER 1997
BFGOODRICH COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 DRY -MW-2 342.21 36.26 305.95MW-3 346.40 38.78 307.62
MW-8S 346.92 29.94 316.98MW-8D 345.18 26.90 318.28MW-10 343.14 26.17 316.97MW-14 328.79 21.73 307.06
MW-14A 331.26 22.55 308.71MW-15 345.19 DRY -MW-16 343.36 38.50 304.86MW-17 320.23 16.64 303.59MW-22 327.78 22.59 305.19MW-23 344.41 - -MW-24 345.95 Unable to Measure -
MW-26Ma 345.07 DRY -MW-26Da 345.43 41.09 304.34MW-27S 323.95 11.14 312.81MW-27D 323.99 10.26 313.73MW-32Sa 343.19 37.03 306.16MW-32Da 343.31 36.11 307.20MW-33Sa 345.49 41.98 303.51MW-33Da 345.44 41.91 303.53MW-34Sa 344.90 42.00 302.90MW-34Da 344.78 42.30 302.48
MW-35 317.27 17.02 300.25MW-36 321.25 18.24 303.01MW-37 336.50 - -MW-38 320.95 16.74 304.21MW-39 318.88 19.23 299.65MW-41 307.95 8.68 299.27MW-43 347.63 35.41 312.22
MW-201M 348.38 30.16 318.22MW-202S 352.16 34.34 317.82MW-203M 344.83 27.11 317.72MW-204M 350.87 33.27 317.60MW-205M 351.72 33.59 318.13MW-206M 347.41 29.81 317.60MW-207M 353.06 34.36 318.70MW-208M 347.71 31.92 315.79MW-210S 347.54 31.78 315.76MW-210M 347.52 30.93 316.59MW-210D 346.71 - -
CJ-166C04235-119-121 Page 2 of 4 12/30/97
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-211M 350.35 33.03 317.32MW-215S 346.56 28.54 318.02MW-215D 346.56 27.67 318.89MW-216S 335.96 18.50 317.46MW-216D 335.45 19.94 315.51MW-217S 346.92 31.31 315.61MW-217D 345.18 29.79 315.39MW-218S 346.93 29.67 317.26MW-218D 346.38 20.18 326.20MW-222S 341.91 25.24 316.67MW-222D 344.95 26.15 318.80MW-223S 326.51 20.96 305.55MW-223D 326.50 21.00 305.50MW-224S 318.27 18.36 299.91MW-224D 318.29 15.84 302.45MW-225D 319.03 16.83 302.20MW-229S 333.85 17.00 316.85MW-229D 333.80 16.98 316.82MW-230S 340.30 17.86 322.44MW-230D 340.42 18.76 321.66MW-231S 346.35 28.47 317.88MW-231D 346.67 28.92 317.75MW-232S 326.12 21.33 304.79MW-232D 325.56 20.73 304.83MW-233S 347.68 28.53 319.15MW-233D 347.56 32.08 315.48MW-235S 341.22 22.00 319.22MW-235D 341.31 23.45 317.86MW-238D 337.68 19.89 317.79MW-238S 337.96 20.26 317.70MW-240S 351.07 38.98 312.09MW-240D 351.33 38.60 312.73MW-241S 347.07 33.82 313.25MW-242S 348.57 31.64 316.93MW-244S 349.12 33.93 315.19
GA-1 320.37 16.02 304.35GA-2 320.11 13.00 307.11GA-3 325.43 16.40 309.03GA-4 325.73 16.00 309.73GA-5 344.62 27.02 317.60GA-6 345.10 26.74 318.36GA-7 350.06 34.26 315.80GA-8 350.60 33.91 316.69GA-11 347.92 29.06 318.86GA-12 348.54 29.62 318.92
CJ-166C04235-119-121 Page 3 of 4 12/30/97
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-19 330.26 29.50 300.76GA-20 329.21 24.78 304.43GA-21 323.72 20.40 303.32GA-22 323.65 21.36 302.29GA-23 328.78 25.35 303.43GA-24 329.30 23.80 305.50GA-25 322.30 25.00 297.30GA-26 322.68 20.48 302.20GA-27 314.05 19.45 294.60GA-28 316.16 - -GA-29 320.17 17.10 303.07GA-30 319.96 17.23 302.73GA-33 341.98 29.40 312.58GA-34 341.75 31.80 309.95GA-35 344.48 32.45 312.03GA-36 344.72 26.26 318.46
LMW-20 314.63 13.14 301.49LMW-21 346.83 29.82 317.01
Airco #1S 342.53 24.78 317.75Airco #1D 343.15 25.82 317.33Airco #5S 350.47 24.78 325.69Airco #5D 350.30 25.86 324.44
SW1918 342.78 24.14 318.64SW1920 350.49 Unable to Measure -SW1921 350.49 27.64 322.85SW1924 345.50 32.74 312.76SW1925 340.90 33.50 307.40SW1926 337.13 33.38 303.75SW1942 341.77 41.46 300.31SW1943 340.44 46.92 293.52
BW-1928 322.99 24.93 298.06BW-1929 327.30 52.10 275.20BW-1930 325.23 46.35 278.88BW-1931 320.95 27.00 293.95BW-1932 317.87 20.96 296.91BW-1933 320.00 27.90 292.10BW-1934 319.70 40.21 279.49BW-1935 331.37 34.16 297.21BW-1936 338.62 Unable to Measure -BW-1937 338.35 Unable to Measure -BW-1938 333.54 Unable to Measure -BW-1939 338.16 32.00 306.16
CJ-166C04235-119-121 Page 4 of 4 12/30/97
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1940 341.04 36.47 304.57BW-1941 344.60 33.06 311.54BW-1944 317.19 12.00 305.19BW-1945 321.17 16.28 304.89BW-1946 316.49 29.14 287.35BW-1947 346.83 46.11 300.72BW-1948 317.64 16.26 301.38BW-1949 317.59 12.63 304.96BW-1950 348.63 44.09 304.54BW-1951 343.96 7.33 336.63BW-1952 345.85 42.69 303.16BW-1953 343.74 47.06 296.68
OW1913 343.14 10.22 332.92OW1914 342.22 9.76 332.46OW1915 343.11 27.69 315.42OW1916 343.80 32.48 311.32OW1917 347.57 26.00 321.57OW1919 347.46 53.15 294.31OW1922 351.37 32.63 318.74OW1923 351.93 35.65 316.28
PC-1 319.56 15.50 304.06PC-2 325.00 19.68 305.32PC-3 323.24 17.70 305.54PC-4 324.00 17.77 306.23PC-5 323.50 19.24 304.26PC-6 318.91 - -PC-7 341.38 32.14 309.24PC-8 336.68 28.72 307.96PC-9 337.36 32.94 304.42
PC-10 346.01 37.00 309.01PC-11 343.95 33.62 310.33PC-12 349.79 30.50 319.29
P-40 339.58 33.87 305.71P-44 324.20 15.63 308.57P-45 324.50 18.43 306.07P-46 321.21 17.26 303.95
* Depth to groundwater measurements collected on October 22, 1997. - = Not measured
CJ-166E30765-005-121 Page 1 of 4 6/29/98
TABLE 3
GROUNDWATER ELEVATION MEASUREMENTSFIRST QUARTER 1998
BFGOODRICH COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 24.61 318.48MW-2 342.21 29.95 312.26MW-3 346.40 27.44 318.96
MW-8S 346.92 21.94 324.98MW-8D 345.18 20.64 324.54MW-10 343.14 26.55 316.59MW-14 328.79 12.25 316.54
MW-14A 331.26 11.18 320.08MW-15 345.19 21.42 323.77MW-16 343.36 21.62 321.74MW-17 320.23 - -MW-22 327.78 - -MW-23 344.41 - -MW-24 345.95 26.72 319.23
MW-26Ma 345.07 20.42 324.65MW-26Da 345.43 20.26 325.17MW-27S 323.95 - -MW-27D 323.99 - -MW-32Sa 343.19 29.62 313.57MW-32Da 343.31 28.73 314.58MW-33Sa 345.49 21.94 323.55MW-33Da 345.44 22.00 323.44MW-34Sa 344.90 22.91 321.99MW-34Da 344.78 23.00 321.78
MW-35 317.27 - -MW-36 321.25 - -MW-37 336.50 - -MW-38 320.95 - -MW-39 318.88 - -MW-41 307.95 - -MW-43 347.63 30.72 316.91
MW-201M 348.38 30.36 318.02MW-202S 352.16 34.74 317.42MW-203M 344.83 27.58 317.25MW-204M 350.87 31.83 319.04MW-205M 351.72 34.20 317.52MW-206M 347.41 23.62 323.79MW-207M 353.06 35.75 317.31MW-208M 347.71 30.58 317.13MW-210S 347.54 24.48 323.06MW-210M 347.52 22.67 324.85MW-210D 346.71 - -
CJ-166E30765-005-121 Page 2 of 4 6/29/98
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-211M 350.35 33.31 317.04MW-215S 346.56 28.73 317.83MW-215D 346.56 28.72 317.84MW-216S 335.96 14.43 321.53MW-216D 335.45 15.09 320.36MW-217S 346.92 31.20 315.72MW-217D 345.18 31.60 313.58MW-218S 346.93 19.42 327.51MW-218D 346.38 14.29 332.09MW-222S 341.91 23.01 318.90MW-222D 344.95 23.14 321.81MW-223S 326.51 - -MW-223D 326.50 - -MW-224S 318.27 - -MW-224D 318.29 - -MW-225D 319.03 - -MW-229S 333.85 13.46 320.39MW-229D 333.80 11.98 321.82MW-230S 340.30 20.62 319.68MW-230D 340.42 21.09 319.33MW-231S 346.35 27.35 319.00MW-231D 346.67 27.36 319.31MW-232S 326.12 - -MW-232D 325.56 - -MW-233S 347.68 23.42 324.26MW-233D 347.56 25.38 322.18MW-235S 341.22 22.91 318.31MW-235D 341.31 23.00 318.31MW-238D 337.68 13.10 324.58MW-238S 337.96 12.92 325.04MW-240S 351.07 33.01 318.06MW-240D 351.33 33.02 318.31MW-241S 347.07 31.75 315.32MW-242S 348.57 31.76 316.81MW-244S 349.12 32.35 316.77
GA-1 320.37 - -GA-2 320.11 - -GA-3 325.43 - -GA-4 325.73 - -GA-5 344.62 20.19 324.43GA-6 345.10 19.74 325.36GA-7 350.06 32.29 317.77GA-8 350.60 32.67 317.93GA-11 347.92 35.75 312.17GA-12 348.54 33.60 314.94
CJ-166E30765-005-121 Page 3 of 4 6/29/98
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-19 330.26 - -GA-20 329.21 - -GA-21 323.72 - -GA-22 323.65 - -GA-23 328.78 - -GA-24 329.30 - -GA-25 322.30 - -GA-26 322.68 - -GA-27 314.05 - -GA-28 316.16 316.16GA-29 320.17 - -GA-30 319.96 - -GA-33 341.98 21.87 320.11GA-34 341.75 24.88 316.87GA-35 344.48 26.83 317.65GA-36 344.72 26.23 318.49
LMW-20 314.63 - -LMW-21 346.83 28.54 318.29
Airco #1S 342.53 16.71 325.82Airco #1D 343.15 16.94 326.21Airco #5S 350.47 31.69 318.78Airco #5D 350.30 31.72 318.58
SW1918 342.78 25.36 317.42SW1920 350.49 - -SW1921 350.49 37.68 312.81SW1924 345.50 34.56 310.94SW1925 340.90 30.88 310.02SW1926 337.13 25.00 312.13SW1942 341.77 23.28 318.49SW1943 340.44 2.95 337.49
BW-1928 322.99 - -BW-1929 327.30 - -BW-1930 325.23 - -BW-1931 320.95 - -BW-1932 317.87 - -BW-1933 320.00 - -BW-1934 319.70 - -BW-1935 331.37 - -BW-1936 338.62 - -BW-1937 338.35 - -BW-1938 333.54 21.67 311.87BW-1939 338.16 20.34 317.82
CJ-166E30765-005-121 Page 4 of 4 6/29/98
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1940 341.04 29.02 312.02BW-1941 344.60 29.42 315.18BW-1944 317.19 - -BW-1945 321.17 - -BW-1946 316.49 - -BW-1947 346.83 46.50 300.33BW-1948 317.64 - -BW-1949 317.59 - -BW-1950 348.63 38.77 309.86BW-1951 343.96 - -BW-1952 345.85 13.84 332.01BW-1953 343.74 - -
OW1913 343.14 12.69 330.45OW1914 342.22 10.24 331.98OW1915 343.11 26.14 316.97OW1916 343.80 35.30 308.50OW1917 347.57 30.39 317.18OW1919 347.46 - -OW1922 351.37 39.28 312.09OW1923 351.93 35.00 316.93
PC-1 319.56 - -PC-2 325.00 - -PC-3 323.24 - -PC-4 324.00 - -PC-5 323.50 - -PC-6 318.91 -PC-7 341.38 25.39 315.99PC-8 336.68 20.12 316.56PC-9 337.36 20.03 317.33
PC-10 346.01 24.33 321.68PC-11 343.95 26.85 317.10PC-12 349.79 - -
P-40 339.58 - -P-44 324.20 - -P-45 324.50 - -P-46 321.21 - -
* Depth to groundwater measurements collected on January 13, 1998.- = Not measured
CJ-166E30765-005-121 Page 1 of 4 6/29/98
TABLE 4
GROUNDWATER ELEVATION MEASUREMENTSSECOND QUARTER 1998
BFGOODRICH COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 - -MW-2 342.21 30.00 312.21MW-3 346.40 34.00 312.40
MW-8S 346.92 24.46 322.46MW-8D 345.18 24.59 320.59MW-10 343.14 25.47 317.67MW-14 328.79 11.62 317.17
MW-14A 331.26 11.89 319.37MW-15 345.19 30.00 315.19MW-16 343.36 30.11 313.25MW-17 320.23 11.61 308.62MW-22 327.78 4.20 323.58MW-23 344.41 - -MW-24 345.95 24.10 321.85
MW-26Ma 345.07 27.53 317.54MW-26Da 345.43 27.69 317.74MW-27S 323.95 11.00 312.95MW-27D 323.99 11.00 312.99MW-32Sa 343.19 31.24 311.95MW-32Da 343.31 31.75 311.56MW-33Sa 345.49 30.74 314.75MW-33Da 345.44 30.84 314.60MW-34Sa 344.90 30.26 314.64MW-34Da 344.78 30.53 314.25
MW-35 317.27 9.02 308.25MW-36 321.25 6.31 314.94MW-37 336.50 - -MW-38 320.95 9.80 311.15MW-39 318.88 11.08 307.80MW-41 307.95 11.24 296.71MW-43 347.63 27.98 319.65
MW-201M 348.38 28.60 319.78MW-202S 352.16 34.00 318.16MW-203M 344.83 27.30 317.53MW-204M 350.87 34.29 316.58MW-205M 351.72 32.04 319.68MW-206M 347.41 24.85 322.56MW-207M 353.06 35.12 317.94MW-208M 347.71 27.74 319.97MW-210S 347.54 35.43 312.11MW-210M 347.52 35.62 311.90MW-210D 346.71 - -
CJ-166E30765-005-121 Page 2 of 4 6/29/98
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-211M 350.35 29.99 320.36MW-215S 346.56 24.26 322.30MW-215D 346.56 24.81 321.75MW-216S 335.96 17.00 318.96MW-216D 335.45 17.18 318.27MW-217S 346.92 29.14 317.78MW-217D 345.18 29.30 315.88MW-218S 346.93 24.08 322.85MW-218D 346.38 27.20 319.18MW-222S 341.91 22.22 319.69MW-222D 344.95 22.30 322.65MW-223S 326.51 12.40 314.11MW-223D 326.50 12.62 313.88MW-224S 318.27 3.85 314.42MW-224D 318.29 3.99 314.30MW-225D 319.03 3.99 315.04MW-229S 333.85 26.48 307.37MW-229D 333.80 26.95 306.85MW-230S 340.30 - -MW-230D 340.42 22.05 318.37MW-231S 346.35 24.19 322.16MW-231D 346.67 24.69 321.98MW-232S 326.12 13.70 312.42MW-232D 325.56 13.91 311.65MW-233S 347.68 26.08 321.60MW-233D 347.56 26.81 320.75MW-235S 341.22 18.79 322.43MW-235D 341.31 19.02 322.29MW-238S 337.96 17.28 320.68MW-238D 337.68 17.40 320.28MW-240S 351.07 27.52 323.55MW-240D 351.33 28.26 323.07MW-241S 347.07 27.55 319.52MW-242S 348.57 24.39 324.18MW-244S 349.12 32.49 316.63
GA-1 320.37 9.44 310.93GA-2 320.16 9.69 310.47GA-3 330.40 19.92 310.48GA-4 331.95 20.04 311.91GA-5 344.62 33.64 310.98GA-6 345.10 33.38 311.72GA-7 350.06 30.86 319.20GA-8 350.60 30.79 319.81GA-11 353.79 10.20 343.59GA-12 351.21 10.48 340.73
CJ-166E30765-005-121 Page 3 of 4 6/29/98
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-19 330.26 12.11 318.15GA-20 329.21 11.96 317.25GA-21 323.72 18.15 305.57GA-22 323.65 18.23 305.42GA-23 328.78 18.20 310.58GA-24 329.30 18.41 310.89GA-25 322.30 12.04 310.26GA-26 322.68 11.96 310.72GA-27 314.05 18.43 295.62GA-28 316.16 - -GA-29 320.17 27.60 292.57GA-30 319.96 27.39 292.57GA-33 339.05 24.49 314.56GA-34 342.01 24.55 317.46GA-35 342.87 24.45 318.42GA-36 344.53 24.29 320.24
LMW-20 314.63 4.98 309.65LMW-21 346.83 26.55 320.28
Airco #1S 342.53 23.24 319.29Airco #1D 343.15 23.98 319.17Airco #5S 350.47 - -Airco #5D 350.30 26.59 323.71
SW1918 342.78 23.25 319.53SW1920 350.49 - -SW1921 350.49 31.24 319.25SW1924 345.50 25.09 320.41SW1925 340.90 23.63 317.27SW1926 337.13 19.84 317.29SW1942 341.77 31.29 310.48SW1943 340.44 38.41 302.03
BW-1928 322.99 28.91 294.08BW-1929 327.30 27.81 299.49BW-1930 325.23 12.25 312.98BW-1931 320.95 24.56 296.39BW-1932 317.87 22.19 295.68BW-1933 320.00 16.49 303.51BW-1934 319.70 14.05 305.65BW-1935 331.37 26.59 304.78BW-1936 338.62 - -BW-1937 338.35 - -BW-1938 333.54 17.25 316.29BW-1939 338.16 44.25 293.91
CJ-166E30765-005-121 Page 4 of 4 6/29/98
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1940 341.04 50.75 290.29BW-1941 344.60 32.55 312.05BW-1944 317.19 19.21 297.98BW-1945 321.17 22.90 298.27BW-1946 316.49 20.91 295.58BW-1947 346.83 54.95 291.88BW-1948 317.64 12.20 305.44BW-1949 317.59 4.48 313.11BW-1950 348.63 42.73 305.90BW-1951 343.96 - -BW-1952 345.85 - -BW-1953 343.74 19.48 324.26
OW1913 343.14 14.84 328.30OW1914 342.22 10.62 331.60OW1915 343.11 14.40 328.71OW1916 343.80 17.39 326.41OW1917 347.57 - -OW1919 347.46 33.80 313.66OW1922 351.37 37.63 313.74OW1923 351.93 34.61 317.32
PC-1 319.56 14.20 305.36PC-2 325.00 13.12 311.88PC-3 323.24 12.49 310.75PC-4 324.00 4.06 319.94PC-5 323.50 4.20 319.30PC-6 318.91 -PC-7 341.38 26.52 314.86PC-8 336.68 22.29 314.39PC-9 337.36 21.82 315.54
PC-10 346.01 27.70 318.31PC-11 343.95 28.24 315.71PC-12 349.79 29.83 319.96
P-40 339.58 26.43 313.15P-44 324.20 16.52 307.68P-45 324.50 19.19 305.31P-46 321.21 8.24 312.97
* Depth to groundwater measurements collected on May 29, 1998.- = Not measured
GEON(2)12130765-005-121 Page 1 of 4 12/28/98
TABLE 3
GROUNDWATER ELEVATION MEASUREMENTSTHIRD QUARTER 1998
THE GEON COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 21.64 321.45MW-2 342.21 20.32 321.89MW-3 346.40 28.76 317.64
MW-8S 346.92 25.63 321.29MW-8D 345.18 24.98 320.20MW-10 343.14 24.71 318.43MW-14 328.79 21.84 306.95
MW-14A 331.26 22.61 308.65MW-15 345.19 39.63 305.56MW-16 343.36 40.21 303.15MW-17 320.23 12.21 308.02MW-22 327.78 18.72 309.06MW-24 345.95 29.73 316.22
MW-26Ma 345.07 38.21 306.86MW-26Da 345.43 38.64 306.79MW-27S 323.95 17.32 306.63MW-27D 323.99 16.43 307.56MW-32Sa 343.19 41.64 301.55MW-32Da 343.31 42.36 300.95MW-33Sa 345.49 41.73 303.76MW-33Da 345.44 41.36 304.08MW-34Sa 344.90 39.42 305.48MW-34Da 344.78 38.63 306.15
MW-35 317.27 13.46 303.81MW-36 321.25 19.36 301.89MW-38 320.95 17.65 303.30MW-39 318.88 20.36 298.52MW-41 307.95 12.64 295.31MW-43 347.63 30.62 317.01
MW-201M 348.38 29.31 319.07MW-202S 352.16 35.30 316.86MW-203M 344.83 28.43 316.40MW-204M 350.87 31.16 319.71MW-205M 351.72 31.30 320.42MW-206M 347.41 26.32 321.09MW-207M 353.06 31.74 321.32MW-208M 347.71 28.30 319.41MW-210S 347.54 29.63 317.91MW-210M 347.52 31.20 316.32MW-211M 350.35 30.20 320.15MW-215S 346.56 23.64 322.92MW-215D 346.56 24.13 322.43MW-216S 335.96 15.85 320.11
GEON(2)12130765-005-121 Page 2 of 4 12/28/98
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-216D 335.45 16.11 319.34MW-217S 346.92 28.72 318.20MW-217D 345.18 27.43 317.75MW-218S 346.93 30.61 316.32MW-218D 346.38 27.40 318.98MW-222S 341.91 24.92 316.99MW-222D 344.95 23.42 321.53MW-223S 326.51 15.94 310.57MW-223D 326.50 16.20 310.30MW-224S 318.27 26.60 291.67MW-224D 318.29 26.53 291.76MW-225D 319.03 17.73 301.30MW-229S 333.85 13.80 320.05MW-229D 333.80 13.85 319.95MW-230S 340.30 19.75 320.55MW-230D 340.42 30.21 310.21MW-231S 346.35 25.80 320.55MW-231D 346.67 24.62 322.05MW-232S 326.12 16.14 309.98MW-232D 325.56 31.69 293.87MW-233S 347.68 26.53 321.15MW-233D 347.56 26.20 321.36MW-235S 341.22 21.43 319.79MW-235D 341.31 21.81 319.50MW-238S 337.96 17.95 320.01MW-238D 337.68 18.32 319.36MW-240S 351.07 30.37 320.70MW-240D 351.33 36.80 314.53MW-241S 347.07 32.53 314.54MW-242S 348.57 29.48 319.09MW-243S 347.27 31.32 315.95MW-244S 349.12 24.62 324.50
GA-1 320.37 17.82 302.55GA-2 320.16 17.31 302.85GA-3 330.40 28.21 302.19GA-4 331.95 27.64 304.31GA-5 344.62 24.90 319.72GA-6 345.10 24.65 320.45GA-7 350.06 30.12 319.94GA-8 350.60 30.21 320.39GA-11 353.79 27.61 326.18GA-12 351.21 28.23 322.98GA-15 325.30 24.61 300.69GA-16 325.91 24.73 301.18GA-19 330.26 18.23 312.03
GEON(2)12130765-005-121 Page 3 of 4 12/28/98
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-20 329.21 17.84 311.37GA-21 323.72 24.30 299.42GA-22 323.65 24.63 299.02GA-23 328.78 25.23 303.55GA-24 329.30 25.54 303.76GA-25 322.30 17.24 305.06GA-26 322.68 17.62 305.06GA-27 314.05 10.39 303.66GA-28 316.16 12.27 303.89GA-29 320.17 20.21 299.96GA-30 319.96 18.76 301.20GA-31 337.91 23.74 314.17GA-32 337.86 23.32 314.54GA-33 339.05 24.21 314.84GA-34 342.01 25.65 316.36GA-35 342.87 23.64 319.23GA-36 344.53 25.32 319.21GA-37 357.15 31.32 325.83GA-38 357.19 31.44 325.75
LMW-20 314.63 12.26 302.37LMW-21 346.83 27.31 319.52
Airco #1S 342.53 22.40 320.13Airco #1D 343.15 23.39 319.76Airco #5S 350.47 34.00 316.47Airco #5D 350.30 34.21 316.09
SW1918 342.78 23.49 319.29SW1920 350.49 40.00 310.49SW1921 350.49 29.61 320.88SW1924 345.50 - -SW1925 340.90 30.61 310.29SW1926 337.13 19.32 317.81SW1942 341.77 28.93 312.84SW1943 340.44 31.63 308.81
BW-1928 322.99 43.00 279.99BW-1929 327.30 35.02 292.28BW-1930 325.23 21.41 303.82BW-1931 320.95 30.63 290.32BW-1932 317.87 36.41 281.46BW-1933 320.00 24.21 295.79BW-1934 319.70 23.96 295.74BW-1935 331.37 35.58 295.79BW-1936 338.62 29.39 309.23
GEON(2)12130765-005-121 Page 4 of 4 12/28/98
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1937 338.35 31.62 306.73BW-1938 333.54 29.73 303.81BW-1939 338.16 33.46 304.70BW-1940 341.04 34.79 306.25BW-1941 344.60 36.21 308.39BW-1944 317.19 32.13 285.06BW-1945 321.17 28.41 292.76BW-1946 316.49 27.41 289.08BW-1947 346.83 31.21 315.62BW-1948 317.64 26.42 291.22BW-1949 317.59 27.36 290.23BW-1950 348.63 40.36 308.27BW-1951 343.96 - -BW-1952 345.85 45.21 300.64BW-1953 343.74 29.63 314.11
OW1913 343.14 24.96 318.18OW1914 342.22 - -OW1915 343.11 24.32 318.79OW1916 343.80 21.12 322.68OW1917 347.57 28.43 319.14OW1919 347.46 32.68 314.78OW1922 351.37 36.13 315.24OW1923 351.93 32.93 319.00
PC-1 319.56 14.42 305.14PC-2 325.00 13.83 311.17PC-3 323.24 15.25 307.99PC-4 324.00 26.58 297.42PC-5 323.50 18.64 304.86PC-6 318.91 - -PC-7 341.38 32.61 308.77PC-8 336.68 27.54 309.14PC-9 337.36 30.32 307.04
PC-10 346.01 24.43 321.58PC-11 343.95 24.49 319.46PC-12 348.89 21.36 327.53
P-40 339.58 23.46 316.12P-44 324.20 22.13 302.07P-45 324.50 21.62 302.88P-46 321.21 19.36 301.85
* Depth to groundwater measurements collected on July 27, 1998.- =Not measured
GEON(2)12130765-005-121 Page 1 of 4 12/28/98
TABLE 4
GROUNDWATER ELEVATION MEASUREMENTSFOURTH QUARTER 1998
THE GEON COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 38.20 304.89MW-2 342.21 dry -MW-3 346.40 42.50 303.90
MW-8S 346.92 26.24 320.68MW-8D 345.18 26.99 318.19MW-10 343.14 26.80 316.34MW-14 328.79 20.53 308.26
MW-14A 331.26 24.06 307.20MW-15 345.19 dry -MW-16 343.36 36.31 307.05MW-17 320.23 14.48 305.75MW-22 327.78 15.39 312.39MW-24 345.95 - -
MW-26Ma 345.07 dry -MW-26Da 345.43 42.31 303.12MW-27S 323.95 7.98 315.97MW-27D 323.99 - -MW-32Sa 343.19 37.96 305.23MW-32Da 343.31 36.90 306.41MW-33Sa 345.49 38.20 307.29MW-33Da 345.44 41.81 303.63MW-34Sa 344.90 42.32 302.58MW-34Da 344.78 41.95 302.83
MW-35 317.27 16.28 300.99MW-36 321.25 15.28 305.97MW-38 320.95 16.91 304.04MW-39 318.88 12.55 306.33MW-41 307.95 3.30 304.65MW-43 347.63 34.45 313.18
MW-201M 348.38 28.01 320.37MW-202S 352.16 34.28 317.88MW-203M 344.83 31.43 313.40MW-204M 350.87 26.90 323.97MW-205M 351.72 32.60 319.12MW-206M 347.41 30.22 317.19MW-207M 353.06 38.25 314.81MW-208M 347.71 31.08 316.63MW-210S 347.54 30.18 317.36MW-210M 347.52 30.20 317.32MW-211M 350.35 33.23 317.12MW-215S 346.56 29.14 317.42MW-215D 346.56 29.15 317.41MW-216S 335.96 18.00 317.96
GEON(2)12130765-005-121 Page 2 of 4 12/28/98
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-216D 335.45 18.30 317.15MW-217S 346.92 31.26 315.66MW-217D 345.18 31.29 313.89MW-218S 346.93 29.62 317.31MW-218D 346.38 29.70 316.68MW-222S 341.91 26.90 315.01MW-222D 344.95 26.95 318.00MW-223S 326.51 21.55 304.96MW-223D 326.50 22.58 303.92MW-224S 318.27 17.98 300.29MW-224D 318.29 18.00 300.29MW-225D 319.03 15.30 303.73MW-229S 333.85 16.03 317.82MW-229D 333.80 16.10 317.70MW-230S 340.30 21.69 318.61MW-230D 340.42 22.15 318.27MW-231S 346.35 28.96 317.39MW-231D 346.67 29.00 317.67MW-232S 326.12 21.77 304.35MW-232D 325.56 19.78 305.78MW-233S 347.68 30.62 317.06MW-233D 347.56 30.60 316.96MW-235S 341.22 19.66 321.56MW-235D 341.31 19.70 321.61MW-238S 337.96 19.80 318.16MW-238D 337.68 20.00 317.68MW-240S 351.07 38.92 312.15MW-240D 351.33 39.00 312.33MW-241S 347.07 38.41 308.66MW-242S 348.57 38.91 309.66MW-243S 347.27 30.01 317.26MW-244S 349.12 36.30 312.82
GA-1 320.37 16.01 304.36GA-2 320.16 15.66 304.50GA-3 330.40 26.12 304.28GA-4 331.95 27.24 314.71GA-5 344.62 27.55 317.07GA-6 345.10 27.58 317.52GA-7 350.06 35.16 314.90GA-8 350.60 31.87 318.73GA-11 353.79 35.02 318.77GA-12 351.21 37.15 314.06GA-15 325.30 19.70 305.60GA-16 325.91 19.86 306.05GA-19 330.26 25.89 304.37
GEON(2)12130765-005-121 Page 3 of 4 12/28/98
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-20 329.21 24.80 304.41GA-21 323.72 19.76 303.96GA-22 323.65 16.99 306.66GA-23 328.78 25.22 303.56GA-24 329.30 25.28 304.02GA-25 322.30 19.69 302.61GA-26 322.68 16.61 306.07GA-27 314.05 13.55 300.50GA-28 316.16 11.50 304.66GA-29 320.17 17.78 302.39GA-30 319.96 18.00 301.96GA-31 337.91 31.20 306.71GA-32 337.86 34.70 303.16GA-33 339.05 30.03 309.02GA-34 342.01 26.81 315.20GA-35 342.87 32.86 310.01GA-36 344.53 27.12 317.41GA-37 357.15 41.61 315.54GA-38 357.19 38.76 318.43
LMW-20 314.63 10.62 304.01LMW-21 346.83 29.12 317.71
Airco #1S 342.53 25.82 316.71Airco #1D 343.15 25.75 317.40Airco #5S 350.47 36.00 314.47Airco #5D 350.30 35.95 314.35
SW1918 342.78 29.23 313.55SW1920 350.49 36.81 313.68SW1921 350.49 38.49 312.00SW1924 345.50 33.67 311.83SW1925 340.90 25.87 315.03SW1926 337.13 41.60 295.53SW1942 341.77 32.34 309.43SW1943 340.44 31.14 309.30
BW-1928 322.99 37.50 285.49BW-1929 327.30 45.68 281.62BW-1930 325.23 29.51 295.72BW-1931 320.95 28.00 292.95BW-1932 317.87 38.20 279.67BW-1933 320.00 21.91 298.09BW-1934 319.70 24.04 295.66BW-1935 331.37 33.68 297.69BW-1936 338.62 - -
GEON(2)12130765-005-121 Page 4 of 4 12/28/98
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1937 338.35 - -BW-1938 333.54 24.39 309.15BW-1939 338.16 32.00 306.16BW-1940 341.04 69.51 271.53BW-1941 344.60 48.00 296.60BW-1944 317.19 23.91 293.28BW-1945 321.17 14.40 306.77BW-1946 316.49 24.03 292.46BW-1947 346.83 50.63 296.20BW-1948 317.64 17.08 300.56BW-1949 317.59 4.10 313.49BW-1950 348.63 60.03 288.60BW-1951 343.96 - -BW-1952 345.85 24.20 321.65BW-1953 343.74 26.72 317.02
OW1913 343.14 25.75 317.39OW1914 342.22 21.27 320.95OW1915 343.11 29.20 313.91OW1916 343.80 20.10 323.70OW1917 347.57 - -OW1919 347.46 41.01 306.45OW1922 351.37 45.45 305.92OW1923 351.93 47.23 304.70
PC-1 319.56 16.78 302.78PC-2 325.00 21.48 303.52PC-3 323.24 18.76 304.48PC-4 324.00 18.62 305.38PC-5 323.50 17.40 306.10PC-6 318.91 - -PC-7 341.38 29.92 311.46PC-8 336.68 22.95 313.73PC-9 337.36 27.37 309.99
PC-10 346.01 33.61 312.40PC-11 343.95 35.00 308.95PC-12 348.89 20.27 328.62
P-40 339.58 32.2 307.38P-44 324.20 15.86 308.34P-45 324.50 17.91 306.59P-46 321.21 18.95 302.26
* Depth to groundwater measurements collected on October 17-19, 1998.- =Not measured
GEON(3)12130765-009-121 Page 1 of 4 6/30/99
TABLE 3
GROUNDWATER ELEVATION MEASUREMENTSFIRST QUARTER 1999
GEON COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 25.28 317.81MW-2 342.21 25.24 316.97MW-3 346.40 34.28 312.12
MW-8S 346.92 27.20 319.72MW-8D 345.18 27.23 317.95MW-10 343.14 27.35 315.79MW-14 328.79 20.55 308.24
MW-14A 331.26 20.70 310.56MW-15 345.19 30.15 315.04MW-16 343.36 28.20 315.16MW-17 320.23 6.00 314.23MW-22 327.78 — —MW-24 345.95 34.00 311.95
MW-26Ma 345.07 33.31 311.76MW-26Da 345.43 33.28 312.15MW-27S 323.95 — —MW-27D 323.99 17.71 306.28MW-32Sa 343.19 32.10 311.09MW-32Da 343.31 32.15 311.16MW-33Sa 345.49 33.02 312.47MW-33Da 345.44 33.00 312.44MW-34Sa 344.90 31.87 313.03MW-34Da 344.78 32.10 312.68
MW-35 317.27 — —MW-36 321.25 12.14 309.11MW-38 320.95 9.13 311.82MW-39 318.88 16.41 302.47MW-41 307.95 — —MW-43 347.63 34.35 313.28
MW-201M 348.38 29.83 318.55MW-202S 352.16 28.41 323.75MW-203M 344.83 29.31 315.52MW-204M 350.87 31.04 319.83MW-205M 351.72 28.78 322.94MW-206M 347.41 — —MW-207M 353.06 38.31 314.75MW-208M 347.71 32.80 314.91MW-210S 347.54 29.58 317.96MW-210M 347.52 29.62 317.90MW-211M 350.35 35.22 315.13MW-215S 346.56 29.34 317.22MW-215D 346.56 29.30 317.26MW-216S 335.96 24.84 311.12
GEON(3)12130765-009-121 Page 2 of 4 6/30/99
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-216D 335.45 24.79 310.66MW-217S 346.92 32.23 314.69MW-217D 345.18 32.20 312.98MW-218S 346.93 30.01 316.92MW-218D 346.38 29.95 316.43MW-222S 341.91 — —MW-222D 344.95 27.62 317.33MW-223S 326.51 19.75 306.76MW-223D 326.50 19.72 306.78MW-224S 318.27 22.51 295.76MW-224D 318.29 22.40 295.89MW-225D 319.03 21.85 297.18MW-229S 333.85 26.49 307.36MW-229D 333.80 26.44 307.36MW-230S 340.30 25.76 314.54MW-230D 340.42 25.80 314.62MW-231S 346.35 29.13 317.22MW-231D 346.67 29.08 317.59MW-232S 326.12 13.94 312.18MW-232D 325.56 13.90 311.66MW-233S 347.68 33.16 314.52MW-233D 347.56 33.21 314.35MW-235S 341.22 24.15 317.07MW-235D 341.31 24.17 317.14MW-238S 337.96 20.52 317.44MW-238D 337.68 20.57 317.11MW-240S 351.07 36.18 314.89MW-240D 351.33 36.20 315.13MW-241S 347.07 33.13 313.94MW-242S 348.57 33.28 315.29MW-243S 347.27 — —MW-244S 349.12 32.89 316.23
GA-1 320.37 7.29 313.08GA-2 320.16 7.29 312.87GA-3 330.40 17.45 312.95GA-4 331.95 18.78 313.17GA-5 344.62 27.62 317.00GA-6 345.10 27.60 317.50GA-7 350.06 Dry DryGA-8 350.60 Dry DryGA-11 353.79 Dry DryGA-12 351.21 Dry DryGA-15 325.30 — —GA-16 325.91 — —GA-19 330.26 16.70 313.56
GEON(3)12130765-009-121 Page 3 of 4 6/30/99
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-20 329.21 14.22 314.99GA-21 323.72 8.54 315.18GA-22 323.65 9.35 314.30GA-23 328.78 15.23 313.55GA-24 329.30 15.10 314.20GA-25 322.30 8.90 313.40GA-26 322.68 7.74 314.94GA-27 314.05 — —GA-28 316.16 11.50 304.66GA-29 320.17 6.66 313.51GA-30 319.96 7.33 312.63GA-31 337.91 — —GA-32 337.86 — —GA-33 339.05 28.00 311.05GA-34 342.01 26.91 315.10GA-35 342.87 31.45 311.42GA-36 344.53 23.40 321.13GA-37 357.15 — —GA-38 357.19 — —
LMW-20 314.63 — —LMW-21 346.83 29.25 317.58
Airco #1S 342.53 26.36 316.17Airco #1D 343.15 26.40 316.75Airco #5S 350.47 21.52 328.95Airco #5D 350.30 21.45 328.85
SW1918 342.78 26.00 316.78SW1920 350.49 27.84 322.65SW1921 350.49 33.49 317.00SW1924 345.50 36.18 309.32SW1925 340.90 31.45 309.45SW1926 337.13 32.19 304.94SW1942 341.77 — —SW1943 340.44 4.48 335.96
BW-1928 322.99 14.00 308.99BW-1929 327.30 19.45 307.85BW-1930 325.23 40.53 284.70BW-1931 320.95 27.96 292.99BW-1932 317.87 22.97 294.90BW-1933 320.00 20.95 299.05BW-1934 319.70 16.92 302.78BW-1935 331.37 31.53 299.84BW-1936 338.62 32.00 306.62
GEON(3)12130765-009-121 Page 4 of 4 6/30/99
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1937 338.35 — —BW-1938 333.54 31.10 302.44BW-1939 338.16 35.24 302.92BW-1940 341.04 11.82 329.22BW-1941 344.60 34.00 310.60BW-1944 317.19 7.25 309.94BW-1945 321.17 — —BW-1946 316.49 10.85 305.64BW-1947 346.83 47.00 299.83BW-1948 317.64 12.85 304.79BW-1949 317.59 7.14 310.45BW-1950 348.63 50.03 298.60BW-1951 343.96 — —BW-1952 345.85 34.43 311.42BW-1953 343.74 34.45 309.29
OW1913 343.14 36.49 306.65OW1914 342.22 — —OW1915 343.11 29.69 313.42OW1916 343.80 45.88 297.92OW1917 347.57 32.70 314.87OW1919 347.46 64.10 283.36OW1922 351.37 42.53 308.84OW1923 351.93 19.54 332.39
PC-1 319.56 9.08 310.48PC-2 325.00 16.82 308.18PC-3 323.24 16.04 307.20PC-4 324.00 17.71 306.29PC-5 323.50 22.49 301.01PC-6 318.91 — —PC-7 341.38 31.52 309.86PC-8 336.68 39.08 297.60PC-9 337.36 36.34 301.02
PC-10 346.01 31.84 314.17PC-11 343.95 34.48 309.47PC-12 348.89 32.80 316.09
P–40 339.58 22.60 316.98P-44 324.20 17.82 306.38P-45 324.50 17.85 306.65P-46 321.21 6.10 315.11
* Depth to groundwater measurements collected on January 18, 1999.— = Not measured
GEON(3)12130765-009-121 Page 1 of 4 6/30/99
TABLE 4
GROUNDWATER ELEVATION MEASUREMENTSSECOND QUARTER 1999
THE GEON COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 35.38 307.71MW-2 342.21 - -MW-3 346.40 41.23 305.17
MW-8S 346.92 28.40 318.52MW-8D 345.18 - -MW-10 343.14 25.18 317.96MW-14 328.79 20.00 308.79
MW-14A 331.26 24.45 306.81MW-15 345.19 39.41 305.78MW-16 343.36 38.60 304.76MW-17 320.23 13.30 306.93MW-22 327.78 - -MW-24 345.95 35.67 310.28
MW-26Ma 345.07 dry -MW-26Da 345.43 35.31 310.12MW-27S 323.95 - -MW-27D 323.99 18.19 305.80MW-32Sa 343.19 37.55 305.64MW-32Da 343.31 37.70 305.61MW-33Sa 345.49 40.80 304.69MW-33Da 345.44 42.10 303.34MW-34Sa 344.90 41.85 303.05MW-34Da 344.78 41.55 303.23
MW-35 317.27 14.15 303.12MW-36 321.25 13.21 308.04MW-38 320.95 dry -MW-39 318.88 10.33 308.55MW-41 307.95 - -MW-43 347.63 36.40 311.23
MW-201M 348.38 28.64 319.74MW-202S 352.16 28.48 323.68MW-203M 344.83 28.88 315.95MW-204M 350.87 33.82 317.05MW-205M 351.72 27.74 323.98MW-206M 347.41 - -MW-207M 353.06 35.46 317.60MW-208M 347.71 31.27 311.44MW-210S 347.54 29.70 317.84MW-210M 347.52 29.95 317.57MW-211M 350.35 34.16 316.19MW-215S 346.56 27.00 319.56MW-215D 346.56 27.76 318.80MW-216S 335.96 17.89 318.07
GEON(3)12130765-009-121 Page 2 of 4 6/30/99
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-216D 335.45 18.80 316.65MW-217S 346.92 31.32 315.60MW-217D 345.18 32.23 312.95MW-218S 346.93 28.57 318.36MW-218D 346.38 28.80 317.58MW-222S 341.91 - -MW-222D 344.95 27.75 317.20MW-223S 326.51 17.88 308.63MW-223D 326.50 18.17 308.33MW-224S 318.27 20.51 297.76MW-224D 318.29 19.10 299.19MW-225D 319.03 21.22 297.81MW-229S 333.85 19.12 314.73MW-229D 333.80 20.10 313.70MW-230S 340.30 - -MW-230D 340.42 23.85 316.57MW-231S 346.35 27.88 318.47MW-231D 346.67 28.72 317.95MW-232S 326.12 16.20 309.92MW-232D 325.56 16.67 308.89MW-233S 347.68 28.75 318.93MW-233D 347.56 30.32 317.24MW-235S 341.22 21.30 319.92MW-235D 341.31 22.50 318.81MW-238S 337.96 18.10 319.86MW-238D 337.68 18.37 319.31MW-240S 351.07 37.14 313.93MW-240D 351.33 32.85 318.48MW-241S 347.07 35.47 311.60MW-242S 348.57 33.00 315.57MW-243S 347.27 - -MW-244S 349.12 32.44 316.68
GA-1 320.37 12.77 307.60GA-2 320.16 12.53 307.63GA-3 330.40 22.97 307.43GA-4 331.95 22.80 309.15GA-5 344.62 25.40 319.22GA-6 345.10 25.48 319.62GA-7 350.06 30.37 319.69GA-8 350.60 - -GA-11 353.79 35.84 317.95GA-12 351.21 29.65 321.56GA-15 325.30 14.89 310.41GA-16 325.91 16.80 309.11GA-19 330.26 21.72 308.54
GEON(3)12130765-009-121 Page 3 of 4 6/30/99
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-20 329.21 20.98 308.23GA-21 323.72 12.57 311.15GA-22 323.65 12.89 310.76GA-23 328.78 20.94 307.84GA-24 329.30 21.81 307.49GA-25 322.30 14.66 307.64GA-26 322.68 13.60 309.08GA-27 314.05 7.87 306.18GA-28 316.16 9.86 306.30GA-29 320.17 14.25 305.92GA-30 319.96 14.48 305.48GA-31 337.91 28.91 309.00GA-32 337.86 22.97 314.89GA-33 339.05 20.81 318.24GA-34 342.01 22.19 319.82GA-35 342.87 31.74 311.13GA-36 344.53 26.68 317.85GA-37 357.15 38.75 318.40GA-38 357.19 40.30 316.89
LMW-20 314.63 9.62 305.01LMW-21 346.83 26.28 320.55
Airco #1S 342.53 25.30 317.23Airco #1D 343.15 26.89 316.26Airco #5S 350.47 31.95 318.52Airco #5D 350.30 34.57 315.73
SW-1918 342.78 25.20 317.58SW-1920 350.49 28.71 321.78SW-1921 350.49 40.02 310.47SW-1924 345.50 37.55 307.95SW-1925 340.90 43.72 297.18SW-1926 337.13 38.26 298.87SW-1942 341.77 - -SW-1943 340.44 31.43 309.01
BW-1927C - 10.72 -BW-1927D - 11.88 -BW-1927E - 13.88 -BW-1927F - 14.40 -BW-1927G - 19.69 -BW-1928 322.99 15.80 307.19BW-1929 327.30 18.60 308.70BW-1930 325.23 18.80 306.43BW-1931 320.95 18.27 302.68BW-1932 317.87 17.89 299.98BW-1933 320.00 26.20 293.80BW-1934 319.70 17.49 302.21BW-1935 331.37 15.00 316.37BW-1936 338.62 17.10 321.52
GEON(3)12130765-009-121 Page 4 of 4 6/30/99
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1937 338.35 15.94 322.41BW-1938 333.54 24.44 309.10BW-1939 338.16 47.96 290.20BW-1940 341.04 - -BW-1941 344.60 - -BW-1944 317.19 19.38 297.81BW-1945 321.17 19.87 301.30BW-1946 316.49 19.84 296.65BW-1947 346.83 50.20 296.63BW-1948 317.64 21.00 296.64BW-1949 317.59 18.10 299.49BW-1950 348.63 47.41 301.22BW-1951 343.96 - -BW-1952 345.85 40.40 305.45BW-1953 343.74 22.70 321.04
OW-1913 343.14 10.42 332.72OW-1914 342.22 - -OW-1915 343.11 31.10 312.01OW-1916 343.80 26.00 317.80OW-1917 347.57 32.12 315.45OW-1919 347.46 37.34 310.12OW-1922 351.37 51.96 299.41OW-1923 351.93 48.00 303.93
PC-1 319.56 12.16 307.40PC-2 325.00 16.12 308.88PC-3 323.24 13.30 309.94PC-4 324.00 17.52 306.48PC-5 323.50 22.99 300.51PC-6 318.91 - -PC-7 341.38 30.47 310.91PC-8 336.68 26.77 309.91PC-9 337.36 26.96 310.40
PC-10 346.01 31.72 314.29PC-11 343.95 34.50 309.45PC-12 348.89 33.76 315.13
P-40 339.58 23.78 315.80P-44 324.20 14.38 309.82P-45 324.50 15.55 308.95P-46 321.21 6.12 315.09
* Depth to groundwater measurements collected on April 16, 1999.- = Not measured
GEON(5)12130765-009-121 Page 1 of 6 12/29/99
TABLE 3
GROUNDWATER ELEVATION MEASUREMENTSTHIRD QUARTER 1999
THE GEON COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 35.38 307.71MW-1A 343.09 dry -MW-2 342.21 36.99 305.22MW-3 346.40 41.51 304.89
MW-8S 346.92 29.54 317.38MW-8M 346.90 29.19 317.71MW-8D 345.18 31.62 313.56MW-9 342.30 24.22 318.08
MW-10 343.14 25.18 317.96MW-10A 343.14 26.06 317.08MW-14 328.79 21.75 307.04
MW-14A 331.26 24.32 306.94MW-15 345.19 29.74 315.45MW-16 343.36 41.80 301.56MW-17 320.23 16.40 303.83MW-18 349.79 32.87 316.92MW-19 349.31 32.41 316.90MW-22 327.78 25.36 302.42MW-24 345.95 35.67 310.28
MW-26Ma 345.07 dry -MW-26Da 345.43 44.38 301.05MW-27S 323.95 18.03 305.92MW-27D 323.99 18.26 305.73MW-32Sa 343.19 29.64 313.55MW-32Da 343.31 44.30 299.01MW-33Sa 345.49 42.21 303.28MW-33Da 345.44 63.24 282.20MW-34Sa 344.90 30.40 314.50MW-34Da 344.78 42.95 301.83
MW-35 317.27 10.46 306.81MW-36 321.25 17.62 303.63MW-37 336.50 31.18 305.32MW-38 320.95 16.65 304.30MW-39 318.88 14.39 304.49MW-41 307.95 5.39 302.56MW-42 347.88 32.23 315.65MW-43 347.63 35.38 312.25
MW-201S 437.55 28.64 408.91MW-201M 348.38 29.15 319.23MW-202S 352.16 35.82 316.34MW-202M 352.73 34.63 318.10MW-202D 352.43 34.89 317.54MW-203S 344.58 dry -MW-203M 344.83 24.76 320.07MW-203D 345.26 31.43 313.83MW-204S 350.86 32.90 317.96MW-204M 350.87 31.82 319.05
GEON(5)12130765-009-121 Page 2 of 6 12/29/99
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-205S 351.75 33.64 318.11MW-205M 351.72 35.87 315.85MW-206S 347.42 27.54 319.88MW-206M 347.41 27.63 319.78MW-207S 352.94 38.32 314.62MW-207M 353.06 38.67 314.39MW-208M 347.71 32.26 315.45MW-208D 348.04 32.96 315.08MW-210S 347.54 dry -MW-210M 347.52 30.21 317.31MW-210D 346.71 29.40 317.31MW-211S 350.35 33.97 316.38MW-211M 350.35 34.15 316.20MW-213S 345.88 28.10 317.78MW-213M 345.66 29.00 316.66MW-213S 345.55 29.24 316.31MW-214S 343.28 24.98 318.30MW-214M 343.25 22.93 320.32MW-214D 343.03 24.26 318.77MW-215S 346.56 27.86 318.70MW-215M 346.63 28.64 317.99MW-215D 346.56 28.36 318.20MW-216S 335.96 17.46 318.50MW-216M 336.02 17.78 318.24MW-216D 335.45 17.87 317.58MW-217S 346.92 33.13 313.79MW-217M 346.90 32.48 314.42MW-217D 345.18 32.63 312.55MW-218S 346.93 29.61 317.32MW-218M 347.17 29.42 317.75MW-218D 346.38 29.81 316.57MW-219S 346.01 27.91 318.10MW-219M 346.78 28.21 318.57MW-219D 345.52 27.64 317.88MW-220S 347.09 29.00 318.09MW-220M 347.26 50.00 297.26MW-220D 347.58 75.00 272.58MW-221S 347.15 35.00 312.15MW-221M 347.14 30.00 317.14MW-221D 347.07 105.00 242.07MW-222S 341.91 21.73 320.18MW-222M 344.69 24.36 320.33MW-222D 344.95 24.83 320.12MW-223S 326.51 22.29 304.22MW-223D 326.50 20.83 305.67MW-224S 318.27 11.56 306.71MW-224M 319.22 19.14 300.08MW-224D 318.29 14.56 303.73MW-225D 319.03 17.64 301.39MW-226S - 29.58 -MW-226D - 22.44 -
GEON(5)12130765-009-121 Page 3 of 6 12/29/99
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-227S 336.53 7.26 329.27MW-227M 336.90 18.61 318.29MW-227D 336.35 18.41 317.94MW-228S 334.44 16.46 317.98MW-228M 334.42 16.55 317.87MW-228D 334.32 16.28 318.04MW-229S 333.85 15.67 318.18MW-229M 334.30 16.23 318.07MW-229D 333.80 16.41 317.39MW-230S 340.30 21.42 318.88MW-230M 340.23 22.83 317.40MW-230D 340.42 22.64 317.78MW-231S 346.35 24.78 321.57MW-231M 346.39 26.67 319.72MW-231D 346.67 28.65 318.02MW-232S 326.12 22.43 303.69MW-232D 325.56 20.75 304.81MW-233S 347.68 28.42 319.26MW-233M 347.67 31.10 316.57MW-233D 347.56 31.00 316.56MW-235S 341.22 23.87 317.35MW-235D 341.31 23.26 318.05MW-236S 334.59 16.78 317.81MW-236M 334.50 16.46 318.04MW-236D 334.71 16.83 317.88MW-237S 336.53 17.26 319.27MW-237M 336.90 18.61 318.29MW-237D 336.35 18.41 317.94MW-238S 337.96 20.37 317.59MW-238M 337.66 19.88 317.78MW-238D 337.68 19.86 317.82MW-239S 347.33 - -MW-239M 347.55 - -MW-239D 437.63 - -MW-240S 351.07 32.84 318.23MW-240M 351.14 30.32 320.82MW-240D 351.33 35.25 316.08MW-241S 347.07 35.00 312.07MW-241M 346.58 65.24 281.34MW-241D 346.02 45.36 300.66MW-242S 348.57 25.22 323.35MW-242M 348.90 45.68 303.22MW-242D 349.00 105.10 243.90MW-243S 247.27 30.43 216.84MW-243M 247.21 30.24 216.97MW-243D 246.90 29.96 216.94MW-244S 349.12 36.13 312.99MW-244M 349.19 36.32 312.87MW-244D 349.11 35.89 313.22
GEON(5)12130765-009-121 Page 4 of 6 12/29/99
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-1 320.37 15.19 305.18GA-2 320.16 15.83 304.33GA-3 330.40 25.94 304.46GA-4 331.95 26.31 305.64GA-5 344.62 27.32 317.30GA-6 345.10 27.96 317.14GA-7 350.06 37.73 312.33GA-8 350.60 38.23 312.37GA-11 353.79 35.58 318.21GA-12 351.21 33.36 317.85GA-13 - 32.67 -GA-13a - 33.91 -GA-14 - 33.43 -GA-15 325.30 25.28 300.02GA-16 325.91 24.81 301.10GA-19 330.26 19.04 311.22GA-20 329.21 19.73 309.48GA-21 323.72 21.64 302.08GA-22 323.65 22.36 301.29GA-23 328.78 24.21 304.57GA-24 329.30 24.99 304.31GA-25 322.30 18.40 303.90GA-26 322.68 18.76 303.92GA-27 314.05 12.73 301.32GA-28 316.16 14.42 301.74GA-29 320.17 17.64 302.53GA-30 319.96 17.36 302.60GA-31 337.91 34.73 303.18GA-32 337.86 34.44 303.42GA-33 339.05 23.93 315.12GA-34 342.01 27.55 314.46GA-35 342.87 24.73 318.14GA-36 344.53 27.42 317.11GA-37 357.15 39.11 318.04GA-38 357.19 39.29 317.90
LMW-20S 314.63 13.23 301.40LMW-20N - 12.52 -LMW-21 346.83 28.01 318.82
Airco #1S 342.53 23.46 319.07Airco #1M 342.13 23.16 318.97Airco #1D 343.15 24.12 319.03Airco #4S - - -Airco #4M 349.36 - -Airco #4D 348.46 - -Airco #5S 350.47 31.39 319.08Airco #5M 350.80 30.24 320.56Airco #5D 350.30 36.00 314.30
GEON(5)12130765-009-121 Page 5 of 6 12/29/99
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
SW-1918 342.78 35.46 307.32SW-1920 350.49 35.65 314.84SW-1921 350.49 32.68 317.81SW-1924 345.50 38.00 307.50SW-1925 340.90 42.80 298.10SW-1926 337.13 39.98 297.15SW-1942 341.77 38.74 303.03SW-1943 340.44 34.90 305.54
BW-1927C 317.39 16.64 334.03BW-1927D 318.81 20.68 339.49BW-1927E 321.06 19.97 341.03BW-1927F 322.22 21.39 343.61BW-1927G 327.97 27.36 355.33BW-1928 322.99 35.63 287.36BW-1929 327.30 25.73 301.57BW-1930 325.23 - -BW-1931 320.95 35.26 285.69BW-1932 317.87 39.87 278.00BW-1933 320.00 34.93 285.07BW-1934 319.70 31.10 288.60BW-1935 331.37 31.51 299.86BW-1936 338.62 15.88 322.74BW-1937 338.35 13.84 324.51BW-1938 333.54 23.40 310.14BW-1939 338.16 46.99 219.17BW-1940 341.04 10.82 330.22BW-1941 344.60 32.28 312.32BW-1944 317.19 27.41 289.78BW-1945 321.17 19.61 301.56BW-1946 316.49 45.46 271.03BW-1947 346.83 57.38 289.45BW-1948 317.64 27.89 289.75BW-1949 317.59 26.42 291.17BW-1950 348.63 46.58 302.05BW-1951 343.96 - -BW-1952 345.85 36.01 309.84BW-1953 343.74 47.16 296.58
OW-1913 343.14 27.33 315.81OW-1914 342.22 29.64 312.58OW-1915 343.11 29.66 313.45OW-1916 343.80 27.16 316.64OW-1917 347.57 32.00 315.57OW-1919 347.46 43.10 304.36OW-1922 351.37 57.94 293.43OW-1923 351.93 50.34 301.59
GEON(5)12130765-009-121 Page 6 of 6 12/29/99
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
PC-1 319.56 17.43 302.13PC-2 325.00 22.51 302.49PC-3 323.24 19.72 303.52PC-4 324.00 20.15 303.85PC-5 323.50 21.42 302.08PC-6 318.91 - -PC-7 341.38 36.02 305.36PC-8 336.68 31.22 305.46PC-9 337.36 28.78 308.58
PC-10 346.01 40.24 305.77PC-11 343.95 40.88 303.07PC-12 348.89 32.00 316.89
P-40 339.58 26.86 312.72P-44 324.20 20.41 303.79P-45 324.50 21.63 302.87P-46 321.21 18.63 302.58
MC-1 346.39 39.37 307.02MC-2 342.15 34.76 307.39
* Depth to groundwater measurements collected on July 12, 1999.- = Not measured
GEON(5)12130765-009-121 Page 1 of 6 12/29/99
TABLE 4
GROUNDWATER ELEVATION MEASUREMENTSFOURTH QUARTER 1999
THE GEON COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 - -MW-1A 343.09 41.23 301.86MW-2 342.21 40.76 301.45MW-3 346.40 43.88 302.52
MW-8S 346.92 27.38 319.54MW-8M 346.90 - -MW-8D 345.18 26.21 318.97MW-9 342.30 - -
MW-10 343.14 - -MW-10A 343.14 27.71 315.43MW-14 328.79 25.58 303.21
MW-14A 331.26 27.35 303.91MW-15 345.19 39.93 305.26MW-16 343.36 41.31 302.05MW-17 320.23 18.39 301.84MW-18 349.79 - -MW-19 349.31 - -MW-22 327.78 24.04 303.74MW-24 345.95 27.93 318.02
MW-26Ma 345.07 42.31 302.76MW-26Da 345.43 42.85 302.58MW-27S 323.95 27.50 296.45MW-27D 323.99 11.73 312.26MW-32Sa 343.19 40.45 302.74MW-32Da 343.31 40.35 302.96MW-33Sa 345.49 43.89 301.60MW-33Da 345.44 43.88 301.56MW-34Sa 344.90 43.71 301.19MW-34Da 344.78 43.43 301.35
MW-35 317.27 16.45 300.82MW-36 321.25 21.03 300.22MW-37 336.50 - -MW-38 320.95 19.36 301.59MW-39 318.88 15.47 303.41MW-41 307.95 8.00 299.95MW-42 347.88 - -MW-43 347.63 37.23 310.40
MW-201S 437.55 - -MW-201M 348.38 31.82 316.56MW-202S 352.16 35.23 316.93MW-202M 352.73 - -MW-202D 352.43 - -MW-203S 344.58 - -MW-203M 344.83 29.66 315.17MW-203D 345.26 - -MW-204S 350.86 - -MW-204M 350.87 33.92 316.95
GEON(5)12130765-009-121 Page 2 of 6 12/29/99
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-205S 351.75 - -MW-205M 351.72 35.92 315.80MW-206S 347.42 - -MW-206M 347.41 30.37 317.04MW-207S 352.94 - -MW-207M 353.06 37.39 315.67MW-208M 347.71 34.03 313.68MW-208D 348.04 - -MW-210S 347.54 31.46 316.08MW-210M 347.67 31.21 316.46MW-210D 346.71 - -MW-211S 350.35 - -MW-221M 350.35 35.82 314.53MW-213S 345.88 - -MW-213M 345.66 - -MW-213S 345.55 - -MW-214S 343.28 - -MW-214M 343.25 - -MW-214D 343.03 - -MW-215S 346.56 30.14 316.42MW-215M 346.63 - -MW-215D 346.56 29.97 316.59MW-216S 335.96 18.70 317.26MW-216M 366.02 - -MW-216D 335.45 19.24 316.21MW-217S 346.92 32.23 314.69MW-217M 346.90 - -MW-217D 345.18 32.99 312.19MW-218S 346.93 30.20 316.73
MW -218M 347.17 - -MW-218D 346.38 30.11 316.27MW-219S 346.01 - -MW-219M 346.78 - -MW-219D 345.52 - -MW-220S 347.09 - -MW-220M 347.26 - -MW-220D 347.58 - -MW-221S 347.15 - -MW-221M 347.14 - -MW-221D 347.07 - -MW-222S 341.91 24.12 317.79MW-222M 344.69 - -MW-222D 344.95 26.91 318.04MW-223S 326.51 26.21 300.30MW-223D 326.50 26.43 300.07MW-224S 318.27 15.64 302.63MW-224M 319.22 - -MW-224D 318.29 15.98 302.31MW-225D 319.03 20.81 298.22MW-226S - - -MW-226D - - -
GEON(5)12130765-009-121 Page 3 of 6 12/29/99
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-227S 336.53 - -MW-227M 336.90 - -MW-227D 336.35 - -MW-228S 334.44 - -MW-228M 334.42 - -MW-228D 334.32 - -MW-229S 333.85 17.06 316.79MW-229M 334.30 - -MW-229D 333.80 16.94 316.86MW-230S 340.30 24.89 315.41MW-230M 340.23 - -MW-230D 340.42 25.23 315.19MW-231S 346.35 29.58 316.77MW-231M 346.39 - -MW-231D 346.67 30.00 316.67MW-232S 326.12 25.95 300.17MW-232D 325.56 22.85 302.71MW-233S 347.68 30.15 317.53MW-233M 347.67 - -MW-233D 347.56 32.03 315.53MW-235S 341.22 23.87 317.35MW-235D 341.31 24.50 316.81MW-236S 334.59 - -MW-236M 334.50 - -MW-236D 334.71 - -MW-237S 336.53 - -MW-237M 336.90 - -MW-237D 336.35 - -MW-238S 337.96 25.21 312.75MW-238M 337.66 - -MW-238D 337.68 24.63 313.05MW-239S 347.33 - -MW-239M 347.55 - -MW-239D 437.63 - -MW-240S 351.07 32.03 319.04MW-240M 351.14 - -MW-240D 351.33 37.05 314.28MW-241S 347.07 34.90 312.17MW-241M 346.58 - -MW-241D 346.02 - -MW-242S 348.57 33.20 315.37MW-242M 348.90 - -MW-242D 349.00 - -MW-243S 247.27 - -MW-243M 247.21 - -MW-243D 246.90 - -MW-244S 349.12 35.42 313.70MW-244M 349.19 - -MW -244D 349.11 - -
GEON(5)12130765-009-121 Page 4 of 6 12/29/99
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-1 320.37 20.2 300.35GA-2 320.16 16.71 303.45GA-3 330.40 27.21 303.19GA-4 331.95 24.42 307.53GA-5 344.62 26.53 318.09GA-6 345.10 27.91 319.19GA-7 350.06 30.86 319.20GA-8 350.60 36.07 314.53GA-11 353.79 30.33 323.46GA-12 351.21 38.42 312.79GA-13 - - -GA-13a - - -GA-14 - - -GA-15 325.30 - -GA-16 325.91 - -GA-19 330.26 20.76 309.50GA-20 329.21 21.55 307.66GA-21 323.72 24.41 299.31GA-22 323.65 23.20 300.45GA-23 328.78 25.61 303.17GA-24 329.30 24.33 304.97GA-25 322.30 21.14 301.16GA-26 322.68 22.74 299.94GA-27 314.05 13.61 300.44GA-28 316.16 - -GA-29 320.17 27.33 292.84GA-30 319.96 21.14 298.82GA-31 337.91 - -GA-32 337.86 - -GA-33 339.05 28.50 310.55GA-34 342.01 32.20 309.81GA-35 342.87 28.11 314.76GA-36 344.53 34.86 309.67GA-37 357.15 - -GA-38 357.19 - -
LMW-20S 314.5 12.93 301.57LMW-20N - - -LMW-21 346.83 30.03 316.80
Airco #1S 342.53 26.34 316.19Airco #1M 342.13 - -Airco #1D 343.15 27.35 315.80Airco #4S - - -Airco #4M 349.36 - -Airco #4D 348.46 - -Airco #5S 350.47 33.55 316.92Airco #5M 350.80 - -Airco #5D 350.30 37.46 312.84
GEON(5)12130765-009-121 Page 5 of 6 12/29/99
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
SW-1918 342.78 28.71 314.07SW-1920 350.49 36.20 314.29SW-1921 350.49 33.99 316.50SW-1924 345.50 36.58 308.92SW-1925 340.90 51.49 289.41SW-1926 337.13 39.48 297.65SW-1942 341.77 37.69 304.08SW-1943 340.44 35.29 305.15
BW-1927C 317.39 - -BW-1927D 318.81 - -BW-1927E 321.06 - -BW-1927F 322.22 - -BW-1927G 327.97 - -BW-1928 322.99 39.98 283.01BW-1929 327.30 43.73 283.57BW-1930 325.23 45.90 279.33BW-1931 320.95 34.45 286.50BW-1932 317.87 34.98 282.89BW-1933 320.00 24.02 295.98BW-1934 319.70 31.31 288.39BW-1935 331.37 44.02 287.35BW-1936 338.62 57.70 280.92BW-1937 338.35 48.63 289.72BW-1938 333.54 36.95 296.59BW-1939 338.16 53.47 284.69BW-1940 341.04 63.41 277.63BW-1941 344.60 23.04 321.56BW-1944 317.19 30.94 286.25BW-1945 321.17 20.99 300.18BW-1946 316.49 29.78 286.71BW-1947 346.83 63.81 283.02BW-1948 317.64 36.41 281.23BW-1949 317.59 22.36 295.23BW-1950 348.63 66.35 282.28BW-1951 343.96 38.00 305.96BW-1952 345.85 42.24 303.61BW-1953 343.74 45.43 298.31
OW-1913 343.14 27.83 315.31OW-1914 342.22 29.02 313.20OW-1915 343.11 29.30 313.81OW-1916 343.80 30.69 313.11OW-1917 347.57 33.28 314.29OW-1919 347.46 55.65 291.81OW-1922 351.37 58.75 292.62OW-1923 351.93 54.11 297.82
GEON(5)12130765-009-121 Page 6 of 6 12/29/99
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
PC-1 319.56 20.55 299.01PC-2 325.00 25.83 299.17PC-3 323.24 23.52 299.72PC-4 324.00 23.72 300.28PC-5 323.50 22.33 301.17PC-6 318.91 - -PC-7 341.38 34.68 306.70PC-8 336.68 31.83 304.85PC-9 337.36 30.84 306.52
PC-10 346.01 38.24 307.77PC-11 343.95 36.93 307.02PC-12 348.89 29.74 319.15
P-40 339.58 16.22 323.36P-44 324.20 20.03 304.17P-45 324.58 23.38 301.20P-46 321.21 19.59 301.62
MC-1 346.39 - -MC-2 342.15 - -
* Depth to groundwater measurements collected on October 15, 1999.- = Not Measured
GEON Server30765-013-121 Page 1 of 6 June 29, 2000
TABLE 3
GROUNDWATER ELEVATION MEASUREMENTSFIRST QUARTER 2000
THE GEON COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 34.32 308.77MW-2a 344.35 33.34 311.01MW-3 348.83 33.83 315.00
MW-8S 346.92 30.00 316.92MW-8M 346.90 - -MW-8D 345.18 30.02 315.16MW-9 342.30 - -
MW-10 343.14 - -MW-10A 343.14 28.15 314.09MW-14 328.79 26.87 301.92
MW-14Da 331.26 19.66 311.60MW-14Sa 328.90 19.46 309.44MW-14A 331.26 27.48 303.78MW-15a 345.19 27.73 317.46MW-16 343.36 27.64 315.72MW-17 320.23 - -MW-18 349.79 - -MW-19 349.31 - -MW-22 327.78 15.30 312.48MW-24 345.95 - -
MW-26Ma 345.43 27.73 317.70MW-26Da 345.07 31.16 313.91MW-27S 323.95 - -MW-27D 323.99 11.82 312.17MW-32Sa 343.19 31.00 312.19MW-32Da 343.31 31.92 311.39MW-33Sa 345.49 29.02 316.47MW-33Da 345.44 22.43 323.01MW-34Sa 344.90 28.23 316.67MW-34Da 344.78 29.98 314.80
MW-35 317.27 - -MW-36 321.25 11.31 309.94MW-37 336.50 - -MW-38 320.95 - -MW-39 318.88 - -MW-41 307.95 - -MW-42 347.88 - -MW-43 347.63 30.49 317.14
MW-201S 437.55 - -MW-201M 348.38 32.45 315.93MW-202S 352.16 - -MW-202M 352.73 - -MW-202D 352.43 - -MW-203S 344.58 - -MW-203M 344.83 27.72 317.11MW-203D 345.26 - -MW-204S 350.86 - -MW-204M 350.87 35.74 315.13
GEON Server30765-013-121 Page 2 of 6 June 29, 2000
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-205S 351.75 - -MW-205M 351.72 37.20 314.52MW-206S 347.42 - -MW-206M 347.41 29.97 317.44MW-207S 352.94 - -MW-207M 353.06 38.68 314.38MW-208M 347.71 34.31 313.40MW-208D 348.04 - -MW-210S 347.54 31.28 316.26MW-210M 347.67 31.86 315.81MW-210D 346.71 - -MW-211S 350.35 - -MW-211M 350.35 36.56 313.79MW-213S 345.88 - -MW-213M 345.66 - -MW-213S 345.55 - -MW-214S 343.28 - -MW-214M 343.25 - -MW-214D 343.03 - -MW-215S 346.56 33.00 313.56MW-215M 346.63 - -MW-215D 346.56 30.04 316.52MW-216S 335.96 19.42 316.54MW-216M 336.02 - -MW-216D 335.45 19.27 316.18MW-217S 346.92 33.00 313.92MW-217M 346.90 - -MW-217D 345.18 32.97 312.21MW-218S 346.93 30.46 316.47MW-218M 347.17 - -MW-218D 346.38 29.64 316.74MW-219S 346.01 - -MW-219M 346.78 - -MW-219D 345.52 - -MW-220S 347.09 - -MW-220M 347.26 - -MW-220D 347.58 - -MW-221S 347.15 - -MW-221M 347.14 - -MW-221D 347.07 - -MW-222S 341.91 27.38 314.53MW-222M 344.69 - -MW-222D 344.95 27.00 317.95MW-223S 326.51 16.96 309.55MW-223D 326.50 17.04 309.46MW-224S 318.27 - -MW-224M 319.22 21.58 297.64MW-224D 318.29 - -MW-225D 319.03 - -MW-226S - - -MW-226D - - -
GEON Server30765-013-121 Page 3 of 6 June 29, 2000
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-227S 336.53 - -MW-227M 336.90 - -MW-227D 336.35 - -MW-228S 334.44 - -MW-228M 334.42 - -MW-228D 334.32 - -MW-229S 333.85 16.92 316.93MW-229M 334.30 - -MW-229D 333.80 16.22 317.58MW-230S 340.30 23.00 317.30MW-230M 340.23 - -MW-230D 340.42 23.71 316.71MW-231S 346.35 29.66 316.69MW-231M 346.39 - -MW-231D 346.67 30.02 316.65MW-232S 326.12 11.01 315.11MW-232D 325.56 10.98 314.58MW-233S 347.68 - -MW-233M 347.67 - -MW-233D 347.56 - -MW-235S 341.22 23.22 318.00MW-235D 341.31 24.66 316.65MW-236S 334.59 - -MW-236M 334.50 - -MW-236D 334.71 - -MW-237S 336.53 - -MW-237M 336.90 - -MW-237D 336.35 - -MW-238S 337.96 20.86 317.10MW-238M 337.66 - -MW-238D 337.68 20.80 316.88MW-239S 347.33 - -MW-239M 347.55 - -MW-239D 437.63 - -MW-240S 351.07 35.8 315.27MW-240M 351.14 - -MW-240D 351.33 35.21 316.12MW-241S 347.07 24.18 322.89MW-241M 346.58 - -MW-241D 346.02 - -MW-242S 348.57 34.00 314.57MW-242M 348.90 - -MW-242D 349.00 - -MW-243S 347.27 30.49 316.78MW-243M 247.21 - -MW-243D 246.90 - -MW-244S 349.12 34.91 314.21MW-244M 349.19 - -MW-244D 349.11 - -
GEON Server30765-013-121 Page 4 of 6 June 29, 2000
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-1 320.37 - -GA-2 320.16 - -GA-3 330.40 16.44 313.96GA-4 331.95 15.68 316.27GA-5 344.62 28.25 316.37GA-6 345.10 28.13 316.97GA-7 350.06 30.25 319.81GA-8 350.60 34.83 315.77GA-11 353.79 35.98 317.81GA-12 351.21 31.00 320.21GA-13 - - -GA-13a - - -GA-14 - - -GA-15 325.30 8.72 316.58GA-16 325.91 9.77 316.14GA-19 330.26 13.78 316.48GA-20 329.21 13.27 315.94GA-21 323.72 7.81 315.91GA-22 323.65 7.75 315.90GA-23 328.78 12.86 315.92GA-24 329.30 13.62 315.68GA-25 322.30 3.93 318.37GA-26 322.68 6.68 316.00GA-27 314.05 - -GA-28 316.16 - -GA-29 320.17 - -GA-30 319.96 - -GA-31 337.89 24.00 313.89GA-32 337.81 25.80 312.01GA-33 339.05 28.50 310.55GA-34 342.01 26.31 315.70GA-35 342.87 28.73 314.14GA-36 344.53 30.49 314.04GA-37 357.15 41.62 315.53GA-38 357.19 41.27 315.92
LMW-20S 314.50 - -LMW-20D 314.50 - -LMW-21 346.83 29.95 316.88
Airco #1S 342.53 26.32 316.21Airco #1M 342.13 - -Airco #1D 343.15 25.32 317.83Airco #4S - - -Airco #4M 349.36 - -Airco #4D 348.46 - -Airco #5S 350.47 34.57 315.90Airco #5M 350.80 - -Airco #5D 350.30 34.30 316.00
GEON Server30765-013-121 Page 5 of 6 June 29, 2000
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
SW-1918 342.78 25.52 317.26SW-1920 350.49 51.50 298.99SW-1921 350.49 59.22 291.27SW-1924 345.50 41.40 304.10SW-1925 340.90 42.92 297.98SW-1926 337.13 33.72 303.41SW-1942 341.77 55.14 286.63SW-1943 340.44 30.56 309.88
BW-1927C 317.39 - -BW-1927D 318.81 - -BW-1927E 321.06 6.58 314.48BW-1927F 322.22 9.02 313.20BW-1927G 327.97 16.74 311.23BW-1928 322.99 11.03 311.96BW-1929 327.30 21.75 305.55BW-1930 325.23 36.24 288.99BW-1931 320.95 32.88 288.07BW-1932 317.87 - -BW-1933 320.00 16.84 303.16BW-1934 319.70 19.00 300.70BW-1935 331.37 29.45 301.92BW-1936 338.62 36.85 301.77BW-1937 338.35 25.87 312.48BW-1938 333.54 35.11 298.43BW-1939 338.16 33.49 304.67BW-1940 341.04 58.95 282.09BW-1941 344.60 48.99 295.61BW-1944 317.19 - -BW-1945 321.17 9.79 311.38BW-1946 316.49 - -BW-1947 346.83 46.34 300.49BW-1948 317.64 - -BW-1949 317.59 - -BW-1950 348.63 63.11 285.52BW-1951 343.96 31.68 312.28BW-1952 345.85 31.22 314.63BW-1953 343.74 38.92 304.82
OW-1913 343.14 27.80 315.34OW-1914 342.22 24.20 318.02OW-1915 343.11 29.26 313.85OW-1916 343.80 39.02 304.78OW-1917 347.57 30.30 317.27OW-1919 347.46 30.13 317.33OW-1922 351.37 43.14 308.23OW-1923 351.93 31.11 320.82
GEON Server30765-013-121 Page 6 of 6 June 29, 2000
TABLE 3 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
PC-1 319.56 4.46 315.10PC-2 325.00 11.96 313.04PC-3 323.24 11.17 312.07PC-4 324.00 14.84 309.16PC-5 323.50 15.62 307.88PC-6 318.91 - -PC-7 341.38 31.41 309.97PC-8 336.68 25.78 310.90PC-9 337.36 19.35 318.01
PC-10 346.01 34.01 312.00PC-11 343.95 30.47 313.48PC-12 348.89 33.99 314.90
P-40 339.58 - -P-44 324.20 14.21 309.99P-45 324.58 16.34 308.24P-46 321.21 - -
MC-1 346.39 33.70 312.69MC-2 342.15 35.37 306.78
* Depth to groundwater measurements collected on January 10-11, 2000.- = Not measured
GEON Server30765-013-121 Page 1 of 6 June 29, 2000
TABLE 4
GROUNDWATER ELEVATION MEASUREMENTSSECOND QUARTER 2000
THE GEON COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 34.32 308.77MW-2a 344.35 33.34 311.01MW-3 348.83 33.83 315.00
MW-8S 346.92 30.00 316.92MW-8M 346.90 - -MW-8D 345.18 30.02 315.16MW-9 342.30 - -
MW-10 343.14 - -MW-10A 343.14 28.15 314.99MW-14 328.79 - -
MW-14Da 331.26 19.66 311.60MW-14Sa 328.90 19.46 309.44MW-14A 331.26 - -MW-15a 345.19 27.73 317.46MW-16 343.36 27.64 315.72MW-17 320.23 - -MW-18 349.79 - -MW-19 349.31 - -MW-22 327.78 15.30 312.48MW-24 345.95 - -
MW-26Ma 345.43 27.73 317.70MW-26Da 345.07 31.16 313.91MW-27S 323.95 - -MW-27D 323.99 11.82 312.17MW-32Sa 343.19 31.00 312.19MW-32Da 343.31 31.92 311.39MW-33Sa 345.49 29.02 316.47MW-33Da 345.44 22.43 323.01MW-34Sa 344.90 28.23 316.67MW-34Da 344.78 29.98 314.80
MW-35 317.27 - -MW-36 321.25 11.31 309.94MW-37 336.50 - -MW-38 320.95 - -MW-39 318.88 - -MW-41 307.95 - -MW-42 347.88 - -MW-43 347.63 30.49 317.14
MW-201S 437.55 - -MW-201M 348.38 32.45 315.93MW-202S 352.16 - -MW-202M 352.73 - -MW-202D 352.43 - -MW-203S 344.58 - -MW-203M 344.83 27.72 317.11MW-203D 345.26 - -MW-204S 350.86 - -MW-204M 350.87 35.74 315.13
GEON Server30765-013-121 Page 2 of 6 June 29, 2000
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-205S 351.75 - -MW-205M 351.72 37.20 314.52MW-206S 347.42 - -MW-206M 347.41 29.97 317.44MW-207S 352.94 - -MW-207M 353.06 38.68 314.38MW-208M 347.71 34.31 313.40MW-208D 348.04 - -MW-210S 347.54 31.28 316.26MW-210M 347.67 31.86 315.81MW-210D 346.71 - -MW-211S 350.35 - -MW-211M 350.35 36.56 313.79MW-213S 345.88 - -MW-213M 345.66 - -MW-213S 345.55 - -MW-214S 343.28 - -MW-214M 343.25 - -MW-214D 343.03 - -MW-215S 346.56 33.00 313.56MW-215M 346.63 - -MW-215D 346.56 30.04 316.52MW-216S 335.96 19.42 316.54MW-216M 336.02 - -MW-216D 335.45 19.27 316.18MW-217S 346.92 33.00 313.92MW-217M 346.90 - -MW-217D 345.18 32.97 312.21MW-218S 346.93 30.46 316.47MW-218M 347.17 - -MW-218D 346.38 29.64 316.74MW-219S 346.01 - -MW-219M 346.78 - -MW-219D 345.52 - -MW-220S 347.09 - -MW-220M 347.26 - -MW-220D 347.58 - -MW-221S 347.15 - -MW-221M 347.14 - -MW-221D 347.07 - -MW-222S 341.91 27.38 314.53MW-222M 344.69 - -MW-222D 344.95 27.00 317.95MW-223S 326.51 16.96 309.55MW-223D 326.50 17.04 309.46MW-224S 318.27 - -MW-224M 319.22 - -MW-224D 318.29 - -MW-225D 319.03 - -MW-226S - - -MW-226D - - -
GEON Server30765-013-121 Page 3 of 6 June 29, 2000
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-227S 336.53 - -MW-227M 336.90 - -MW-227D 336.35 - -MW-228S 334.44 - -MW-228M 334.42 - -MW-228D 334.32 - -MW-229S 333.85 16.92 316.93MW-229M 334.30 - -MW-229D 333.80 16.22 317.58MW-230S 340.30 23.00 317.30MW-230M 340.23 - -MW-230D 340.42 23.71 316.71MW-231S 346.35 29.66 316.69MW-231M 346.39 - -MW-231D 346.67 30.02 316.65MW-232S 326.12 11.01 315.11MW-232D 325.56 10.98 314.58MW-233S 347.68 - -MW-233M 347.67 - -MW-233D 347.56 - -MW-235S 341.22 23.22 318.00MW-235D 341.31 24.66 316.65MW-236S 334.59 - -MW-236M 334.50 - -MW-236D 334.71 - -MW-237S 336.53 - -MW-237M 336.90 - -MW-237D 336.35 - -MW-238S 337.96 20.86 317.10MW-238M 337.66 - -MW-238D 337.68 20.80 316.88MW-239S 347.33 - -MW-239M 347.55 - -MW-239D 437.63 - -MW-240S 351.07 35.8 315.27MW-240M 351.14 - -MW-240D 351.33 35.21 316.12MW-241S 347.07 24.18 322.89MW-241M 346.58 - -MW-241D 346.02 - -MW-242S 348.57 34.00 314.57MW-242M 348.90 - -MW-242D 349.00 - -MW-243S 347.27 30.49 316.78MW-243M 247.21 - -MW-243D 246.90 - -MW-244S 349.12 34.91 314.21MW-244M 349.19 - -MW-244D 349.11 - -
GEON Server30765-013-121 Page 4 of 6 June 29, 2000
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-1 320.37 - -GA-2 320.16 - -GA-3 330.40 16.44 313.96GA-4 331.95 15.68 316.27GA-5 344.62 28.25 316.37GA-6 345.10 28.13 316.97GA-7 350.06 30.25 319.81GA-8 350.60 34.83 315.77GA-11 353.79 35.98 317.81GA-12 351.21 31.00 320.21GA-13 - - -GA-13a - - -GA-14 - - -GA-15 325.30 8.72 316.58GA-16 325.91 9.77 316.14GA-19 330.26 13.78 316.48GA-20 329.21 13.27 315.94GA-21 323.72 7.81 315.91GA-22 323.65 7.75 315.90GA-23 328.78 12.86 315.92GA-24 329.30 13.62 315.68GA-25 322.30 3.93 318.37GA-26 322.68 6.68 316.00GA-27 314.05 - -GA-28 316.16 - -GA-29 320.17 - -GA-30 319.96 - -GA-31 337.89 24.00 313.89GA-32 337.81 25.80 312.01GA-33 339.05 28.50 310.55GA-34 342.01 26.31 315.70GA-35 342.87 28.73 314.14GA-36 344.53 30.49 314.04GA-37 357.15 41.62 315.53GA-38 357.19 41.27 315.92
LMW-20S 314.50 - -LMW-20D 314.50 - -LMW-21 346.83 29.95 316.88
Airco #1S 342.53 26.32 316.21Airco #1M 342.13 - -Airco #1D 343.15 25.32 317.83Airco #4S - - -Airco #4M 349.36 - -Airco #4D 348.46 - -Airco #5S 350.47 34.57 315.90Airco #5M 350.80 - -Airco #5D 350.30 34.30 316.00
GEON Server30765-013-121 Page 5 of 6 June 29, 2000
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
SW-1918 342.78 25.52 317.26SW-1920 350.49 51.50 298.99SW-1921 350.49 59.22 291.27SW-1924 345.50 41.40 304.10SW-1925 340.90 42.92 297.98SW-1926 337.13 33.72 303.41SW-1942 341.77 55.14 286.63SW-1943 340.44 30.56 309.88
BW-1927C 317.39 - -BW-1927D 318.81 - -BW-1927E 321.06 6.58 314.48BW-1927F 322.22 9.02 313.20BW-1927G 327.97 16.74 311.23BW-1928 322.99 11.03 311.96BW-1929 327.30 21.75 305.55BW-1930 325.23 36.24 288.99BW-1931 320.95 32.88 288.07BW-1932 317.87 - -BW-1933 320.00 16.84 303.16BW-1934 319.70 19.00 300.70BW-1935 331.37 29.45 301.92BW-1936 338.62 36.85 301.77BW-1937 338.35 25.87 312.48BW-1938 333.54 35.11 298.43BW-1939 338.16 33.49 304.67BW-1940 341.04 58.95 282.09BW-1941 344.60 48.99 295.61BW-1944 317.19 - -BW-1945 321.17 9.79 311.38BW-1946 316.49 - -BW-1947 346.83 46.34 300.49BW-1948 317.64 - -BW-1949 317.59 - -BW-1950 348.63 63.11 285.52BW-1951 343.96 31.68 312.28BW-1952 345.85 31.22 314.63BW-1953 343.74 38.92 304.82
OW-1913 343.14 27.80 315.34OW-1914 342.22 24.20 318.02OW-1915 343.11 29.26 313.85OW-1916 343.80 39.02 304.78OW-1917 347.57 30.30 317.27OW-1919 347.46 30.13 317.33OW-1922 351.37 43.14 308.23OW-1923 351.93 31.11 320.82
GEON Server30765-013-121 Page 6 of 6 June 29, 2000
TABLE 4 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
PC-1 319.56 4.46 315.10PC-2 325.00 11.96 313.04PC-3 323.24 11.17 312.07PC-4 324.00 14.84 309.16PC-5 323.50 15.62 307.88PC-6 318.91 - -PC-7 341.38 31.41 309.97PC-8 336.68 25.78 310.90PC-9 337.36 19.35 318.01
PC-10 346.01 34.01 312.00PC-11 343.95 30.47 313.48PC-12 348.89 33.99 314.90
P-40 339.58 - -P-44 324.20 14.21 309.99P-45 324.58 16.34 308.24P-46 321.21 - -
MC-1 346.39 33.70 312.69MC-2 342.15 35.37 306.78
* Depth to groundwater measurements collected on April 10, 2000.- = Not measured
GEON Server30765-013-121 Page 1 of 6 July 13, 2000
TABLE 1
GROUNDWATER ELEVATION MEASUREMENTSSECOND QUARTER 2000
THE GEON COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 34.32 308.77MW-2a 344.35 33.34 311.01MW-3 348.83 33.83 315.00
MW-8S 346.92 30.00 316.92MW-8M 346.90 - -MW-8D 345.18 30.02 315.16MW-9 342.30 - -
MW-10 343.14 - -MW-10A 343.14 28.15 314.99MW-14 328.79 - -
MW-14Da 331.26 19.66 311.60MW-14Sa 328.90 19.46 309.44MW-14A 331.26 - -MW-15a 345.19 27.73 317.46MW-16 343.36 27.64 315.72MW-17 320.23 - -MW-18 349.79 - -MW-19 349.31 - -MW-22 327.78 15.30 312.48MW-24 345.95 - -
MW-26Ma 345.43 27.73 317.70MW-26Da 345.07 31.16 313.91MW-27S 323.95 - -MW-27D 323.99 11.82 312.17MW-32Sa 343.19 31.00 312.19MW-32Da 343.31 31.92 311.39MW-33Sa 345.49 29.02 316.47MW-33Da 345.44 22.43 323.01MW-34Sa 344.90 28.23 316.67MW-34Da 344.78 29.98 314.80
MW-35 317.27 - -MW-36 321.25 11.31 309.94MW-37 336.50 - -MW-38 320.95 - -MW-39 318.88 - -MW-41 307.95 - -MW-42 347.88 - -MW-43 347.63 30.49 317.14
MW-201S 437.55 - -MW-201M 348.38 32.45 315.93MW-202S 352.16 - -MW-202M 352.73 - -MW-202D 352.43 - -MW-203S 344.58 - -MW-203M 344.83 27.72 317.11MW-203D 345.26 - -MW-204S 350.86 - -MW-204M 350.87 35.74 315.13
GEON Server30765-013-121 Page 2 of 6 July 13, 2000
TABLE 1 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-205S 351.75 - -MW-205M 351.72 37.20 314.52MW-206S 347.42 - -MW-206M 347.41 29.97 317.44MW-207S 352.94 - -MW-207M 353.06 38.68 314.38MW-208M 347.71 34.31 313.40MW-208D 348.04 - -MW-210S 347.54 31.28 316.26MW-210M 347.67 31.86 315.81MW-210D 346.71 - -MW-211S 350.35 - -MW-211M 350.35 36.56 313.79MW-213S 345.88 - -MW-213M 345.66 - -MW-213S 345.55 - -MW-214S 343.28 - -MW-214M 343.25 - -MW-214D 343.03 - -MW-215S 346.56 33.00 313.56MW-215M 346.63 - -MW-215D 346.56 30.04 316.52MW-216S 335.96 19.42 316.54MW-216M 336.02 - -MW-216D 335.45 19.27 316.18MW-217S 346.92 33.00 313.92MW-217M 346.90 - -MW-217D 345.18 32.97 312.21MW-218S 346.93 30.46 316.47MW-218M 347.17 - -MW-218D 346.38 29.64 316.74MW-219S 346.01 - -MW-219M 346.78 - -MW-219D 345.52 - -MW-220S 347.09 - -MW-220M 347.26 - -MW-220D 347.58 - -MW-221S 347.15 - -MW-221M 347.14 - -MW-221D 347.07 - -MW-222S 341.91 27.38 314.53MW-222M 344.69 - -MW-222D 344.95 27.00 317.95MW-223S 326.51 16.96 309.55MW-223D 326.50 17.04 309.46MW-224S 318.27 - -MW-224M 319.22 - -MW-224D 318.29 - -MW-225D 319.03 - -MW-226S - - -MW-226D - - -
GEON Server30765-013-121 Page 3 of 6 July 13, 2000
TABLE 1 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-227S 336.53 - -MW-227M 336.90 - -MW-227D 336.35 - -MW-228S 334.44 - -MW-228M 334.42 - -MW-228D 334.32 - -MW-229S 333.85 16.92 316.93MW-229M 334.30 - -MW-229D 333.80 16.22 317.58MW-230S 340.30 23.00 317.30MW-230M 340.23 - -MW-230D 340.42 23.71 316.71MW-231S 346.35 29.66 316.69MW-231M 346.39 - -MW-231D 346.67 30.02 316.65MW-232S 326.12 11.01 315.11MW-232D 325.56 10.98 314.58MW-233S 347.68 - -MW-233M 347.67 - -MW-233D 347.56 - -MW-235S 341.22 23.22 318.00MW-235D 341.31 24.66 316.65MW-236S 334.59 - -MW-236M 334.50 - -MW-236D 334.71 - -MW-237S 336.53 - -MW-237M 336.90 - -MW-237D 336.35 - -MW-238S 337.96 20.86 317.10MW-238M 337.66 - -MW-238D 337.68 20.80 316.88MW-239S 347.33 - -MW-239M 347.55 - -MW-239D 437.63 - -MW-240S 351.07 35.8 315.27MW-240M 351.14 - -MW-240D 351.33 35.21 316.12MW-241S 347.07 24.18 322.89MW-241M 346.58 - -MW-241D 346.02 - -MW-242S 348.57 34.00 314.57MW-242M 348.90 - -MW-242D 349.00 - -MW-243S 347.27 30.49 316.78MW-243M 247.21 - -MW-243D 246.90 - -MW-244S 349.12 34.91 314.21MW-244M 349.19 - -MW-244D 349.11 - -
GEON Server30765-013-121 Page 4 of 6 July 13, 2000
TABLE 1 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-1 320.37 - -GA-2 320.16 - -GA-3 330.40 16.44 313.96GA-4 331.95 15.68 316.27GA-5 344.62 28.25 316.37GA-6 345.10 28.13 316.97GA-7 350.06 30.25 319.81GA-8 350.60 34.83 315.77GA-11 353.79 35.98 317.81GA-12 351.21 31.00 320.21GA-13 - - -GA-13a - - -GA-14 - - -GA-15 325.30 8.72 316.58GA-16 325.91 9.77 316.14GA-19 330.26 13.78 316.48GA-20 329.21 13.27 315.94GA-21 323.72 7.81 315.91GA-22 323.65 7.75 315.90GA-23 328.78 12.86 315.92GA-24 329.30 13.62 315.68GA-25 322.30 3.93 318.37GA-26 322.68 6.68 316.00GA-27 314.05 - -GA-28 316.16 - -GA-29 320.17 - -GA-30 319.96 - -GA-31 337.89 24.00 313.89GA-32 337.81 25.80 312.01GA-33 339.05 28.50 310.55GA-34 342.01 26.31 315.70GA-35 342.87 28.73 314.14GA-36 344.53 30.49 314.04GA-37 357.15 41.62 315.53GA-38 357.19 41.27 315.92
LMW-20S 314.50 - -LMW-20D 314.50 - -LMW-21 346.83 29.95 316.88
Airco #1S 342.53 26.32 316.21Airco #1M 342.13 - -Airco #1D 343.15 25.32 317.83Airco #4S - - -Airco #4M 349.36 - -Airco #4D 348.46 - -Airco #5S 350.47 34.57 315.90Airco #5M 350.80 - -Airco #5D 350.30 34.30 316.00
GEON Server30765-013-121 Page 5 of 6 July 13, 2000
TABLE 1 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
SW-1918 342.78 25.52 317.26SW-1920 350.49 51.50 298.99SW-1921 350.49 59.22 291.27SW-1924 345.50 41.40 304.10SW-1925 340.90 42.92 297.98SW-1926 337.13 33.72 303.41SW-1942 341.77 55.14 286.63SW-1943 340.44 30.56 309.88
BW-1927C 317.39 - -BW-1927D 318.81 - -BW-1927E 321.06 6.58 314.48BW-1927F 322.22 9.02 313.20BW-1927G 327.97 16.74 311.23BW-1928 322.99 11.03 311.96BW-1929 327.30 21.75 305.55BW-1930 325.23 36.24 288.99BW-1931 320.95 32.88 288.07BW-1932 317.87 - -BW-1933 320.00 16.84 303.16BW-1934 319.70 19.00 300.70BW-1935 331.37 29.45 301.92BW-1936 338.62 36.85 301.77BW-1937 338.35 25.87 312.48BW-1938 333.54 35.11 298.43BW-1939 338.16 33.49 304.67BW-1940 341.04 58.95 282.09BW-1941 344.60 48.99 295.61BW-1944 317.19 - -BW-1945 321.17 9.79 311.38BW-1946 316.49 - -BW-1947 346.83 46.34 300.49BW-1948 317.64 - -BW-1949 317.59 - -BW-1950 348.63 63.11 285.52BW-1951 343.96 31.68 312.28BW-1952 345.85 31.22 314.63BW-1953 343.74 38.92 304.82
OW-1913 343.14 27.80 315.34OW-1914 342.22 24.20 318.02OW-1915 343.11 29.26 313.85OW-1916 343.80 39.02 304.78OW-1917 347.57 30.30 317.27OW-1919 347.46 30.13 317.33OW-1922 351.37 43.14 308.23OW-1923 351.93 31.11 320.82
GEON Server30765-013-121 Page 6 of 6 July 13, 2000
TABLE 1 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
PC-1 319.56 4.46 315.10PC-2 325.00 11.96 313.04PC-3 323.24 11.17 312.07PC-4 324.00 14.84 309.16PC-5 323.50 15.62 307.88PC-6 318.91 - -PC-7 341.38 31.41 309.97PC-8 336.68 25.78 310.90PC-9 337.36 19.35 318.01
PC-10 346.01 34.01 312.00PC-11 343.95 30.47 313.48PC-12 348.89 33.99 314.90
P-40 339.58 - -P-44 324.20 14.21 309.99P-45 324.58 16.34 308.24P-46 321.21 - -
MC-1 346.39 33.70 312.69MC-2 342.15 35.37 306.78
* Depth to groundwater measurements collected on April 10, 2000.- = Not measured
Geon Server30765-013-121 Page 1 of 4 October 13, 2000
TABLE 1
GROUNDWATER ELEVATION MEASUREMENTSTHIRD QUARTER 2000
THE GEON COMPANY - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 40.68 302.41MW-2 342.21 - -MW-2a 344.35 37.51 306.84MW-3a 348.83 44.93 303.90MW-8S 346.92 31.13 315.79MW-8D 345.18 29.96 315.22
MW-10A 343.14 28.95 314.19MW-14D 331.26 25.60 305.66MW-14Sa 328.90 25.30 303.60MW-15a 345.19 41.80 303.39MW-16 343.36 40.94 302.42MW-17 320.23 16.00 304.23MW-22 327.78 24.17 303.61MW-24 345.95 29.34 316.61
MW-26Ma 345.43 40.00 305.43MW-26Da 345.07 42.93 302.14MW-27S 323.95 16.20 307.75MW-27D 323.99 11.26 312.73MW-32Sa 343.19 39.91 303.28MW-32Da 343.31 39.85 303.46MW-33Sa 345.49 43.45 302.04MW-33Da 345.44 43.25 302.19MW-34Sa 344.90 42.90 302.00MW-34Da 344.78 42.71 302.07
MW-35 317.27 14.25 303.02MW-36 321.25 19.69 301.56MW-38 320.95 18.68 302.27MW-39 318.88 14.48 304.40MW-41 307.95 5.19 302.76MW-43 347.63 36.98 310.65
MW-201M 348.38 33.13 315.25MW-202S 352.16 35.33 316.83MW-203M 344.83 30.22 314.61MW-204M 350.87 36.43 314.44MW-205M 351.72 36.71 315.01MW-206M 347.41 32.00 315.41MW-207M 353.06 38.80 314.26MW-208M 347.71 34.41 313.30MW-210S 347.54 31.28 316.26MW-210M 347.67 32.71 314.96MW-211M 350.35 36.85 313.50MW-215S 346.56 30.88 315.68MW-215D 346.56 30.75 315.81MW-216S 335.96 19.95 316.01
Geon Server30765-013-121 Page 2 of 4 October 13, 2000
TABLE 1 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-216D 335.45 20.34 315.11MW-217S 346.92 35.41 311.51MW-217D 345.18 34.50 310.68MW-218S 346.93 31.03 315.90MW-218D 346.38 30.66 315.72MW-222S 341.91 28.77 313.14MW-222D 344.95 27.96 316.99MW-223S 326.51 23.48 303.03MW-223D 326.50 23.51 302.99MW-224S 318.27 13.35 304.92MW-224M 319.64 - -MW-224D 318.29 15.55 302.74MW-225D 319.03 17.97 301.06MW-229S 333.85 18.00 315.85MW-229D 333.80 17.70 316.10MW-230S 340.30 24.77 315.53MW-230D 340.42 23.89 316.53MW-231S 346.35 29.98 316.37MW-231D 346.67 30.94 315.73MW-232S 326.12 22.01 304.11MW-232D 325.56 20.33 305.23MW-233S 347.68 31.29 316.39MW-233D 347.56 33.12 314.44MW-235S 341.22 24.14 317.08MW-235D 341.31 25.58 315.73MW-238S 337.96 21.81 316.15MW-238D 337.68 21.67 316.01MW-240S 351.07 35.67 315.40MW-240D 351.33 40.41 310.92MW-241S 347.07 34.80 312.27MW-242S 348.57 34.15 314.42MW-243S 347.27 31.90 315.37MW-244S 349.12 35.01 314.11
GA-1 320.37 15.55 304.82GA-2 320.16 17.33 302.83GA-3 330.40 28.21 302.19GA-4 331.95 28.99 302.96GA-5 344.62 29.20 315.42GA-6 345.10 28.84 316.26GA-7 350.06 34.63 315.43GA-8 350.60 36.81 313.79GA-11 353.79 35.19 318.60GA-12 351.21 38.91 312.30GA-15 325.30 20.51 304.79GA-16 325.91 21.52 304.39GA-19 330.26 26.91 303.35GA-20 329.21 25.53 303.68GA-21 323.72 20.36 303.36
Geon Server30765-013-121 Page 3 of 4 October 13, 2000
TABLE 1 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-22 323.65 18.57 305.08GA-23 328.78 25.49 303.29GA-24 329.30 26.54 302.76GA-25 322.30 19.10 303.20GA-26 322.68 16.49 306.19GA-27 314.05 12.82 301.23GA-28 316.16 14.93 301.23GA-29 320.17 19.00 301.17GA-30 319.96 19.42 300.54GA-31 337.89 29.99 307.90GA-32 337.81 33.10 304.71GA-33 339.05 29.61 309.44GA-34 342.01 32.68 309.33GA-35 342.87 29.28 313.59GA-36 344.53 34.81 309.72GA-37 357.15 41.77 315.38GA-38 357.19 43.44 313.75
MW-20S 314.50 9.95 304.55MW-20D 314.50 14.71 299.79LMW-21 346.83 26.69 320.14
Airco #1S 342.53 26.30 316.23Airco #1D 343.15 27.23 315.92Airco #5S 350.47 34.00 316.47Airco #5D 350.30 37.81 312.49
SW-1918 342.78 28.99 313.79SW-1920 350.49 37.58 312.91SW-1921 350.49 39.45 311.04SW-1924 345.50 38.97 306.53SW-1925 340.90 45.92 294.98SW-1926 337.13 37.68 299.45SW-1942 341.77 60.56 281.21SW-1943 340.44 36.58 303.86
BW-1927C 317.39 14.58 302.81BW-1927D 318.81 18.99 299.82BW-1927E 321.06 18.36 302.70BW-1927F 322.22 19.87 302.35BW-1927G 327.97 42.28 285.69BW-1928 322.99 36.04 286.95BW-1929 327.30 43.76 283.54BW-1930 325.23 49.51 275.72BW-1931 320.95 33.49 287.46BW-1932 317.87 40.06 277.81BW-1933 320.00 24.17 295.83BW-1934 319.70 24.65 295.05BW-1935 331.37 41.32 290.05
Geon Server30765-013-121 Page 4 of 4 October 13, 2000
TABLE 1 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1936 338.62 39.57 299.05BW-1937 338.35 35.54 302.81BW-1938 333.54 44.90 288.64BW-1939 338.16 51.00 287.16BW-1940 341.04 62.35 278.69BW-1941 344.60 58.68 285.92BW-1944 317.19 36.00 281.19BW-1945 321.17 26.45 294.72BW-1946 316.49 40.23 276.26BW-1947 346.83 47.98 298.85BW-1948 317.64 20.52 297.12BW-1949 317.59 18.67 298.92BW-1950 348.63 59.98 288.65BW-1951 343.96 40.41 303.55BW-1952 345.85 29.29 316.56BW-1953 343.74 45.84 297.90
OW-1913 343.14 29.13 314.01OW-1914 342.22 26.68 315.54OW-1915 343.11 29.52 313.59OW-1916 343.80 32.71 311.09OW-1917 347.57 34.19 313.38OW-1919 347.46 46.72 300.74OW-1922 351.37 58.99 292.38OW-1923 351.93 45.42 306.51
PC-1 319.56 16.64 302.92PC-2 325.00 21.68 303.32PC-3 323.24 20.43 302.81PC-4 324.00 20.93 303.07PC-5 323.50 22.29 301.21PC-7 341.38 39.81 301.57PC-8 336.68 29.11 307.57PC-9 337.36 29.77 307.59
PC-10 346.01 37.21 308.80PC-11 343.95 35.73 308.22PC-12 348.89 34.12 314.77
P-40 339.58 14.00 325.58P-44 324.20 21.15 303.05P-45 324.58 21.82 302.76P-46 321.21 19.38 301.83
MC-1 346.39 34.81 311.58MC-2 342.15 36.28 305.87
* Depth to groundwater measurements collected on July 10, 2000.- = Not measured
Poly One Server30765-013-121 Page 1 of 4 1/8/01
TABLE 1
GROUNDWATER ELEVATION MEASUREMENTSFOURTH QUARTER 2000
POLY ONE CORPORATION - CALVERT CITY, KENTUCKY
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-1 343.09 41.02 302.07MW-2a 344.35 37.40 306.95MW-3a 348.83 43.92 304.91MW-8S 346.92 31.81 315.11MW-8D 345.18 30.54 314.64
MW-10A 343.14 29.40 313.74MW-14D 331.26 27.94 303.32MW-14Sa 328.90 21.79 307.11MW-15a 345.19 43.40 301.79MW-16 343.36 41.23 302.13MW-17 320.23 15.15 305.08MW-22 327.78 25.21 302.57
MW-26Ma 345.43 41.91 303.52MW-26Da 345.07 42.75 302.32MW-27D 323.99 11.65 312.34MW-32Sa 343.19 40.66 302.53MW-32Da 343.31 39.20 304.11MW-33Sa 345.49 43.64 301.85MW-33Da 345.44 43.12 302.32MW-34Sa 344.90 40.03 304.87MW-34Da 344.78 41.51 303.27
MW-35 317.27 14.79 302.48MW-36 321.25 19.63 301.62MW-38 320.95 18.99 301.96MW-39 318.88 15.28 303.60MW-41 307.95 5.40 302.55MW-43 347.63 37.68 309.95
MW-201M 348.38 33.51 314.87MW-202S 352.16 37.49 314.67MW-203M 344.83 30.92 313.91MW-204M 350.87 35.96 314.91MW-205M 351.72 37.17 314.55MW-206M 347.41 32.84 314.57MW-207M 353.06 38.79 314.27MW-208M 347.71 34.95 312.76MW-210S 347.54 31.63 315.91MW-210M 347.67 32.97 314.70MW-211M 350.35 36.87 313.48MW-215S 346.56 31.55 315.01MW-215D 346.56 31.63 314.93MW-216S 335.96 20.69 315.27
Poly One Server30765-013-121 Page 2 of 4 1/8/01
TABLE 1 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
MW-216D 335.45 20.92 314.53MW-217S 346.92 34.36 312.56MW-217D 345.18 35.20 309.98MW-218S 346.93 31.68 315.25MW-218D 346.38 31.31 315.07MW-222S 341.91 26.73 315.18MW-222D 344.95 28.57 316.38MW-223S 326.51 24.62 301.89MW-223D 326.50 24.72 301.78MW-224S 318.27 15.24 303.03MW-224D 318.29 15.73 302.56MW-225D 319.03 17.74 301.29MW-229S 333.85 18.71 315.14MW-229D 333.80 18.57 315.23MW-230S 340.30 24.51 315.79MW-230D 340.42 25.35 315.07MW-231S 346.35 30.69 315.66MW-231D 346.67 31.53 315.14MW-232S 326.12 24.12 302.00MW-232D 325.56 22.38 303.18MW-233S 347.68 31.85 315.83MW-233D 347.56 33.43 314.13MW-235S 341.22 24.31 316.91MW-235D 341.31 26.11 315.20MW-238S 337.96 22.63 315.33MW-238D 337.68 22.43 315.25MW-240S 351.07 36.22 314.85MW-240D 351.33 41.19 310.14MW-241S 347.07 35.61 311.46MW-242S 348.57 35.14 313.43MW-243S 347.27 32.94 314.33MW-244S 349.12 36.03 313.09
GA-1 320.37 15.86 304.51GA-2 320.16 17.32 302.84GA-3 330.40 28.12 302.28GA-4 331.95 27.61 304.34GA-5 344.62 29.58 315.04GA-6 345.10 29.85 315.25GA-7 350.06 36.18 313.88GA-8 350.60 37.65 312.95GA-11 353.79 38.87 314.92GA-12 351.21 39.62 311.59GA-15 325.30 21.39 303.91GA-16 325.91 22.31 303.60GA-19 330.26 27.28 302.98GA-20 329.21 25.91 303.30GA-21 323.72 20.38 303.34
Poly One Server30765-013-121 Page 3 of 4 1/8/01
TABLE 1 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
GA-22 323.65 19.27 304.38GA-23 328.78 26.02 302.76GA-24 329.30 26.24 303.06GA-25 322.30 22.60 299.70GA-26 322.68 18.85 303.83GA-27 314.05 12.65 301.40GA-28 316.16 15.87 300.29GA-29 320.17 20.00 300.17GA-30 319.96 20.22 299.74GA-31 337.89 30.13 307.76GA-32 337.81 33.74 304.07GA-33 339.05 30.87 308.18GA-34 342.01 33.52 308.49GA-35 342.87 30.00 312.87GA-36 344.53 35.11 309.42GA-37 357.15 41.17 315.98GA-38 357.19 44.13 313.06
MW-20S 314.50 9.92 304.58MW-20D 314.50 13.72 300.78LMW-21 346.83 31.90 314.93
Airco #1S 342.53 27.12 315.41Airco #1D 343.15 28.10 315.05Airco #5S 350.47 35.13 315.34Airco #5D 350.30 38.29 312.01
SW-1918 342.78 30.66 312.12SW-1920 350.49 46.92 303.57SW-1921 350.49 37.79 312.70SW-1924 345.50 39.83 305.67SW-1925 340.90 42.01 298.89SW-1926 337.13 39.26 297.87SW-1942 341.77 61.02 280.75SW-1943 340.44 36.61 303.83
BW-1927C 317.39 16.61 300.78BW-1927D 318.81 17.62 301.19BW-1927E 321.06 22.00 299.06BW-1927F 322.22 22.30 299.92BW-1927G 327.97 44.03 283.94BW-1928 322.99 23.00 299.99BW-1929 327.30 41.73 285.57BW-1930 325.23 46.93 278.30BW-1931 320.95 34.55 286.40BW-1932 317.87 30.00 287.87BW-1933 320.00 21.99 298.01BW-1934 319.70 31.01 288.69BW-1935 331.37 37.41 293.96
Poly One Server30765-013-121 Page 4 of 4 1/8/01
TABLE 1 (Continued)
MonitoringWell Number
Top of CasingElevation(feet, msl)
Depth to Water*(feet)
GroundwaterElevation(feet, msl)
BW-1936 338.62 36.19 302.43BW-1937 338.35 29.69 308.66BW-1938 333.54 39.10 294.44BW-1939 338.16 55.88 282.28BW-1940 341.04 70.97 270.07BW-1941 344.60 54.01 290.59BW-1944 317.19 34.63 282.56BW-1945 321.17 24.61 296.56BW-1946 316.49 41.17 275.32BW-1947 346.83 45.84 300.99BW-1948 317.64 23.27 294.37BW-1949 317.59 17.27 300.32BW-1950 348.63 50.65 297.98BW-1951 343.96 40.14 303.82BW-1952 345.85 25.41 320.44BW-1953 343.74 40.67 303.07
OW-1913 343.14 23.67 319.47OW-1914 342.22 27.25 314.97OW-1915 343.11 33.17 309.94OW-1916 343.80 36.15 307.65OW-1917 347.57 28.96 318.61OW-1919 347.46 38.11 309.35OW-1922 351.37 55.28 296.09OW-1923 351.93 46.93 305.00
PC-1 319.56 18.70 300.86PC-2 325.00 23.62 301.38PC-3 323.24 21.65 301.59PC-4 324.00 22.19 301.81PC-5 323.50 21.62 301.88PC-7 341.38 32.21 309.17PC-8 336.68 30.88 305.80PC-9 337.36 30.54 306.82
PC-10 346.01 36.64 309.37PC-11 343.95 36.40 307.55PC-12 348.89 34.60 314.29
P-40 339.58 35.71 303.87P-44 324.20 19.36 304.84P-45 324.58 22.19 302.39P-46 321.21 20.10 301.11
MC-1 346.39 35.71 310.68MC-2 342.15 36.44 305.71
* Depth to groundwater measurements collected on October 16, 2000.- = Not measured
APPENDIX G
COPIES OF DEED RESTRICTIONS
NOTICE OFDEED RESTRICTIONS
This Notice of Deed Restrictions is provided by The B.F.GoodrichCompany, hereinafter referred to as “owner”, pursuant to the requirements of thatcertain Consent Decree entered on or about June 29, 1993 in a case entitled to wit:United States of America v. The B.F. Goodrich Company and The BOC Group, Inc.,Civil Action No. C-89-0005-P(CS) (U.S. District Court for the Western District ofKentucky, Louisville Division).
The property which is subject to the terms and conditions of this Noticeis fully described on the attached “Exhibit A” which is incorporated herein and madea part hereof, and is hereinafter referred to as “Site”.
1. The real property as described in Exhibit A comprises the B.F.Goodrich Superfund site and contains hazardous substances as defined by Section101(14) The Comprehensive Environmental Response, Compensation, and LiabilityAct of 1980 (CERCLA), 42 U.S.C. - 9601 (14).
2. The owner, its successors and assigns, and all future ownershereby covenant that the site will not be used in any manner that would disturb theintegrity of the final cover, the integrity of the containment or treatment system, orthe function of any monitoring system on the Site, unless the EnvironmentalProtection Agency (EPA) Regional Administrator determines that the disturbanceis (a) necessary to the proposed use of the property and will not increase thepotential hazard to human health or the environment, or (b) is necessary to reducea threat to human health or the environment.
3. The owner hereby grants permission to the Plaintiff, United Statesof America, EPA and the “Settling Parties” (as identified in the Consent Decree) andtheir respective authorized representatives to enter upon the Site for purposes ofeffectuating and monitoring all terms of the said Consent Decree; performing anywork required under the Consent Decree and the Record of Decision (or “ROD”, asdefined in said Consent Decree); and performing the Operation and MaintenanceActivities (or O & M “Activities” as defined in said Consent Decree). The owneragrees, and transferees agree, not to interfere with or disturb the Plaintiff’s, EPA’sor the Settling Parties’ performance of any work pursuant to the Consent Decreeand said O & M Activities, and owner and any transferee will inform any person orentity that acquires any title, ownership, leasehold, easement, or other interest insaid Site, or any portion thereof, or appurtenances thereto, of the existence of
said Consent Decree and of the requirements, conditions, and operative effect ofParagraph VI.F. of the Consent Decree.
4. The owner, at least ninety (90) days before it executes anyconveyance or transfer document subject to Paragraph VI.F. of the Consent Decree,or as soon as Settling Parties are reasonably aware of a possible purchaser of theSite or portions thereof, will notify, by registered mail, EPA’s RPM that owner intendsto execute such conveyance or transfer document. Any such conveyance or transferdocument shall expressly and specifically refer to this Notice of Deed Restrictions.
5. The restrictions and covenants set forth above shall run with theland and shall be binding upon the owner and any and all persons, corporations orentities and their successors and assigns who now or may hereafter acquire anytitle, ownership, leasehold, easement, or other interest in the Site or any portionthereof.
6. The owner hereby certifies that this Notice has been filed with thePlanning and Zoning Commission of the City of Calvert City, Kentucky, the MarshallCounty Court Clerk’s Office, the Kentucky Department of Environmental Protectionand the Regional Administrator of the Environmental Protection Agency.
“EXHIBIT A”
Tract Descriptionof
The BFGoodrich
SUPERFUND SITE
A parcel of land encompassing the processed area known as the Calvert City Superfund Site,located North of Kentucky Highway 1523, South of the Tennessee River, Calvert City, MarshallCounty, Kentucky, and being more particularly described as follows:
Beginning at an iron pin set in the East line of the lands now or formerly ownedby BFGoodrich, said lands known as BFGoodrich Tract “E” as shown on the platof record in Slide C-170 in the records of the Marshall County Court Clerk, saidbeginning iron pin being located North 38 degrees 40 minutes 20 seconds Easta distance of 1071.06 feet from the iron pin in concrete known as Corner “KB”of the Paul M. Jones surveys; thence, from the point of beginning North 55degrees 48 minutes 22 seconds West, a distance of 260.80 feet to an iron pin;thence North 31 degrees 41 minutes 25 seconds East, a distance of 366.11 feetto an iron pin; thence South 89 degrees 57 minutes 31 seconds East, a distanceof 90.88 feet to an iron pin; thence North 37 degrees 59 minutes 17 seconds East,a distance of 298.70 feet to an iron pin; thence South 54 degrees 12 minutes 37seconds East, a distance of 237.39 feet to an iron pin; thence South 38 degrees40 minutes 21 seconds West, a distance of 710.38 feet back to the point ofbeginning.
The above described parcel contains 4.2902 acres more or less (186,883 sq.ft.).
The above description has been prepared as the result of an actual on site survey performedunder the supervision of Gerald M. Kight, Ky.R.L.S. 2547, on August 6, 1998.
SPECIAL WARRANTY DEED
THIS SPECIAL WARRANTY DEED is made and entered into this 28th day ofSeptember, 1999, by and between THE BOC GROUP, INC. (successor to Airco, Inc., which in turnwas successor to Air Reduction Company, Inc.), a Delaware corporation with an address of 525Mountain Avenue, Murray Hill, New Jersey 07974 (“Grantor”), and WESTLAKE CA & OCORPORATION, a Delaware corporation, with an address of 2801 Post Oak Boulevard, Houston, TX77056 (“Grantee”).
W I T N E S S E T H :
That for and in consideration of the sum of THREE HUNDRED FORTY THOUSAND AND NO/100DOLLARS ($340,000.00), cash in hand paid by Grantee to Grantor, the receipt of which is herebyacknowledged, Grantor has bargained and sold and does hereby grant and convey unto Grantee, itssuccessors and assigns forever, the following described real property located in Marshall County,Kentucky and being more particularly described on Exhibit “A” attached hereto and incorporatedherein by reference (the “Property”). Grantee does hereby grant Grantor a non-exclusive easementfor ingress and egress across a portion of the Property, more particularly described in Exhibit “B”attached hereto and incorporated herein.
TO HAVE AND TO HOLD the Property, together with all appurtenances and privilegesthereunto belonging, unto the said Grantee, its successors and assigns forever.
Grantor does hereby release and relinquish unto Grantee, its successors and assigns, all ofits right, title and interest in and to the Property, including dower and curtesy and all exemptionsallowed by law, and does hereby covenant to and with said Grantee, its successors and assigns, thatit will WARRANT SPECIALLY the title to said Property.
Provided, however, this conveyance and the covenants herein made are expressly subject toall restrictions and easements which may appear of record in the Marshall County Clerk’s Office.
With respect to that certain portion of the property more particularly described on Exhibit“B” attached hereto and incorporated herein by reference (the “Site”), Grantee hereby grantspermission to Grantor, the United States of America (“USA”), the Environmental Protection Agency(“EPA”), and the Settling Parties (as that term is defined in that certain Consent Decree entered intoby and among Grantor, USA, the EPA and B.F. Goodrich, pursuant to that litigation styled UnitedStates of America v. The B.F. Goodrich Company and The BOC Group, Inc., filed in the UnitedStates District Court for the Western District of Kentucky, as Civil Action No. 89-0005-P(CS) (the“Consent Decree”)), and their respective authorized representatives to enter upon the Site forpurposes of effectuating and monitoring all terms of the Consent Decree, performing any workrequired under the Consent Decree and the RODs, and performing the O&M activities (both asdefined in the Consent Decree). Grantee agrees for itself, its successors and assigns, not to interferewith or disturb the USA’s, the EPA’s or the Settling Parties’ performance of any work pursuant tothe Consent Decree and the O&M activities; and Grantee further agrees to inform any person orentity that acquires any title, ownership, leasehold, easement or other interest in the Site, or any
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portion thereof, or appurtenances thereto, of the requirements, conditions, and operative effect ofthese provisions, which are also contained in Paragraph VI.F of the Consent Decree.
Grantee further agrees that these restrictions and covenants set forth above shall run with theSite, and shall be binding upon any and all persons, companies or entities and their successors, heirsand assigns who now or may hereafter acquire any title, ownership, leasehold, easement or otherinterest in the Site or any portion thereof.
Grantee assumes and agrees to pay all ad valorem taxes assessed against the Property for thecurrent fiscal year and all subsequent years, the current taxes and assessments to be prorated as ofthe date of transfer of this Deed.
CERTIFICATION OF CONSIDERATION:
Being first duly sworn, the undersigned Grantor and Grantee state that the consideration setforth in this Deed is true and correct and is the full consideration paid for the real property conveyedby this Deed.
IN WITNESS WHEREOF, Grantor and Grantee have hereunto set their hands, this the dayand year first above written.
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4
EXHIBIT “A”
(Property Description)
Tract 4Beginning at a point, said point being the southeast corner of BOC Tract 1B and also being South81 degrees 43 minutes 00 seconds East 3879.78 feet removed from concrete monument #1358,
thence North 38 degrees 41 minutes 49 seconds East, 2383.98 feet,
thence North 38 degrees 41 minutes 49 seconds East, 131.46 feet,
thence South 76 degrees 40 minutes 00 seconds East, 48.41 feet,
thence South 77 degrees 32 minutes 00 seconds East, 100.04 feet,
thence South 76 degrees 23 minutes 00 seconds East, 100.01 feet,
thence South 77 degrees 39 minutes 00 seconds East, 105.73 feet,
thence South 79 degrees 32 minutes 00 seconds East, 86.60 feet,
thence South 76 degrees 57 minutes 00 seconds East, 113.75 feet,
thence South 78 degrees 21 minutes 00 seconds East, 190.54 feet,
thence South 76 degrees 34 minutes 00 seconds East, 100.24 feet,
thence South 71 degrees 20 minutes 00 seconds East, 98.11 feet,
thence South 77 degrees 55 minutes 00 seconds East, 111.17 feet,
thence South 75 degrees 42 minutes 00 seconds East, 89.64 feet,
thence South 76 degrees 37 minutes 00 seconds East, 107.71 feet,
thence South 72 degrees 39 minutes 00 seconds East, 147.58 feet,
thence South 74 degrees 05 minutes 00 seconds East, 100.04 feet,
thence South 71 degrees 48 minutes 00 seconds East, 100.00 feet,
thence South 71 degrees 14 minutes 00 seconds East, 101.36 feet,
thence South 70 degrees 29 minutes 00 seconds East, 99.99 feet,
thence South 71 degrees 03 minutes 00 seconds East, 100.02 feet,
thence South 67 degrees 55 minutes 00 seconds East, 89.76 feet,
thence South 21 degrees 31 minutes 00 seconds West, 79.99 feet,
thence South 21 degrees 31 minutes 00 seconds West, 2094.49 feet,
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thence South 21 degrees 18 minutes 00 seconds West 689.02 feet,
thence 1279.58 feet along an arc to the left, having a radius of 965.83 feet, the chord of which isNorth 43 degrees 45 minutes 45 seconds West, 1188.03 feet,
thence North 81 degrees 43 minutes 00 seconds West, 1657.11 feet,
thence North 8 degrees 17 minutes 00 seconds East, 125.00 feet, to the point of beginning.
The above described parcel contains 129.181 acres.
Excepted from the above described parcel is the following tract (the “Superfund Parcel”):
A parcel of land located north of Kentucky Highway 1523, south of the TennesseeRiver, and east of the Westlake-B.F. Goodrich Industrial Complex, Calvert City,Marshall County, Kentucky, and being more particularly described as follows:
Beginning at an iron pin set in the east line of the lands now or formerly owned byB.F. Goodrich, said lands known as Tract “E” as shown on the plat of record in slideC-166 in the record of the Marshall County Court Clerk. The beginning point islocated, North 38 degrees 40 minutes 15 seconds East, a distance of 875.76 feet fromthe iron pin in concrete known as Corner “KB”;Thence, from the point of beginning and with the said east line of the B.F. Goodrichproperty, North 38 degrees 40 minutes 20 seconds East, passing iron pins at 127.24feet, 195.30 feet, 402.81 feet, 905.69 feet, 1010.24 feet, and 1269.81 feet, a totaldistance of 1438.95 feet to an iron pin; thence, with a new line through the lands nowor formerly owned by The BOC Group, Inc., South 39 degrees 20 minutes 48 secondsEast, a distance of 224.69 feet to a concrete monument; thence, South 18 degrees 28minutes 21 seconds East, a distance of 623.09 feet to a concrete monument; thence,South 35 degrees 44 minutes 55 seconds West, a distance of 260.33 feet to a concretemonument; thence, South 49 degrees 54 minutes 50 seconds East, a distance of 405.39feet to a concrete monument; thence, South 40 degrees 33 minutes 03 seconds West,a distance of 147.45 feet to a concrete monument; thence, North 51 degrees 42minutes 11 seconds West, 406.36 feet to a concrete monument; thence, South 61degrees 12 minutes 03 seconds West, a distance of 356.67 feet to a concretemonument; thence, North 77 degrees 43 minutes 47 seconds West, a distance of685.42 feet back to the point of beginning.
The above described parcel contains 19.8387 acres more or less (864,176 sq. ft.).
Tract 7Beginning at a point, said point being a concrete monument located in the east line of said property,
thence North 21 degrees 56 minutes 00 seconds East, 2814.77 feet,
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thence North 32 degrees 46 minutes 00 seconds West, 364.84 feet,
thence North 57 degrees 55 minutes 00 seconds West, 905.79 feet,
thence North 57 degrees 55 minutes 00 seconds West, 25.50 feet,
thence South 21 degrees 18 minutes 00 seconds West, 111.98 feet,
thence South 21 degrees 18 minutes 00 seconds West, 50.31 feet,
thence South 21 degrees 18 minutes 00 seconds West, 200.98 feet,
thence 459.99 feet along an arc to the right, having a radius of 965.83 feet, the chord of which isSouth 7 degrees 46 minutes 22 seconds West, 455.65 feet,
thence South 21 degrees 25 minutes 00 seconds West, 1426.76 feet,
thence South 75 degrees 40 minutes 00 seconds East, 2.02 feet,
thence South 21 degrees 25 minutes 00 seconds West, 151.15 feet,
thence South 75 degrees 40 minutes 00 seconds East, 10.58 feet,
thence South 21 degrees 25 minutes 00 seconds West, 1383.54 feet,
thence South 64 degrees 33 minutes 00 seconds East, 118.48 feet,
thence South 64 degrees 33 minutes 00 seconds East, 131.95 feet,
thence South 64 degrees 33 minutes 00 seconds East, 45.16 feet,
thence South 65 degrees 05 minutes 00 seconds East, 86.71 feet,
thence North 20 degrees 10 minutes 00 seconds East, 56.26 feet,
thence South 68 degrees 22 minutes 00 seconds East, 562.60 feet,
thence North 22 degrees 35 minutes 00 seconds East, 534.46 feet,
thence South 70 degrees 02 minutes 00 seconds East, 110.81 feet, the point of beginning.
The above described parcel contains 89.566 acres (3,901,512 sq. ft.).
Tracts 4 and 7 being the same property conveyed to Air Reduction Company, Inc. by virtue of (i)Deed dated May 4, 1951, of record in Deed Book 85, Page 8, (ii) Deed dated April 24, 1951, ofrecord in Deed Book 83, Page 526, (iii) Deed dated April 18, 1951, of record in Deed Book 83, Page516, (iv) Deed dated November 28, 1952, of record in Deed Book 89, Page 66, (v) Deed datedFebruary 10, 1953, of record in Deed Book 89, Page 122, (vi) Deed dated January 14, 1953, ofrecord in Deed Book 89, Page 94, and (vii) Deed dated January 17, 1953, of record in Deed Book89, Page 96; all of record in the Marshall County Court Clerk’s Office.
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EXHIBIT “B”
(Easement Description)
A strip of land being thirty feet wide extending from the north line of Kentucky Highway 1523, tothe east boundary of the Superfund Parcel (as defined in Exhibit “A”), south of the Tennessee River,and east of the Westlake-B.F. Goodrich Industrial complex, Calvert City, Marshall County,Kentucky, and being more particularly described as follows:
Beginning at a point in the north right of way line of Kentucky Highway 1523, said point beinglocated South 8 degrees 16 minutes 59 seconds West, 125.00 feet and North 81 degrees 43 minutes01 seconds West 792.85 feet from the iron pin in concrete known as Corner “KB”; thence, leavingthe north right of way line of Kentucky Highway 1523, North 43 degrees 47 minutes 47 secondsEast, a distance of 1004.78 feet to a point; thence, North 33 degrees 24 minutes 46 seconds East, adistance of 96.27 feet to a point; thence, North 53 degrees 01 minutes 53 seconds West, a distanceof 128.96 feet to a point in the east boundary line of the Superfund Parcel; thence, with the said eastboundary line, North 61 degrees 12 minutes 03 seconds East, a distance of 32.90 feet to a point;thence, South 53 degrees 01 minutes 53 seconds East, a distance of 143.65 feet to a point; thence,South 33 degrees 24 minutes 46 seconds West, a distance of 127.19 feet to a point; thence, South43 degrees 47 minutes 47 seconds West, a distance of 986.10 feet to a point in the north right of wayline of Kentucky Highway 1523; thence, with the said north right of way line, North 81 degrees 43minutes 01 seconds West, a distance of 36.86 feet back to the point of beginning and containing0.856 acres more or less.
NOTICE OF DEED RESTRICTIONS
THIS NOTICE OF DEED RESTRICTIONS is made this ______ day of
, 2000, by THE BOC GROUP, INC., a Delaware corporation, whose
address is 575 Mountain Avenue, Murray Hill, New Jersey 07974 (the “Owner”).
RECITALS:
A. The Owner is the owner in fee simple of that real property located in Marshall
County, Kentucky, that comprises the Airco Superfund Site and that is more particularly
described on Exhibit “A” attached hereto and shown on the drawing attached hereto as Exhibit
“B”, both of which are hereby incorporated by reference (the “Site”).
B. The Site is the subject of a Consent Decree (the “Consent Decree”) entered into
by and among the Owner, the United States of America (the “USA”), acting at the request and on
behalf of the Environmental Protection Agency (the “EPA”), and B. F. Goodrich, pursuant to
that litigation styled United States of America v. The B. F. Goodrich Company and The BOC
Group, Inc., filed in the United States District Court for the Western District of Kentucky, as
Civil Action No. 89-0005-P(CS). Pursuant to the Consent Decree, the Owner has agreed to
record in the Marshall County Court Clerk’s Office this Notice of Deed Restrictions regarding
the Site.
NOW THEREFORE, for and in consideration of the foregoing, the Owner declares on
behalf of itself and subsequent owners of the Site, as follows:
1. The Site contains hazardous substances as defined by the Comprehensive
Environmental Response, Compensation, and Liability Act of 1980, 42 U.S.C. § 9601.
RETURN TO:Laura M. FergusonGreenbaum Doll & McDonald PLLC333 W. Vine StreetLexington, KY 40507
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2. The Owner, its successors and assigns hereby covenant that the Site will not be
used in any manner that would disturb the integrity of the final cover, the integrity of the
containment or treatment system, or the function of any monitoring system on the Site, unless the
EPA Regional Administrator determines that such disturbance is (a) necessary to the proposed
use of the Site and will not increase the potential hazard to human health or the environment, or
(b) necessary to reduce a threat to human health or the environment.
3. The Owner hereby grants permission to the USA, the EPA and the Settling Parties
(as defined in the Consent Decree) and their respective authorized representatives to enter upon
the Site for purposes of effectuating and monitoring all terms of the Consent Decree, performing
any work required under the Consent Decree and the RODs, and performing the O&M activities
(both as defined in the Consent Decree). The Owner agrees for itself, its successors and assigns,
not to interfere with or disturb the USA’s, the EPA’s or the Settling Parties’ performance of any
work pursuant to the Consent Decree and the O&M activities; and the Owner further agrees to
inform any person or entity that acquires any title, ownership, leasehold, easement, or other
interest in the Site, or any portion thereof, or appurtenances thereto, of the requirements,
conditions, and operative effect of Paragraph VI. F. of the Consent Decree.
4. The restrictions and covenants set forth above shall run with the Site and shall be
binding upon any and all persons, companies or entities and their successors and assigns who
now or may hereafter acquire any title, ownership, leasehold, easement, or other interest in the
Site or any portion thereof.
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5. The Owner hereby certifies that this Notice has been filed with the Planning
Commission of the City of Calvert City, Kentucky, the Marshall County Court Clerk’s Office,
the Kentucky Department of Environmental Protection and the Regional Administrator of the
EPA.
THE BOC GROUP, INC.
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EXHIBIT “A”
Tract Descriptionof
AIRCO SUPERFUND SITE
A parcel of land encompassing the processed area known as the Calvert City Superfund Site,
located North of Kentucky Highway 1523, South of the Tennessee River, Calvert City,
Marshall County, Kentucky, and being more particularly described as follows:
Beginning at an iron pin set in the East line of the lands now or formerly ownedby B.F. Goodrich, said lands known as B.F. Goodrich Tract “E” as shown onthe plat of record in Slide C-170 in the records of the Marshall County CourtClerk, said beginning iron pin being located North 38 degrees 40 minutes 20seconds East a distance of 1278.54 feet from the iron pin in concrete known asCorner “KB” of the Paul M. Jones surveys; thence, from the point of beginningand with a new line, South 59 degrees 53 minutes 29 seconds East, a distance of518.73 feet to a concrete monument; thence, North 74 degrees 56 minutes 14seconds East, a distance of 193.86 feet to a concrete monument; thence, North41 degrees 22 minutes 26 seconds East, a distance of 161.05 feet to a concretemonument; thence, North 18 degrees 19 minutes 40 seconds East, a distance of144.83 feet to a concrete monument; thence, North 48 degrees 14 minutes 50seconds West, a distance of 321.25 feet to a concrete monument; thence, North38 degrees 32 minutes 14 seconds West, a distance of 270.79 feet to an existingiron pin found at the Northeast corner of the B.F. Goodrich Superfund Siteencompassed by the aforementioned B.F.Goodrich Tract “E”; thence, with theEast line of the said Tract “E”, South 38 degrees 40 minutes 20 seconds West, adistance of 607.43 feet to the point of beginning. The above described parcelcontains 7.0847 acres (308,610 sq. ft.).
Being a portion of the property conveyed to Airco, Inc. (n/k/a The BOC Group, Inc.),
by virtue of (i) deed dated May 4, 1951, of record in Deed Book 85, Page 8 (ii) deed dated April
24, 1951, of record in Deed Book 83, Page 526, (iii) deed dated April 18, 1951, of record in
Deed Book 83, Page 516, (iv) deed dated November 28, 1951, of record in Deed Book 89, Page
66, (v) deed dated February 10, 1953, of record in Deed Book 89, Page 122, (vi) deed dated
January 14, 1953, of record in Deed Book 89, Page 94, and (vii) deed dated
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January 17, 1953, of record in Deed Book 89, Page 96, all of record in the Marshall County
Court Clerk’s Office.
The above description has been prepared as the result of an actual on site survey
performed under the supervision of Gerald M. Kight, Ky. R.L.S. 2547, on July 28, 1998, and
shown on Exhibit B, “Boundary Survey of The BOC Group, Inc. Superfund Site,” to this Notice
of Deed Restrictions.
EXHIBIT B
SPECIAL WARRANTY DEED OF CORRECTION
THIS SPECIAL WARRANTY DEED OF CORRECTION is made and entered into this______ day of _____________, 2000, by and between THE BOC GROUP, INC. (successor to Airco,Inc., which in turn was successor to Air Reduction Company, Inc.), a Delaware corporation with anaddress of 525 Mountain Avenue, Murray Hill, New Jersey 07974 (“Grantor”), and WESTLAKE CA& O CORPORATION, a Delaware corporation, with an address of 2801 Post Oak Boulevard,Houston, TX 77056 (“Grantee”).
W I T N E S S E T H:
WHEREAS, the Grantor and Grantee have discovered that the sixth and seventh paragraphsof the Special Warranty Deed dated September 28, 1999, which is of record in Deed Book 313, Page597 in the Marshall County Court Clerk’s Office, were erroneously included in said Deed; andGrantor and Grantee desire to correct the error by executing this Special Warranty Deed ofCorrection deleting the sixth and seventh paragraphs of the September 28, 1999 Deed.
That for and in consideration of the sum of THREE HUNDRED FORTY THOUSAND AND NO/100DOLLARS ($340,000.00), cash in hand paid by Grantee to Grantor, the receipt of which is herebyacknowledged, Grantor has bargained and sold and does hereby grant and convey unto Grantee, itssuccessors and assigns forever, the following described real property located in Marshall County,Kentucky and being more particularly described on Exhibit “A” attached hereto and incorporatedherein by reference (the “Property”). Grantee does hereby grant Grantor a non-exclusive easementfor ingress and egress across a portion of the Property, more particularly described in Exhibit “B”attached hereto and incorporated herein.
TO HAVE AND TO HOLD the Property, together with all appurtenances and privilegesthereunto belonging, unto the said Grantee, its successors and assigns forever.
Grantor does hereby release and relinquish unto Grantee, its successors and assigns, all ofits right, title and interest in and to the Property, including dower and curtesy and all exemptionsallowed by law, and does hereby covenant to and with said Grantee, its successors and assigns, thatit will WARRANT SPECIALLY the title to said Property.
Provided, however, this conveyance and the covenants herein made are expressly subject toall restrictions and easements which may appear of record in the Marshall County Clerk’s Office.
Grantee assumes and agrees to pay all ad valorem taxes assessed against the Property for thecurrent fiscal year and all subsequent years, the current taxes and assessments to be prorated as ofthe date of transfer of this Deed.
Return to:Cheryl L. VollGreenebaum Doll & McDonald PLLC333 W. Vine Street, Suite 1400Lexington, KY 40507
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CERTIFICATION OF CONSIDERATION:
Being first duly sworn, the undersigned Grantor and Grantee state that the consideration setforth in this Deed is true and correct and is the full consideration paid for the real property conveyedby this Deed.
IN WITNESS WHEREOF, Grantor and Grantee have hereunto set their hands, this the dayand year first above written.
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EXHIBIT “A”
(Property Description)
Tract 4Beginning at a point, said point being the southeast corner of BOC Tract 1B and also being South81 degrees 43 minutes 00 seconds East 3879.78 feet removed from concrete monument #1358,
thence North 38 degrees 41 minutes 49 seconds East, 2383.98 feet,
thence North 38 degrees 41 minutes 49 seconds East, 131.46 feet,
thence South 76 degrees 40 minutes 00 seconds East, 48.41 feet,
thence South 77 degrees 32 minutes 00 seconds East, 100.04 feet,
thence South 76 degrees 23 minutes 00 seconds East, 100.01 feet,
thence South 77 degrees 39 minutes 00 seconds East, 105.73 feet,
thence South 79 degrees 32 minutes 00 seconds East, 86.60 feet,
thence South 76 degrees 57 minutes 00 seconds East, 113.75 feet,
thence South 78 degrees 21 minutes 00 seconds East, 190.54 feet,
thence South 76 degrees 34 minutes 00 seconds East, 100.24 feet,
thence South 71 degrees 20 minutes 00 seconds East, 98.11 feet,
thence South 77 degrees 55 minutes 00 seconds East, 111.17 feet,
thence South 75 degrees 42 minutes 00 seconds East, 89.64 feet,
thence South 76 degrees 37 minutes 00 seconds East, 107.71 feet,
thence South 72 degrees 39 minutes 00 seconds East, 147.58 feet,
thence South 74 degrees 05 minutes 00 seconds East, 100.04 feet,
thence South 71 degrees 48 minutes 00 seconds East, 100.00 feet,
thence South 71 degrees 14 minutes 00 seconds East, 101.36 feet,
thence South 70 degrees 29 minutes 00 seconds East, 99.99 feet,
thence South 71 degrees 03 minutes 00 seconds East, 100.02 feet,
thence South 67 degrees 55 minutes 00 seconds East, 89.76 feet,
thence South 21 degrees 31 minutes 00 seconds West, 79.99 feet,
thence South 21 degrees 31 minutes 00 seconds West, 2094.49 feet,
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thence South 21 degrees 18 minutes 00 seconds West 689.02 feet,
thence 1279.58 feet along an arc to the left, having a radius of 965.83 feet, the chord of which isNorth 43 degrees 45 minutes 45 seconds West, 1188.03 feet,
thence North 81 degrees 43 minutes 00 seconds West, 1657.11 feet,
thence North 8 degrees 17 minutes 00 seconds East, 125.00 feet, to the point of beginning.
The above described parcel contains 129.181 acres.
Excepted from the above described Tract 4 is the following parcel (the “Superfund Parcel”):
A parcel of land located north of Kentucky Highway 1523, south of the TennesseeRiver, and east of the Westlake-B.F. Goodrich Industrial Complex, Calvert City,Marshall County, Kentucky, and being more particularly described as follows:
Beginning at an iron pin set in the east line of the lands now or formerly owned byB.F. Goodrich, said lands known as Tract “E” as shown on the plat of record in slideC-166 in the record of the Marshall County Court Clerk. The beginning point islocated, North 38 degrees 40 minutes 15 seconds East, a distance of 875.76 feet fromthe iron pin in concrete known as Corner “KB”;Thence, from the point of beginning and with the said east line of the B.F. Goodrichproperty, North 38 degrees 40 minutes 20 seconds East, passing iron pins at 127.24feet, 195.30 feet, 402.81 feet, 905.69 feet, 1010.24 feet, and 1269.81 feet, a totaldistance of 1438.95 feet to an iron pin; thence, with anew line through the lands nowor formerly owned by The BOC Group, Inc., South 39 degrees 20 minutes 48 secondsEast, a distance of 224.69 feet to a concrete monument; thence, South 18 degrees 28minutes 21 seconds East, a distance of 623.09 feet to a concrete monument; thence,South 35 degrees 44 minutes 55 seconds West, a distance of 260.33 feet to a concretemonument; thence, South 49 degrees 54 minutes 50 seconds East, a distance of 405.39feet to a concrete monument; thence, South 40 degrees 33 minutes 03 seconds West,a distance of 147.45 feet to a concrete monument; thence, North 51 degrees 42minutes 11 seconds West, 406.36 feet to a concrete monument; thence, South 61degrees 12 minutes 03 seconds West, a distance of 356.67 feet to a concretemonument; thence, North 77 degrees 43 minutes 47 seconds West, a distance of685.42 feet back to the point of beginning.
The above described Superfund Parcel contains 19.8387 acres more or less (864,176 sq. ft.), ofwhich 7.0847 acres comprise the Calvert City Superfund Site that is subject to a Consent Decreeentered in United States of America v. The B.F. Goodrich Company and The BOC Group, Inc., filedin the United States District Court for the Western District of Kentucky, as Civil Action No. 89-0005-P(CS), and a Notice of Deed Restrictions dated January 20, 2000 and of record in Misc.Book75, Page 461 in the Marshall County Court Clerk’s Office.
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Tract 7Beginning at a point, said point being a concrete monument located in the east line of said property,
thence North 21 degrees 56 minutes 00 seconds East, 2814.77 feet,
thence North 32 degrees 46 minutes 00 seconds West, 364.84 feet,
thence North 57 degrees 55 minutes 00 seconds West, 905.79 feet,
thence North 57 degrees 55 minutes 00 seconds West, 25.50 feet,
thence South 21 degrees 18 minutes 00 seconds West, 111.98 feet,
thence South 21 degrees 18 minutes 00 seconds West, 50.31 feet,
thence South 21 degrees 18 minutes 00 seconds West, 200.98 feet,
thence 459.99 feet along an arc to the right, having a radius of 965.83 feet, the chord of which isSouth 7 degrees 46 minutes 22 seconds West, 455.65 feet,
thence South 21 degrees 25 minutes 00 seconds West, 1426.76 feet,
thence South 75 degrees 40 minutes 00 seconds East, 2.02 feet,
thence South 21 degrees 25 minutes 00 seconds West, 151.15 feet,
thence South 75 degrees 40 minutes 00 seconds East, 10.58 feet,
thence South 21 degrees 25 minutes 00 seconds West, 1383.54 feet,
thence South 64 degrees 33 minutes 00 seconds East, 118.48 feet,
thence South 64 degrees 33 minutes 00 seconds East, 131.95 feet,
thence South 64 degrees 33 minutes 00 seconds East, 45.16 feet,
thence South 65 degrees 05 minutes 00 seconds East, 86.71 feet,
thence North 20 degrees 10 minutes 00 seconds East, 56.26 feet,
thence South 68 degrees 22 minutes 00 seconds East, 562.60 feet,
thence North 22 degrees 35 minutes 00 seconds East, 534.46 feet,
thence South 70 degrees 02 minutes 00 seconds East, 110.81 feet, the point of beginning.
The above described parcel contains 89.566 acres (3,901,512 sq. ft.).
Tracts 4 and 7 being the same property conveyed to Air Reduction Company, Inc. by virtue of (i)Deed dated May 4, 1951, of record in Deed Book 85, Page 8, (ii) Deed dated April 24, 1951, ofrecord in Deed Book 83, Page 526, (iii) Deed dated April 18,1951, of record in Deed Book 83, Page516, (iv) Deed dated November 28, 1952, of record in Deed Book 89, Page 66, (v) Deed datedFebruary 10, 1953, of record in Deed Book 89, Page 122, (vi) Deed dated January 14, 1953, of
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record in Deed Book 89, Page 94, and (vii) Deed dated January 17, 1953, of record in Deed Book89, Page 96; all of record in the Marshall County Court Clerk’s Office.
EXHIBIT “B”
(Easement Description)
A strip of land being thirty feet wide extending from the north line of Kentucky Highway 1523, tothe east boundary of the Superfund Parcel (as defined in Exhibit “A”), south of the Tennessee River,and east of the Westlake-B.F. Goodrich Industrial complex, Calvert City, Marshall County,Kentucky, and being more particularly described as follows:
Beginning at a point in the north right of way line of Kentucky Highway 1523, said point beinglocated South 8 degrees 16 minutes 59 seconds West, 125.00 feet and North 81 degrees 43 minutes01 seconds West 792.85 feet from the iron pin in concrete known as Corner “KB”; thence, leavingthe north right of way line of Kentucky Highway 1523, North 43 degrees 47 minutes 47 secondsEast, a distance of 1004.78 feet to a point; thence, North 33 degrees 24 minutes 46 seconds East, adistance of 96.27 feet to a point; thence, North 53 degrees 01 minutes 53 seconds West, a distanceof 128.96 feet to a point in the east boundary line of the Superfund Parcel; thence, with the said eastboundary line, North 61 degrees 12 minutes 03 seconds East, a distance of 32.90 feet to a point;thence, South 53 degrees 01 minutes 53 seconds East, a distance of 143.65 feet to a point; thence,South 33 degrees 24 minutes 46 seconds West, a distance of 127.19 feet to a point; thence, South43 degrees 47 minutes 47 seconds West, a distance of 986.10 feet to a point in the north right of wayline of Kentucky Highway 1523; thence, with the said north right of way line, North 81 degrees 43minutes 01 seconds West, a distance of 36.86 feet back to the point of beginning and containing0.856 acres more or less.
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