Accidents Waiting to Happen - Grassroots Connection
Transcript of Accidents Waiting to Happen - Grassroots Connection
Accidents Waiting to Happen
Hazardous Chemicals in the U.S.Fifteen Years After Bhopal
Jeremiah BaumannU.S. PIRG Education Fund
Paul OrumWorking Group on Community Right-to-Know
Richard PuchalskyGrassroots Connection
December 1999
Acknowledgments
The authors would like to thank: Lois Epstein of the Environmental Defense Fund, Rick Blum ofOMB Watch, and Fred Millar of the Center for Y2K and Society for reviewing this report. U.S.PIRG Field Director Adam Ruben, Communications Director Liz Hitchcock, and Staff ScientistAnna Aurilio provided invaluable assistance and advice. We further thank Tim Green, JenMueller, and Rick Trilsch for their assistance with the final production of the report. The authorswould also like to thank the citizen outreach and field staff of the State PIRGs across the country.
U.S. PIRG Education Fund is a nonprofit, nonpartisan, public interest watchdog organizationwhich, in association with State PIRGs in 25 states, conducts research and public education onpublic health, environmental, consumer, and democracy issues. U.S. PIRG Education Fund’sToxics Right-to-Know Campaign is made possible through the generous support of the PewCharitable Trusts and the Bauman Foundation. The opinions expressed in this report do notnecessarily reflect the views of these supporters.
The Working Group on Community Right-to-Know coordinates some 1,500 public interestorganizations concerned with chemical hazards and toxic pollution.
Grassroots Connection is a consulting business specializing in analysis of environmental dataand design of programs that provide public access to environmental data.
For additional information on this topic:www.chemsafety.gov (for general information on chemical safety)www.chemsafety.gov/circ (for recent listings of chemical accidents)www.rtk.net/wcs (for information on public disclosure of worst-case accident scenarios)www.rtk.net/ (for Risk Management Plans filed by chemical facilities)
This report is available at www.pirg.org. Copies may be ordered by sending a check or moneyorder for $20 to:
U.S. PIRG Education Fund218 D St. SEWashington, DC 20003
Table of Contents
Executive Summary…………………………………………………………………….…1
I. Tragedy in Bhopal: The Union Carbide Catastrophe of 1984………………….…3
II. It Could Happen Here: Chemical Accidents in the U.S…………………………...4
III. Accidents Waiting to Happen:Hazardous Chemical Storage in the U.S…………………………………………..6Findings: Widespread Risks………………………………………………………7
IV. Cause for Concern: the Y2K Problem……………………….……………………8
V. After Bhopal: Addressing Chemical SafetyA Right-to-Know Movement Forces Government Action………………………10Responsible Care: Trust Us, Don't Track Us……………………………………12
VI. Reducing Accident Risks: Inherent Safety and the Public’s Right to Know……14
VII. Recommendations ………………………………………………………………16
Appendix A: Tables of National Rankings
Appendix B: State Rankings of Facilities Storing the Largest Amounts of HazardousChemicals
Appendix C: Health Hazards of Selected Chemicals
Appendix D: Questions for Chemical Facilities About Y2K Readiness
Appendix E: Twenty Questions for a Chemical Facility Near You
Appendix F: Federal Databases that Track Chemical Incidents
Executive Summary
In the early morning hours of December 3, 1984, a Union Carbide pesticide factory in Bhopal, India,released 40 tons of methyl isocyanate, a highly toxic chemical. A dense, ground-hugging cloud passedthrough the sleeping city of Bhopal, exposing over 500,000 people. At least 2,000 died in the first daysand 300,000 suffered injuries. On this fifteenth anniversary of the Bhopal catastrophe, this report asks:where do such chemical hazards exist in the United States and what safeguards ensure that we will notsuffer our own American Bhopal?
Accidents do happen close to home, and all too frequently. A survey from the mid-1980s identified 17accidents in the U.S. whose potential consequences could have been more severe than Bhopal (factorslike wind direction and plant location prevented disastrous consequences). A recent inclusive study bythe U.S. Chemical Safety Board found that between 1987 and 1996 there were on average 60,000commercial chemical incidents every year, killing more than 250 people each year. These incidentsinclude a range of events, not all of which necessarily resulted in consequences like injuries, deaths, orevacuations.
This report examines storage of extremely hazardous substances, as defined by the U.S. EnvironmentalProtection Agency (EPA) under the Clean Air Act, Section 112(r). Facilities reported this storage as partof their Risk Management Plans, submitted to the EPA in the summer of 1999. From these reports welearned that 4,860 facilities in the U.S. each store at least 100,000 pounds of an extremely hazardoussubstance, or more than the amount of volatile toxic chemicals released at Bhopal (some 90,000pounds). The potential for accidents is widespread: every state except Vermont has at least onefacility storing more than 100,000 pounds of an extremely hazardous substance. Furthermore, atleast 100 facilities each store more than 30 million pounds of an extremely hazardous substance.
Ammonia is more commonly stored in these large amounts, a characteristic of its uses as a fertilizer.This use concentrates storage in farm states: the ten states with the highest number of facilities storingmore than 100,000 pounds are Illinois, Iowa, Kansas, Nebraska, Texas, Minnesota, Indiana, NorthDakota, Ohio, and California. Over half of the facilities that store more than 100,000 pounds are in thetop six states. Out of the almost 5,000 facilities storing more than 100,000 pounds of an extremelyhazardous substance, 78 percent store ammonia.
For a broader look at chemical storage, we also analyzed storage data excluding ammonia. This analysisshows storage concentrated among traditional industrial states rather than farm states. The states withthe highest number of facilities storing more than 100,000 pounds of an extremely hazardouschemical other than ammonia are Texas, California, Louisiana, Ohio, Illinois, Pennsylvania, SouthCarolina, Georgia, New Jersey, Alabama, and Florida. More than 100 facilities in the U.S. each storemore than three million pounds of extremely hazardous substances other than ammonia.
This report also examines the possibility of chemical accidents related to the Year 2000 computerproblem (Y2K). The federal government has done little to independently verify chemical industry Y2Kreadiness. Limited surveys suggest that the largest firms, especially the multinational companies, havebeen working to prepare for critical Y2K dates. However, experts are concerned that small and mid-sized chemical facilities may not be as aware or as able to prepare for Y2K-related problems. In fact, arecent survey of small and mid-sized chemical facilities found that while 79 percent had begun a Y2Kreadiness project, 86 percent had not completed their projects. In addition, 86 percent had notcoordinated emergency plans with local officials. Senator Robert Bennett (R-UT), chair of the SenateSpecial Committee on the Year 2000 Technology Problem, summarized the findings by saying that thesefirms are not prepared for Y2K.
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In the wake of Bhopal, a diverse coalition of public interest groups pushed for a greater public voice indecisions about chemical hazards. As a result, Congress reluctantly passed the Emergency Planning andCommunity Right to Know Act of 1986, which established the public’s right-to-know about chemicalstorage and toxic pollution. However, the program focused largely on emergency planning (rather thanaccident prevention), and relied heavily on under-funded local emergency planning. Meanwhile, majoraccidents continued.
In 1990, environmental and labor groups won a major new chemical accident prevention program inamendments to the Clean Air Act. This program was intended to fully disclose chemical accidenthazards and ensure that facilities effectively guard against an American Bhopal. This measure shifted theinitial burden for assessing hazards from mostly volunteer local emergency planning committees toresponsible industries. However, weak EPA regulations missed the opportunity to seriously encouragechemical facilities to use inherently safer technologies. Further, in August 1999, Congress restrictedpublic access to these plans. (Some hazard scenario information is in plan summaries at www.rtk.net.)
The fact is that the storage and use of extremely hazardous chemicals poses significant risks to workers,communities, and the environment. Yet government and industry have to date avoided full right-to-knowdisclosure, thereby sidestepping public demands for community safety and accident prevention. Chemicalaccidents can and do happen in this country; they kill and injure people, as well as damaging propertyand the environment. Chemical accidents are preventable. We recommend the following measures:
1. Honor the public’s right to know.The federal government should make readily accessible to the public a complete, national database ofRisk Management Plans, including worst-case scenarios. Full disclosure enables government, industry,and the public to establish baselines for progress in reducing chemical hazards. In addition, governmentand industry should focus on chemical use. Improving right-to-know reporting to include chemical usereporting (or "materials accounting") would encourage facilities to focus on ways to reduce chemical use,thereby reducing the need to produce, store, transport, and use large quantities of chemicals with Bhopal-scale accident potential. Proposed legislation before Congress, The Children’s Environmental Protectionand Right to Know Act (H.R. 1657), would make this improvement.
2. Put Inherent Safety first.Federal, state, and local governments should insist that chemical facilities eliminate or reduce thepossibility of chemical accidents through inherently safer technologies as a first resort. The U.S.Chemical Safety and Hazard Investigation Board should develop model regulations for use by EPA topromote accident prevention through Inherent Safety. In addition, the Department of Justice shoulddevelop and recommend strict regulations to increase site security at chemical plants, including inherentsafety in a "multiple barriers" hierarchy. Proposed legislation before Congress, The Chemical SecurityAct (S.1470), incorporates inherent safety principles into site security and chemical accident prevention.
3. Prepare for Y2K-related chemical safety problems.Since no one can predict if, or where, Year 2000 computer problems might occur, facilities shouldcommunicate openly with employees, communities, and emergency responders about the special hazardsposed by Y2K-related chemical accidents. The federal government has done little to verify Y2Kreadiness in the chemical industry; local governments, journalists, and the public should use the samplesurvey provided in Appendix D to ask chemical companies about plans for “safety holidays” and otherstrategies for protecting workers and the public. Because of the ongoing potential for chemical accidentsin the U.S., the Y2K computer problem should be seen as an opportunity to develop reliable contingencyplans for accidents and to focus on preventing any accidents in the future.
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I. Tragedy in Bhopal
The Union Carbide CatastropheIn the early morning hours of December 3, 1984, at a Union Carbide pesticide factory in Bhopal, India,water entered a chemical storage tank through leaking valves, triggering a runaway chemical reaction.As the reaction progressed, the temperature and pressure in the tank rose until 40 tons of toxic gases,including highly toxic methyl isocyanate (MIC) and hydrogen cyanide, escaped from the tank.
Because the gases were heavier than the air, a toxic cloud formed and hung close to the ground. Thetoxic cloud, aided by a gentle northerly wind, moved across the city of Bhopal, spreading like apoisonous blanket over sleeping inhabitants. People awoke gasping for breath, their eyes burning.Seeking safety, thousands took to the streets, running, many carrying children. The toxic gases causedfluid to fill people’s lungs, literally drowning many, who fell choking and dying in the streets.
That night, over 500,000 people were exposed to dangerous toxic fumes. At least 2,000 people died, andanother 300,000 suffered injuries.1 Fifteen years later, victims continue to suffer and die from long-termeffects. By 1990, the death toll was estimated at over 8,0002 and a 1997 estimate put the figure at16,000. Thousands of survivors experience menstrual irregularities, spontaneous abortions, still births,infant mortality, and other health problems at rates dramatically higher than elsewhere in India.3
The Blame Game: What went wrong?Union Carbide officials claimed that the accident was the result of sabotage by disgruntled employees.However, Union Carbide knew of the potential for an accident but did not take essential steps to preventit. In 1990, writer Peter Montague described Union Carbide’s actions leading up to the Bhopal accident:
Until 1978, Carbide made pesticides at Bhopal without using the supremely toxic chemical, MIC.But MIC was more profitable, so they switched. In 1979 and again in 1982, Carbide sent teams ofexperts from Danbury [Connecticut] to evaluate safety hazards at the Bhopal plant. The expertsspecifically warned of plant design deficiencies and the dangers of a “runaway reaction” inside anMIC tank – precisely the reaction that occurred in 1984. Corporate headquarters never followedup to see that the recommendations were implemented.4
Indeed, at the time of the accident, at least five major safety systems were either inadequately designed orfailed at least partially (see Figure 1). For example, the MIC should have vented through a scrubber andflare tower, but because a vent line was leaking, the MIC leaked directly into the atmosphere. Inaddition, the MIC that did reach the scrubber was not removed from the waste stream because neither thescrubber nor the flare tower were operational at the time of the accident.5
1 Montague, P. Carbide Officials Face Homicide Charges in Bhopal, India, Court. Rachel’s Hazardous Waste News #58.Environmental Research Foundation, 1988.2 Kurzman, D. A Killing Wind: Inside Union Carbide and the Bhopal Catastrophe. New York: McGraw-Hill, 1987. Cited inMontague, P. From Bhopal With Love. Rachel’s Hazardous Waste News #170. Environmental Research Foundation, 1990.3 Both the 1997 estimate and documentation of long-term effects come from: 13th Anniversary Fact Sheet on the Union CarbideDisaster in Bhopal. Bhopal Group for Information and Action, 1997.4 Montague 1990.5 Bryce, A. Bhopal Disaster Spurs U.S. Industry, Legislative Action. Washington: U.S. Chemical Safety & Hazard InvestigationBoard (CSB), 1999.
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Figure 1. Union Carbide at Bhopal, India6
This needless tragedy served as a wake-up call about the potential for major chemical accidents atindustrial facilities. On this fifteenth anniversary of Bhopal, this report asks: where do such hazards existin the United States and what safeguards ensure that we will not suffer our own Bhopal?
II. It Could Happen Here: Chemical Accidents in the U.S.
While the accident in Bhopal may seem long ago and far away, accidents do happen close to home, andall too frequently. In fact, one month before the accident at Bhopal, an FMC Corporation facility inMiddleport, New York, accidentally spilled MIC during a routinetransfer. Vapors from the spill entered a neighboring elementaryschool, sending nine children and two teachers to the hospital, andrequiring the evacuation of 500 students. One month before that, anAmerican Cyanamid facility in New Jersey released just 12,000pounds of the pesticide malathion. The resulting fumes extended over20 miles and sent at least 100 people to the hospital.7 Indeed, theseaccidents were not and are not unique. An analysis by the U.S.Environmental Protection Agency (EPA) found that in the early to mid1980s, there were 17 accidents in the U.S. whose potential consequences could have been more severethan Bhopal, based on toxicity and volume of the chemicals released. Only circumstances like windconditions and plant location prevented disastrous consequences.8 Dangerous accidents continue toaffect the lives of many Americans:
Allentown, PA: On February 19, 1999, a deadly blast at Concept Sciences, which was manufacturinghydroxylamine, leveled the plant and seriously damaged several buildings off-site, including a nearbyday care center. Five people were killed in the blast, and several others seriously injured.
6 Derived by the Working Group on Community Right-to-Know from: Ashford, N., et al. The Encouragement of TechnologicalChange for Preventing Chemical Accidents: Moving Firms from Secondary Prevention and Mitigation to Primary Prevention.Boston: Massachusetts Institute of Technology, 1993. Call EPA’s EPCRA Hotline at 1-800-535-0202 for a copy.7 Weir, David. The Bhopal Syndrome. San Francisco: Sierra Club Books: 1988.8 Bryce 1999.
In the early to mid 1980s,there were 17 accidentsin the U.S. whosepotential consequencescould have been moresevere than Bhopal.
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Sioux City, IA: On December 13, 1994, an explosion destroyed a Terra Nitrogen Co. fertilizer plant,killing four and injuring more than 18. More than 2,500 people were evacuated as a noxious cloud ofammonia spread over 90 square miles. A safety audit six months earlier had failed to identify problemsat the facility.
Rodeo, CA: During 16 days, from August 22 to September 6, 1994, a Unocal plant released some 125tons of a caustic catalyst. The chemical release sickened an estimated 1,500 people, who experiencedvomiting, headaches, and disorientation, among other problems. Some victims remained sick for morethan a year after the Unocal release.
Belpre, OH: On May 27, 1994 a Shell Chemical Facility exploded, killing three workers and flushingtons of poisonous styrene into the Ohio River, closing drinking water intakes at towns for milesdownstream.
Richmond, CA: On July 26, 1993, oleum from an overheated railroad tank car leaked during unloadingat the General Chemical Corporation. The highly concentrated vapors were not captured by safetysystems and formed a toxic plume of sulfuric acid which drifted about 15 miles downwind. Some 24,000people sought help from local hospitals after breathing the acid mist.
Pasadena, TX: On October 23, 1989, an explosion at a Phillips Petroleum plastics manufacturing facilitykilled 23 workers and blew out windows at an elementary school a mile away. The blast caused workersto lose their jobs, some $675 million in immediate damages to the plant, and over $700 million in lostbusiness over a two-year reconstruction period.
Chemical accidents occur frequently in the U.S., although the exactnumber is impossible to determine. Incidents involving hazardousmaterials are recorded in at least seven different federal reportingsystems. A recent review by the U.S. Chemical Safety and HazardInvestigation Board (CSB) consolidated five of these reportingsystems and screened out identifiable multiple listings in order toassess how many chemical incidents occur in the U.S. Their reportincluded reported chemical incidents large and small, whether or notthere were reported consequences (injuries, deaths, evacuations,etc.). This inclusive accounting concluded that over a ten-yearperiod between 1987 and 1996, more than 600,000 chemicalspills, fires, and explosions occurred – on average over 60,000incidents every year. 9 Ninety-five percent of U.S. counties had atleast one reported chemical incident (see Table 1 for a state-by-statebreakdown). On average, more than 250 Americans were killedevery year in chemical incidents.10
Chemical accidents can and do happen here. In order to look at Bhopal-scale chemical accident hazardsin the U.S., this report examines hazardous chemicals stored in the largest quantities across the country.
9 U.S. Chemical Safety and Hazard Investigation Board's baseline on commercial chemical incidents in the U.S.: “The 600KReport” – Commercial Chemical Incidents in the United States 1987-1996. Washington, 1999.10 It is important to note that the CSB study did not differentiate whether the chemical release involved in an incident directlycaused reported deaths or injuries. Specifically, some deaths or injuries reported in transportation-related accidents may beattributed to physical impact rather than chemical exposure.
Every year between 1987and 1996 in the U.S. therewere, on average:
• 60,000 chemical incidents• 417 evacuations of workersor the public• 2,250 injuries in chemicalincidents• more than 250 deaths, theequivalent of two fully-loaded 737 passenger jets.
U.S. Chemical Safety Board
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III. Accidents Waiting to Happen: Hazardous Chemical Storage in the U.S.
An estimated 868,000 facilities across the country report hazardous chemical inventories to local andstate emergency response authorities. Of these, some 13,800 or more chemical-using facilities –manufacturers, refineries, water treatment plants, chemical wholesalers, and others that have the largestamounts of extremely hazardous substances – were required to submit to the federal government “RiskManagement Plans.” These plans are intended to tell workers and facility neighbors about dangerouschemical hazards through calculated “worst-case scenarios,” and to ensure that effective safety systemsguard against an American Bhopal.
In the summer of 1999, however, Congress blocked public access, at least for one year, to worst-caseaccident scenarios in a national electronic database (see section V below for more details). By restrictingpublic information on chemical danger zones, Congress deprived journalists and the public of a reliablemeans of comparing accident potential across the country.
As a first step toward establishing vital public information about the potential for catastrophicchemical accidents, this report examines chemicals stored in large quantities at the 13,800 facilitiesthat filed Risk Management Plans; our analysis is based on EPA’s database of these plans. Eachchemical whose storage we analyzed has been labeled by EPA as an “extremely hazardous substance”not only because of its effects on human health (see Appendix C), but also because of its volatility,explosiveness, ability to form toxic clouds, or other indicators of high accident hazard. We excludedfrom our analysis chemicals listed only for flammability, because of inconsistencies in reporting on thesechemicals,11 and based our rankings on the amount reported by facilities as the maximum amount of anextremely hazardous substance in any single production process. We only included processes that thefacility reported as having potential off-site consequences in a worst-case accident.
This report uses chemical storage as an indicator of inherent hazard for three reasons. First, Congresshas this year blocked public access to more complete information. Second, worst-case scenarios bydefinition assume that add-on safety systems at facilitieswill fail, other than passive mitigation. Third, the simplefact is that the production, storage, and use of thesechemicals pose inherent hazards to public health andsafety. While state-of-the-art safety controls – such as leakdetectors, double-walled vessels, supplemental temperatureand pressure controls, high-tech valves, sprinklers, andemergency flares or scrubbers – may limit an accident’simpacts, they do not prevent incidents from occurring and may even make complex operations moreprone to accidents. Sociologist Charles Perrow noted the problems with relying on add-on safety systemsin Normal Accidents, stating, “if a system is so complex and integrally meshed as to require superhumanoperators to constrain the process within safe limits, then it needs some modification.”12
As at Bhopal, add-on safety systems can fail, and facility or corporate managers can fail to maintain safeconditions. In fact, a 1994 trade publication survey found that 75 percent of readers – mostly industrypersonnel – believed business competition and downsizing is forcing firms to cut safety spending.
11 Congress de-listed a number of the chemicals that had been listed only for their flammability. However, by the time Congresslisted those chemicals, some facilities had already submitted reports. Because we have no way of knowing which facilities did ordid not report storage of these chemicals, we removed them from the analysis.12 Perrow, C. Normal Accidents: Living with High-Risk Technologies. New York: Basic Books, 1984.
“No matter how effective conventionalsafety devices are, there is a form ofaccident that is inevitable.”Sociologist Charles Perrow, authorof Normal Accidents
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Further, 78 percent believed accidents are more likely as employees work longer hours, handle newassignments, and fear for their jobs.13
Even fully functioning safety systems may not be adequate. After the tragedy in Bhopal, Union Carbideinstalled a $5 million computerized leak detection and early warning system at its facility in Institute,WV, which also used methyl isocyanate. On August 11, 1985 a cloud of mixed toxic chemicals escapedfrom a 500-gallon storage tank at the facility. The sophisticated leak detection system told managers thatthe cloud was hovering over the plant, with no threat to nearby communities. Meanwhile, it spread overfour neighboring communities, exposing thousands of people and sending over 130 to hospitals.14
Widespread RisksComparing the maximum amount of a chemical15 stored at a facility in any one process, we found that4,860 facilities store at least 100,000 pounds of a chemical considered by EPA to be extremelyhazardous (see Table 2). By comparison, the estimated 40 metric tons of methyl isocyanate released atBhopal amounted to slightly less than 90,000 pounds, so each of these facilities stores more of anextremely hazardous chemical than was released in the Bhopal accident. Every state exceptVermont had at least one facility storing more than 100,000 pounds of an extremely hazardous substance.Over 100 facilities store more than 30 million pounds each, or over 300 times the amount releasedat Bhopal. Thirty million pounds is the amount held by about 165 ninety-ton railroad tank cars.16
The large number of facilities storing ammonia in very high quantities dominates this look at chemicalstorage. For 3,806 (78 percent) of the 4,860 facilities storing more than 100,000 pounds of an extremelyhazardous substance in any one process, that substance is ammonia (compare Tables 2 and 3). Becauseammonia is used as a fertilizer, its storage is highly concentrated in farm states: the ten states with themost facilities storing more than 100,000 pounds of an extremely hazardous substance in any oneprocess are Illinois, Iowa, Kansas, Nebraska, Texas,Minnesota, Indiana, North Dakota, Ohio, and California.Moreover, storage is highly concentrated in a few states: the sixstates with the highest number of facilities storing over 100,000pounds – Illinois, Iowa, Kansas, Nebraska, Texas, andMinnesota – contain more than half the facilities in the nationthat store over that amount.
In order to get a broader look at chemical storage, we also analyzed the distribution of facilities storingover 100,000 pounds of extremely hazardous substances other than ammonia (see Table 3). Whenammonia is excluded, the distribution among states changes significantly – the storage is concentrated inheavily industrialized states. Without ammonia, the eleven states (ten and eleven are tied) with thehighest number of facilities storing over 100,000 pounds are Texas, California, Louisiana, Ohio,Illinois, Pennsylvania, South Carolina, Georgia, New Jersey, Alabama, and Florida. As withammonia storage, hazardous chemical storage in industrial states is highly concentrated in a few states:over half of the facilities storing over 100,000 pounds are located in nine states.
Table 4 lists the 100 facilities storing the highest amounts of extremely hazardous substances besidesammonia. It is clear that facilities store a broad range of chemicals in extremely high amounts – each of
13 Industrial Safety and Hygiene News. May 1994, pp. 31-32.14 Weir 1988.15 In the context of our analysis, the term ‘chemical’ refers to an EPA-listed extremely hazardous substance under the Clean AirAct, Section 112(r).16 A 90-ton railcar is a standard means of transporting hazardous chemicals.
According to the ChlorineInstitute, a full-scale release ofchlorine from a single 90-tonrailroad tank car would cause aworst-case gas plume 3 mileswide and 41 miles long.
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the facilities on the list is storing at least 3 million pounds of an extremely hazardous chemical, or 34times the amount released at Bhopal.
While EPA has named each of the chemicals stored by these facilities an extremely hazardous substance,not every chemical has the same accident potential (some chemicals may be more volatile or more able toform toxic clouds than others). In order to examine where the chemicals of highest concern are stored inthe greatest amounts, we ranked facilities storing the highest amounts of each of five chemicals withextremely high worst-case accident potential: ammonia, chlorine, hydrochloric acid, hydrogen fluoride(hydrofluoric acid), and formaldehyde17 (Tables 5 through 9).
IV. Cause for Concern: Y2K
The Year 2000 (Y2K) and Chemical AccidentsThe Year 2000 problem refers to the inability of many computer systems to correctly interpret the date2000, leading to computer malfunctions or failures. Because chemical plants often use computer systemsto control operations, malfunction or failure could have serious consequences. Chemical facilities usecomputerized equipment in a variety of systems: process controllers, air monitors, security systems,safety shutdown equipment, and systems for controlling high pressures and temperatures. It is unknownwhat percentage of these systems may have Y2K problems programmed into them. In addition, evensystems which do not rely on computers or whose computers are free of Y2K-related problems may be atrisk if the power supply or other external factors are disrupted by Y2K. Malfunctions or failures of anyof these systems have the potential to cause significant chemical accidents, but the degree to whichproblems will occur when key dates roll over is impossible to predict.
Some facilities’ experiences suggest that real and serious computer problems may occur:
• In 1996, an aluminum smelter in New Zealand sustained $600,000 damages from overheating causedby computer problems. The computers failed to account for the "extra" 366th day at the end of 1996 – aleap year – and shut down at midnight on New Years Eve.18
• A safety system designed to detect emissions of deadly hydrogen sulfide gas shut down during a Y2Ktest on an oil rig in the North Sea.19
• A sewage treatment plant in Los Angeles ran a test of its Y2K contingency plan in June of 1999, whichincluded the use of an emergency generator to supply power. When the facility cut the main powersupply, the back-up generator worked, but for reasons unknown at the time, a diversion gatemalfunctioned, resulting in 1.2 million gallons of sewage flowing into a city park.20
17 These chemicals were estimated to have the highest worst-case disaster potential in the report Too Close to Home, publishedby U.S. PIRG and the National Environmental Law Center in July 1998.18 U.S. Environmental Protection Agency, Office of Solid Waste and Emergency Response. “Prevent Year 2000 ChemicalEmergencies.” Chemical Safety Alert. February 1999.19 Ibid.20 Wilson, J., Director of the Los Angeles Bureau of Sanitation, in a letter to John Ferraro, President of the Los Angeles CityCouncil, summarizing the spill.
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Y2K Preparation Among Chemical FacilitiesThe U.S. Chemical Safety and Hazard Investigation Board(CSB) has conducted outreach to the chemical industry togauge the extent of Y2K readiness. Their initial workfound that “the Y2K problem is one of major proportionsand has the potential for causing disruption of normaloperations and maintenance at the nation’s chemical andpetroleum facilities.”21 Small and mid-sized companiesmay present the greatest risk. The board noted that thelarger companies, particular large multinationals, moreoften have the awareness, planning, financial and humanresources to handle the problem, as long as there are nosignificant external problems such as utilities failures.Nonetheless, some of the largest chemical companies plan“safety holidays” – temporary shutdowns – around keydates. The CSB report emphasized that Y2K problemswere much more likely at small and mid-sized facilities, asthese facilities are likely to be less aware of the problemand have fewer resources for dealing with it.
Several corporations have announced plans to shut down orscale back operations. The Canadian subsidiary of DowChemical Corporation announced temporary productionhalts for New Year’s Eve, joining two other Canadianchemical companies taking precautionary measures. Thecompanies all emphasize that their facilities are ready forY2K, but are scaling back operations so that the situationwill be easier to control in the event of power failures. InWest Virginia, managers for Rhone-Poulenc, DuPont, andAshland Chemical corporations report that they willtemporarily stop production during the Y2K transition. APortland, Ore., plant operated by Elf Atochem NorthAmerica, Inc., will put all but two processes on standbyand have emergency generators and an oil-fired boiler onhand in case of a power failure.
The bigger wild card is expected to be small and mid-sizedchemical facilities. At the end of October 1999, Senators Robert Bennett (R-UT) and Christopher Dodd(D-CT), Chair and Vice-Chair of the Senate Special Committee on the Year 2000 Technology Problem,released new data on the lack of Y2K readiness among small and medium-sized chemical-handlingfacilities. The data were based on findings from a survey of firms with 200 or fewer employees in NewJersey, Kansas, California, and Texas. The survey found that:
• 79 percent of firms surveyed had begun a Y2K readiness project.
• 86.5 percent had not completed their Y2K readiness projects.
21 U.S Chemical Safety and Hazard Investigation Board (CSB). Year 2000 Issues – Technology Problems and IndustrialChemical Safety. Report to the Senate Special Committee on the Year 2000 Problem, 1999.
Chemical Accidents and Y2K
“The computer year 2000problem, unless properlyaddressed, poses significantworld-wide chemical safetyproblems.” Intergovernmental Forum onChemical Safety
“Even though we are less than100 days from the year 2000, it isimpossible to conclude that themajority of chemical companiesare ready for Y2K” The Center for Y2K & Society
“ the assumption was made that[small chemical handlers andmanufacturers] were not preparedfor Y2K. To a large degree, thatassumption has been confirmed.” Senator Robert Bennett (R-UT), Chair, Senate SpecialCommittee on the Year 2000Technology Problem
“The Y2K problem is one ofmajor proportions and has thepotential for causing disruption ofnormal operations andmaintenance at the nation’schemical and petroleumfacilities.”U S Chemical Safety Board
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• 85.6 percent had not coordinated emergency plans with local officials.22
In response to the survey results, Senator Bennett said, “In the past, we have had very little informationabout small chemical handlers and manufacturers, and the assumption was made that they were notprepared for Y2K. To a large degree, that assumption has been confirmed.”23 The Senators said they areurging EPA and the Federal Emergency Management Agency (FEMA) to alert State EmergencyManagers, State Emergency Response Commissions, and Local Emergency Planning Committees. TheSenators emphasized that facilities should use the remaining time before New Year’s Eve, the firstcritical Y2K date, to develop contingency plans in case of a Y2K malfunction, and to coordinate thoseplans with local officials. Senator Dodd said, “Time is running out, but it’s still not too late if these firmsact now. Developing viable Y2K contingency plans in conjunction with state and local officials must bea top priority in the chemical industry.”
The plain fact is, however, that we have very little reliable public information on chemical industrypreparedness for Y2K. With the exception of inquiries by the Chemical Safety Board and SenatorBennett's Committee, the federal government has done little to verify chemical industry Y2K readiness.In fact, in the summer of 1999, President Clinton signed into law a bill that limits corporate liability forY2K-related damages, lessening the incentive for companies to act to prevent such damages. NeitherEPA nor the Occupational Safety and Health Administration has collected systematic readinessinformation, and few states have picked up the slack. (California is an exception.)
In contrast, the Nuclear Regulatory Commission has ensured independent auditing at all of the nation'snuclear plants, and the Securities and Exchange Commission has required some 9,000 major businessesto report regularly on Y2K readiness. But we approach the year 2000 without basic information on thechemical industry's Y2K preparedness. For this reason, we have attached a simple survey (see AppendixD) with basic questions for chemical companies about plans for “safety holidays” and other strategies forprotecting workers and the public.
V. After Bhopal: Addressing Chemical Safety
A Right to Know Movement Forces Government ActionThe Bhopal disaster contributed to a growing awareness of deadly chemical industry hazards. Bhopaladded the specter of sudden chemical accidents to news about toxic dumping at Love Canal and nuclearmeltdown at Chernobyl, which had raised the public visibility of large scale pollution problems. Startingat the local and state level, a broad movement of environmental and labor groups, grassroots activists,and social justice organizations pushed for a greater public voice in decisions about chemical hazards.
As a result, Congress passed the Emergency Planning and Community Right to Know Act of 1986(EPCRA, or SARA Title III) as a freestanding title in Superfund legislation (a law for cleaning upabandoned toxic dumpsites). In effect, EPCRA codified the new philosophy of right-to-know, puttinginformation into the hands of parties who need it to plan for and prevent pollution and emergencies. Thelaw has three major functions: it enables people to participate in emergency planning; it lets people findout where dangerous chemicals are stored in communities; and it establishes the first publicly accessible,national database of toxic pollution ever mandated by a federal environmental law.
22 Mary Kay O’Connor Process Safety Center, Texas A&M University System. Y2K Readiness of Small and Medium-sizedEnterprises. October 1999.23 Senate Special Committee on the Year 2000 Technology Problem press release. “Study Says Small Chemical Businesses NotY2K Ready, Bennett, Dodd Urge EPA, FEMA to Help Prepare Communities.” October 21, 1999.
11
EPCRA’s toxic pollution database, the Toxics Release Inventory (TRI) gave citizens and communitiesvaluable information about pollution and gave the industry a public incentive to reduce toxic releases. Inmore than ten years since the first TRI data release, the EPA estimates that industries have reducedpollution by more than forty percent.24 However, in the case of chemical accidents, EPCRA did not go farenough. Indeed, few of the mostly volunteer Local Emergency Planning Committees, set up underEPCRA, were capable of producing basic facility hazard assessments; even fewer were requestingnecessary documents from industry, and almost none were telling the public about hazards in thecommunity.
Meanwhile, chemical accidents continued. On October 23, 1989, an explosion at Phillips Petroleum inPasadena, Texas decimated the plastics manufacturing facility, killing 23 workers and blowing outwindows at an elementary school about a mile away. In addition to the tragic loss of human life, the blasthad economic consequences: workers lost jobs, and the plant suffered some $675 million in immediatedamages and more than $700 million in lost business over a two-year reconstruction period. These andother major accidents pointed to a continued slide in chemical safety.
In 1990, Congress again took steps to address the problem of chemical safety, with amendments to theClean Air Act. This law included a major new prevention program, in which facilities that use largeamounts of extremely hazardous substances prepare Risk Management Plans (the documents whichprovided the data for this report). In these plans, facility operators assess their own hazards and discloseto workers and the public a “worst-case scenario” of what could happen if safety systems fail – therebyshifting the initial hazard assessment burden from poorly funded Local Emergency Planning Committeesto the responsible facilities. In addition, facilities must undertake a prevention program that addressesbasic safety procedures such as training, maintenance, and safety audits, and must coordinate emergencyresponse plans and drills with local planners.
Unfortunately, the EPA's weak implementation of the Clean Air Act amendments failed to focus onpreventing chemical accidents, but has focused instead on add-on safety measures and on emergencyresponse. Despite vigorous urging from labor and environmental groups, EPA repeatedly weakened theRisk Management Plan regulations and did not adequately encourage “Inherent Safety” practices – orpractices that reduce hazards by making fundamental design choices to use materials and processes thatpose little or no risk of a catastrophic accident.
The Clean Air Act was further compromised in the summer of 1999, when the chemical industrypersuaded Congress to block public disclosure of worst-case chemical accident scenarios. These hazardscenarios are the most valuable portion of the Risk Management Plan for communicating risk to thepublic – an essential step in preventing chemical accidents. Right-to-know disclosure gives facilities avisible public incentive to reduce the hazards they pose to neighboring communities. Also, by relying onan assessment of what could happen if safety systems fail, the scenarios point to inherent safety practicesas the best solution for accident prevention.
The chemical industry, however, lobbied hard to oppose public posting of worst-case scenarios on theInternet. The industry argued that such posting would render their facilities vulnerable to criminalactivity. Congress adopted the industry’s argument – but without taking any real steps to improve sitesecurity or reduce hazards. Instead Congress blocked public access to an electronic database of worst-case scenarios for at least one year. In the meantime, Congress restricted public disclosure to local,industry-controlled meetings. These local meetings, by design, prevent people from learning abouthazards where relatives live or work, or where they might travel, relocate, or attend school. Perhapsmore importantly, local-only access prevents people from learning about successful safety practices in 24 U.S. EPA. 1996 Toxics Release Inventory. June 1998.
12
other communities – successes that cost-cutting managers may wish to avoid at their own facilities. Atthe same time, however, many facilities reported details of worst-case scenarios in the Risk ManagementPlan summaries; these summaries, not subject to Congressional restriction, are available at www.rtk.net/.
The Clean Air Act also established an independent Chemical Safety and Hazard Investigation Board toinvestigate the root causes of chemical accidents and recommend improvements in safety regulations andpractices (much as the National Transportation Safety Board investigates airplane crashes). The board'sfirst investigation, into a deadly explosion at Sierra Chemical in Sparks, Nevada, showed the board'svalue. Sierra Chemical claimed sabotage, much as Union Carbide had done after Bhopal. However, theboard's first report disproved this claim, and instead faulted Sierra Chemical's hazards analysis, trainingprogram, operating procedure, building design, safety inspection, and employee participation efforts -- aswell as lax government oversight.
The Responsible Care Program: Trust Us, Don’t Track UsIn the 1980’s, the Chemical Manufacturers Association’s (CMA) own surveys indicated that the publichad little confidence in the industry and favored additional regulation combined with strict enforcementof environmental laws. CMA responded by developing the Responsible Care Initiative in 1988.Fundamentally, Responsible Care seeks to improve the public image of the chemical industry in order toavoid further environmental and safety regulations.
At the heart of Responsible Care are certain vague principles. Adherence to these principles ismandatory for CMA member companies, which commit to:
• Be safe and environmentally responsible in the manufacture, transportation, storage, use, and disposalof chemicals;• Respond to community concerns about chemicals and operations;• Help communities put emergency procedures in place to handle spills and other releases – proceduresthat also can be useful in responding to natural disasters; and• Keep the public and government officials informed about chemical-related health and environmentalhazards.
Nothing in Responsible Care, however, commits any facility tomeasurable goals or timelines to reduce chemical risks.Further, the public posture of openness often conflictsmarkedly with the industry's anti-right-to-know positions inlobbying state legislatures and Congress.
Numerous CMA publications tout the effectiveness ofResponsible Care. A yearly Progress Report claims greatachievements,25 yet basic delivery is often poor. For example,in a 1998 U.S. PIRG telephone survey, more than 75 percent of CMA companies would not or could notprovide answers to seven basic questions about chemicals used at their facilities.26
Responsible Care requires member companies to engage in community dialogue, and recommends thatfacilities form Community Advisory Panels (CAPs). Some 400 facilities have formed CAPs. Thesepanels establish dialogue with local community and opinion leaders in regular meetings in order to helpcompanies anticipate and mold public opinion.
25 The Year in Review 1995-1996, A Responsible Care Progress Report.26 Trust Us. Don’t Track Us. An Investigation of the Chemical Industry’s Responsible Care Program. Washington, DC: U.S.PIRG, 1998.
Responsible Care?In response to a 1998 U.S. PIRGsurvey, more than 75 percent ofchemical companies would not orcould not provide answers toseven basic questions aboutchemicals used at their facilities.
13
The CAPs are limited by design. These advisory panels:
• Have membership that is hand-picked by companies;• Can be shut down at any time by those companies;• Have no legally binding access to measurements and hard data;• Have no ability to obtain credible, independent third-party audits;• Have no decision-making authority;• Operate without facility commitments to measurable goals or timelines for reducing chemical risks;• Have no means to evaluate actual safety and environmental performance;• Operate under management codes that contain only broad, vague language;• Rely frequently on company-paid facilitators; and,• Provide no accountability enforceable by law.• Lack resources for outside advisors who can analyze technical information.
Without basic validation measures, Responsible Care lacks accountability and credibility. As a result ofthese weaknesses-by-design, there is little evidence that CAPs ever articulate and make real demands forprogress toward measurable prevention goals. For example, CAPs may take up strategies such as how to"shelter in place" (or staying indoors during a short chemical release) in lieu of inherent safety and otherprevention efforts. There are no real life examples, as of yet, that sheltering will work in a major release.Yet through CAPs, the industry keeps the focus on sheltering and emergency response, and off of effortsto reduce hazards at the source.
A survey conducted by the International Federation of Chemical, Energy, Mine and General Workers’Union indicates that the Responsible Care program also has had little impact on the majority of theworld’s chemical workers. The survey found that 35 percent of union employees contacted were noteven aware of the Responsible Care program, and most unions that were aware of the program wereskeptical of its value.27
A Tellus Institute study on Witco Corporation of New Jersey found skepticism of Responsible Careamong the corporation’s management. According to the plant manager, the Responsible Care programdoes very little to help achieve pollution prevention because of the lack of structured process inherent inthe program. The facility manager pointed to the failure of Responsible Care to provide any assistance ordirection in reaching pollution prevention goals.28
Since Responsible Care is voluntary, member companies do little more than comply with currentenvironmental laws – laws that do not provide needed focus on preventing toxic pollution and chemicalaccidents.
27 Responsible Care: A Credible Industry Response?, survey of International Federation of Chemical, Energy, Mine and GeneralWorkers’ Union (ICEM), 1997.28 Tellus Institute. New Jersey’s Planning Process: Shaping a New Vision of Pollution Prevention, Case Study Number 4 –Witco Corporation.
14
VI. Promoting Inherent Safety and the Public’s Right to Know
Inherent Safety: Reducing Risks and Preventing AccidentsTo date, government and industry efforts to protect ecosystems, workers, and the public have focused onadd-on safety systems, emergency response, and clean-up. As discussed in Section III, state-of-the-artsafety systems (leak detectors, double-walled vessels, supplemental temperature and pressure controls,high-tech valves, sprinklers, and emergency flares or scrubbers) may limit an accident’s impacts, but theydo not prevent incidents from occurring and may even make an operation more prone to accidents.
Add-on safety systems can and do fail: at Bhopal, five separate safety systems failed to neutralize orcontain the release of deadly methyl isocyanate gas. Following the Bhopal disaster, Union Carbideadded state-of-the-art enhancements to its Institute, WV, facility. Nonetheless, in August, 1985 anaccident occurred at the facility, proving the rule that add-on safety systems can never be as successful asfront-end prevention
The best solution is to prevent toxic chemical spills, fires, and otherreleases at every stage of toxic chemical production design andoperation. Prevention can be most effectively achieved through theengineering design principle of Inherent Safety, which eliminates orreduces the possibility of an accident by modifying key aspects of theproduction system, such as technologies, products and raw materials(e.g., substitution of less hazardous chemicals or reductions in theiruse).
Experts from industry, government, labor, and environmental groupsadvocate Inherent Safety as a truly preventive approach to reducingchemical accident risks. An interview with Edward Munoz, formerManaging Director of Union Carbide, India, provides a compellingexample. Union Carbide officials claim that the Bhopal accident wasan unusual event, and possibly a result of sabotage. Munoz agreedthat it may well have been an unusual event, but that “it doesn’texonerate the guy who built the tank." His conclusion: "if you dosomething that is inherently dangerous and somebody doessomething foolish with it, still you are responsible for doing whatwas inherently dangerous.”29
Dr. Trevor Kletz, a leader in promoting Inherent Safety, states,“whenever possible, hazards should be removed by a change in design…rather than by adding onprotective equipment.”30 Bringing the concept of Inherent Safety down to understandable terms, Dr.Kletz notes, “If the meat of lions was good to eat, our farmers would be asked to keep lions and theycould do so, though they would need cages around their fields instead of fences. By why keep lionswhen sheep or cattle will do instead?”
To be inherently safer (and cleaner), companies should analyze the hazards associated with the use ofcertain chemicals, products, and production processes, and search for benign alternatives. An EPA studycompleted by Nicholas Ashford et. al., of the Massachusetts Institute of Technology recommends that
29 Karliner, J. A conversation with Edward A. Munoz, former Managing Director of Union Carbide, India, Ltd. TransnationalResource & Action Center, in association with the Bhopal Action Resource Center of the Council on International and PublicAffairs. For the full interview; see www.corpwatch.org/bhopal.30 Kletz, T. What Went Wrong. Houston: Gulf Publishers, 1994.
• The Solon, Ohio,wastewater treatment plantswitched from volatilechlorine to safer ultravioletlight for disinfectingwastewater.
• DuPont in Victoria, Texasfound a way to use up methylisocyanate -- the Bhopalchemical -- such that nodangerous storage is required.
• New Jersey's ToxicCatastrophe Prevention Act(with includes fees for on-sitestorage) has prompted anumber of water treatmentplants to switch from chlorinegas to less hazardous bleach.
15
toxic chemical producers and users be required to undertake a Technology Options Analysis (TOA), aconcerted effort to identify safer and cleaner alternatives, which forms part of a continuous technologyimprovement process.31 Through TOA planning, the facilities adopt inherently safer technologies withappropriate cost and performance characteristics and explain why any technically feasible options werenot selected. Information contained in the TOA could be available to the public and could likely lead todissemination of innovative technologies.
Technology Options Analysis is similar to its counterpart dealing with ‘routine’ toxic hazards: pollutionprevention planning. Facilities planning for pollution prevention customarily analyze their hazardouschemical flows and identify cost-effective ways to reduce the use of toxic chemicals and generation oftoxic waste. Inherent Safety and pollution prevention share a similar goal: change technologies,products, and raw materials to reduce toxics-related hazards at the source.
Exposing the risks: the importance of the public’s right to knowPublic information has greatly improved environmental protection efforts in the U.S. Perhaps the best-known success has been the federal Toxics Release Inventory (TRI), which EPA credits with a 46percent decrease in toxic releases to the environment.32 The TRI has done this by using the publicspotlight to encourage pollution corporations to make voluntary decisions to reduce their toxic releases.In addition, it enables government agencies to target resources and strengthens citizen activism.
While the TRI is the best national publicly available source of information on toxic chemical pollution,there are many significant reporting gaps. Specifically, the federal right-to-know program does notinclude toxic chemical use reporting, or “materials accounting.” Chemical use reporting would providethe public greater information on toxic chemicals used in the workplace, transported throughcommunities, and placed in consumer products.
Strong right-to-know laws in Massachusetts and New Jersey already require companies to track andreport toxic chemical use. These programs show that chemical use reporting and pollution preventionplanning helps industries find ways to reduce pollution and in many cases save money in the process.
31 Ashford N. et. al., 1993.32 U.S. EPA 1996.
16
VII. Recommendations
The storage and use of extremely hazardous chemicals poses significant risks to workers, communities,and the environment. Chemical accidents can and do happen in this country; they kill and injure people,damage property, and foul the environment. Chemical accidents are preventable. Government, industry,and the public should take measures to prevent toxic chemical accidents and improve chemical safety inthe United States:
1. Honor the public’s right to know.The federal government should make readily accessible to the public a complete, national database ofRisk Management Plans, including worst-case scenarios. Full disclosure of chemical hazards enablesgovernment, industry, and the public to measure and evaluate progress on Inherent Safety at industrialfacilities. Full disclosure enables people to hold government and industry accountable for real progresson improving site security and reducing chemical hazards.
Proposed legislation before Congress would broaden right-to-know reporting under the Toxics ReleaseInventory to help citizens, government, and industry obtain complete and accurate information on toxicchemical production and use. By requiring chemical use reporting, this bill, The Children’sEnvironmental Protection and Right to Know Act (H.R.1657), would close important gaps in right-to-know data and help industry work toward real pollution and accident prevention.
2. Put Inherent Safety first.Federal, state, and local governments should insist that chemical facilities eliminate or reduce thepossibility of chemical accidents by modifying technologies, products, and raw materials. These inherentsafety practices are the best way to ensure community safety. EPA has the authority under Section 112(r)of the Clean Air Act to mandate accident reduction measures, but in nine years since the law wasenacted, has not used that authority. The U.S. Chemical Safety Board should develop recommendationsto EPA for the promotion of inherent safety. The Department of Justice should develop and recommendstrict regulations to improve site security, including through inherent safety. State and local governmentsshould integrate inherent safety into existing pollution prevention and chemical safety activities.
Proposed legislation before Congress, The Chemical Security Act (S.1470), establishes a "multiplebarriers” hierarchy for preventing chemical accidents and improving site security. First, identify and useinherently safer technologies where feasible. Second, where hazards remain, use secondary containment,control, or mitigation measures. Third, improve site security to address remaining hazards. Fourth,establish adequate buffer zones around facilities to protect residential areas, schools, and hospitals.
3. Prepare for Y2K.With tens of thousands of facilities across the country handling hazardous chemicals, no one can predictfor certain if or where Y2K-related accidents might occur. Recent surveys indicate that small and mid-sized facilities may not be prepared for the first critical Y2K date on January 1. In the short timeremaining, facilities should communicate openly with workers and communities about the special risks tochemical operations posed by potential Y2K computer failures. Facilities should develop and coordinatecontingency plans with employees, communities, and emergency responders. In addition, localgovernments and the public should contact chemical facilities to determine their Y2K readiness,including plans for safety holidays if preparations are not complete (see sample survey, Appendix D).Because of the ongoing potential for chemical accidents in the U.S., the Y2K computer problem shouldbe seen as an opportunity to develop reliable contingency plans for accidents and to focus on preventingany accidents in the future.
State
Total Reported Incidents
1 California 100,5792 Texas 55,2093 Ohio 26,3644 New York 25,6605 Louisiana 24,9206 Illinois 23,1607 Michigan 19,9708 Pennsylvania 17,8709 Florida 17,758
10 New Jersey 13,49111 Massachusetts 12,98512 Virginia 12,22413 Maryland 11,00614 Kansas 9,96415 Tennessee 9,77016 Georgia 9,24017 Indiana 9,15618 Kentucky 8,91519 Missouri 8,87820 Oregon 7,90521 Colorado 7,50622 Connecticut 7,47823 Minnesota 7,22724 West Virginia 7,10525 North Carolina 7,04126 Iowa 7,03927 Oklahoma 6,81628 Washington 6,43229 Arkansas 5,91030 South Carolina 5,38931 Wisconsin 5,18332 Utah 5,04033 Alabama 4,95934 Arizona 4,82535 Nebraska 3,37436 Wyoming 3,24437 Nevada 3,02038 Idaho 2,98639 Mississippi 2,95040 Maine 2,50541 New Hampshire 2,27042 Montana 1,96643 New Mexico 1,84044 DC 1,63945 South Dakota 1,52946 Alaska 1,49047 Rhode Island 1,37048 Delaware 1,33749 Vermont 1,12350 Hawaii 79951 North Dakota 727
Note: The Chemical Safety Board compiled five federal databases in order to arrive at a total of 600,000 incidents over the ten-year period. Because of incomplete reports on some incidents, not all incidents had valid state identifications. This table includes only those incidents which did have valid state IDs, and for that reason, the total number of incidents listed on this table is not 600,000. Also, not all of these incidents resulted in serious consequences (injuries, deaths, or evacuations) -- see other information on these data in Section II.
Table 1. Reported Chemical Incidents in the U.S., 1987-1996*
*Source: U.S. Chemical Safety Board’s Baseline for Commercial Chemical Incidents in the U.S.
Appendix A, Table 1
State Number of
facilities
State Number of facilities
1 Ilinois 628 1 Texas 1522 Iowa 524 2 California 663 Kansas 415 2 Louisiana 664 Nebraska 366 4 Ohio 565 Texas 299 5 Illinois 556 Minnesota 290 6 Pennsylvania 407 Indiana 245 7 South Carolina 368 North Dakota 227 8 Georgia 329 Ohio 171 9 New Jersey 31
10 California 155 10 Alabama 3011 Missouri 139 10 Florida 3012 Oklahoma 117 12 North Carolina 2913 Washington 91 13 New York 2814 Louisiana 85 13 Tennessee 2815 Kentucky 84 15 Kentucky 2616 Wisconsin 72 16 Indiana 2517 Colorado 67 17 West Virginia 2417 Michigan 67 18 Michigan 2319 Florida 59 19 Arkansas 2020 Georgia 56 19 Missouri 2021 Pennsylvania 52 21 Mississippi 1922 South Dakota 50 21 Washington 1923 North Carolina 45 23 Oregon 1824 South Carolina 44 24 Minnesota 1724 Tennessee 44 24 Virginia 1726 Montana 42 24 Wisconsin 1727 New York 40 27 Kansas 1328 Alabama 37 28 Iowa 1129 New Jersey 36 29 Arizona 930 Oregon 34 29 Maryland 931 Idaho 32 31 Delaware 832 Mississippi 30 31 Massachusetts 833 Arkansas 28 31 Utah 833 Arizona 28 34 Nevada 635 Virginia 27 34 Oklahoma 636 West Virginia 26 36 Connecticut 537 Maryland 19 36 Maine 538 Utah 15 36 Montana 539 Wyoming 10 36 North Dakota 540 Delaware 9 36 Nebraska 541 Massachusetts 8 41 Colorado 441 New Mexico 8 41 New Mexico 441 Nevada 8 43 DC 344 Maine 6 43 Rhode Island 345 Connecticut 5 45 Hawaii 246 Rhode Island 4 45 Idaho 247 DC 3 45 Wyoming 247 Hawaii 3 48 New Hampshire 149 New Hampshire 2 48 South Dakota 150 Alaska 1 50 Alaska 051 Vermont 0 51 Vermont 0
Total 4,860 Total 1,054
Table 3. Numbers of facilities storing more than 100,000 pounds of an extremely hazardous substance* other than ammonia in a single process.
Table 2. Numbers of facilities storing more than 100,000 pounds of an extremely hazardous substance* in a single process.
* Extremely hazardous substance as defined by the U.S. Environmental Protection Agency under the Clean Air Act, Section 112(r)
Appendix A, Tables 2, 3
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LA
NT
WIC
HIT
AK
S14
,931
,000
Chl
orof
orm
34G
EN
ER
AL
CH
EM
ICA
L C
OR
POR
AT
ION
AU
GU
STA
GA
14,4
00,0
00O
leum
(Fu
min
g Su
lfur
ic a
cid)
Tab
le 4
. T
he 1
00 F
aclit
ies
in t
he U
.S. s
tori
ng t
he la
rges
t am
ount
s of
a n
on-a
mm
onia
ext
rem
ely
haza
rdou
s su
bsta
nce
[as
defi
ned
by E
PA
in
the
Cle
an A
ir A
ct, S
ecti
on 1
12(r
)] in
any
sin
gle
proc
ess
App
endi
x A
, Tab
le 4
Fac
ility
Nam
eC
ity
Stat
eM
axim
um
amou
nt in
sin
gle
proc
ess
(lbs
)
Che
mic
al n
ame
for
max
imum
am
ount
35ST
ER
LIN
G C
HE
MIC
AL
S IN
CO
RPO
RA
TE
DT
EX
AS
CIT
YT
X14
,400
,000
Acr
ylon
itrile
36N
OR
CO
CH
EM
ICA
L P
LA
NT
- W
EST
SIT
EN
OR
CO
LA
14,0
00,0
00E
pich
loro
hydr
in37
SHE
LL
DE
ER
PA
RK
RE
FIN
ING
CO
MPA
NY
DE
ER
PA
RK
TX
13,7
00,0
00E
pich
loro
hydr
in38
OL
IN C
OR
POR
AT
ION
NIA
GA
RA
FA
LL
S, N
Y -
FO
OT
E Y
AR
DN
IAG
AR
A F
AL
LS
NY
13,2
00,0
00C
hlor
ine
39D
PC E
NT
ER
PRIS
ES
MO
BIL
EA
L13
,000
,000
Chl
orin
e40
HU
NT
SMA
N C
OR
P., O
LE
FIN
S &
OX
IDE
S (O
&O
) PL
AN
TPO
RT
NE
CH
ES
TX
12,4
00,0
00E
thyl
ene
oxid
e41
OX
Y V
INY
LS,
LP
- B
AT
TL
EG
RO
UN
D C
HL
OR
-AL
KA
LI
PLA
NT
LA
POR
TE
TX
12,0
00,0
00C
hlor
ine
42A
IR P
RO
DU
CT
S A
ND
CH
EM
ICA
LS,
IN
C. V
AM
DIS
TR
IBU
TIO
NC
AL
VE
RT
CIT
YK
Y11
,700
,000
Vin
yl a
ceta
te m
onom
er43
TH
E D
OW
CH
EM
ICA
L C
OM
PAN
Y, T
EX
AS
OPE
RA
TIO
NS
FRE
EPO
RT
TX
11,1
49,0
00C
hlor
ofor
m44
STA
NT
RA
NS,
IN
C.
TE
XA
S C
ITY
TX
10,6
96,6
77Pr
opyl
ene
oxid
e45
BA
SF C
OR
POR
AT
ION
- F
RE
EPO
RT
SIT
EFR
EE
POR
TT
X10
,200
,000
Ole
um (
Fum
ing
Sulf
uric
aci
d)46
DU
PON
T B
EA
UM
ON
T P
LA
NT
BE
AU
MO
NT
TX
10,0
00,0
00A
cryl
onitr
ile46
BA
YE
R A
DD
YST
ON
OH
IO P
LA
NT
AD
DY
STO
NO
H10
,000
,000
Acr
ylon
itrile
48D
UPO
NT
- E
DG
E M
OO
R, D
E F
AC
ILIT
YE
DG
E M
OO
RD
E9,
825,
600
Chl
orin
e49
LY
ON
DE
LL
NO
RT
H C
HA
RL
EST
ON
DIS
TR
IBU
TIO
N T
ER
MIN
AL
CH
AR
LE
STO
NW
V9,
763,
000
Prop
ylen
e ox
ide
50D
UPO
NT
SA
BIN
E R
IVE
R W
OR
KS
OR
AN
GE
TX
9,40
0,00
0V
inyl
ace
tate
mon
omer
51D
UPO
NT
DO
W E
LA
STO
ME
RS
L.L
.C.,
PON
TC
HA
RT
RA
IN S
ITE
LA
PLA
CE
LA
9,00
0,00
0C
hlor
ine
52PI
ON
EE
R C
HL
OR
AL
KA
LI
CO
MPA
NY
, IN
C.
ST. G
AB
RIE
LL
A8,
930,
000
Chl
orin
e53
DU
PON
T D
EL
ISL
E P
LA
NT
PASS
CH
RIS
TIA
NM
S8,
800,
000
Chl
orin
e54
VO
N R
OL
L A
ME
RIC
A, I
NC
EA
ST L
IVE
RPO
OL
OH
8,70
0,00
0C
hlor
ofor
m55
LY
ON
DE
LL
CH
EM
ICA
L W
OR
LD
WID
E, I
NC
.W
EST
LA
KE
LA
8,40
0,00
0T
olue
ne d
iisoc
yana
te (
unsp
ecif
ied
isom
er)
56G
AT
X T
ER
MIN
AL
S C
OR
POR
AT
ION
- P
ASA
DE
NA
TE
RM
INA
LPA
SAD
EN
AT
X7,
879,
536
Vin
yl a
ceta
te m
onom
er57
CL
EA
R L
AK
E P
LA
NT
PASA
DE
NA
TX
7,80
0,00
0V
inyl
ace
tate
mon
omer
58L
A P
OR
TE
PL
AN
TL
A P
OR
TE
TX
7,60
0,00
0V
inyl
ace
tate
mon
omer
59SP
EC
IFIE
D F
UE
LS
& C
HE
MIC
AL
SC
HA
NN
EL
VIE
WT
X7,
500,
000
Vin
yl a
ceta
te m
onom
er60
PPG
IN
DU
STR
IES
INC
., L
AK
E C
HA
RL
ES
PLA
NT
LA
KE
CH
AR
LE
SL
A6,
800,
000
Chl
orin
e61
DO
W C
OR
NIN
G -
- M
IDL
AN
D P
LA
NT
MID
LA
ND
MI
6,73
8,12
2H
ydro
gen
chlo
ride
(an
hydr
ous)
62G
E P
LA
STIC
S -
OT
TA
WA
OT
TA
WA
IL6,
654,
393
Acr
ylon
itrile
63G
EN
ER
AL
CH
EM
ICA
L C
OR
POR
AT
ION
CL
AY
MO
NT
DE
6,63
0,00
0O
leum
(Fu
min
g Su
lfur
ic a
cid)
64A
RC
H C
HE
MIC
AL
S IN
C.
BR
AN
DE
NB
UR
GK
Y6,
500,
000
Prop
ylen
e ox
ide
64O
CC
IDE
NT
AL
CH
EM
ICA
L C
OR
POR
AT
ION
IN
GL
ESI
DE
PL
AN
TG
RE
GO
RY
TX
6,50
0,00
0C
hlor
ine
66U
NIO
N C
AR
BID
E C
OR
POR
AT
ION
TA
FT/ S
TA
R C
OM
PLE
XT
AFT
LA
6,27
7,35
3E
thyl
ened
iam
ine
67Q
UE
EN
CIT
Y T
ER
MIN
AL
S, I
NC
.C
INC
INN
AT
IO
H5,
800,
000
Vin
yl a
ceta
te m
onom
er67
MO
NSA
NT
O C
OM
PAN
Y L
UL
ING
PL
AN
TL
UL
ING
LA
5,80
0,00
0C
hlor
ine
69N
OR
TH
CH
AR
LE
STO
N D
IST
RIB
UT
ION
TE
RM
INA
LC
HA
RL
EST
ON
WV
5,60
6,94
0V
inyl
ace
tate
mon
omer
70SH
EL
L C
HE
MIC
AL
CO
MPA
NY
DE
ER
PA
RK
TX
5,56
6,64
2E
pich
loro
hydr
in
App
endi
x A
, Tab
le 4
Fac
ility
Nam
eC
ity
Stat
eM
axim
um
amou
nt in
sin
gle
proc
ess
(lbs
)
Che
mic
al n
ame
for
max
imum
am
ount
71D
UPO
NT
BU
RN
SID
E P
LA
NT
DA
RR
OW
LA
5,40
0,00
0O
leum
(Fu
min
g Su
lfur
ic a
cid)
72D
UPO
NT
LO
UIS
VIL
LE
WO
RK
SL
OU
ISV
ILL
EK
Y5,
300,
000
Hyd
roge
n fl
uori
de (
conc
>=
50%
)73
BA
SF C
OR
POR
AT
ION
- W
YA
ND
OT
TE
SIT
EW
YA
ND
OT
TE
MI
5,07
0,00
0Pr
opyl
ene
oxid
e74
PCS
NIT
RO
GE
N F
ER
TIL
IZE
R, L
. P.-
-GE
ISM
AR
, LA
GE
ISM
AR
LA
5,00
0,00
0O
leum
(Fu
min
g Su
lfur
ic a
cid)
74B
AY
ER
CO
RPO
RA
TIO
N -
BA
YT
OW
N, T
EX
AS
PLA
NT
BA
YT
OW
NT
X5,
000,
000
Tol
uene
diis
ocya
nate
(un
spec
ifie
d is
omer
)74
GE
NE
RA
L C
HE
MIC
AL
CO
RPO
RA
TIO
NN
EW
AR
KN
J5,
000,
000
Ole
um (
Fum
ing
Sulf
uric
aci
d)74
TIT
AN
IUM
ME
TA
LS
CO
RPO
RA
TIO
NH
EN
DE
RSO
NN
V5,
000,
000
Tita
nium
tetr
achl
orid
e74
AL
IED
SIG
NA
L, G
EIS
MA
R P
LA
NT
GE
ISM
AR
LA
5,00
0,00
0H
ydro
gen
fluo
ride
(co
nc >
=50
%)
79D
UPO
NT
ME
MPH
IS P
LA
NT
ME
MPH
IST
N4,
778,
196
Hyd
rocy
anic
aci
d80
OC
CID
EN
TA
L C
HE
MIC
AL
CO
RP.
MU
SCL
E S
HO
AL
S PL
AN
TM
USC
LE
SH
OA
LS
AL
4,77
0,00
0C
hlor
ine
81D
UPO
NT
CO
MPA
NY
- C
OR
PUS
CH
RIS
TI
PLA
NT
ING
LE
SID
ET
X4,
718,
500
Hyd
roge
n fl
uori
de (
conc
>=
50%
)82
PPG
IN
DU
STR
IES,
IN
C.,
NA
TR
IUM
NE
W M
AR
TIN
SVIL
LE
WV
4,71
7,75
5C
arbo
n di
sulf
ide
83SH
EL
L C
HE
MIC
AL
CO
MPA
NY
GE
ISM
AR
LA
4,61
0,00
0E
thyl
ene
oxid
e84
BO
RD
EN
CH
EM
ICA
LS
AN
D P
LA
STIC
S, O
LP
- G
EIS
MA
RG
EIS
MA
RL
A4,
600,
000
Form
alde
hyde
(so
lutio
n)85
TIN
PR
OD
UC
TS,
IN
C.
LE
XIN
GT
ON
SC4,
200,
000
Chl
orin
e85
HA
MIL
TO
N F
AC
ILIT
YH
AM
ILT
ON
MS
4,20
0,00
0T
itani
um te
trac
hlor
ide
85E
SCA
MB
IA P
LA
NT
PAC
EFL
4,20
0,00
0C
yclo
hexy
lam
ine
88JO
HA
NN
HA
LT
ER
MA
NN
, LIM
ITE
DH
OU
STO
NT
X4,
180,
000
Vin
yl a
ceta
te m
onom
er89
DO
W C
OR
NIN
G C
OR
POR
AT
ION
CA
RR
OL
LT
ON
SIT
EC
AR
RO
LL
TO
NK
Y4,
167,
500
Dim
ethy
ldic
hlor
osila
ne90
CE
LA
NE
SE B
AY
CIT
Y P
LA
NT
BA
Y C
ITY
TX
4,10
1,00
0V
inyl
ace
tate
mon
omer
91G
E P
LA
STIC
S -
BA
Y S
T. L
OU
ISB
AY
ST
. LO
UIS
MS
4,06
2,00
0A
cryl
onitr
ile92
DU
PO
NT
VIC
TO
RIA
PL
AN
TV
ICT
OR
IAT
X4,
000,
000
Vin
yl a
ceta
te m
onom
er92
CE
LA
NE
SE C
HE
MIC
AL
S, I
NC
. -
BU
CK
S, A
LA
BA
MA
BU
CK
SA
L4,
000,
000
Cyc
lohe
xyla
min
e92
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F A
TO
CH
EM
NO
RT
H A
ME
RIC
A, I
NC
. - R
IVE
RV
IEW
, MI
RIV
ER
VIE
WM
I4,
000,
000
Chl
orin
e95
EL
F A
TO
CH
EM
NO
RT
H A
ME
RIC
A, I
NC
.B
EA
UM
ON
TT
X3,
900,
000
Met
hyl m
erca
ptan
95N
AT
ION
AL
ST
AR
CH
AN
D C
HE
MIC
AL
CO
MPA
NY
WO
OD
RU
FFE
NO
RE
ESC
3,90
0,00
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inyl
ace
tate
mon
omer
97IN
TE
RC
OA
STA
L T
ER
MIN
AL
, IN
CO
RPO
RA
TE
DT
EX
AS
CIT
YT
X3,
800,
000
Tol
uene
diis
ocya
nate
(un
spec
ifie
d is
omer
)98
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OR
GIA
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CIF
IC C
OR
POR
AT
ION
, PA
LA
TK
A O
PER
AT
ION
SPA
LA
TK
AFL
3,78
0,00
0C
hlor
ine
99U
NIO
N C
AR
BID
E S
EA
DR
IFT
PL
AN
TN
OR
TH
SE
AD
RIF
TT
X3,
777,
940
Vin
yl a
ceta
te m
onom
er10
0A
LB
EM
AR
LE
CO
RPO
RA
TIO
N W
EST
PL
AN
TM
AG
NO
LIA
AR
3,72
1,61
2C
hlor
ine
App
endi
x A
, Tab
le 4
Facility Name City State Maximum amount in single
process (lbs.)1 TAFT TERMINAL TAFT LA 240,000,0002 FARMLAND INDUSTRIES, FORT DODGE NITROGEN PLANT FORT DODGE IA 180,000,0003 HUNTINGTON TERMINAL HUNTINGTON IN 150,000,0003 ALASKA NITROGEN PRODUCS LLC KENAI AK 150,000,0005 ET-8 WALTON TERMINAL WALTON IN 140,000,0005 ET-4 TRILLA TERMINAL MATTOON IL 140,000,0005 WT-5 MARSHALLTOWN TERMINAL MARSHALLTOWN IA 140,000,0005 ET-6 CRAWFORDSVILLE TERMINAL CRAWFORDSVILLE IN 140,000,0005 FARMLAND INDUSTRIES, INC. - HASTINGS TERMINAL HASTINGS NE 140,000,0005 WT-12 AURORA TERMINAL AURORA NE 140,000,0005 WT-11 DAVID CITY TERMINAL DAVID CITY NE 140,000,000
12 FARMLAND INDUSTRIES, INC., BEATRICE NITROGEN PLANT BEATRICE NE 132,000,00013 STERLINGTON FACILITY STERLINGTON LA 130,000,00013 CF INDUSTRIES, INC. DONALDSONVILLE NITROGEN CMPLX DONALDSONVILLE LA 130,000,00015 PCS NITROGEN OHIO L. P. LIMA OH 125,938,20016 CF INDUSTRIES, INC. - ALBANYTERMINAL ALBANY IL 120,000,00016 CF INDUSTRIES, INC. - GARNER TERMINAL GARNER IA 120,000,00016 CF INDUSTRIES, INC. - GLENWOOD TERMINAL GLENWOOD MN 120,000,00016 CF INDUSTRIES, INC. - SPENCER TERMINAL SPENCER IA 120,000,00016 CF INDUSTRIES, INC. - PINE BEND TERMINAL ROSEMOUNT MN 120,000,00016 CF INDUSTRIES, INC. - GRAND FORKS TERMINAL GRAND FORKS ND 120,000,00016 FARMLAND INDUSTRIES, INC-DODGE CITY NITROGEN PLANT DODGE CITY KS 120,000,00016 FARMLAND INDUSTRIES, INC., ENID NITROGEN PLANT ENID OK 120,000,00024 RIVERGATE TERMINAL PORTLAND OR 101,000,00025 KENNEWICK PLANT - HEDGES AREA KENNEWICK WA 100,200,00026 TERRA NITROGEN LIMITED PARTNERSHIP, BLAIR TERMINAL BLAIR NE 100,000,00026 IMC-AGRICO COMPANY, PORT SUTTON TERMINAL TAMPA FL 100,000,00026 PCS NITROGEN FERTILIZER, L.P. CLINTON PLANT CAMANCHE IA 100,000,00029 FARMLAND HYDRO, L.P. (TAMPA TERMINAL) TAMPA FL 98,000,00029 PCS PHOSPHATE GARDEN CITY GA 98,000,00031 TERRA NITROGEN LIMITED PARTNERSHIP, BLYTHEVILLE P BLYTHEVILLE AR 90,000,00031 HENDERSON TERMINAL HENDERSON KY 90,000,00033 NECHES INDUSTRIAL PARK,INC. BEAUMONT TX 89,000,00034 CF INDUSTRIES, INC. - KINGSTON MINESTERMINAL KINGSTON MINES IL 80,000,00034 TERRA NITROGEN COMPANY, WOODWARD PLANT WOODWARD OK 80,000,00034 CALAMCO STOCKTON CA 80,000,00037 WEST SACRAMENTO PLANT WEST SACRAMENTO CA 79,000,00038 ROYSTER-CLARK NITROGEN EAST DUBUQUE FACILITY EAST DUBUQUE IL 78,000,00039 MISSISSIPPI CHEMICAL CORPORATION YAZOO CITY MS 76,000,00040 CF INDUSTRIES, INC., TAMPA TERMINAL TAMPA FL 75,000,00041 WOOD RIVER TERMINAL EAST ALTON IL 73,000,00041 PEKIN TERMINAL CREVE COUER IL 73,000,00043 PCS NITROGEN FERTIIZER, L.P. AUGUSTA, GA PLANT AUGUSTA GA 72,000,00043 T/A TERMINALS, INC./MEREDOSIA TERMINAL MEREDOSIA IL 72,000,00045 BORDEN CHEMICALS AND PLASTICS, OLP - GEISMAR GEISMAR LA 70,000,00045 WT-4 WASHINGTON TERMINAL KEOTA IA 70,000,00047 FARMLAND INDUSTRIES BARNESVILLE AMMONIA TERMINAL BARNESVILLE MN 68,868,68248 COASTAL CHEM, INC. - CHEYENNE WYOMING CHEYENNE WY 67,000,00049 STERLING CHEMICALS INCORPORATED TEXAS CITY TX 66,120,00050 GREAT PLAINS SYNFUELS PLANT BEULAH ND 65,455,00051 FARMLAND INDUSTRIES INC.- MURDOCK AMMONIA TERMINAL MURDOCK MN 63,580,92852 TERRA NITROGEN LIMITED PARTNERSHIP,VERDIGRIS PLANT CLAREMORE OK 62,000,000
Table 5. The 100 facilities storing the largest amounts of ammonia in any single process
Appendix A, Table 5
Facility Name City State Maximum amount in single
process (lbs.)53 FARMLAND INDUSTRIES, INC. CONWAY AMMONIA TERMINAL MCPHERSON KS 61,000,00053 SERGEANT BLUFF TERMINAL SERGEANT BLUFF IA 61,000,00055 FARMLAND INDUSTRIES, INC. - GARNER IA TERMINAL GARNER IA 60,357,00056 FARMLAND INDUSTRIES, INC. FARNSWORTH TX 60,207,00057 LAROCHE INDUSTRIES, INC. CRYSTAL CITY OPERATIONS FESTUS MO 60,012,57058 TERRA NITROGEN - PORT NEAL PLANT SERGEANT BLUFF IA 60,000,00058 FARMLAND GREENWOOD AMMONIA FACILITY GREENWOOD NE 60,000,00058 CF INDUSTRIES, INC. - SENECA TERMINAL SENECA IL 60,000,00058 CF INDUSTRIES, INC. - RITZVILLE TERMINAL RITZVILLE WA 60,000,00058 CF INDUSTRIES, INC. - PORT HURON TERMINAL KIMBALL MI 60,000,00058 CF INDUSTRIES, INC. - HUNTINGTON TERMINAL HUNTINGTON IN 60,000,00058 CF INDUSTRIES, INC. - FRANKFORT TERMINAL FRANKFORT IN 60,000,00058 CF INDUSTRIES, INC. - COWDENTERMINAL COWDEN IL 60,000,00058 CF INDUSTRIES, INC. - TERRE HAUTE TERMINAL ROSEDALE IN 60,000,00058 CF INDUSTRIES, INC. -VELVA TERMINAL VELVA ND 60,000,00058 CF INDUSTRIES, INC. - PALMYRA TERMINAL PALMYRA MO 60,000,00058 TRIAD NITROGEN, INC. DONALDSONVILLE LA 60,000,00058 FARMLAND INDUSTRIES, INC. POLLOCK NITROGEN PLANT POLLOCK LA 60,000,00058 BASF CORPORATION - FREEPORT SITE FREEPORT TX 60,000,00058 BASF CORPORATION - FREEPORT TERMINAL FREEPORT TX 60,000,00073 ROYSTER-CLARK NITROGEN NIOTA TERMINAL NIOTA IL 59,200,00074 FARMLAND VERNON CENTER AMMONIA TERMINAL VERNON CENTER MN 56,000,00075 FAUSTINA PLANT ST. JAMES LA 50,000,00075 CYTEC-FORTIER PLANT WAGGAMAN LA 50,000,00077 MISSISSIPPI PHOSPHATES CORPORATION PASCAGOULA MS 48,200,00078 KENNEWICK PLANT - FINLEY AREA KENNEWICK WA 44,000,00078 PCS NITROGEN FERTILIZER, L. P.--GEISMAR, LA GEISMAR LA 44,000,00080 EL DORADO CHEMICAL COMPANY EL DORADO AR 41,000,00081 AGRIUM U.S INC. HOMESTEAD NITROGEN OPERATIONS BEATRICE NE 40,400,00082 FARMHUT CO., L.L.C. HENRY IL 40,127,84083 ALLIEDSIGNAL - HOPEWELL PLANT HOPEWELL VA 40,000,00083 CF INDUSTRIES, INC. - PERU TERMINAL PERU IL 40,000,00083 CF INDUSTRIES, INC. - JOLIET TERMINAL JOLIET IL 40,000,00083 CF INDUSTRIES, INC. - FREMONTTERMINAL FREMONT NE 40,000,00087 ROYSTER-CLARK NITROGEN, NORTH BEND PLANT NORTH BEND OH 36,000,00088 DUPONT BEAUMONT PLANT BEAUMONT TX 34,000,00089 DU PONT VICTORIA PLANT VICTORIA TX 30,000,00089 FARMLAND INDUSTRIES-LAWRENCE NITROGEN PLANT LAWRENCE KS 30,000,00089 CF INDUSTRIES, INC. - MOUNT VERNON TERMINAL MOUNT VERNON IN 30,000,00089 PCS NITROGEN FERTILIZER, L.P. LAPLATTE PLANT LAPLATTE NE 30,000,00089 CF INDUSTRIES, INC. - AURORA TERMINAL AURORA NE 30,000,00089 HOUSTON AMMONIA TERMINAL PASADENA TX 30,000,00095 LAROCHE INDUSTRIES CHEROKEE AL 25,235,00496 BP CHEMICALS, INC. PORT LAVACA TX 23,000,00097 DUPONT BELLE PLANT BELLE WV 20,000,00098 DYNO NOBEL INC. (DONORA PLANT) DONORA PA 18,022,52899 WELLAND CHEMICAL, INC. NEWELL PA 17,614,240
100 CONTINENTAL NITROGEN & RESOURCES CORPORATION ROSEMOUNT MN 16,800,000
Appendix A, Table 5
Facility Name City State Maximum amount in a
single process
(lbs.)1 GEORGIA GULF CORPORATION - PLAQUEMINE FACILITY PLAQUEMINE LA 36,000,0002 OLIN CORPORATION MCINTOSH, ALABAMA PLANT MCINTOSH AL 31,000,0003 OLIN CORPORATION, CHARLESTON TN PLANT CHARLESTON TN 26,000,0004 OCCIDENTAL CHEMICAL TAFT PLANT HAHNVILLE LA 25,000,0005 MAGIC WATERS CHERRY VALLEY IL 20,002,0006 DUPONT JOHNSONVILLE PLANT NEW JOHNSONVILLE TN 18,000,0006 BASF CORPORATION GEISMAR SITE GEISMAR LA 18,000,0008 OCCIDENTAL CHEMICAL CORPORATION - NIAGARA PLANT NIAGARA FALLS NY 17,000,0009 OLIN CORPORATION NIAGARA FALLS, NY - FOOTE YARD NIAGARA FALLS NY 13,200,000
10 DPC ENTERPRISES MOBILE AL 13,000,00011 OXY VINYLS, LP - BATTLEGROUND CHLOR-ALKALI PLANT LAPORTE TX 12,000,00012 DUPONT - EDGE MOOR, DE FACILITY EDGE MOOR DE 9,825,60013 DUPONT DOW ELASTOMERS L.L.C., PONTCHARTRAIN SITE LAPLACE LA 9,000,00014 PIONEER CHLOR ALKALI COMPANY, INC. ST. GABRIEL LA 8,930,00015 DUPONT DELISLE PLANT PASS CHRISTIAN MS 8,800,00016 PPG INDUSTRIES INC., LAKE CHARLES PLANT LAKE CHARLES LA 6,800,00017 OCCIDENTAL CHEMICAL CORPORATION INGLESIDE PLANT GREGORY TX 6,500,00018 MONSANTO COMPANY LULING PLANT LULING LA 5,800,00019 THE DOW CHEMICAL COMPANY-LOUISIANA OPERATIONS PLAQUEMINE LA 5,500,00020 OCCIDENTAL CHEMICAL CORP. MUSCLE SHOALS PLANT MUSCLE SHOALS AL 4,770,00021 TIN PRODUCTS, INC. LEXINGTON SC 4,200,00022 ELF ATOCHEM NORTH AMERICA, INC. - RIVERVIEW, MI RIVERVIEW MI 4,000,00023 THE DOW CHEMICAL COMPANY, TEXAS OPERATIONS FREEPORT TX 3,840,00024 GEORGIA-PACIFIC CORPORATION, PALATKA OPERATIONS PALATKA FL 3,780,00025 ALBEMARLE CORPORATION WEST PLANT MAGNOLIA AR 3,721,61226 ALBEMARLE CORPORATION SOUTH PLANT MAGNOLIA AR 3,600,00027 LAROCHE INDUSTRIES INC. - GRAMERCY FACILITY GRAMERCY LA 3,523,00028 DXI INDUSTRIES, INC. HOUSTON TX 3,500,00029 OLIN CORPORATION AUGUSTA, GEORGIA PLANT AUGUSTA GA 3,400,00030 GILMAN PAPER COMPANY, ST, MARYS KRAFT DIVISION ST. MARYS GA 3,240,00031 WESTLAKE MONOMERS/CA&O CORPORATION CALVERT CITY KY 3,200,00032 OLIN CORPORATION NIAGARA FALLS, NEW YORK PLANT NIAGARA FALLS NY 3,100,00033 OCCIDENTAL CHEMICAL CORPORATION CONVENT PLANT CONVENT LA 3,040,00034 SOLUTIA W.G. KRUMMRICH PLANT SAUGET IL 2,880,00035 HAMILTON FACILITY HAMILTON MS 2,800,00036 DUPONT CHAMBERS WORKS DEEPWATER NJ 2,710,00037 RAYONIER SPECIALTY PULP PRODUCTS, JESUP MILL JESUP GA 2,520,00037 GB BIOSCIENCES CORPORATION / GREENS BAYOU PLANT HOUSTON TX 2,520,00039 DUPONT DOW ELASTOMERS L.L.C. - BEAUMONT PLANT BEAUMONT TX 2,500,00039 DPC INDUSTRIES, INC. CLEBURNE TX 2,500,00041 VULCAN CHEMICALS, WICHITA PLANT WICHITA KS 2,213,20042 OCCIDENTAL CHEMICAL CORP., DELAWARE CITY PLANT NEW CASTLE DE 2,200,00043 DONOHUE INDUSTRIES SHELDON MILL SHELDON TX 2,160,00044 OCCIDENTAL CHEMICAL CORPORATION, MOBILE PLANT MOBILE AL 1,940,00045 PIONEER CHLOR ALKALI COMPANY, INC. TACOMA WA 1,900,00046 OREMET WAH CHANG-NORTH PLANT ALBANY OR 1,800,00046 HAWKINS POINT PLANT BALTIMORE MD 1,800,00046 OXY VINYLS, LP - DEER PARK CHLOR-ALKALI PLANT DEER PARK TX 1,800,00049 DPC INDUSTRIES, INC. OMAHA NE 1,750,00050 P. B. & S. CHEMICAL COMPANY, INC (08) CHATTANOOGA TN 1,664,900
Table 6. The 100 facilities storing the highest amounts of chlorine in any single process
Appendix A, Table 6
Facility Name City State Maximum amount in a
single process
(lbs.)51 P. B. & S. CHEMICAL COMPANY, INC (52) ORLANDO FL 1,659,17052 BUCKEYE FLORIDA, LIMITED PARTNERSHIP PERRY FL 1,626,00053 PIONEER CHLOR ALKALI COMPANY INC. - HENDERSON HENDERSON NV 1,536,00054 GEORGIA-PACIFIC WEST, INC. BELLINGHAM WA 1,500,00054 DPC INDUSTRIES, INC. SWEETWATER TX 1,500,00056 RHODIA INC. MORRISVILLE PLANT MORRISVILLE PA 1,440,00056 SOLUTIA DELAWARE RIVER PLANT BRIDGEPORT NJ 1,440,00058 CONDEA VISTA COMPANY BALTIMORE MD 1,400,00059 VULCAN CHEMICALS GEISMAR LA 1,300,00059 JCI JONES CHEMICALS, INC. - WARWICK PLANT WARWICK NY 1,300,00059 KEMIRA PIGMENTS, INC. SAVANNAH GA 1,300,00062 VERTEX CHEMICAL CORPORATION MEMPHIS, TN MEMPHIS TN 1,283,49463 DPC INDUSTRIES, INC. LONGVIEW TX 1,250,00064 P. B. & S. CHEMICAL COMPANY, INC. (64) ST. ALBANS WV 1,247,44465 CHEMICAL UNLOADING FACILITY PERRIS CA 1,230,00066 DPC INDUSTRIES, INC. HUDSON CO 1,200,00066 DPC INDUSTRIES, INC ROSEMOUNT MN 1,200,00068 LOS ANGELES AQUEDUCT FILTRATION PLANT SYLMAR CA 1,136,00069 ULRICH CHEMICAL, INC. TERRE HAUTE IN 1,131,05070 INFINEUM USA L.P. BAYWAY CHEMICAL PLANT LINDEN NJ 1,100,00071 LYONDELL CHEMICAL WORLDWIDE, INC. WESTLAKE LA 1,080,00071 POTLATCH CORP. IDAHO PULP AND PAPERBOARD DIVISION LEWISTON ID 1,080,00071 SACRAMENTO REGIONAL WASTEWATER TREATMENT PLANT ELK GROVE CA 1,080,00071 RAYONIER FERNANDINA BEACH DISSOLVING SULFITE MILL FERNANDINA BEACH FL 1,080,00071 TOMEN AGRO, INC. PERRY OH 1,080,00071 JOINT WATER POLLUTION CONTROL PLANT CARSON CA 1,080,00071 NTMWD REGIONAL WATER TREATMENT PLANT WYLIE TX 1,080,00071 KEMIRON PACIFIC, INC. - MOJAVE FACILITY MOJAVE CA 1,080,00079 VERTEX CHEMICAL CORPORATION CAMANCHE, IA CAMANCHE IA 1,079,95080 DPC ENTERPRISES FESTUS MO 1,000,00080 DPC ENTERPRISES CHATTANOOGA TN 1,000,00080 DPC ENTERPRISES RESERVE LA 1,000,00080 DPC INDUSTRIES, INC. CORPUS CHRISTI TX 1,000,00080 WILLOW SPRINGS TERMINAL WILLOW SPRINGS IL 1,000,00085 KUEHNE CHEMICAL CO., INC. SOUTH KEARNY NJ 999,99986 FORMOSA PLASTICS CORPORATION, LA BATON ROUGE LA 960,00087 JCI JONES CHEMICALS, INC.-BARBERTON, OHIO BARBERTON OH 900,00087 DETROIT WASTEWATER TREATMENT PLANT DETROIT MI 900,00087 ALABAMA RIVER PULP COMPANY, INC. PERDUE HILL AL 900,00087 ALLIEDSIGNAL INC. BATON ROUGE PLANT BATON ROUGE LA 900,00087 TRINITY MANUFACTURING, INC. HAMLET NC 900,00092 HERCULES - HOPEWELL PLANT HOPEWELL VA 850,00093 P. B. & S. CHEMICAL COMPANY, INC (24) HENDERSON KY 794,55094 HARCROS CHEMICALS INC. -- TAMPA TAMPA FL 770,00095 GEORGIA-PACIFIC CROSSETT PAPER OPERATIONS CROSSETT AR 760,00096 JAMES AUSTIN COMPANY MARS PA 720,00096 CLEARON CORP. SOUTH CHARLESTON WV 720,00096 CHAMPION INTL. CORP. COURTLAND MILL COURTLAND AL 720,00096 WAUSAU-MOSINEE PAPER CORPORATION (BROKAW, WI) BROKAW WI 720,00096 MIDDLESEX COUNTY UTILITIES AUTHORITY SAYREVILLE NJ 720,000
Appendix A, Table 6
Fac
ility
Nam
eC
ity
Stat
eM
axim
um
amou
nt in
a
sing
le p
roce
ss
(lbs
.)1
BA
SF C
OR
POR
AT
ION
GE
ISM
AR
SIT
EG
EIS
MA
RL
A14
,000
,000
2N
OR
CO
CH
EM
ICA
L P
LA
NT
- W
EST
SIT
EN
OR
CO
LA
2,60
0,00
03
OL
IN C
OR
POR
AT
ION
AU
GU
STA
, GE
OR
GIA
PL
AN
TA
UG
UST
AG
A2,
300,
000
3IC
I A
ME
RIC
AS
INC
. - S
T. G
AB
RIE
L S
ITE
ST. G
AB
RIE
LL
A2,
300,
000
5FO
RM
OSA
PL
AST
ICS
CO
RPO
RA
TIO
N,T
EX
AS
POIN
T C
OM
FOR
TT
X1,
632,
200
6O
LIN
CO
RPO
RA
TIO
N, C
HA
RL
EST
ON
TN
PL
AN
TC
HA
RL
EST
ON
TN
1,20
0,00
07
ASA
RC
O I
NC
./ A
MA
RIL
LO
CO
PPE
R R
EFI
NE
RY
AM
AR
ILL
OT
X34
0,00
08
ASH
LA
ND
SPE
CIA
LT
Y C
HE
MIC
AL
CO
MPA
NY
-PU
EB
LO
, CO
PUE
BL
OC
O30
0,00
08
GE
NE
RA
L C
HE
MIC
AL
CO
RPO
RA
TIO
NPI
TT
SBU
RG
CA
300,
000
10U
LT
RA
PU
RE
ON
E (
UP-
1) P
LA
NT
BR
YA
NT
X25
0,00
011
AR
CH
CH
EM
ICA
LS
- M
ESA
FA
CIL
ITY
QU
EE
N C
RE
EK
AZ
230,
000
12H
OL
TR
AC
HE
M M
AN
UFA
CT
UR
ING
CO
MPA
NY
OR
RIN
GT
ON
ME
216,
000
13D
OW
CO
RN
ING
CO
RPO
RA
TIO
N C
AR
RO
LL
TO
N S
ITE
CA
RR
OL
LT
ON
KY
213,
130
14SI
VE
NT
O, I
NC
.T
HE
OD
OR
EA
L19
0,00
015
CY
TE
C I
ND
UST
RIE
S, W
ILL
OW
ISL
AN
D P
LA
NT
WIL
LO
W I
SLA
ND
WV
180,
000
16D
OV
ER
CH
EM
ICA
L C
OR
POR
AT
ION
DO
VE
RO
H16
0,00
016
WIT
CO
CO
RPO
RA
TIO
N, S
IST
ER
SVIL
LE
PL
AN
TFR
IEN
DL
YW
V16
0,00
018
DE
TR
EX
, CH
EM
ICA
LS
DIV
ISIO
NA
SHT
AB
UL
AO
H15
7,50
019
MA
LL
INC
KR
OD
T B
AK
ER
, IN
C. P
HIL
LIP
SBU
RG
, NJ
PLA
NT
PHIL
LIP
SBU
RG
NJ
157,
472
20A
SHL
AN
D S
PEC
IAL
TY
CH
EM
ICA
L C
O. -
EA
STO
N, P
AG
LE
ND
ON
PA13
0,00
021
TIP
PEC
AN
OE
LA
BO
RA
TO
RIE
SL
AFA
YE
TT
EIN
120,
000
21E
LF
AT
OC
HE
M N
OR
TH
AM
ER
ICA
, IN
C. -
WIC
HIT
A P
LA
NT
WIC
HIT
AK
S12
0,00
023
HIC
KSO
N D
AN
CH
EM
CO
RPO
RA
TIO
ND
AN
VIL
LE
VA
107,
404
Tab
le 7
. Fac
iliti
es s
tori
ng m
ore
than
100
,000
pou
nds
of H
ydro
chlo
ric
acid
(co
nc. >
=37%
)
App
endi
x A
, Tab
le 7
Facility Name City State Maximum amount in a
single process
(lbs.)1 DUPONT LOUISVILLE WORKS LOUISVILLE KY 5,300,0002 ALIEDSIGNAL, GEISMAR PLANT GEISMAR LA 5,000,0003 DUPONT COMPANY - CORPUS CHRISTI PLANT INGLESIDE TX 4,718,5004 LA PORTE PLANT LA PORTE TX 4,000,0005 VON ROLL AMERICA, INC EAST LIVERPOOL OH 3,900,0006 ELF ATOCHEM NORTH AMERICA, INC. - WICHITA PLANT WICHITA KS 3,400,0007 ICI AMERICAS INC. - ST. GABRIEL SITE ST. GABRIEL LA 2,600,0008 CHALMETTE REFINING, L.L.C. CHALMETTE LA 2,497,2239 AUSIMONT USA, INC.- THOROFARE PLANT THOROFARE NJ 2,000,000
10 MOBIL JOLIET REFINERY CHANNAHON IL 1,752,91011 OCCIDENTAL CHEMICAL CORPORATION - NIAGARA PLANT NIAGARA FALLS NY 1,200,00011 ELF ATOCHEM NORTH AMERICA, INC. - CALVERT CITY, KY CALVERT CITY KY 1,200,00013 CHEMTECH PRODUCTS, INC. ALORTON IL 1,196,43514 CORDOVA-3M COMPANY CORDOVA IL 1,100,00015 MURPHY OIL USA, INC. MERAUX REFINERY MERAUX LA 957,00016 DUPONT CHAMBERS WORKS DEEPWATER NJ 900,00017 ALLIEDSIGNAL, INC., EL SEGUNDO WORKS EL SEGUNDO CA 800,00017 BP AMOCO TEXAS CITY BUSINESS UNIT TEXAS CITY TX 800,00019 MARATHON ASHLAND PETROLEUM, LLC LAREFININGDIVISION GARYVILLE LA 700,00020 BP AMOCO ALLIANCE REFINERY BELLE CHASSE LA 660,00021 GENERAL CHEMICAL CORPORATION PITTSBURG CA 610,00022 ALLIEDSIGNAL/METROPOLIS WORKS METROPOLIS IL 600,00023 PVD MIDWEST REFINING, LLC LEMONT IL 544,60024 MATLACK BULK INTERMODAL SERVICES (DBA) MBIS FAIRPORT HARBOR OH 540,00024 GENERAL CHEMICAL CORPORATION CLAYMONT DE 540,00026 ALLIEDSIGNAL INC. BATON ROUGE PLANT BATON ROUGE LA 480,00027 MARATHON ASHLAND PETROLEUM, LLC ILREFININGDIVISION ROBINSON IL 440,00028 PHILLIPS PETROLEUM SWEENY COMPLEX SWEENY TX 420,00029 KOCH PETROLEUM GROUP L.P. - CC WEST REFINERY CORPUS CHRISTI TX 410,00030 SUNOCO, INC. (R&M) - PHILADELPHIA REFINERY PHILADELPHIA PA 400,00031 FARMLAND INDUSTRIES INC. COFFEYVILLE REFINERY COFFEYVILLE KS 382,00032 CLARK PORT ARTHUR REFINERY PORT ARTHUR TX 380,00033 CONOCO REFINERY, PONCA CITY, OKLA PONCA CITY OK 360,00034 MARATHON ASHLAND PETROLEUM TEXAS REFINING TEXAS CITY TX 350,00035 LAROCHE INDUSTRIES INC. - GRAMERCY FACILITY GRAMERCY LA 340,18236 DELTA DISTRIBUTORS, DALLAS DALLAS TX 310,20037 THE DOW CHEMICAL COMPANY, PITTSBURG, CA SITE PITTSBURG CA 300,00038 CHEVRON SALT LAKE REFINERY SALT LAKE CITY UT 280,00038 VALERO REFINING COMPANY - TEXAS TEXAS CITY TX 280,00040 GREAT LAKES CHEMICAL, SOUTH PLANT EL DORADO AR 278,13941 ULTRAMAR INC., WILMINGTON REFINERY WILMINGTON CA 270,00042 EL DORADO REFINING COMPANY EL DORADO KS 260,00043 ARMCO INC BUTLER OPERATIONS - MAIN PLANT BUTLER PA 250,00043 MOBIL OIL TORRANCE REFINERY TORRANCE CA 250,00045 CLARK BLUE ISLAND REFINERY BLUE ISLAND IL 245,00046 CATLETTSBURG REFINING, LLC CATLETTSBURG KY 240,00046 VALERO REFINING CO. - NEW JERSEY PAULSBORO NJ 240,00048 OHIO REFINING DIVISION CANTON OH 238,00049 ARCH CHEMICALS - MESA FACILITY QUEEN CREEK AZ 232,00050 CROWN CENTRAL PETROLEUM, HOUSTON REFINERY PASADENA TX 230,00051 TRAINER REFINERY TRAINER PA 220,000
Table 8. Facilities storing more than 100,000 pounds of Hydrogen fluoride (hydroflouric acid, conc. >=50%)
Appendix A, Table 8
Facility Name City State Maximum amount in a
single process
(lbs.)52 ULTRA PURE ONE (UP-1) PLANT BRYAN TX 210,00052 VALERO REFINING COMPANY - TEXAS, CORPUS CHRISTI CORPUS CHRISTI TX 210,00054 CLARK REFINING & MARKETING, INC. HARTFORD IL 200,00054 AIR PRODUCTS, HOMETOWN TAMAQUA PA 200,00056 MARATHON ASHLAND PETROLEUM LLC MNREFINING DIVISION ST. PAUL PARK MN 190,00056 ARMCO INC BUTLER OPERATIONS - STAINLESS PLANT BUTLER PA 190,00058 TPI PETROLEUM INC. ARDMORE OK 185,01659 CABOT PERFORMANCE MATERIALS BOYERTOWN PA 180,00060 PHILLIPS 66 WOODS CROSS REFINERY WOODS CROSS UT 170,00060 WILLOUGHBY QUARTZ PLANT WILLOUGHBY OH 170,00062 WILLIAMS REFINING LLC MEMPHIS TN 163,00063 TOSCO REFINING COMPANY FERNDALE WA 154,73464 CITGO CORPUS CHRISTI REFINERY EAST PLANT CORPUS CHRISTI TX 150,00064 WASHINGTON STEEL - MASSILLON PLANT MASSILLON OH 150,00066 FRONTIER REFINING INC. CHEYENNE WY 146,00067 KENTUCKY GLASS PLANT LEXINGTON KY 140,00068 CONOCO BILLINGS REFINERY BILLINGS MT 130,00068 CONDEA VISTA COMPANY WESTLAKE LA 130,00068 COASTAL REFINING & MARKETING INC. CORPUS CHRISTI TX 130,00068 CENEX HARVEST STATES LAUREL REFINERY LAUREL MT 130,00068 NATIONAL COOPERATIVE REFINERY ASSOCIATION MCPHERSON KS 130,00073 HUKILL CHEMICAL CORPORATION BEDFORD OH 126,00074 P. B. & S. CHEMICAL COMPANY, INC (24) HENDERSON KY 121,68075 WASHINGTON STEEL - WASHINGTON PLANT CANTON TOWNSHIP PA 110,00076 ALLEGHENY LUDLUM CORPORATION BRACKENRIDGE FACILITY BRACKENRIDGE PA 107,50077 BPAMOCO MANDAN REFINERY MANDAN ND 107,00078 ALLEGHENY LUDLUM CORPORATION WEST LEECHBURG WEST LEECHBURG PA 103,30079 TEXTILE CHEMICAL COMPANY, INC READING PA 101,50080 SOCO-LYNCH VERNON FACILITY LOS ANGELES CA 100,00080 DIAMOND SHAMROCK REFINING - THREE RIVERS THREE RIVERS TX 100,00080 BORDEN & REMINGTON FALL RIVER MA 100,00080 SOLUTIA - CHOCOLATE BAYOU ALVIN TX 100,000
Appendix A, Table 8
Facility Name City State Maximum amount in
a single process (lbs.)
1 DUPONT WASHINGTON WORKS PARKERSBURG WV 28,000,0002 BORDEN CHEMICALS AND PLASTICS, OLP - GEISMAR GEISMAR LA 4,600,0003 ISP TECHNOLOGIES INC, TEXAS CITY TEXAS CITY TX 3,596,0004 BORDEN CHEMICAL, INC., FAYETTEVILLE PLANT FAYETTEVILLE NC 3,000,0005 CELANESE ACETATE - CELRIVER SITE ROCK HILL SC 2,800,0006 NEW MEXICO ADHESIVES, L.L.C. LAS VEGAS NM 2,675,0007 NESTE RESINS CORPORATION - MONCURE, NC MONCURE NC 2,467,5008 PRAXAIR - GEISMAR, LA GEISMAR LA 2,300,0008 BORDEN CHEMICAL, INC. LOUISVILLE KY 2,300,000
10 TICONA POLYMERS, INC. BISHOP TX 2,100,00011 CYTEC INDUSTRIES INC., WALLINGFORD CT PLANT WALLINGFORD CT 2,080,50012 ISP TECHNOLOGIES INC, SEADRIFT LONG MOTT TX 2,024,10013 NOVARTIS CROP PROTECTION, INC. - ST. GABRIEL PLANT ST. GABRIEL LA 2,000,00014 SOLUTIA - CHOCOLATE BAYOU ALVIN TX 1,862,88015 TENNESSEE EASTMAN DIVISION KINGSPORT TN 1,700,00015 WRIGHT CHEMICAL CORPORATION RIEGELWOOD NC 1,700,00015 MONSANTO COMPANY LULING PLANT LULING LA 1,700,00018 NESTE RESINS CORPORATION - SPRINGFIELD, OR SPRINGFIELD OR 1,660,74619 HERCULES INCORPORATED - MCW PLANT LOUISIANA MO 1,500,00020 REILLY INDUSTRIES INDIANAPOLIS IN 1,384,50021 BORDEN CHEMCAL, INC. - FREMONT PLANT FREMONT CA 1,300,00021 BORDEN CHEMICAL, INC. HOPE PLANT HOPE AR 1,300,00021 BORDEN CHEMICAL, INC. BAYTOWN PLANT BAYTOWN TX 1,300,00024 LA PORTE PLANT LA PORTE TX 1,260,00025 GEORGIA PACIFIC RESINS INC. HOUSTON, TEXAS PLANT HOUSTON TX 1,222,00026 GEORGIA-PACIFIC RESINS, INC. ALBANY OR 1,200,00026 GEORGIA-PACIFIC RESINS, INC. VIENNA GA 1,200,00026 GEORGIA-PACIFIC RESINS, INC. TAYLORSVILLE MS 1,200,00026 GEORGIA-PACIFIC RESINS, INC. RUSSELLVILLE SC 1,200,00030 BORDEN CHEMICAL, INC., MISSOULA PLANT MISSOULA MT 1,100,00031 NESTE RESINS CORPORATION - TOLEDO, OH TOLEDO OH 1,048,31032 BAYER ADDYSTON OHIO PLANT ADDYSTON OH 1,000,00032 DEGUSSA-HULS CORPORATION THEODORE AL 1,000,00034 GEORGIA-PACIFIC RESINS, INC. DENTON NC 986,80035 BORDEN CHEMICAL, INC., MALVERN PLANT MALVERN AR 950,00036 INTERMOUNTAIN ADHESIVES, L.L.C. RAPID CITY SD 900,00037 NESTE RESINS CORPORATION - ANDALUSIA, AL ANDALUSIA AL 857,56038 THE DOW CHEMICAL COMPANY, TEXAS OPERATIONS FREEPORT TX 853,22039 BORDEN CHEMICAL, INC. DIBOLL PLANT DIBOLL TX 845,00040 BORDEN CHEMICAL, INC. - MOREAU SOUTH GLENS FALLS NY 840,00041 BORDEN CHEMICAL, INC., DEMOPOLIS PLANT DEMOPOLIS AL 800,00041 BORDEN CHEMICAL, INC., SPRINGFIELD PLANT SPRINGFIELD OR 800,00041 BASF CORPORATION - FREEPORT SITE FREEPORT TX 800,00044 SOLUTIA INC., INDIAN ORCHARD PLANT SPRINGFIELD MA 780,00045 BORDEN CHEMICAL, INC., SHEBOYGAN PLANT SHEBOYGAN WI 750,00046 BAYER CORPORATION - NEW MARTINSVILLE PLANT NEW MARTINSVILLE WV 650,00047 BORDEN CHEMICAL, INC. - VICKSBURG VICKSBURG MS 615,00048 D. B. WESTERN MINNESOTA, L.L.C. VIRGINIA MN 595,000
Table 9. The 100 facilities storing the highest amounts of formaldehyde in a single process
Appendix A, Table 9
Facility Name City State Maximum amount in
a single process (lbs.)
49 CYTEC KALAMAZOO, MICHIGAN PLANT KALAMAZOO MI 590,00050 BAYER CORPORATION - BAYTOWN, TEXAS PLANT BAYTOWN TX 540,00051 GEORGIA-PACIFIC RESINS, INC. CROSSETT, AR PLANT CROSSETT AR 537,56052 BORDEN CHEMICAL, INC. - LA GRANDE PLANT LA GRANDE OR 510,00053 MORTON INTERNATIONAL MOSS POINT ACS MOSS POINT MS 500,00054 GATX TERMINALS CORPORATION - CARTERET TERMINAL CARTERET NJ 494,21055 BORDEN CHEMICAL, INC. - KENT PLANT KENT WA 490,00056 EASTMAN CHEMICAL COMPANY, TEXAS EASTMAN DIVISION LONGVIEW TX 480,00057 HAMPSHIRE CHEMICAL CORPORATION DEER PARK TX 402,00458 SCHENECTADY INTERNATIONAL INC. ROTTERDAM JUNCTION NY 390,00059 HAMPTON FACILITY HAMPTON SC 384,00059 GEORGIA-PACIFIC RESINS, INC. ELK GROVE CA 384,00061 OCCIDENTAL CHEMICAL CORP. - KENTON FACILITY KENTON OH 378,00062 AKZO NOBEL CHEMICALS INC. MORRIS IL 361,00063 PLASTICS ENG. CO. NORTH AVE. PLANT SHEBOYGAN WI 340,00063 SIMPSON TIMBER COMPANY, OREGON OVERLAYS DIVISION PORTLAND OR 340,00065 OCCIDENTAL CHEMICAL CORPORATION, DUREZ PLANT NIAGARA FALLS NY 339,00066 CAPITAL RESIN CORPORATION COLUMBUS OH 337,40067 GEO SPECIALTY CHEMICALS, INC. CEDARTOWN GA 305,00068 GEORGIA-PACIFIC RESINS, INC. LOUISVILLE MS 293,40069 GEORGIA-PACIFIC RESINS, INC. UKIAH CA 288,00070 OWENS CORNING KANSAS CITY PLANT KANSAS CITY KS 280,00071 BORDEN CHEMICAL, INC., PMC PLANT DALLAS TX 275,00072 BORDEN CHEMICAL, INC. - MOUNT JEWETT MT JEWETT PA 270,00073 AKZO NOBEL CHEMICALS INC. LIMA OH 268,00074 GEORGIA-PACIFIC RESINS, INC. PORT WENTWORTH GA 265,00075 HAMPTON, SOUTH CAROLINA PLANT HAMPTON SC 253,44076 ANGUS CHEMICAL CO.-STERLINGTON PLANT STERLINGTON LA 250,00076 HOUSTON PLANT PASADENA TX 250,00078 GEORGIA-PACIFIC RESINS, INC. WHITE CITY OR 247,82079 GEORGIA-PACIFIC RESINS, INC. GRAYLING MI 243,65079 COLUMBUS, OH PLANT COLUMBUS OH 243,65081 MUSCATINE PLANT - MONSANTO COMPANY MUSCATINE IA 240,00081 HUNTSMAN PETROCHEMICAL CORPORATION CONROE PLANT CONROE TX 240,00083 NESTE RESINS CORPORATION - WINNFIELD, LA WINNFIELD LA 225,00084 GEORGIA-PACIFIC RESINS, INC. EUGENE OR 195,50085 GEORGIA-PACIFIC RESINS, INC. VIRGINIA, MINNESOTA VIRGINIA MN 194,90086 GENCORP PERFORMANCE CHEMICALS, CHESTER PLANT CHESTER SC 193,13187 BORDEN CHEMICAL, INC. MORGANTON NC 192,76288 SPAULDING COMPOSITES COMPANY DEKALB IL 190,00089 INDSPEC CHEMICAL CORPORATION PETROLIA PA 184,70090 UNION CARBIDE SOUTH CHARLESTON PLANT SOUTH CHARLESTON WV 161,00091 WITCO CORPORATION - MAPLETON PLANT MAPLETON IL 160,00092 NEPERA, INC. HARRIMAN NY 150,00093 BUCKMAN LABORATORIES, INCORPORATED CADET MO 150,00094 ALLIEDSIGNAL FRICTION MATERIALS - GREEN ISLAND GREEN ISLAND NY 144,00095 NESTE RESINS CORPORATION - SPOKANE, WA SPOKANE WA 142,50096 OWENS CORNING NEWARK PLANT NEWARK OH 142,00097 DUPONT BELLE PLANT BELLE WV 140,00097 ALBRIGHT & WILSON AMERICAS - CHARLESTON, SC PLANT CHARLESTON SC 140,00097 PERSTORP COMPOUNDS, INC. FLORENCE MA 140,000
100 BAYPORT MARINE TERMINAL SEABROOK TX 135,520
Appendix A, Table 9
App
endi
x B
AL
AB
AM
A
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1O
LIN
CO
RPO
RA
TIO
N
MC
INT
OSH
, AL
AB
AM
A P
LA
NT
MC
INT
OSH
31,0
00,0
00C
hlor
ine
2L
AR
OC
HE
IN
DU
STR
IES
CH
ER
OK
EE
25,2
35,0
04A
mm
onia
(an
hydr
ous)
3
SOL
UT
IA I
NC
. - D
EC
AT
UR
PL
AN
TD
EC
AT
UR
17,7
76,0
00A
cryl
onitr
ile
4
DPC
EN
TE
RPR
ISE
SM
OB
ILE
13,0
00,0
00C
hlor
ine
5O
CC
IDE
NT
AL
CH
EM
ICA
L C
OR
P. M
USC
LE
SH
OA
LS
PLA
NT
MU
SCL
E S
HO
AL
S4,
770,
000
Chl
orin
e
6
CE
LA
NE
SE C
HE
MIC
AL
S, I
NC
. -
BU
CK
S, A
LA
BA
MA
BU
CK
S4,
000,
000
Cyc
lohe
xyla
min
e
7C
IBA
SPE
CIA
LT
Y C
HE
MIC
AL
S C
OR
P. -
MC
INT
OSH
PL
AN
TM
CIN
TO
SH3,
400,
000
Epi
chlo
rohy
drin
8O
CC
IDE
NT
AL
CH
EM
ICA
L C
OR
POR
AT
ION
, MO
BIL
E P
LA
NT
MO
BIL
E1,
940,
000
Chl
orin
e
9
DE
GU
SSA
-HU
LS
CO
RPO
RA
TIO
NT
HE
OD
OR
E1,
000,
000
Form
alde
hyde
(so
lutio
n)
10
AL
AB
AM
A R
IVE
R P
UL
P C
OM
PAN
Y, I
NC
.PE
RD
UE
HIL
L90
0,00
0C
hlor
ine
11T
AN
NE
R I
ND
UST
RIE
S, I
NC
.L
INC
OL
N86
5,00
0A
mm
onia
(an
hydr
ous)
12
NE
STE
RE
SIN
S C
OR
POR
AT
ION
- A
ND
AL
USI
A, A
LA
ND
AL
USI
A85
7,56
0Fo
rmal
dehy
de (
solu
tion)
13A
CO
RD
IS C
EL
LU
LO
SIC
FIB
ER
S IN
C.
AX
IS82
0,00
0C
arbo
n di
sulf
ide
14B
OR
DE
N C
HE
MIC
AL
, IN
C.,
DE
MO
POL
IS P
LA
NT
DE
MO
POL
IS80
0,00
0Fo
rmal
dehy
de (
solu
tion)
15C
HA
MPI
ON
IN
TL
. CO
RP.
CO
UR
TL
AN
D M
ILL
CO
UR
TL
AN
D72
0,00
0C
hlor
ine
16H
AR
CR
OS
CH
EM
ICA
LS
INC
. --
MU
SCL
E S
HO
AL
SM
USC
LE
SH
OA
LS
700,
000
Chl
orin
e
17
HE
XC
EL
CO
RPO
RA
TIO
ND
EC
AT
UR
684,
000
Acr
ylon
itrile
18G
E P
LA
STIC
S -
BU
RK
VIL
LE
BU
RK
VIL
LE
620,
000
Chl
orin
e
19
ZE
NE
CA
AG
PR
OD
UC
TS
- C
OL
D C
RE
EK
PL
AN
TB
UC
KS
620,
000
Phos
phor
us tr
ichl
orid
e
20
TE
SSE
ND
ER
LO
KE
RL
EY
, IN
C. -
EU
FAU
LA
FA
CIL
ITY
EU
FAU
LA
579,
360
Am
mon
ia (
anhy
drou
s)
21B
EN
JAM
IN M
OO
RE
& C
OM
PAN
Y, P
EL
L C
ITY
, AL
AB
AM
A P
LA
NT
PEL
L C
ITY
380,
000
Vin
yl a
ceta
te m
onom
er
22
DE
MO
POL
IS M
ILL
DE
MO
POL
IS36
0,00
0C
hlor
ine
23M
&M
CH
EM
ICA
L C
OM
PAN
YA
TT
AL
A25
6,00
0V
inyl
ace
tate
mon
omer
24R
OB
ER
TSD
AL
ER
OB
ER
TSD
AL
E25
2,35
2A
mm
onia
(an
hydr
ous)
25
FLO
RE
NC
EFL
OR
EN
CE
200,
000
Am
mon
ia (
conc
>=
20%
)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Ala
bam
a st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
AL
ASK
A
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
AL
ASK
A N
ITR
OG
EN
PR
OD
UC
S L
LC
KE
NA
I15
0,00
0,00
0A
mm
onia
(an
hydr
ous)
G
RE
AT
WE
STE
RN
CH
EM
ICA
L C
OM
PAN
Y -
AN
CH
OR
AG
EA
NC
HO
RA
GE
88,0
00C
hlor
ine
WE
STW
AR
D S
EA
FOO
DS,
IN
C.
DU
TC
H H
AR
BO
R80
,000
Am
mon
ia (
anhy
drou
s)
TR
IDE
NT
SE
AFO
OD
S C
OR
POR
AT
ION
AK
UT
AN
, AL
ASK
AA
KU
TA
N60
,000
Am
mon
ia (
anhy
drou
s)
PET
ER
SBU
RG
FIS
HE
RIE
S, I
NC
.PE
TE
RSB
UR
G54
,413
Am
mon
ia (
anhy
drou
s)
JOH
N M
. ASP
LU
ND
WA
STE
WA
TE
R T
RE
AT
ME
NT
FA
CIL
ITY
AN
CH
OR
AG
E50
,000
Chl
orin
e
E
C P
HIL
LIP
S &
SO
NK
ET
CH
IKA
N47
,000
Am
mon
ia (
anhy
drou
s)
AL
YE
SKA
SE
AFO
OD
S, I
NC
.U
NA
LA
SKA
46,0
00A
mm
onia
(an
hydr
ous)
D
UT
CH
HA
RB
OR
DU
TC
H H
AR
BO
R35
,000
Am
mon
ia (
anhy
drou
s)
TR
IDE
NT
SE
AFO
OD
S C
OR
POR
AT
ION
- S
T. P
AU
L, A
LA
SKA
ST. P
AU
L30
,000
Am
mon
ia (
anhy
drou
s)
TR
IDE
NT
SE
AFO
OD
S C
OR
POR
AT
ION
SA
ND
PO
INT
, AL
ASK
ASA
ND
PO
INT
30,0
00A
mm
onia
(an
hydr
ous)
E
KU
K P
LA
NT
DIL
LIN
GH
AM
25,0
00A
mm
onia
(an
hydr
ous)
T
YSO
N F
OO
DS,
IN
C. K
OD
IAK
, AK
.K
OD
IAK
19,0
00A
mm
onia
(an
hydr
ous)
E
XC
UR
SIO
N I
NL
ET
PL
AN
TE
XC
UR
SIO
N I
NL
ET
19,0
00A
mm
onia
(an
hydr
ous)
PE
TE
R P
AN
SE
AFO
OD
S IN
C. -
KIN
G C
OV
E P
LA
NT
KIN
G C
OV
E17
,000
Am
mon
ia (
anhy
drou
s)
GR
EA
T W
EST
ER
N C
HE
MIC
AL
CO
MPA
NY
- F
AIR
BA
NK
SFA
IRB
AN
KS
4,90
0C
hlor
ine
KE
TC
HIK
AN
CH
LO
RIN
AT
ION
PL
AN
TK
ET
CH
IKA
N4,
000
Chl
orin
e
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
Fac
iliti
es in
Ala
ska
stor
ing
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
AR
IZO
NA
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1A
PAC
HE
NIT
RO
GE
N P
RO
DU
CT
S, I
NC
.B
EN
SON
9,17
5,00
0A
mm
onia
(an
hydr
ous)
2
FER
TIZ
ON
A C
OO
LID
GE
- L
LC
CO
OL
IDG
E89
8,00
0A
mm
onia
(an
hydr
ous)
3
HIL
L B
RO
TH
ER
S C
HE
MIC
AL
CO
. - P
HO
EN
IX F
AC
ILIT
YPH
OE
NIX
550,
000
Chl
orin
e
4
DPC
EN
TE
RPR
ISE
SG
LE
ND
AL
E40
0,00
0C
hlor
ine
591
ST A
VE
NU
E W
WT
PT
OL
LE
SON
330,
000
Chl
orin
e
6
TH
E D
UN
E C
OM
PAN
Y O
F Y
UM
A, A
RIZ
ON
AY
UM
A30
0,00
0A
mm
onia
(an
hydr
ous)
7
CA
SA G
RA
ND
E C
HE
MIC
AL
S, I
NC
OR
POR
AT
ED
CA
SA G
RA
ND
E27
5,00
0A
mm
onia
(an
hydr
ous)
8
AR
CH
CH
EM
ICA
LS
- M
ESA
FA
CIL
ITY
QU
EE
N C
RE
EK
232,
000
Hyd
roge
n fl
uori
de (
conc
>=
50%
9A
LK
EM
IN, S
. DE
R.L
. DE
C.V
.SA
HU
AR
ITA
230,
000
Car
bon
disu
lfid
e
10
23R
D A
VE
NU
E W
AST
EW
AT
ER
TR
EA
TM
EN
T P
LA
NT
PHO
EN
IX21
0,00
0C
hlor
ine
11FE
RT
IZO
NA
CA
SA G
RA
ND
E -
LL
CC
ASA
GR
AN
DE
206,
723
Am
mon
ia (
anhy
drou
s)
12FE
RT
IZO
NA
WIL
LC
OX
- L
LC
WIL
LC
OX
206,
723
Am
mon
ia (
anhy
drou
s)
13FE
RT
IZO
NA
SA
N T
AN
- L
LC
SAC
AT
ON
206,
723
Am
mon
ia (
anhy
drou
s)
14FE
RT
IZO
NA
FE
NN
EM
OR
E -
LL
CW
AD
DE
LL
206,
723
Am
mon
ia (
anhy
drou
s)
15FE
RT
IZO
NA
RO
LL
- L
LC
RO
LL
206,
723
Am
mon
ia (
anhy
drou
s)
16FE
RT
IZO
NA
YU
MA
- L
LC
YU
MA
206,
723
Am
mon
ia (
anhy
drou
s)
17FE
RT
IZO
NA
BU
CK
EY
E -
LL
CB
UC
KE
YE
206,
723
Am
mon
ia (
anhy
drou
s)
18H
ASA
IN
CE
LO
Y18
0,00
0C
hlor
ine
19T
HE
DU
NE
CO
MPA
NY
OF
RO
LL
, AR
IZO
NA
RO
LL
170,
000
Am
mon
ia (
anhy
drou
s)
20T
HE
DU
NE
CO
MPA
NY
OF
POST
ON
, AR
IZO
NA
POST
ON
170,
000
Am
mon
ia (
anhy
drou
s)
21W
EST
ER
N F
AR
M S
ER
VIC
E, W
EL
LT
ON
WE
LL
TO
N17
0,00
0A
mm
onia
(an
hydr
ous)
22
WIL
BU
R-E
LL
IS C
OM
PAN
Y, S
AC
AT
ON
SAC
AT
ON
160,
000
Am
mon
ia (
anhy
drou
s)
23B
OC
ED
WA
RD
S -
PHO
EN
IXPH
OE
NIX
156,
000
Hyd
roge
n ch
lori
de (
anhy
drou
s)
24T
ESS
EN
DE
RL
O K
ER
LE
Y, I
NC
. - P
HO
EN
IX F
AC
ILIT
YPH
OE
NIX
150,
000
Am
mon
ia (
anhy
drou
s)
25W
EST
ER
N F
AR
M S
ER
VIC
E, S
OM
ER
TO
NSO
ME
RT
ON
142,
500
Am
mon
ia (
conc
>=
20%
)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Ari
zona
sto
ring
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
AR
KA
NSA
S
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1T
ER
RA
NIT
RO
GE
N L
IMIT
ED
PA
RT
NE
RSH
IP, B
LY
TH
EV
ILL
E P
BL
YT
HE
VIL
LE
90,0
00,0
00A
mm
onia
(an
hydr
ous)
2
EL
DO
RA
DO
CH
EM
ICA
L C
OM
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OR
AD
O41
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mon
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anhy
drou
s)
3A
LB
EM
AR
LE
CO
RPO
RA
TIO
N W
EST
PL
AN
TM
AG
NO
LIA
3,72
1,61
2C
hlor
ine
4A
LB
EM
AR
LE
CO
RPO
RA
TIO
N S
OU
TH
PL
AN
TM
AG
NO
LIA
3,60
0,00
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hlor
ine
5G
RE
AT
LA
KE
S C
HE
MIC
AL
, WE
ST P
LA
NT
MA
GN
OL
IA1,
500,
000
Bro
min
e
6
GR
EA
T L
AK
ES
CH
EM
ICA
L, C
EN
TR
AL
PL
AN
TE
L D
OR
AD
O1,
326,
000
Bro
min
e
7
BO
RD
EN
CH
EM
ICA
L, I
NC
. HO
PE P
LA
NT
HO
PE1,
300,
000
Form
alde
hyde
(so
lutio
n)
8
GR
EA
T L
AK
ES
CH
EM
ICA
L, S
OU
TH
PL
AN
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L D
OR
AD
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125,
000
Bro
min
e
9
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EA
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AK
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CH
EM
ICA
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EW
EL
L P
LA
NT
EL
DO
RA
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1,04
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DE
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HE
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AL
, IN
C.,
MA
LV
ER
N P
LA
NT
MA
LV
ER
N95
0,00
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rmal
dehy
de (
solu
tion)
11G
EO
RG
IA-P
AC
IFIC
CR
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ET
T P
APE
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PER
AT
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760,
000
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orin
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GE
OR
GIA
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ESI
NS,
IN
C. C
RO
SSE
TT
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PL
AN
TC
RO
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537,
560
Form
alde
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lutio
n)
13
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LA
TC
H C
OR
POR
AT
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KA
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S PU
LP
AN
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APE
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HE
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14C
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SPE
CIA
LT
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HE
MIC
AL
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ER
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EA
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IN
C.
WE
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PHIS
341,
000
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hyl c
hlor
ide
15
VIS
KA
SE C
OR
POR
AT
ION
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LA
320,
000
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bon
disu
lfid
e
16
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TR
A C
HE
MIC
AL
S -
WE
ST M
EM
PHIS
FA
CIL
ITY
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ST M
EM
PHIS
260,
500
Bro
min
e
17
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NA
GR
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ZE
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OO
DS
RU
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LL
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LE
256,
494
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mon
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anhy
drou
s)
18C
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ESS
CH
EM
ICA
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OM
PAN
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EL
EN
A25
5,68
5A
mm
onia
(an
hydr
ous)
19
AR
KA
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AST
MA
N D
IVIS
ION
BA
TE
SVIL
LE
246,
000
Ole
um (
Fum
ing
Sulf
uric
aci
d)
20A
LL
IED
UN
IVE
RSA
L C
OR
POR
AT
ION
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EM
PHIS
180,
000
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orin
e
21
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OR
GIA
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IC A
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OW
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PER
AT
ION
SA
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OW
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0C
hlor
ine
22C
ON
AG
RA
FR
OZ
EN
FO
OD
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AT
ESV
ILL
E17
0,00
0A
mm
onia
(an
hydr
ous)
23
CE
DA
R C
HE
MIC
AL
CO
RPO
RA
TIO
N H
EL
EN
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itric
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OO
DS,
IN
C. P
INE
BL
UFF
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. (FP
-JP)
PIN
E B
LU
FF14
4,12
2A
mm
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hydr
ous)
25
U. S
. VA
NA
DIU
M C
OR
POR
AIT
ON
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T S
PRIN
GS
140,
000
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mon
ia (
anhy
drou
s)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Ark
ansa
s st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
CA
LIF
OR
NIA
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1C
AL
AM
CO
STO
CK
TO
N80
,000
,000
Am
mon
ia (
anhy
drou
s)
2W
EST
SA
CR
AM
EN
TO
PL
AN
TW
EST
SA
CR
AM
EN
TO
79,0
00,0
00A
mm
onia
(an
hydr
ous)
3
WE
STE
RN
FA
RM
SE
RV
ICE
, IM
PER
IAL
IMPE
RIA
L7,
144,
000
Am
mon
ia (
conc
>=
20%
)
4B
UT
TE
CO
UN
TY
RIC
E G
RO
WE
RS
ASS
OC
IAT
ION
RIC
HV
AL
E6,
108,
170
Am
mon
ia (
anhy
drou
s)
5JO
HN
TA
YL
OR
FE
RT
ILIZ
ER
S C
OM
PAN
Y, I
NC
. - R
IO L
IND
AR
IO L
IND
A5,
107,
200
Am
mon
ia (
conc
>=
20%
)
6SY
CA
MO
RE
GR
IME
S3,
600,
000
Am
mon
ia (
conc
>=
20%
)
7A
GR
IFO
RM
- W
OO
DL
AN
DW
OO
DL
AN
D3,
120,
000
Am
mon
ia (
conc
>=
20%
)
8C
OL
USA
CO
UN
TY
FA
RM
SU
PPL
YW
ILL
IAM
S3,
000,
000
Am
mon
ia (
conc
>=
20%
)
9C
HE
VR
ON
EL
SE
GU
ND
O R
EFI
NE
RY
EL
SE
GU
ND
O2,
210,
000
Am
mon
ia (
conc
>=
20%
)
10G
LE
NN
FE
RT
ILIZ
ER
CO
MPA
NY
WIL
LO
WS
1,80
0,00
0A
mm
onia
(co
nc >
=20
%)
11
CO
LU
SA S
IMPL
OT
SO
ILB
UIL
DE
RS
CO
LU
SA1,
600,
000
Am
mon
ia (
conc
>=
20%
)
12W
EST
ER
N F
AR
M S
ER
VIC
E, S
AN
TA
FE
GR
AD
E, F
IRE
BA
UG
HFI
RE
BA
UG
H1,
549,
725
Am
mon
ia (
conc
>=
20%
)
13U
NIO
N C
AR
BID
E C
OR
POR
AT
ION
TO
RR
AN
CE
1,44
5,22
0V
inyl
ace
tate
mon
omer
14B
OR
DE
N C
HE
MC
AL
, IN
C. -
FR
EM
ON
T P
LA
NT
FRE
MO
NT
1,30
0,00
0Fo
rmal
dehy
de (
solu
tion)
15T
OSC
O S
AN
FR
AN
CIS
CO
AR
EA
RE
FIN
ER
Y A
T A
VO
NM
AR
TIN
EZ
1,30
0,00
0A
mm
onia
(an
hydr
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16
CH
EM
ICA
L U
NL
OA
DIN
G F
AC
ILIT
YPE
RR
IS1,
230,
000
Chl
orin
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17
WE
STW
AY
TE
RM
INA
L C
OM
PAN
Y, I
NC
.SA
N P
ED
RO
1,20
7,61
1V
inyl
ace
tate
mon
omer
18L
OS
AN
GE
LE
S A
QU
ED
UC
T F
ILT
RA
TIO
N P
LA
NT
SYL
MA
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136,
000
Chl
orin
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19
FOA
ME
X, L
PO
RA
NG
E1,
118,
858
Tol
uene
diis
ocya
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spec
ifie
d is
omer
)
20
MA
RT
INE
Z R
EFI
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G C
OM
PAN
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QU
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NT
ER
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ES
LL
CM
AR
TIN
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1,10
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min
g Su
lfur
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21
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AL
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080,
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22
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T W
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ER
PO
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ION
CO
NT
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L P
LA
NT
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RSO
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080,
000
Chl
orin
e
23
KE
MIR
ON
PA
CIF
IC, I
NC
. - M
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VE
FA
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ITY
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080,
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24
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N T
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LO
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EL
LM
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1,06
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25
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EV
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ICH
MO
ND
RE
FIN
ER
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MO
ND
960,
000
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mon
ia (
anhy
drou
s)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Cal
ifor
nia
stor
ing
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
CO
LO
RA
DO
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1ST
AT
EL
INE
AN
HY
DR
OU
S A
MM
ON
IA P
LA
NT
HO
LY
OK
E2,
590,
673
Am
mon
ia (
anhy
drou
s)
2H
AX
TU
N A
NH
YD
RO
US
AM
MO
NIA
PL
AN
TH
AX
TU
N1,
944,
248
Am
mon
ia (
anhy
drou
s)
3B
UR
LIN
GT
ON
AN
HY
DR
OU
S A
MM
ON
IA P
LA
NT
BU
RL
ING
TO
N1,
936,
350
Am
mon
ia (
anhy
drou
s)
4C
EN
TE
R A
NH
YD
RO
US
AM
MO
NIA
PL
AN
TC
EN
TE
R1,
919,
996
Am
mon
ia (
anhy
drou
s)
5T
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EE
MIL
E L
OC
AT
ION
MO
NT
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A1,
715,
520
Am
mon
ia (
anhy
drou
s)
6ST
RA
TT
ON
AN
HY
DR
OU
S A
MM
ON
IA P
LA
NT
STR
AT
TO
N1,
551,
420
Am
mon
ia (
anhy
drou
s)
7B
UR
LIN
GT
ON
RE
TA
IL F
ER
TIL
IZE
R C
O.
BU
RL
ING
TO
N1,
425,
000
Am
mon
ia (
anhy
drou
s)
8D
PC I
ND
UST
RIE
S, I
NC
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SON
1,20
0,00
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ine
9FR
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NH
YD
RO
US
AM
MO
NIA
PL
AN
TFR
UIT
A71
6,04
0A
mm
onia
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hydr
ous)
10
STE
RL
ING
DE
AL
ER
FE
RT
ILIZ
ER
(SD
F)ST
ER
LIN
G67
0,00
0A
mm
onia
(an
hydr
ous)
11
EC
KL
EY
: N
H3
PLT
EC
KL
EY
493,
000
Am
mon
ia (
anhy
drou
s)
12K
IRK
AN
HY
DR
OU
S A
MM
ON
IA P
LA
NT
KIR
K45
7,47
0A
mm
onia
(an
hydr
ous)
13
CO
OR
S B
RE
WE
RY
, GO
LD
EN
GO
LD
EN
410,
000
Am
mon
ia (
anhy
drou
s)
14C
HE
MPA
K I
ND
UST
RIE
S / H
I-L
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CO
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EN
VE
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0,00
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hlor
ine
15ID
AL
IA A
NH
YD
RO
US
AM
MO
NIA
PL
AN
TID
AL
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1,00
0A
mm
onia
(an
hydr
ous)
16
CH
EY
EN
NE
WE
LL
S A
MM
ON
IA F
AC
ILIT
YC
HE
YE
NN
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LS
336,
000
Am
mon
ia (
anhy
drou
s)
17A
NT
ON
AN
HY
DR
OU
S A
MM
ON
IA P
LA
NT
AN
TO
N32
8,18
5A
mm
onia
(an
hydr
ous)
18
ASH
LA
ND
SPE
CIA
LT
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HE
MIC
AL
CO
MPA
NY
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chlo
ric
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nc >
=37
%)
19
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EN
: N
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PLT
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289,
000
Am
mon
ia (
anhy
drou
s)
20SC
HR
AM
M :
NH
3 PL
TY
UM
A26
3,00
0A
mm
onia
(an
hydr
ous)
21
FAR
ML
AN
D C
OO
P, I
NC
.B
RU
SH26
1,69
9A
mm
onia
(an
hydr
ous)
22
CL
AR
KV
ILL
E :
NH
3 PL
TY
UM
A25
7,00
0A
mm
onia
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hydr
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23
HIG
H P
LA
INS
CO
-OP
STE
RL
ING
240,
576
Am
mon
ia (
anhy
drou
s)
24FA
RM
ER
S E
LE
V. C
O.
O
VID
- N
H3
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0,00
0A
mm
onia
(an
hydr
ous)
25
IDA
LIA
SA
TE
LL
ITE
LO
CA
TIO
NID
AL
IA23
0,00
0A
mm
onia
(an
hydr
ous)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Col
orad
o st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
CO
NN
EC
TIC
UT
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1C
YT
EC
IN
DU
STR
IES
INC
., W
AL
LIN
GFO
RD
CT
PL
AN
TW
AL
LIN
GFO
RD
2,08
0,50
0Fo
rmal
dehy
de (
solu
tion)
2D
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CH
EM
ICA
L, A
LL
YN
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T P
LA
NT
GA
LE
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RR
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1,00
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cryl
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NC
HE
M, I
NC
.E
AST
BE
RL
IN31
2,00
0V
inyl
ace
tate
mon
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4
H. K
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VIT
& C
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0,00
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hlor
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IN
DU
STR
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IN
C.
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RW
AL
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0,00
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min
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lfur
ic a
cid)
6
BR
IDG
EPO
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EN
ER
GY
LL
CB
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GE
POR
T94
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Am
mon
ia (
conc
>=
20%
)
7
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ND
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T C
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MIC
AL
CO
RPO
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NB
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L84
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Car
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AU
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CO
RP.
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DIV
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N, W
EST
HA
VE
N C
TW
EST
HA
VE
N70
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Am
mon
ia (
anhy
drou
s)
10M
AC
DE
RM
ID, I
NC
.W
AT
ER
BU
RY
52,0
00Fo
rmal
dehy
de (
solu
tion)
11A
TL
AN
TIC
CO
AST
PO
LY
ME
RS,
IN
C.
PLA
INFI
EL
D48
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Form
alde
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(so
lutio
n)
12
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mel
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subs
tanc
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x B
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TR
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Fac
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Max
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Che
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DE
LA
WA
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Fac
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Max
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22
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Age
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ount
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ely
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FLO
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A
Fac
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Nam
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Max
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Age
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Max
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9,90
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mm
onia
(an
hydr
ous)
23W
EST
OA
K P
LA
NT
MA
RIE
TT
A32
0,00
0C
arbo
n di
sulf
ide
24
KE
NSI
NG
TO
N P
LA
NT
CH
ICK
AM
AU
GA
300,
000
Acr
ylon
itrile
25
CA
LL
AW
AY
CH
EM
ICA
L C
OM
PAN
Y -
LO
S PL
AN
TC
OL
UM
BU
S30
0,00
0E
pich
loro
hydr
in
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Geo
rgia
sto
ring
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
HA
WA
II
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1B
RE
WE
R E
NV
IRO
NM
EN
TA
L I
ND
UST
RIE
S, L
LC
-B
AR
BE
RS
PTK
APO
LE
I12
0,00
0C
hlor
ine
2
BR
EW
ER
EN
VIR
ON
ME
NT
AL
IN
DU
STR
IES,
LL
C -
WA
IKA
PUW
AIL
UK
U12
0,00
0C
hlor
ine
3
AE
S H
AW
AII
IN
C.
KA
POL
EI
109,
012
Am
mon
ia (
anhy
drou
s)
4
BR
EW
ER
EN
VIR
ON
ME
NT
AL
IN
DU
STR
IES,
LL
C -
HIL
OH
ILO
70,0
00C
hlor
ine
5
BR
EW
ER
EN
VIR
ON
ME
NT
AL
IN
DU
STR
IES,
LL
C -
KA
HU
LU
IK
AH
UL
UI
60,0
00A
mm
onia
(an
hydr
ous)
6B
RE
WE
R E
NV
IRO
NM
EN
TA
L I
ND
UST
RIE
S, L
LC
- P
OR
T A
LL
EN
EL
EE
LE
50,0
00A
mm
onia
(an
hydr
ous)
7B
RE
WE
R E
NV
IRO
NM
EN
TA
L I
ND
UST
RIE
S, L
LC
- P
UH
IL
IHU
E48
,000
Chl
orin
e
8W
AIL
UK
U/K
AH
UL
UI
WW
RF
KA
HU
LU
I18
,000
Chl
orin
e
9K
IHE
I W
WR
FK
IHE
I18
,000
Chl
orin
e
10L
AH
AIN
A W
WR
FL
AH
AIN
A16
,000
Chl
orin
e
11U
NIC
OL
D C
OR
POR
AT
ION
HO
NO
LU
LU
11,0
00A
mm
onia
(an
hydr
ous)
12E
AST
HO
NO
LU
LU
WA
STE
WA
TE
R T
RE
AT
ME
NT
PL
AN
TH
ON
OL
UL
U10
,000
Chl
orin
e
13M
EA
DO
W G
OL
D D
AIR
IES-
HO
NO
LU
LU
HO
NO
LU
LU
9,94
3A
mm
onia
(an
hydr
ous)
14U
.S. A
RM
Y G
AR
RIS
ON
, HA
WA
IISC
HO
FIE
LD
BA
RR
AC
KS
8,00
0C
hlor
ine
15
RE
SOR
T W
AT
ER
RE
CL
AM
AT
ION
PL
AN
TW
AIK
OL
OA
6,00
0C
hlor
ine
16
WA
IME
A W
AT
ER
TR
EA
TM
EN
T P
LA
NT
KA
MU
EL
A4,
000
Chl
orin
e
17K
AU
NA
KA
KA
I W
WR
FK
AU
NA
KA
KA
I1,
500
Chl
orin
e
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
Fac
iliti
es in
Haw
aii s
tori
ng t
he la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
IDA
HO
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1A
GR
IUM
CO
ND
A P
HO
SPH
AT
E O
PER
AT
ION
SSO
DA
SPR
ING
S1,
220,
000
Am
mon
ia (
anhy
drou
s)
2PO
TL
AT
CH
CO
RP.
ID
AH
O P
UL
P A
ND
PA
PER
BO
AR
D D
IVIS
ION
LE
WIS
TO
N1,
080,
000
Chl
orin
e
3
UN
ION
WA
RE
HO
USE
& S
UPP
LY
CO
MPA
NY
GR
AN
GE
VIL
LE
760,
000
Am
mon
ia (
conc
>=
20%
)
4SU
ND
AN
CE
AG
.B
UR
LE
Y41
4,18
2C
arbo
n di
sulf
ide
5
UN
ITE
D C
O-O
P A
GR
ON
OM
Y C
EN
TE
RPA
UL
410,
000
Am
mon
ia (
anhy
drou
s)
6B
ING
HA
M C
OO
PB
LA
CK
FOO
T32
0,00
0A
mm
onia
(an
hydr
ous)
7
WE
STE
RN
FA
RM
SE
RV
ICE
, CA
LD
WE
LL
CA
LD
WE
LL
300,
000
Am
mon
ia (
conc
>=
20%
)
8C
EN
EX
/LA
ND
O’L
AK
ES
AG
RO
NO
MY
CE
NT
ER
- R
EX
BU
RG
RE
XB
UR
G29
0,00
0A
mm
onia
(an
hydr
ous)
9
WE
STE
RN
FA
RM
SE
RV
ICE
, BA
NC
RO
FTB
AN
CR
OFT
265,
200
Am
mon
ia (
anhy
drou
s)
10W
EST
ER
N F
AR
M S
ER
VIC
E, R
UPE
RT
RU
PER
T24
6,72
0A
mm
onia
(an
hydr
ous)
11
CE
NE
X/L
AN
D O
’LA
KE
S A
GR
ON
OM
Y C
EN
TE
R -
FIL
ER
FIL
ER
220,
000
Am
mon
ia (
anhy
drou
s)
12(3
5) T
HE
MC
GR
EG
OR
CO
MPA
NY
GE
NE
SEE
RE
TA
ILG
EN
ESE
E19
0,00
0A
mm
onia
(an
hydr
ous)
13
WE
STE
RN
FA
RM
SE
RV
ICE
, RO
BE
RT
SR
OB
ER
TS
188,
530
Am
mon
ia (
anhy
drou
s)
14U
AP
NO
RT
HW
EST
, BL
AC
KFO
OT
BL
AC
KFO
OT
160,
000
Am
mon
ia (
anhy
drou
s)
15U
AP
NO
RT
HW
EST
, BU
RL
EY
BU
RL
EY
160,
000
Am
mon
ia (
anhy
drou
s)
16W
EST
ER
N F
AR
M S
ER
VIC
E, C
RA
IGM
ON
TC
RA
IGM
ON
T15
3,00
0A
mm
onia
(an
hydr
ous)
17
WE
STE
RN
FA
RM
SE
RV
ICE
, BU
HL
BU
HL
150,
000
Am
mon
ia (
conc
>=
20%
)
18D
ON
SID
ING
CO
MPL
EX
, SO
UT
H O
F H
IGH
WA
Y 3
0PO
CA
TE
LL
O15
0,00
0A
mm
onia
(an
hydr
ous)
19
LE
WIS
TO
N G
RA
IN G
RO
WE
RS-
NE
Z P
ER
CE
NE
Z P
ER
CE
140,
000
Am
mon
ia (
anhy
drou
s)
20L
AM
B-W
EST
ON
, IN
C. T
WIN
FA
LL
S PL
AN
TT
WIN
FA
LL
S13
7,83
3A
mm
onia
(an
hydr
ous)
21
WE
STE
RN
FA
RM
SE
RV
ICE
, CU
LD
ESA
CC
UL
DE
SAC
132,
600
Am
mon
ia (
anhy
drou
s)
22V
IRG
INIA
ST
OR
AG
E F
AC
ILIT
YV
IRG
INIA
132,
600
Am
mon
ia (
anhy
drou
s)
23(3
8) T
HE
MC
GR
EG
OR
CO
MPA
NY
PR
AIR
IE R
ET
AIL
NE
Z P
ER
CE
130,
000
Am
mon
ia (
anhy
drou
s)
24(3
6) T
HE
MC
GR
EG
OR
CO
MPA
NY
GR
AN
GE
VIL
LE
RE
TA
ILG
RA
NG
EV
ILL
E13
0,00
0A
mm
onia
(an
hydr
ous)
25
(37)
TH
E M
CG
RE
GO
R C
OM
PAN
Y T
AM
MA
NY
RE
TA
ILL
EW
IST
ON
130,
000
Am
mon
ia (
anhy
drou
s)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Ida
ho s
tori
ng t
he la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
ILL
INO
IS
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1E
T-4
TR
ILL
A T
ER
MIN
AL
MA
TT
OO
N14
0,00
0,00
0A
mm
onia
(an
hydr
ous)
2C
F IN
DU
STR
IES,
IN
C. -
AL
BA
NY
TE
RM
INA
LA
LB
AN
Y12
0,00
0,00
0A
mm
onia
(an
hydr
ous)
3C
F IN
DU
STR
IES,
IN
C. -
KIN
GST
ON
MIN
EST
ER
MIN
AL
KIN
GST
ON
MIN
ES
80,0
00,0
00A
mm
onia
(an
hydr
ous)
4R
OY
STE
R-C
LA
RK
NIT
RO
GE
N E
AST
DU
BU
QU
E F
AC
ILIT
YE
AST
DU
BU
QU
E78
,000
,000
Am
mon
ia (
anhy
drou
s)
5
WO
OD
RIV
ER
TE
RM
INA
LE
AST
AL
TO
N73
,000
,000
Am
mon
ia (
anhy
drou
s)
6
PEK
IN T
ER
MIN
AL
CR
EV
E C
OU
ER
73,0
00,0
00A
mm
onia
(an
hydr
ous)
7T
/A T
ER
MIN
AL
S, I
NC
./ME
RE
DO
SIA
TE
RM
INA
LM
ER
ED
OSI
A72
,000
,000
Am
mon
ia (
anhy
drou
s)
8
CF
IND
UST
RIE
S, I
NC
. - C
OW
DE
NT
ER
MIN
AL
CO
WD
EN
60,0
00,0
00A
mm
onia
(an
hydr
ous)
9C
F IN
DU
STR
IES,
IN
C. -
SE
NE
CA
TE
RM
INA
LSE
NE
CA
60,0
00,0
00A
mm
onia
(an
hydr
ous)
10R
OY
STE
R-C
LA
RK
NIT
RO
GE
N N
IOT
A T
ER
MIN
AL
NIO
TA
59,2
00,0
00A
mm
onia
(an
hydr
ous)
11FA
RM
HU
T C
O.,
L.L
.C.
HE
NR
Y40
,127
,840
Am
mon
ia (
anhy
drou
s)
12
CF
IND
UST
RIE
S, I
NC
. - J
OL
IET
TE
RM
INA
LJO
LIE
T40
,000
,000
Am
mon
ia (
anhy
drou
s)
13
CF
IND
UST
RIE
S, I
NC
. - P
ER
U T
ER
MIN
AL
PER
U40
,000
,000
Am
mon
ia (
anhy
drou
s)
14
MA
GIC
WA
TE
RS
CH
ER
RY
VA
LL
EY
20,0
02,0
00C
hlor
ine
15
GE
PL
AST
ICS
- O
TT
AW
AO
TT
AW
A6,
654,
393
Acr
ylon
itrile
16
RO
YST
ER
-CL
AR
K N
ITR
OG
EN
, ME
RE
DO
SIA
TE
RM
INA
LM
ER
ED
OSI
A3,
850,
000
Am
mon
ia (
anhy
drou
s)
17
RO
YST
ER
-CL
AR
K N
ITR
OG
EN
, MA
RSE
ILL
ES
TE
RM
INA
LM
AR
SEIL
LE
S3,
850,
000
Am
mon
ia (
anhy
drou
s)
18
SOL
UT
IA W
.G. K
RU
MM
RIC
H P
LA
NT
SAU
GE
T2,
880,
000
Chl
orin
e
19C
AB
OT
CO
RPO
RA
TIO
NT
USC
OL
A2,
500,
000
Met
hyltr
ichl
oros
ilane
20N
AT
ION
AL
ST
AR
CH
AN
D C
HE
MIC
AL
CO
MPA
NY
ME
RE
DO
SIA
2,32
5,00
0V
inyl
ace
tate
mon
omer
21
AD
M E
AST
CO
MPL
EX
DE
CA
TU
R1,
800,
000
Am
mon
ia (
anhy
drou
s)
22
MO
BIL
JO
LIE
T R
EFI
NE
RY
CH
AN
NA
HO
N1,
752,
910
Hyd
roge
n fl
uori
de (
conc
>=
50%
)
23
GA
TX
AR
GO
TE
RM
INA
LA
RG
O1,
400,
000
Vin
yl a
ceta
te m
onom
er
24C
HE
MT
EC
H P
RO
DU
CT
S, I
NC
.A
LO
RT
ON
1,19
6,43
5H
ydro
gen
fluo
ride
(co
nc >
=50
%)
25K
AN
KA
KE
E P
OL
YM
ER
PL
AN
TK
AN
KA
KE
E1,
118,
000
Vin
yl a
ceta
te m
onom
er
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Illi
nois
sto
ring
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
IND
IAN
A
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1H
UN
TIN
GT
ON
TE
RM
INA
LH
UN
TIN
GT
ON
150,
000,
000
Am
mon
ia (
anhy
drou
s)
2E
T-8
WA
LT
ON
TE
RM
INA
LW
AL
TO
N14
0,00
0,00
0A
mm
onia
(an
hydr
ous)
3
ET
-6 C
RA
WFO
RD
SVIL
LE
TE
RM
INA
LC
RA
WFO
RD
SVIL
LE
140,
000,
000
Am
mon
ia (
anhy
drou
s)
4C
F IN
DU
STR
IES,
IN
C. -
TE
RR
E H
AU
TE
TE
RM
INA
LR
OSE
DA
LE
60,0
00,0
00A
mm
onia
(an
hydr
ous)
5
CF
IND
UST
RIE
S, I
NC
. - F
RA
NK
FOR
T T
ER
MIN
AL
FRA
NK
FOR
T60
,000
,000
Am
mon
ia (
anhy
drou
s)
6C
F IN
DU
STR
IES,
IN
C. -
HU
NT
ING
TO
N T
ER
MIN
AL
HU
NT
ING
TO
N60
,000
,000
Am
mon
ia (
anhy
drou
s)
7C
F IN
DU
STR
IES,
IN
C. -
MO
UN
T V
ER
NO
N T
ER
MIN
AL
MO
UN
T V
ER
NO
N30
,000
,000
Am
mon
ia (
anhy
drou
s)
8JC
C 7
0SSH
EL
BY
15,0
00,0
00A
mm
onia
(an
hydr
ous)
9
JCC
40
KE
RSE
Y15
,000
,000
Am
mon
ia (
anhy
drou
s)
10JC
C 8
0T
EFF
T15
,000
,000
Am
mon
ia (
anhy
drou
s)
11JC
C 3
4FO
WL
ER
15,0
00,0
00A
mm
onia
(an
hydr
ous)
12
JCC
45
OT
TE
RB
EIN
12,0
00,0
00A
mm
onia
(an
hydr
ous)
13
JCC
78
KE
NT
LA
ND
12,0
00,0
00A
mm
onia
(an
hydr
ous)
14
JCC
70
RO
SEL
AW
N9,
300,
000
Am
mon
ia (
anhy
drou
s)
15W
AL
TO
N W
HO
LE
SAL
E A
ND
RE
TA
IL F
AR
M C
EN
TE
RW
AL
TO
N7,
400,
000
Am
mon
ia (
conc
>=
20%
)
16
RE
ILL
Y I
ND
UST
RIE
SIN
DIA
NA
POL
IS1,
384,
500
Form
alde
hyde
(so
lutio
n)
17
RIC
HL
AN
DC
HR
ISN
EY
1,18
1,42
5A
mm
onia
(an
hydr
ous)
18
CH
RIS
NE
Y B
RA
NC
HC
HR
ISN
EY
1,18
1,42
5A
mm
onia
(an
hydr
ous)
19
UL
RIC
H C
HE
MIC
AL
, IN
C.
TE
RR
E H
AU
TE
1,13
1,05
0C
hlor
ine
20
FOA
ME
X I
NT
ER
NA
TIO
NA
L, I
NC
.FO
RT
WA
YN
E96
0,00
0T
olue
ne d
iisoc
yana
te (
unsp
ecif
ied
isom
er)
21
FOA
ME
X L
.P.
AU
BU
RN
940,
000
Tol
uene
diis
ocya
nate
(un
spec
ifie
d is
omer
)
22FO
AM
EX
L.P
.E
LK
HA
RT
900,
000
Tol
uene
diis
ocya
nate
(un
spec
ifie
d is
omer
)
23C
AR
PEN
TE
R C
O.,
EL
KH
AR
T D
IV.
EL
KH
AR
T80
0,00
0T
olue
ne d
iisoc
yana
te (
unsp
ecif
ied
isom
er)
24
GE
PL
AST
ICS
- M
T. V
ER
NO
NM
T. V
ER
NO
N66
0,00
0C
hlor
ine
25
LA
RO
CH
E I
ND
UST
RIE
S IN
C.
JEFF
ER
SON
VIL
LE
531,
882
Am
mon
ia (
anhy
drou
s)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Ind
iana
sto
ring
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
IOW
A
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1FA
RM
LA
ND
IN
DU
STR
IES,
FO
RT
DO
DG
E N
ITR
OG
EN
PL
AN
TFO
RT
DO
DG
E18
0,00
0,00
0A
mm
onia
(an
hydr
ous)
2A
GR
IUM
U.S
. IN
C. E
AR
LY
TE
RM
INA
LE
AR
LY
160,
540,
000
Am
mon
ia (
conc
>=
20%
)
3W
T-5
MA
RSH
AL
LT
OW
N T
ER
MIN
AL
MA
RSH
AL
LT
OW
N14
0,00
0,00
0A
mm
onia
(an
hydr
ous)
4C
F IN
DU
STR
IES,
IN
C. -
GA
RN
ER
TE
RM
INA
LG
AR
NE
R12
0,00
0,00
0A
mm
onia
(an
hydr
ous)
5C
F IN
DU
STR
IES,
IN
C. -
SPE
NC
ER
TE
RM
INA
LSP
EN
CE
R12
0,00
0,00
0A
mm
onia
(an
hydr
ous)
6PC
S N
ITR
OG
EN
FE
RT
ILIZ
ER
, L.P
. CL
INT
ON
PL
AN
TC
AM
AN
CH
E10
0,00
0,00
0A
mm
onia
(an
hydr
ous)
7W
T-4
WA
SHIN
GT
ON
TE
RM
INA
LK
EO
TA
70,0
00,0
00A
mm
onia
(an
hydr
ous)
8SE
RG
EA
NT
BL
UFF
TE
RM
INA
LSE
RG
EA
NT
BL
UFF
61,0
00,0
00A
mm
onia
(an
hydr
ous)
9FA
RM
LA
ND
IN
DU
STR
IES,
IN
C. -
GA
RN
ER
IA
TE
RM
INA
LG
AR
NE
R60
,357
,000
Am
mon
ia (
anhy
drou
s)
10
TE
RR
A N
ITR
OG
EN
- P
OR
T N
EA
L P
LA
NT
SER
GE
AN
T B
LU
FF60
,000
,000
Am
mon
ia (
anhy
drou
s)
11
CO
LW
EL
L C
O-O
PC
HA
RL
ES
CIT
Y2,
900,
000
Am
mon
ia (
conc
>=
20%
)
12PR
AIR
IE L
AN
D C
OO
PER
AT
IVE
HU
BB
AR
D N
H3
HU
BB
AR
D2,
000,
000
Am
mon
ia (
anhy
drou
s)
13
FAR
ME
RS
EL
EV
AT
OR
CO
MPA
NY
- B
ON
DU
RA
NT
NH
3B
ON
DU
RA
NT
1,61
8,70
0A
mm
onia
(an
hydr
ous)
14C
EN
EX
/LA
ND
O’L
AK
ES
AG
RO
NO
MY
CE
NT
ER
- B
AT
AV
IAB
AT
AV
IA1,
300,
000
Am
mon
ia (
anhy
drou
s)
15
VE
RT
EX
CH
EM
ICA
L C
OR
POR
AT
ION
CA
MA
NC
HE
, IA
CA
MA
NC
HE
1,07
9,95
0C
hlor
ine
16
CE
DA
R V
AL
LE
Y F
S, I
NC
. JA
NE
SVIL
LE
JAN
ESV
ILL
E86
0,00
0A
mm
onia
(an
hydr
ous)
17N
EW
CO
OPE
RA
TIV
E I
NC
.-R
OE
LY
NM
OO
RL
AN
D75
9,10
0A
mm
onia
(an
hydr
ous)
18SW
IFT
& C
OM
PAN
YM
AR
SHA
LL
TO
WN
715,
862
Am
mon
ia (
anhy
drou
s)
19
PRA
IRIE
LA
ND
CO
OPE
RA
TIV
E E
LL
SWO
RT
H N
H3
EL
LSW
OR
TH
639,
000
Am
mon
ia (
anhy
drou
s)
20
FAR
ME
RS
CO
OPE
RA
TIV
E E
XC
HA
NG
E P
RA
IRIE
CIT
Y N
H3
PRA
IRIE
CIT
Y63
4,00
0A
mm
onia
(an
hydr
ous)
21N
OR
TH
WO
OD
CO
OPE
RA
TIV
E E
LE
VA
TO
R N
OR
TH
WO
OD
NH
NO
RT
HW
OO
D62
1,00
0A
mm
onia
(an
hydr
ous)
22M
USC
AT
INE
PL
AN
T -
MO
NSA
NT
O C
OM
PAN
YM
USC
AT
INE
620,
000
Acr
ylon
itrile
23
GA
TE
WA
Y C
OO
PER
AT
IVE
- C
ON
RO
Y N
H3
CO
NR
OY
604,
000
Am
mon
ia (
anhy
drou
s)
24
FAR
ME
R’S
CO
OP
SOC
IET
Y S
IOU
X C
EN
TE
RSI
OU
X C
EN
TE
R60
0,00
0A
mm
onia
(an
hydr
ous)
25FA
RM
ER
S C
OO
PER
AT
IVE
EL
EV
AT
OR
- B
UFF
AL
O C
TR
NH
3B
UFF
AL
O C
EN
TE
R56
3,00
0A
mm
onia
(an
hydr
ous)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Iow
a st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
KA
NSA
S
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1FA
RM
LA
ND
IN
DU
STR
IES,
IN
C-D
OD
GE
CIT
Y N
ITR
OG
EN
PL
AN
TD
OD
GE
CIT
Y12
0,00
0,00
0A
mm
onia
(an
hydr
ous)
2FA
RM
LA
ND
IN
DU
STR
IES,
IN
C.
CO
NW
AY
AM
MO
NIA
TE
RM
INA
LM
CPH
ER
SON
61,0
00,0
00A
mm
onia
(an
hydr
ous)
3A
GR
IUM
U.S
. IN
C. F
RIE
ND
TE
RM
INA
LSC
OT
T C
ITY
40,4
50,0
00A
mm
onia
(co
nc >
=20
%)
4
FAR
ML
AN
D I
ND
UST
RIE
S-L
AW
RE
NC
E N
ITR
OG
EN
PL
AN
TL
AW
RE
NC
E30
,000
,000
Am
mon
ia (
anhy
drou
s)
5
VU
LC
AN
CH
EM
ICA
LS,
WIC
HIT
A P
LA
NT
WIC
HIT
A14
,931
,000
Chl
orof
orm
6E
LF
AT
OC
HE
M N
OR
TH
AM
ER
ICA
, IN
C. -
WIC
HIT
A P
LA
NT
WIC
HIT
A3,
400,
000
Hyd
roge
n fl
uori
de (
conc
>=
50%
)
7
HA
RC
RO
S C
HE
MIC
AL
S IN
C -
KA
NSA
S C
ITY
KA
NSA
S C
ITY
1,44
0,00
0E
thyl
ene
oxid
e
8
RE
ICH
HO
LD
, IN
C.
KA
NSA
S C
ITY
790,
000
Vin
yl a
ceta
te m
onom
er
9
WR
IGH
TW
RIG
HT
525,
000
Am
mon
ia (
anhy
drou
s)
10
SEN
EC
A F
ER
TIL
IZE
R, I
NC
.SE
NE
CA
400,
000
Am
mon
ia (
anhy
drou
s)
11
FAR
ML
AN
D I
ND
UST
RIE
S IN
C. C
OFF
EY
VIL
LE
RE
FIN
ER
YC
OFF
EY
VIL
LE
382,
000
Hyd
roge
n fl
uori
de (
conc
>=
50%
)
12
GO
OD
LA
ND
: N
H3
PLT
GO
OD
LA
ND
377,
000
Am
mon
ia (
anhy
drou
s)
13
BR
OW
N C
OU
NT
Y C
OO
PER
AT
IVE
ASS
OC
IAT
ION
RO
BIN
SON
377,
000
Am
mon
ia (
anhy
drou
s)
14
FAR
ME
RS
CO
OPE
RA
TIV
E E
LE
VA
TO
R C
OM
PAN
YH
AL
STE
AD
359,
000
Am
mon
ia (
anhy
drou
s)
15
FAR
ME
RS
CO
OP
EL
EV
AT
OR
CO
.G
AR
DE
N P
LA
IN35
0,00
0A
mm
onia
(an
hydr
ous)
16D
OD
GE
CIT
Y C
OO
PER
AT
IVE
EX
CH
AN
GE
(FO
RD
)FO
RD
350,
000
Am
mon
ia (
anhy
drou
s)
17
UC
B F
ILM
S, I
NC
.T
EC
UM
SEH
340,
000
Car
bon
disu
lfid
e
18O
BE
RL
IN :
NH
3 PL
TO
BE
RL
IN32
0,00
0A
mm
onia
(an
hydr
ous)
1913
MI.
NO
RT
H N
H3
PLT
TR
IBU
NE
316,
000
Am
mon
ia (
anhy
drou
s)
20
LA
RO
CH
E I
ND
UST
RIE
S IN
C.
KA
NSA
S C
ITY
315,
415
Am
mon
ia (
anhy
drou
s)
21
FAR
ME
RS
CO
OP
GR
AIN
ASS
OC
IAT
ION
CO
NW
AY
SPR
ING
S30
7,00
0A
mm
onia
(an
hydr
ous)
22M
IDW
EST
CO
OPE
RA
TIV
EST
UD
LE
Y30
6,50
0A
mm
onia
(an
hydr
ous)
23FA
RM
ER
S C
OO
PER
AT
IVE
GR
AIN
CO
MPA
NY
CA
LD
WE
LL
306,
000
Am
mon
ia (
anhy
drou
s)
24
HE
RK
IME
R C
OO
P B
USI
NE
SS A
SSO
CIA
TIO
NM
AR
YSV
ILL
E30
6,00
0A
mm
onia
(an
hydr
ous)
25H
EL
EN
A C
HE
MIC
AL
CO
MPA
NY
- G
AR
DE
N C
ITY
GA
RD
EN
CIT
Y30
5,12
7A
mm
onia
(an
hydr
ous)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Kan
sas
stor
ing
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
KE
NT
UC
KY
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1H
EN
DE
RSO
N T
ER
MIN
AL
HE
ND
ER
SON
90,0
00,0
00A
mm
onia
(an
hydr
ous)
2
CIT
GO
PE
TR
OL
EU
M C
OR
POR
AT
ION
- L
OU
ISV
ILL
E T
ER
MIN
AL
LO
UIS
VIL
LE
15,8
05,8
18C
hlor
ofor
m
3A
IR P
RO
DU
CT
S A
ND
CH
EM
ICA
LS,
IN
C. V
AM
DIS
TR
IBU
TIO
NC
AL
VE
RT
CIT
Y11
,700
,000
Vin
yl a
ceta
te m
onom
er
4A
RC
H C
HE
MIC
AL
S IN
C.
BR
AN
DE
NB
UR
G6,
500,
000
Prop
ylen
e ox
ide
5D
UPO
NT
LO
UIS
VIL
LE
WO
RK
SL
OU
ISV
ILL
E5,
300,
000
Hyd
roge
n fl
uori
de (
conc
>=
50%
)
6D
OW
CO
RN
ING
CO
RPO
RA
TIO
N C
AR
RO
LL
TO
N S
ITE
CA
RR
OL
LT
ON
4,16
7,50
0D
imet
hyld
ichl
oros
ilane
7
WE
STL
AK
E M
ON
OM
ER
S/C
A&
O C
OR
POR
AT
ION
CA
LV
ER
T C
ITY
3,20
0,00
0C
hlor
ine
8B
OR
DE
N C
HE
MIC
AL
, IN
C.
LO
UIS
VIL
LE
2,30
0,00
0Fo
rmal
dehy
de (
solu
tion)
9C
AR
PEN
TE
R C
O. -
RU
SSE
LL
VIL
LE
DIV
ISIO
NR
USS
EL
LV
ILL
E1,
225,
000
Tol
uene
diis
ocya
nate
(un
spec
ifie
d is
omer
)
10
EL
F A
TO
CH
EM
NO
RT
H A
ME
RIC
A, I
NC
. - C
AL
VE
RT
CIT
Y, K
YC
AL
VE
RT
CIT
Y1,
200,
000
Hyd
roge
n fl
uori
de (
conc
>=
50%
)
11P.
B. &
S. C
HE
MIC
AL
CO
MPA
NY
, IN
C (
24)
HE
ND
ER
SON
1,07
0,71
5Su
lfur
dio
xide
(an
hydr
ous)
12
RO
HM
AN
D H
AA
S C
OM
PAN
Y -
LO
UIS
VIL
LE
PL
AN
TL
OU
ISV
ILL
E60
0,00
0A
mm
onia
(co
nc >
=20
%)
13H
AM
PSH
IRE
CH
EM
ICA
L C
OR
POR
AT
ION
OW
EN
SBO
RO
500,
977
Vin
yl a
ceta
te m
onom
er
14A
IR P
RO
DU
CT
S A
ND
CH
EM
ICA
LS,
IN
C. -
MA
IN P
LA
NT
CA
LV
ER
T C
ITY
433,
000
Vin
yl a
ceta
te m
onom
er
15D
UPO
NT
DO
W E
LA
STO
ME
RS
L.L
.C. -
LO
UIS
VIL
LE
PL
AN
TL
OU
ISV
ILL
E36
0,00
0C
hlor
ine
16FA
NC
Y F
AR
MFA
NC
Y F
AR
M30
8,43
1A
mm
onia
(an
hydr
ous)
17
EL
F A
TO
CH
EM
NO
RT
H A
ME
RIC
A, I
NC
. CA
RR
OL
LT
ON
PL
AN
TC
AR
RO
LL
TO
N29
2,00
0M
ethy
l chl
orid
e
18
TH
E E
NSI
GN
-BIC
KFO
RD
CO
MPA
NY
- G
RA
HA
M, K
YG
RA
HA
M28
0,00
0N
itric
aci
d (c
onc
>=
80%
)
19A
GR
I-C
HE
M, I
NC
.H
OPK
INSV
ILL
E28
0,00
0A
mm
onia
(an
hydr
ous)
20
AG
RI-
CH
EM
, IN
C.
HO
PKIN
SVIL
LE
280,
000
Am
mon
ia (
anhy
drou
s)
21M
ILE
S FA
RM
SU
PPL
YO
WE
NSB
OR
O28
0,00
0A
mm
onia
(an
hydr
ous)
22
CR
OP
PRO
DU
CT
ION
SE
RV
ICE
SM
OR
GA
NFI
EL
D28
0,00
0A
mm
onia
(an
hydr
ous)
23
AG
RI-
CH
EM
, IN
C.
HO
PKIN
SVIL
LE
280,
000
Am
mon
ia (
anhy
drou
s)
24IS
P C
HE
MIC
AL
S, I
NC
.C
AL
VE
RT
CIT
Y26
0,00
0A
mm
onia
(an
hydr
ous)
25
AD
AIR
VIL
LE
AD
AIR
VIL
LE
252,
353
Am
mon
ia (
anhy
drou
s)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Ken
tuck
y st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
LO
UIS
IAN
A
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1T
AFT
TE
RM
INA
LT
AFT
240,
000,
000
Am
mon
ia (
anhy
drou
s)
2V
UL
CA
N C
HE
MIC
AL
SG
EIS
MA
R19
0,00
0,00
0C
hlor
ofor
m
3ST
ER
LIN
GT
ON
FA
CIL
ITY
STE
RL
ING
TO
N13
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GH
AM
50,0
00A
mm
onia
(an
hydr
ous)
18
POL
YM
ET
AL
LU
RG
ICA
L C
OR
P.N
OR
TH
AT
TL
EB
OR
O46
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Am
mon
ia (
anhy
drou
s)
19H
OL
LA
ND
CO
MPA
NY
, IN
C.
AD
AM
S45
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Am
mon
ia (
anhy
drou
s)
20SP
RIN
GFI
EL
D R
EG
ION
AL
WA
STE
WA
TE
R T
RE
AT
ME
NT
FA
CIL
ITY
AG
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ine
21G
OR
TO
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GL
OU
CE
STE
R40
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Am
mon
ia (
anhy
drou
s)
22FR
IEN
DL
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CE
CR
EA
M C
OR
POR
AT
ION
- W
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RA
HA
MW
ILB
RA
HA
M40
,000
Am
mon
ia (
anhy
drou
s)
23L
OW
EL
L W
AST
EW
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ER
TR
EA
TM
EN
T P
LA
NT
LO
WE
LL
40,0
00C
hlor
ine
24W
EST
LY
NN
CR
EA
ME
RY
LY
NN
39,0
00A
mm
onia
(an
hydr
ous)
25
TE
CH
AL
LO
Y C
OM
PAN
Y, I
NC
. - N
OR
TH
AM
PTO
N W
IIR
E P
LA
NT
NO
RT
HA
MPT
ON
34,2
04A
mm
onia
(an
hydr
ous)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Mas
sach
uset
ts s
tori
ng t
he la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
MIC
HIG
AN
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1C
F IN
DU
STR
IES,
IN
C. -
PO
RT
HU
RO
N T
ER
MIN
AL
KIM
BA
LL
60,0
00,0
00A
mm
onia
(an
hydr
ous)
2
DO
W C
OR
NIN
G -
- M
IDL
AN
D P
LA
NT
MID
LA
ND
6,73
8,12
2H
ydro
gen
chlo
ride
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hydr
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3B
ASF
CO
RPO
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TIO
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WY
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070,
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Prop
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ide
4E
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M N
OR
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ICA
, IN
C. -
RIV
ER
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W, M
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IVE
RV
IEW
4,00
0,00
0C
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ine
5D
ET
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EW
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ER
TR
EA
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EN
T P
LA
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TR
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900,
000
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orin
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6
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RE
NT
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NT
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719,
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te m
onom
er
7C
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LA
NT
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LA
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STR
IES
INC
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455,
713
Am
mon
ia (
anhy
drou
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TR
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ET
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IT36
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0C
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ine
10JC
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NE
S C
HE
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AL
S IN
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IVE
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IEW
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ITY
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ER
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0,00
0C
hlor
ine
11S.
D. W
AR
RE
N C
O. (
MU
SKE
GO
N M
ILL
)M
USK
EG
ON
360,
000
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orin
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12
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TE
RSO
N L
AB
OR
AT
OR
IES,
IN
CD
ET
RO
IT36
0,00
0C
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ine
13W
OO
DB
RID
GE
CO
RPO
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WH
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NT
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E33
7,00
0T
olue
ne d
iisoc
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unsp
ecif
ied
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14B
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N L
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SIT
EL
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330,
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Tol
uene
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ocya
nate
(un
spec
ifie
d is
omer
)
15
TA
NN
ER
IN
DU
STR
IES,
IN
C.
INK
STE
R31
9,00
0A
mm
onia
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hydr
ous)
16
BL
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IEL
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LIS
SFIE
LD
310,
800
Am
mon
ia (
conc
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)
17
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ME
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ON
252,
352
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mon
ia (
anhy
drou
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IFIC
RE
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NC
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ING
243,
650
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alde
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lutio
n)
19
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ML
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OR
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233,
376
Hyd
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anhy
drou
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20
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AT
ED
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ine
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RE
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OPE
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NC
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AM
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ON
224,
400
Am
mon
ia (
anhy
drou
s)
22C
RO
P PR
OD
UC
TIO
N S
ER
VIC
ES
LA
KE
OD
ESS
A22
0,00
0A
mm
onia
(an
hydr
ous)
23
ZE
EL
AN
D F
AR
M S
ER
VIC
ES
ZE
EL
AN
D21
6,00
0A
mm
onia
(an
hydr
ous)
24
BIL
MA
R F
OO
DS
- Z
EE
LA
ND
, MIC
HIG
AN
ZE
EL
AN
D21
5,00
0A
mm
onia
(an
hydr
ous)
25
CN
CA
RG
OFL
OW
AR
RE
N21
3,67
1T
olue
ne d
iisoc
yana
te (
unsp
ecif
ied
isom
er)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Mic
higa
n st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
MIN
NE
SOT
A
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1C
F IN
DU
STR
IES,
IN
C. -
GL
EN
WO
OD
TE
RM
INA
LG
LE
NW
OO
D12
0,00
0,00
0A
mm
onia
(an
hydr
ous)
2
CF
IND
UST
RIE
S, I
NC
. - P
INE
BE
ND
TE
RM
INA
LR
OSE
MO
UN
T12
0,00
0,00
0A
mm
onia
(an
hydr
ous)
3
FAR
ML
AN
D I
ND
UST
RIE
S B
AR
NE
SVIL
LE
AM
MO
NIA
TE
RM
INA
LB
AR
NE
SVIL
LE
68,8
68,6
82A
mm
onia
(an
hydr
ous)
4
FAR
ML
AN
D I
ND
UST
RIE
S IN
C.-
MU
RD
OC
K A
MM
ON
IA T
ER
MIN
AL
MU
RD
OC
K63
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Am
mon
ia (
anhy
drou
s)
5FA
RM
LA
ND
VE
RN
ON
CE
NT
ER
AM
MO
NIA
TE
RM
INA
LV
ER
NO
N C
EN
TE
R56
,000
,000
Am
mon
ia (
anhy
drou
s)
6C
ON
TIN
EN
TA
L N
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EN
& R
ESO
UR
CE
S C
OR
POR
AT
ION
RO
SEM
OU
NT
16,8
00,0
00A
mm
onia
(an
hydr
ous)
7
DPC
IN
DU
STR
IES,
IN
CR
OSE
MO
UN
T1,
200,
000
Chl
orin
e
8
BE
LL
E P
LA
INE
CO
OPE
RA
TIV
EB
EL
LE
PL
AIN
E76
8,00
0A
mm
onia
(an
hydr
ous)
9
FAR
ME
RS
CO
OP
ASS
NJA
CK
SON
720,
000
Am
mon
ia (
anhy
drou
s)
10C
RY
STA
L C
OO
PER
AT
IVE
- L
AK
E C
RY
STA
LL
AK
E C
RY
STA
L67
0,00
0A
mm
onia
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hydr
ous)
11
WA
TO
NW
AN
FA
RM
SE
RV
ICE
CO
.ST
. JA
ME
S61
0,00
0A
mm
onia
(an
hydr
ous)
12
FAR
ME
RS
UN
ION
CO
OP
OIL
ASS
OC
IAT
ION
RA
ND
OL
PH60
0,00
0A
mm
onia
(an
hydr
ous)
13
D. B
. WE
STE
RN
MIN
NE
SOT
A, L
.L.C
.V
IRG
INIA
595,
000
Form
alde
hyde
(so
lutio
n)
14
FAR
ME
RS
CO
OPE
RA
TIV
E O
F H
AN
SKA
HA
NSK
A58
0,00
0A
mm
onia
(an
hydr
ous)
15
CE
NT
RA
L C
O-O
PO
WA
TO
NN
A57
0,00
0A
mm
onia
(an
hydr
ous)
16
LA
SA
LL
E F
AR
ME
RS
GR
AIN
CO
MPA
NY
(M
AD
AG
)M
AD
EL
IA55
0,00
0A
mm
onia
(an
hydr
ous)
17
CE
NT
RA
L C
O-O
PH
AY
FIE
LD
520,
000
Am
mon
ia (
anhy
drou
s)
18C
OO
PER
AT
IVE
OIL
ASS
N O
F M
T. L
AK
EM
T. L
AK
E51
5,00
0A
mm
onia
(an
hydr
ous)
19
AR
GY
LE
CO
-OP
WH
SE A
SSN
.A
RG
YL
E51
0,00
0A
mm
onia
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hydr
ous)
20
CE
NT
RA
L C
O-O
PB
LO
OM
ING
PR
AIR
IE50
3,00
0A
mm
onia
(an
hydr
ous)
21
NE
W V
ISIO
N C
OO
PB
RE
WST
ER
500,
000
Am
mon
ia (
anhy
drou
s)
22H
UT
CH
INSO
N C
O-O
PH
UT
CH
INSO
N49
3,00
0A
mm
onia
(an
hydr
ous)
23
CO
TO
NW
OO
D C
OO
P O
IL C
O.
CO
TT
ON
WO
OD
490,
000
Am
mon
ia (
anhy
drou
s)
24FA
RM
ER
S U
NIO
N C
OO
P O
IL A
SSO
CIA
TIO
NH
AST
ING
S49
0,00
0A
mm
onia
(an
hydr
ous)
25
FAR
ME
RS
UN
ION
CO
OP
OIL
ASS
OC
IAT
ION
HA
MPT
ON
480,
000
Am
mon
ia (
anhy
drou
s)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Min
neso
ta s
tori
ng t
he la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
MIS
SISS
IPPI
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1M
ISSI
SSIP
PI C
HE
MIC
AL
CO
RPO
RA
TIO
NY
AZ
OO
CIT
Y76
,000
,000
Am
mon
ia (
anhy
drou
s)
2M
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SPH
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ES
CO
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RA
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SCA
GO
UL
A48
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,000
Am
mon
ia (
anhy
drou
s)
3D
UPO
NT
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PL
AN
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HR
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IAN
8,80
0,00
0C
hlor
ine
4H
AM
ILT
ON
FA
CIL
ITY
HA
MIL
TO
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200,
000
Tita
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tetr
achl
orid
e
5G
E P
LA
STIC
S -
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Y S
T. L
OU
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. LO
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4,06
2,00
0A
cryl
onitr
ile
6
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AF
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PU
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OPE
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NS
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UG
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452,
760
Chl
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e
7
CA
RPE
NT
ER
CO
., T
UPE
LO
DIV
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ER
ON
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250,
000
Tol
uene
diis
ocya
nate
(un
spec
ifie
d is
omer
)
8
VIC
KSB
UR
G C
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MIC
AL
CO
MPA
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UR
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800,
000
Am
mon
ia (
anhy
drou
s)
9SF
A, I
NC
. DB
A F
IVE
CO
UN
TY
FA
RM
ER
SC
LA
RK
SDA
LE
1,57
5,90
0A
mm
onia
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hydr
ous)
10
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FER
TIL
IZE
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LA
NT
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LA
TE
R1,
320,
000
Am
mon
ia (
anhy
drou
s)
11G
EO
RG
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AC
IFIC
RE
SIN
S, I
NC
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AY
LO
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E1,
200,
000
Form
alde
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lutio
n)
12
CH
EV
RO
N P
ASC
AG
OU
LA
RE
FIN
ER
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SCA
GO
UL
A80
0,00
0A
mm
onia
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hydr
ous)
13
FOA
ME
X,T
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LO
WE
STV
ER
ON
A74
0,00
0T
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iisoc
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te (
unsp
ecif
ied
isom
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AL
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C. -
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615,
000
Form
alde
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lutio
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15
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LS
L.P
. - M
ISSI
SSIP
PI P
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4,00
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pich
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16FI
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OR
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AT
ION
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OU
LA
510,
000
Am
mon
ia (
anhy
drou
s)
17M
OR
TO
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NT
ER
NA
TIO
NA
L M
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SM
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INT
500,
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Form
alde
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lutio
n)
18
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AFO
AM
, IN
CO
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TE
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450,
000
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uene
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nate
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spec
ifie
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omer
)
19
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HY
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ic a
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20
BR
YA
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DS,
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C.
WE
ST P
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mm
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hydr
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21
SOU
TH
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TA
TE
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AT
IVE
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LE
390,
150
Am
mon
ia (
anhy
drou
s)
22IN
TE
RN
AT
ION
AL
PA
PER
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AT
CH
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360,
000
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orin
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23
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OR
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IC R
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LO
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Form
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lutio
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24
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AH
AT
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AR
ME
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LY
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C.
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LE
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8,91
5A
mm
onia
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hydr
ous)
25
HE
RC
UL
ES
INC
OR
POR
AT
ED
, HA
TT
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UR
G, M
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LA
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UR
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in
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ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Mis
siss
ippi
sto
ring
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
MIS
SOU
RI
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1L
AR
OC
HE
IN
DU
STR
IES,
IN
C. C
RY
STA
L C
ITY
OPE
RA
TIO
NS
FEST
US
60,0
12,5
70A
mm
onia
(an
hydr
ous)
2
CF
IND
UST
RIE
S, I
NC
. - P
AL
MY
RA
TE
RM
INA
LPA
LM
YR
A60
,000
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Am
mon
ia (
anhy
drou
s)
3IC
I E
XPL
OSI
VE
S U
SA I
NC
JOPL
IN2,
103,
500
Am
mon
ia (
anhy
drou
s)
4D
YN
O N
OB
EL
, IN
C.
LO
UIS
IAN
A1,
600,
000
Am
mon
ia (
anhy
drou
s)
5H
ER
CU
LE
S IN
CO
RPO
RA
TE
D -
MC
W P
LA
NT
LO
UIS
IAN
A1,
500,
000
Form
alde
hyde
(so
lutio
n)
6
DPC
EN
TE
RPR
ISE
SFE
STU
S1,
000,
000
Chl
orin
e
7
BA
YE
R, A
GR
ICU
LT
UR
E D
IVIS
ION
KA
NSA
S C
ITY
509,
000
Car
bon
disu
lfid
e
8
KA
NSA
S C
ITY
FO
AM
RIV
ER
SID
E42
9,56
2T
olue
ne d
iisoc
yana
te (
unsp
ecif
ied
isom
er)
9K
AN
SAS
CIT
Y, M
ISSO
UR
I W
AT
ER
TR
EA
TM
EN
T P
LA
NT
KA
NSA
S C
ITY
426,
000
Chl
orin
e
10
JOH
NSO
N C
ON
TR
OL
S, I
NC
JEFF
ER
SON
CIT
Y42
0,00
0T
olue
ne d
iisoc
yana
te (
unsp
ecif
ied
isom
er)
11G
LA
SGO
W C
OO
P A
SSN
. GL
ASG
OW
BR
AN
CH
GL
ASG
OW
390,
000
Am
mon
ia (
anhy
drou
s)
12C
RA
IG S
UPP
LY
CO
.C
RA
IG37
5,60
0A
mm
onia
(an
hydr
ous)
13
AN
HE
USE
R-B
USC
H, I
NC
. ST
. LO
UIS
BR
EW
ER
YST
. LO
UIS
340,
000
Am
mon
ia (
anhy
drou
s)
14T
YSO
N F
OO
DS,
IN
C S
ED
AL
IA, M
O.
SED
AL
IA31
9,96
1A
mm
onia
(an
hydr
ous)
15
AR
CH
IMIC
A (
MIS
SOU
RI)
IN
C.
SPR
ING
FIE
LD
312,
100
Bro
min
e
16
DY
NO
NO
BE
L C
AR
TH
AG
E P
LA
NT
CA
RT
HA
GE
300,
000
Nitr
ic a
cid
(con
c >
=80
%)
17
LIN
CO
LN
CO
UN
TY
FA
RM
ER
S C
OO
PT
RO
Y28
0,00
0A
mm
onia
(an
hydr
ous)
18
BR
EH
ME
R F
ER
TIL
IZE
R S
ER
VIC
ES
DE
XT
ER
280,
000
Am
mon
ia (
anhy
drou
s)
19B
UC
KM
AN
LA
BO
RA
TO
RIE
S, I
NC
OR
POR
AT
ED
CA
DE
T27
0,00
0C
arbo
n di
sulf
ide
20T
AN
NE
R I
ND
UST
RIE
S, I
NC
.N
EO
SHO
260,
400
Am
mon
ia (
anhy
drou
s)
21C
ON
SUM
ER
S O
IL C
OM
PAN
Y, I
NC
.M
AR
YV
ILL
E26
0,00
0A
mm
onia
(an
hydr
ous)
22
ST. L
OU
IS C
OU
NT
Y W
AT
ER
CO
MPA
NY
CE
NT
RA
L P
LA
NT
ST. L
OU
IS26
0,00
0C
hlor
ine
23B
IOK
YO
WA
, IN
C.
CA
PE G
IRA
RD
EA
U25
0,00
0A
mm
onia
(an
hydr
ous)
24
RIC
KE
TT
S FA
RM
SE
RV
ICE
, IN
C A
NH
YD
RO
US
AM
MO
NIA
PL
AN
TSA
LIS
BU
RY
244,
950
Am
mon
ia (
anhy
drou
s)
25M
AC
ZU
K -
BR
UN
SWIC
KB
RU
NSW
ICK
233,
660
Am
mon
ia (
anhy
drou
s)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Mis
sour
i sto
ring
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
MO
NT
AN
A
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1M
ON
TA
NA
SU
LPH
UR
& C
HE
MIC
AL
CO
MPA
NY
NE
OF
BIL
LIN
GS
3,08
0,00
0H
ydro
gen
sulf
ide
2B
OR
DE
N C
HE
MIC
AL
, IN
C.,
MIS
SOU
LA
PL
AN
TM
ISSO
UL
A1,
100,
000
Form
alde
hyde
(so
lutio
n)
3
DPC
IN
DU
STR
IES,
IN
C.
BIL
LIN
GS
500,
000
Chl
orin
e
4
MO
UN
TA
IN V
IEW
- C
O-O
P -
DU
TT
ON
EL
EV
AT
OR
DU
TT
ON
300,
000
Am
mon
ia (
anhy
drou
s)
5C
EN
EX
HA
RV
EST
ST
AT
ES-
CH
EST
ER
CH
EST
ER
280,
000
Am
mon
ia (
anhy
drou
s)
6A
G G
RA
IN, I
NC
. @ P
LE
NT
YW
OO
D M
ON
TA
NA
PLE
NT
YW
OO
D24
0,76
2A
mm
onia
(an
hydr
ous)
7
JUPI
TE
R S
UL
PHU
R, L
LC
. - B
ILL
ING
SB
ILL
ING
S22
0,00
0A
mm
onia
(an
hydr
ous)
8
BO
OT
LE
GG
ER
PL
AN
TN
. OF
GR
EA
T F
AL
LS
180,
000
Am
mon
ia (
anhy
drou
s)
9H
IGH
WO
OD
PL
AN
TN
. OF
HIG
HW
OO
D18
0,00
0A
mm
onia
(an
hydr
ous)
10
MO
UN
TA
IN V
IEW
CO
-OP
- PO
WE
RPO
WE
R15
0,00
0A
mm
onia
(an
hydr
ous)
11
MO
UN
TA
IN V
IEW
CO
-OP
- B
RA
DY
BR
AD
Y15
0,00
0A
mm
onia
(an
hydr
ous)
12
LE
WIS
TO
WN
PR
OPA
NE
& F
ER
TIL
IZE
R C
O-W
INIF
RE
D P
LA
NT
WIN
IFR
ED
149,
175
Am
mon
ia (
anhy
drou
s)
13C
EN
EX
HA
RV
EST
ST
AT
ES-
CO
NR
AD
CO
NR
AD
140,
000
Am
mon
ia (
anhy
drou
s)
14C
EN
EX
HA
RV
EST
ST
AT
ES-
CH
OT
EA
UC
HO
TE
AU
140,
000
Am
mon
ia (
anhy
drou
s)
15C
EN
EX
HA
RV
EST
ST
AT
ES-
SUN
BU
RST
SUN
BU
RST
140,
000
Am
mon
ia (
anhy
drou
s)
16C
EN
EX
HA
RV
EST
ST
AT
ES-
HA
VR
EH
AV
RE
140,
000
Am
mon
ia (
anhy
drou
s)
17C
EN
EX
HA
RV
EST
ST
AT
ES-
WIN
IFR
ED
WIN
IFR
ED
140,
000
Am
mon
ia (
anhy
drou
s)
18C
EN
EX
HA
RV
EST
ST
AT
ES-
BR
OA
DV
IEW
BR
OA
DV
IEW
140,
000
Am
mon
ia (
anhy
drou
s)
19C
EN
EX
HA
RV
EST
ST
AT
ES-
VA
LIE
RV
AL
IER
140,
000
Am
mon
ia (
anhy
drou
s)
20C
EN
EX
HA
RV
EST
ST
AT
ES-
CH
EST
ER
(L
EA
SED
)C
HE
STE
R14
0,00
0A
mm
onia
(an
hydr
ous)
21
CE
NE
X H
AR
VE
ST S
TA
TE
S-C
UT
BA
NK
CU
T B
AN
K14
0,00
0A
mm
onia
(an
hydr
ous)
22
CE
NE
X H
AR
VE
ST S
TA
TE
S-R
UD
YA
RD
RU
DY
AR
D14
0,00
0A
mm
onia
(an
hydr
ous)
23
AG
WIS
E, I
NC
.K
RE
ML
IN13
8,00
0A
mm
onia
(an
hydr
ous)
24
UA
P N
OR
TH
WE
ST, B
IG S
AN
DY
BIG
SA
ND
Y13
5,00
0A
mm
onia
(an
hydr
ous)
25
UA
P N
OR
TH
WE
ST, C
HE
STE
RH
AV
RE
134,
000
Am
mon
ia (
anhy
drou
s)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Mon
tana
sto
ring
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
NE
BR
ASK
A
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1FA
RM
LA
ND
IN
DU
STR
IES,
IN
C. -
HA
STIN
GS
TE
RM
INA
LH
AST
ING
S14
0,00
0,00
0A
mm
onia
(an
hydr
ous)
2
WT
-11
DA
VID
CIT
Y T
ER
MIN
AL
DA
VID
CIT
Y14
0,00
0,00
0A
mm
onia
(an
hydr
ous)
3
WT
-12
AU
RO
RA
TE
RM
INA
LA
UR
OR
A14
0,00
0,00
0A
mm
onia
(an
hydr
ous)
4
FAR
ML
AN
D I
ND
UST
RIE
S, I
NC
., B
EA
TR
ICE
NIT
RO
GE
N P
LA
NT
BE
AT
RIC
E13
2,00
0,00
0A
mm
onia
(an
hydr
ous)
5
TE
RR
A N
ITR
OG
EN
LIM
ITE
D P
AR
TN
ER
SHIP
, BL
AIR
TE
RM
INA
LB
LA
IR10
0,00
0,00
0A
mm
onia
(an
hydr
ous)
6
FAR
ML
AN
D G
RE
EN
WO
OD
AM
MO
NIA
FA
CIL
ITY
GR
EE
NW
OO
D60
,000
,000
Am
mon
ia (
anhy
drou
s)
7A
GR
IUM
U.S
IN
C.
HO
ME
STE
AD
NIT
RO
GE
N O
PER
AT
ION
SB
EA
TR
ICE
40,4
00,0
00A
mm
onia
(an
hydr
ous)
8
CF
IND
UST
RIE
S, I
NC
. - F
RE
MO
NT
TE
RM
INA
LFR
EM
ON
T40
,000
,000
Am
mon
ia (
anhy
drou
s)
9PC
S N
ITR
OG
EN
FE
RT
ILIZ
ER
, L.P
. LA
PLA
TT
E P
LA
NT
LA
PLA
TT
E30
,000
,000
Am
mon
ia (
anhy
drou
s)
10C
F IN
DU
STR
IES,
IN
C. -
AU
RO
RA
TE
RM
INA
LA
UR
OR
A30
,000
,000
Am
mon
ia (
anhy
drou
s)
11C
AR
GIL
L A
GH
OR
IZO
NS
- H
OL
DR
EG
E W
HO
LE
SAL
EH
OL
DR
EG
E3,
000,
000
Am
mon
ia (
anhy
drou
s)
12C
EN
EX
/LA
ND
O’L
AK
ES
AG
RO
NO
MY
CE
NT
ER
- B
RU
LE
BR
UL
E3,
000,
000
Am
mon
ia (
anhy
drou
s)
13G
RA
NT
AN
HY
DR
OU
S A
MM
ON
IA P
LA
NT
GR
AN
T1,
956,
679
Am
mon
ia (
anhy
drou
s)
14V
EN
AN
GO
AN
HY
DR
OU
S A
MM
ON
IA P
LA
NT
VE
NA
NG
O1,
956,
679
Am
mon
ia (
anhy
drou
s)
15D
PC I
ND
UST
RIE
S, I
NC
.O
MA
HA
1,75
0,00
0C
hlor
ine
16C
EN
EX
/LA
ND
O’L
AK
ES
AG
RO
NO
MY
CE
NT
ER
- G
OT
HE
NB
UR
GG
OT
HE
NB
UR
G1,
500,
000
Am
mon
ia (
anhy
drou
s)
17PE
RR
Y F
ER
TIL
IZE
R P
LA
NT
MC
CO
OK
1,46
0,00
0A
mm
onia
(an
hydr
ous)
18
CE
NE
X/L
AN
D O
’LA
KE
S A
GR
ON
OM
Y C
EN
TE
R-
GR
AN
T (
MA
IN)
GR
AN
T1,
350,
000
Am
mon
ia (
anhy
drou
s)
19FA
RM
LA
ND
SE
RV
ICE
CO
OP
GO
TH
EN
BU
RG
GO
TH
EN
BU
RG
1,30
0,00
0A
mm
onia
(an
hydr
ous)
20
FAR
ML
AN
D I
ND
. IN
C.
GR
AN
T N
E.
GR
AN
T1,
115,
010
Am
mon
ia (
anhy
drou
s)
21C
EN
EX
/LA
ND
O’L
AK
ES
AG
RO
NO
MY
CE
NT
ER
- C
OZ
AD
CO
ZA
D1,
050,
000
Am
mon
ia (
anhy
drou
s)
22FA
RM
LA
ND
SE
RV
ICE
CO
OP
CO
ZA
DC
OZ
AD
880,
000
Am
mon
ia (
anhy
drou
s)
23C
EN
EX
/LA
ND
O’L
AK
ES
AG
RO
NO
MY
CE
NT
ER
- E
UST
ISE
UST
IS75
0,00
0A
mm
onia
(an
hydr
ous)
24
FRE
NC
HM
AN
VA
LL
EY
CO
OP
IMPE
RIA
L73
0,00
0A
mm
onia
(an
hydr
ous)
25
BA
TT
LE
CR
EE
K F
AR
ME
RS
CO
OPE
RA
TIV
E -
OSM
ON
D, N
EO
SMO
ND
692,
000
Am
mon
ia (
anhy
drou
s)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Neb
rask
a st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
NE
VA
DA
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1C
OA
STA
L C
HE
M, I
NC
. - B
AT
TL
E M
OU
NT
AIN
, NE
VA
DA
BA
TT
LE
MO
UN
TA
IN6,
100,
000
Am
mon
ia (
anhy
drou
s)
2T
ITA
NIU
M M
ET
AL
S C
OR
POR
AT
ION
HE
ND
ER
SON
5,00
0,00
0T
itani
um te
trac
hlor
ide
3
PIO
NE
ER
CH
LO
R A
LK
AL
I C
OM
PAN
Y I
NC
. - H
EN
DE
RSO
NH
EN
DE
RSO
N1,
536,
000
Chl
orin
e
4T
HA
TC
HE
R C
OM
PAN
Y O
F N
EV
AD
A, L
LC
HE
ND
ER
SON
540,
000
Chl
orin
e
5C
YA
NC
OW
INN
EM
UC
CA
410,
000
Am
mon
ia (
anhy
drou
s)
6SO
UT
HE
RN
NE
VA
DA
WA
TE
R S
YST
EM
BO
UL
DE
R C
ITY
204,
000
Chl
orin
e
7SI
ER
RA
CH
EM
ICA
L C
O.,
SPA
RK
SSP
AR
KS
202,
150
Chl
orin
e
8K
ER
R-M
CG
EE
CH
EM
ICA
L L
LC
(H
EN
DE
RSO
N, N
V)
HE
ND
ER
SON
200,
000
Bor
on tr
ichl
orid
e
9
TR
UC
KE
E M
EA
DO
WS
WA
TE
R R
EC
LA
MA
TIO
N F
AC
ILIT
YR
EN
O68
,000
Chl
orin
e
10SA
GU
AR
O P
OW
ER
CO
MPA
NY
HE
ND
ER
SON
51,2
37A
mm
onia
(an
hydr
ous)
11
GO
OD
HU
MO
R C
OR
POR
AT
ION
HE
ND
ER
SON
HE
ND
ER
SON
48,0
00A
mm
onia
(an
hydr
ous)
12
AD
VA
NC
ED
SPE
CIA
LT
Y G
ASE
SD
AY
TO
N36
,000
Hyd
roge
n fl
uori
de (
conc
>=
50%
)
13U
S FO
OD
SER
VIC
E -
LA
S V
EG
AS
NO
RT
H L
AS
VE
GA
S24
,000
Am
mon
ia (
anhy
drou
s)
14PO
OL
CH
LO
R O
F N
EV
AD
A I
NC
.L
AS
VE
GA
S16
,000
Chl
orin
e
15N
EV
AD
A C
HE
MIC
AL
CO
MPA
NY
LA
S V
EG
AS
16,0
00C
hlor
ine
16
LA
S V
EG
AS
ICE
& C
OL
D S
TO
RA
GE
CO
., IN
C.
LA
S V
EG
AS
13,6
00A
mm
onia
(an
hydr
ous)
17
HA
WT
HO
RN
E A
RM
Y D
EPO
TH
AW
TH
OR
NE
4,30
0C
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18
NE
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ned
by th
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nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
Fac
iliti
es in
Nev
ada
stor
ing
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
NE
W H
AM
PSH
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Fac
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Nam
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ity
Max
imum
am
ount
in a
si
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PS
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gen
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*Ext
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s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
Fac
iliti
es in
New
Ham
pshi
re s
tori
ng t
he la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
NE
W J
ER
SEY
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
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bs)
Che
mic
al
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EN
ER
AL
CH
EM
ICA
L C
OR
POR
AT
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min
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lfur
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cid)
2
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.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
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25
Fac
iliti
es in
New
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sey
stor
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the
larg
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amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
NE
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EX
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Fac
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Nam
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ity
Max
imum
am
ount
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si
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Che
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.S. E
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onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
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Act
, Sec
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r).
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25
Fac
iliti
es in
New
Mex
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stor
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est
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nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
NE
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OR
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Fac
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Nam
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ity
Max
imum
am
ount
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cess
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Che
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CH
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AR
A F
AL
LS
WA
STE
WA
TE
R T
RE
AT
ME
NT
PL
AN
TN
IAG
AR
A F
AL
LS
180,
000
Chl
orin
e
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
New
Yor
k st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
NO
RT
H C
AR
OL
INA
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1B
OR
DE
N C
HE
MIC
AL
, IN
C.,
FA
YE
TT
EV
ILL
E P
LA
NT
FAY
ET
TE
VIL
LE
3,00
0,00
0Fo
rmal
dehy
de (
solu
tion)
2N
EST
E R
ESI
NS
CO
RPO
RA
TIO
N -
MO
NC
UR
E, N
CM
ON
CU
RE
2,46
7,50
0Fo
rmal
dehy
de (
solu
tion)
3V
ITA
FOA
M I
NC
OR
POR
AT
ED
- O
LY
MPI
C P
LA
NT
GR
EE
NSB
OR
O2,
040,
000
Tol
uene
diis
ocya
nate
(un
spec
ifie
d is
omer
)
4
WIL
MIN
GT
ON
FA
CIL
ITY
WIL
MIN
GT
ON
2,00
0,00
0O
leum
(Fu
min
g Su
lfur
ic a
cid)
5
WR
IGH
T C
HE
MIC
AL
CO
RPO
RA
TIO
NR
IEG
EL
WO
OD
1,70
0,00
0Fo
rmal
dehy
de (
solu
tion)
6G
EO
RG
IA-P
AC
IFIC
RE
SIN
S, I
NC
.D
EN
TO
N98
6,80
0Fo
rmal
dehy
de (
solu
tion)
7T
RIN
ITY
MA
NU
FAC
TU
RIN
G, I
NC
.H
AM
LE
T90
0,00
0C
hlor
ine
8E
LIZ
AB
ET
H C
ITY
EL
IZA
BE
TH
CIT
Y79
9,20
0A
mm
onia
(co
nc >
=20
%)
9L
AR
OC
HE
IN
DU
STR
IES
INC
.C
ON
CO
RD
741,
015
Am
mon
ia (
anhy
drou
s)
10JC
I JO
NE
S C
HE
MIC
AL
S, I
NC
. - C
HA
RL
OT
TE
PL
AN
TC
HA
RL
OT
TE
720,
000
Chl
orin
e
11
RO
YST
ER
-CL
AR
K, I
NC
. S
HA
WB
OR
O #
1SH
AW
BO
RO
510,
000
Am
mon
ia (
anhy
drou
s)
12V
ITA
FOA
M I
NC
OR
POR
AT
ED
- H
IGH
PO
INT
HIG
H P
OIN
T50
9,00
0T
olue
ne d
iisoc
yana
te (
unsp
ecif
ied
isom
er)
13SM
ITH
FIE
LD
PA
CK
ING
CO
. (T
AR
HE
EL
)T
AR
HE
EL
460,
000
Am
mon
ia (
anhy
drou
s)
14R
OH
M A
ND
HA
AS
CO
MPA
NY
- C
HA
RL
OT
TE
PL
AN
TC
HA
RL
OT
TE
420,
000
Vin
yl a
ceta
te m
onom
er
15FO
AM
EX
L.P
.C
ON
OV
ER
400,
000
Tol
uene
diis
ocya
nate
(un
spec
ifie
d is
omer
)
16
PCS
PHO
SPH
AT
E C
O.,
INC
.A
UR
OR
A39
0,00
0A
mm
onia
(an
hydr
ous)
17
RO
YST
ER
-CL
AR
K, I
NC
. W
ILM
ING
TO
NW
ILM
ING
TO
N36
8,00
0A
mm
onia
(an
hydr
ous)
18
HA
RV
IN R
EA
CT
ION
TE
CH
NO
LO
GY
, IN
C.
GR
EE
NSB
OR
O34
4,00
0Pr
opyl
ene
oxid
e
19
MA
LL
INC
KR
OD
T I
NC
.R
AL
EIG
H29
3,76
0A
mm
onia
(an
hydr
ous)
20
HE
NK
EL
CO
RPO
RA
TIO
N/C
HA
RL
OT
TE
, NC
MFG
. PL
AN
TCH
AR
LO
TT
E29
0,00
0E
thyl
ene
oxid
e
21IN
TE
RN
AT
ION
AL
PA
PER
CO
MPA
NY
- R
IEG
EL
WO
OD
MR
IEG
EL
WO
OD
280,
600
Sulf
ur d
ioxi
de (
anhy
drou
s)
22H
IGH
PO
INT
CH
EM
ICA
L C
OR
POR
AT
ION
HIG
H P
OIN
T28
0,00
0E
thyl
ene
oxid
e
23C
AR
PEN
TE
R C
O.,
CO
NO
VE
R D
IVIS
ION
CO
NO
VE
R28
0,00
0T
olue
ne d
iisoc
yana
te (
unsp
ecif
ied
isom
er)
24SO
UT
HE
RN
ST
AT
ES
CO
OP-
ST
AT
ESV
ILL
E, N
C (
5900
)ST
AT
ESV
ILL
E26
0,10
0A
mm
onia
(an
hydr
ous)
25
WIL
SON
WIL
SON
236,
060
Am
mon
ia (
conc
>=
20%
)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Nor
th C
arol
ina
stor
ing
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
NO
RT
H D
AK
OT
A
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1C
F IN
DU
STR
IES,
IN
C. -
GR
AN
D F
OR
KS
TE
RM
INA
LG
RA
ND
FO
RK
S12
0,00
0,00
0A
mm
onia
(an
hydr
ous)
2
AG
RIU
M U
.S. I
NC
. LE
AL
TE
RM
INA
LR
OG
ER
S80
,600
,000
Am
mon
ia (
conc
>=
20%
)
3G
RE
AT
PL
AIN
S SY
NFU
EL
S PL
AN
TB
EU
LA
H65
,455
,000
Am
mon
ia (
anhy
drou
s)
4C
F IN
DU
STR
IES,
IN
C. -
VE
LV
A T
ER
MIN
AL
VE
LV
A60
,000
,000
Am
mon
ia (
anhy
drou
s)
5C
AR
GIL
L I
NC
OR
POR
AT
ED
LA
KO
TA
660,
000
Am
mon
ia (
anhy
drou
s)
6SO
UR
IS N
H3
PLA
NT
SOU
RIS
480,
000
Am
mon
ia (
anhy
drou
s)
7N
EW
BU
RG
FE
RT
ILIZ
ER
PL
AN
TN
EW
BU
RG
400,
000
Am
mon
ia (
anhy
drou
s)
8FI
NL
EY
FA
RM
ER
S G
RA
IN A
ND
EL
EV
AT
OR
CO
MPA
NY
FIN
LE
Y36
0,00
0A
mm
onia
(an
hydr
ous)
9
GW
INN
ER
FA
CIL
ITY
GW
INN
ER
343,
848
Am
mon
ia (
anhy
drou
s)
10O
AK
ES
FAC
ILIT
Y, S
TA
TIO
N #
28O
AK
ES
340,
000
Am
mon
ia (
anhy
drou
s)
11K
RA
ME
R N
H3
PLA
NT
KR
AM
ER
340,
000
Am
mon
ia (
anhy
drou
s)
12S&
S A
GR
I SE
RV
ICE
, IN
C.
PET
ER
SBU
RG
320,
000
Am
mon
ia (
anhy
drou
s)
13D
AK
OT
A Q
UA
LIT
Y G
RA
IN C
OO
PER
AT
IVE
-PA
RSH
AL
L, N
DPA
RSH
AL
L30
0,00
0A
mm
onia
(an
hydr
ous)
14
KE
NM
AR
E A
NH
YD
RO
US
PLA
NT
KE
NM
AR
E30
0,00
0A
mm
onia
(an
hydr
ous)
15
MO
TT
EQ
UIT
Y E
XC
HA
NG
EM
OT
T29
8,56
0A
mm
onia
(an
hydr
ous)
16
FAR
ME
RS
OIL
CO
MPA
NY
AN
HY
DR
OU
S PL
AN
T-C
OO
PER
STO
WN
CO
OPE
RST
OW
N29
8,56
0A
mm
onia
(an
hydr
ous)
17
RA
UB
AG
SE
RV
ICE
LL
CR
YD
ER
298,
350
Am
mon
ia (
anhy
drou
s)
18L
YN
CH
BU
RG
PL
AN
TD
UR
BIN
295,
000
Am
mon
ia (
anhy
drou
s)
19W
OO
DS
PLA
NT
LE
ON
AR
D29
5,00
0A
mm
onia
(an
hydr
ous)
20
OSN
AB
RO
CK
FA
RM
ER
S C
OO
P E
LE
VA
TO
RO
SNA
BR
OC
K29
3,48
0A
mm
onia
(an
hydr
ous)
21
SUN
PR
AIR
IE G
RA
IN-C
OT
EA
UC
OT
EA
U28
0,00
0A
mm
onia
(an
hydr
ous)
22
CE
NE
X H
AR
VE
ST S
TA
TE
S-H
OR
AC
EH
OR
AC
E28
0,00
0A
mm
onia
(an
hydr
ous)
23
CE
NE
X H
AR
VE
ST S
TA
TE
S-C
OU
RT
EN
AY
CO
UR
TE
NA
Y28
0,00
0A
mm
onia
(an
hydr
ous)
24
CR
YST
AL
CO
-OP
CR
YST
AL
270,
000
Am
mon
ia (
anhy
drou
s)
25FR
EG
IEN
’S F
ER
TIL
IZE
R I
NC
.JU
D27
0,00
0A
mm
onia
(an
hydr
ous)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Nor
th D
akot
a st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
OH
IO
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1PC
S N
ITR
OG
EN
OH
IO L
. P.
LIM
A12
5,93
8,20
0A
mm
onia
(an
hydr
ous)
2R
OY
STE
R-C
LA
RK
NIT
RO
GE
N, N
OR
TH
BE
ND
PL
AN
TN
OR
TH
BE
ND
36,0
00,0
00A
mm
onia
(an
hydr
ous)
3B
P C
HE
MIC
AL
S, I
NC
.L
IMA
25,7
37,4
60A
cryl
onitr
ile
4
BA
YE
R A
DD
YST
ON
OH
IO P
LA
NT
AD
DY
STO
N10
,000
,000
Acr
ylon
itrile
5V
ON
RO
LL
AM
ER
ICA
, IN
CE
AST
LIV
ER
POO
L8,
700,
000
Chl
orof
orm
6Q
UE
EN
CIT
Y T
ER
MIN
AL
S, I
NC
.C
INC
INN
AT
I5,
800,
000
Vin
yl a
ceta
te m
onom
er
7
DU
PON
T F
OR
T H
ILL
PL
AN
TN
OR
TH
BE
ND
2,00
0,00
0O
leum
(Fu
min
g Su
lfur
ic a
cid)
8A
RIS
TE
CH
CH
EM
ICA
L C
OR
POR
AT
ION
HA
VE
RH
ILL
1,72
0,00
0A
mm
onia
(an
hydr
ous)
9M
AR
SUL
EX
, IN
C. O
RE
GO
N R
EFI
NE
RY
SE
RV
ICE
SO
RE
GO
N1,
200,
000
Ole
um (
Fum
ing
Sulf
uric
aci
d)
10
TO
ME
N A
GR
O, I
NC
.PE
RR
Y1,
080,
000
Chl
orin
e
11
NE
STE
RE
SIN
S C
OR
POR
AT
ION
- T
OL
ED
O, O
HT
OL
ED
O1,
048,
310
Form
alde
hyde
(so
lutio
n)
12D
OW
CH
EM
ICA
L C
OM
PAN
YIR
ON
TO
N91
2,00
0A
cryl
onitr
ile
13
JCI
JON
ES
CH
EM
ICA
LS,
IN
C.-
BA
RB
ER
TO
N, O
HIO
BA
RB
ER
TO
N90
0,00
0C
hlor
ine
14M
ILL
CR
EE
K W
WT
PC
INC
INN
AT
I72
0,00
0C
hlor
ine
15FR
AN
KL
IN I
NT
ER
NA
TIO
NA
L -
PO
LY
ME
R D
IVIS
ION
CO
LU
MB
US
700,
220
Vin
yl a
ceta
te m
onom
er
16
TA
NN
ER
IN
DU
STR
IES,
IN
C.
PAIN
ESV
ILL
E67
6,00
0A
mm
onia
(an
hydr
ous)
17SC
OT
T E
QU
ITY
EX
CH
AN
GE
CO
. - V
AN
WE
RT
BR
AN
CH
VA
N W
ER
T63
6,66
6A
mm
onia
(an
hydr
ous)
18A
K S
TE
EL
CO
RPO
RA
TIO
NM
IDD
LE
TO
WN
625,
320
Am
mon
ia (
anhy
drou
s)
19
WE
NSI
NK
FA
RM
SE
ED
S , I
NC
MO
NR
OE
VIL
LE
575,
000
Am
mon
ia (
anhy
drou
s)
20
H.B
. FU
LL
ER
-B
LU
E A
SH P
LA
NT
BL
UE
ASH
560,
000
Vin
yl a
ceta
te m
onom
er
21
MA
TL
AC
K B
UL
K I
NT
ER
MO
DA
L S
ER
VIC
ES
(DB
A)
MB
ISFA
IRPO
RT
HA
RB
OR
540,
000
Hyd
roge
n fl
uori
de (
conc
>=
50%
)
22
DO
VE
R C
HE
MIC
AL
CO
RPO
RA
TIO
ND
OV
ER
540,
000
Chl
orin
e
23
NY
LO
NG
E C
OR
POR
AT
ION
EL
YR
IA49
8,20
0C
arbo
n di
sulf
ide
24
TH
E G
LID
DE
N C
OM
PAN
YH
UR
ON
468,
720
Vin
yl a
ceta
te m
onom
er
25
BFG
OO
DR
ICH
PE
RFO
RM
AN
CE
MA
TE
RIA
LS
AK
RO
N P
LA
NT
AK
RO
N45
0,00
0A
cryl
onitr
ile
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Ohi
o st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
OK
LA
HO
MA
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1FA
RM
LA
ND
IN
DU
STR
IES,
IN
C.,
EN
ID N
ITR
OG
EN
PL
AN
TE
NID
120,
000,
000
Am
mon
ia (
anhy
drou
s)
2
TE
RR
A N
ITR
OG
EN
CO
MPA
NY
, WO
OD
WA
RD
PL
AN
TW
OO
DW
AR
D80
,000
,000
Am
mon
ia (
anhy
drou
s)
3
TE
RR
A N
ITR
OG
EN
LIM
ITE
D P
AR
TN
ER
SHIP
,VE
RD
IGR
IS P
LA
NT
CL
AR
EM
OR
E62
,000
,000
Am
mon
ia (
anhy
drou
s)
4
AD
VA
NC
E C
HE
MIC
AL
DIS
TR
IBU
TIO
N, I
NC
. (N
)N
OW
AT
A70
0,00
0C
hlor
ine
5A
DV
AN
CE
CH
EM
ICA
L D
IST
RIB
UT
ION
, IN
C. (
PC)
CA
TO
OSA
600,
000
Chl
orin
e
6
JUPI
TE
R S
UL
PHU
R, L
LC
- P
ON
CA
CIT
Y F
AC
ILIT
YPO
NC
A C
ITY
393,
975
Am
mon
ia (
anhy
drou
s)
7
CO
NO
CO
RE
FIN
ER
Y, P
ON
CA
CIT
Y, O
KL
APO
NC
A C
ITY
360,
000
Hyd
roge
n fl
uori
de (
conc
>=
50%
)
8
FAR
ME
RS
GR
AIN
CO
MPA
NY
PON
D C
RE
EK
329,
600
Am
mon
ia (
anhy
drou
s)
9
TO
DD
S’ E
LE
VA
TO
RG
EA
RY
316,
000
Am
mon
ia (
anhy
drou
s)
10
FAR
ME
RS
GR
AIN
CO
MPA
NY
KR
EM
LIN
306,
425
Am
mon
ia (
anhy
drou
s)
11
BA
KE
R P
ET
RO
LIT
E C
OR
POR
AT
ION
- S
AN
D S
PRIN
GS
PLA
NT
SAN
D S
PRIN
GS
300,
000
Prop
ylen
e ox
ide
12
HO
OK
ER
EQ
UIT
Y E
XC
HA
NG
EH
OO
KE
R29
6,56
4A
mm
onia
(an
hydr
ous)
13FA
RM
ER
S C
OO
PER
AT
IVE
EL
EV
AT
OR
& S
UPP
LY
CO
.B
EN
DE
R28
0,16
0A
mm
onia
(an
hydr
ous)
14B
LA
CK
WE
LL
CO
OPE
RA
TIV
E E
LE
VA
TO
R A
SSO
CIA
TIO
NB
LA
CK
WE
LL
262,
650
Am
mon
ia (
anhy
drou
s)
15
FAR
ME
RS
CO
OPE
RA
TIV
E E
LE
VA
TO
R &
SU
PPL
Y C
O.
KIL
DA
RE
262,
650
Am
mon
ia (
anhy
drou
s)
16
NO
RT
H C
AD
DO
CO
OPE
RA
TIV
EH
INT
ON
260,
000
Am
mon
ia (
anhy
drou
s)
17
CO
OP
SER
VIC
ES
INC
., C
HA
TT
AN
OO
GA
CH
AT
TA
NO
OG
A26
0,00
0A
mm
onia
(an
hydr
ous)
18U
NIT
ED
CO
OPE
RA
TIV
E I
NC
MA
RSH
AL
L26
0,00
0A
mm
onia
(an
hydr
ous)
19ST
AT
E L
INE
GR
AIN
CO
MPA
NY
MA
NC
HE
STE
R26
0,00
0A
mm
onia
(an
hydr
ous)
20C
RE
SCE
NT
CO
OPE
RA
TIV
E A
SSO
CIA
TIO
NC
RE
SCE
NT
260,
000
Am
mon
ia (
anhy
drou
s)
21
PER
RY
TO
N E
QU
ITY
EX
CH
AN
GE
- T
UR
PIN
OK
LA
HO
MA
BR
AN
CH
TU
RPI
N25
1,27
7A
mm
onia
(an
hydr
ous)
22FA
RM
ER
S C
OO
PER
AT
IVE
MIL
L A
ND
EL
EV
AT
OR
, CA
RN
EG
IEC
AR
NE
GIE
250,
000
Am
mon
ia (
anhy
drou
s)
23
FAR
ME
RS
CO
OPE
RA
TIV
E A
SSO
CIA
TIO
NPO
NC
A C
ITY
245,
140
Am
mon
ia (
anhy
drou
s)
24
FAR
ME
RS
CO
OPE
RA
TIV
E A
SSO
CIA
TIO
NPE
RR
Y24
5,14
0A
mm
onia
(an
hydr
ous)
25E
LK
HA
RT
CO
OP
KE
YE
S B
RA
NC
HK
EY
ES
240,
000
Am
mon
ia (
anhy
drou
s)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Okl
ahom
a st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
OR
EG
ON
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1R
IVE
RG
AT
E T
ER
MIN
AL
POR
TL
AN
D10
1,00
0,00
0A
mm
onia
(an
hydr
ous)
2C
OA
STA
L S
T. H
EL
EN
S C
HE
MIC
AL
ST. H
EL
EN
S3,
300,
000
Am
mon
ia (
anhy
drou
s)
3
OR
EM
ET
WA
H C
HA
NG
-NO
RT
H P
LA
NT
AL
BA
NY
1,80
0,00
0C
hlor
ine
4N
EST
E R
ESI
NS
CO
RPO
RA
TIO
N -
SPR
ING
FIE
LD
, OR
SPR
ING
FIE
LD
1,66
0,74
6Fo
rmal
dehy
de (
solu
tion)
5
OR
EM
ET
-WA
H C
HA
NG
SO
UT
H C
AM
PUS
AL
BA
NY
1,30
0,00
0T
itani
um te
trac
hlor
ide
6G
EO
RG
IA-P
AC
IFIC
RE
SIN
S, I
NC
.A
LB
AN
Y1,
200,
000
Form
alde
hyde
(so
lutio
n)
7PE
ND
LE
TO
N G
RA
IN G
RO
WE
RS-
MC
KE
NN
ON
ST
AT
ION
PEN
DL
ET
ON
810,
000
Am
mon
ia (
anhy
drou
s)
8
BO
RD
EN
CH
EM
ICA
L, I
NC
., SP
RIN
GFI
EL
D P
LA
NT
SPR
ING
FIE
LD
800,
000
Form
alde
hyde
(so
lutio
n)
9B
OIS
E C
ASC
AD
EST
. HE
LE
NS
720,
000
Chl
orin
e
10
POPE
& T
AL
BO
T, I
NC
. HA
LSE
Y P
UL
P M
ILL
HA
LSE
Y72
0,00
0C
hlor
ine
11B
OR
DE
N C
HE
MIC
AL
, IN
C. -
LA
GR
AN
DE
PL
AN
TL
A G
RA
ND
E51
0,00
0Fo
rmal
dehy
de (
solu
tion)
12
TID
EW
AT
ER
UM
AT
ILL
A T
ER
MIN
AL
UM
AT
ILL
A43
5,00
0A
mm
onia
(an
hydr
ous)
13T
HE
AM
AL
GA
MA
TE
D S
UG
AR
CO
MPA
NY
, LL
CN
YSS
A36
0,00
0Su
lfur
dio
xide
(an
hydr
ous)
14SI
MPS
ON
TIM
BE
R C
OM
PAN
Y, O
RE
GO
N O
VE
RL
AY
S D
IVIS
ION
POR
TL
AN
D34
0,00
0Fo
rmal
dehy
de (
solu
tion)
15
WIL
CO
FA
RM
ER
SST
AY
TO
N32
0,00
0A
mm
onia
(an
hydr
ous)
16H
ER
CU
LE
S IN
CO
RPO
RA
TE
D -
- PO
RT
LA
ND
PL
AN
TPO
RT
LA
ND
307,
700
Epi
chlo
rohy
drin
17W
EST
ER
N F
AR
M S
ER
VIC
E, L
AG
RA
ND
EL
AG
RA
ND
E30
0,00
0A
mm
onia
(co
nc >
=20
%)
18
CE
NE
X/L
AN
D O
’LA
KE
S A
GR
ON
OM
Y C
EN
TE
R -
HA
RR
ISB
UR
GH
AR
RIS
BU
RG
300,
000
Am
mon
ia (
anhy
drou
s)
19
GE
OR
GIA
-PA
CIF
IC R
ESI
NS,
IN
C.
WH
ITE
CIT
Y24
7,82
0Fo
rmal
dehy
de (
solu
tion)
20
EL
F A
TO
CH
EM
NO
RT
H A
ME
RIC
A, I
NC
.PO
RT
LA
ND
220,
000
Chl
orin
e
21
GE
OR
GIA
-PA
CIF
IC R
ESI
NS,
IN
C.
EU
GE
NE
195,
500
Form
alde
hyde
(so
lutio
n)
22W
EST
ER
N F
AR
M S
ER
VIC
E, A
TH
EN
AA
TH
EN
A19
0,00
0A
mm
onia
(co
nc >
=20
%)
23
OR
EG
ON
CH
ER
RY
GR
OW
ER
S, I
NC
- T
HE
DA
LL
ES
TH
E D
AL
LE
S18
0,00
0Su
lfur
dio
xide
(an
hydr
ous)
24O
RE
GO
N C
HE
RR
Y G
RO
WE
RS,
IN
C. -
SA
LE
MSA
LE
M18
0,00
0Su
lfur
dio
xide
(an
hydr
ous)
25C
ASC
AD
E F
RU
IT C
OM
PAN
YT
HE
DA
LL
ES
180,
000
Sulf
ur d
ioxi
de (
anhy
drou
s)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Ore
gon
stor
ing
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
PEN
NSY
LV
AN
IA
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1D
YN
O N
OB
EL
IN
C. (
DO
NO
RA
PL
AN
T)
DO
NO
RA
18,0
22,5
28A
mm
onia
(an
hydr
ous)
2
WE
LL
AN
D C
HE
MIC
AL
, IN
C.
NE
WE
LL
17,6
14,2
40A
mm
onia
(an
hydr
ous)
3
IND
SPE
C C
HE
MIC
AL
CO
RPO
RA
TIO
NPE
TR
OL
IA2,
524,
100
Ole
um (
Fum
ing
Sulf
uric
aci
d)
4SU
NO
CO
, IN
C. (
R&
M)
MA
RC
US
HO
OK
RE
FIN
ER
YM
AR
CU
S H
OO
K2,
300,
000
Eth
ylen
e ox
ide
5R
HO
DIA
IN
C. M
OR
RIS
VIL
LE
PL
AN
TM
OR
RIS
VIL
LE
1,60
0,00
0Ph
osph
orus
tric
hlor
ide
6FL
EX
SYS
AM
ER
ICA
L.P
.M
ON
ON
GA
HE
LA
1,48
2,00
0C
arbo
n di
sulf
ide
7
FOA
ME
X E
DD
YST
ON
E P
LA
NT
ED
DY
STO
NE
1,29
1,80
0T
olue
ne d
iisoc
yana
te (
unsp
ecif
ied
isom
er)
8T
AN
NE
R I
ND
UST
RIE
S, I
NC
.PH
ILA
DE
LPH
IA1,
240,
000
Am
mon
ia (
conc
>=
20%
)
9JA
ME
S A
UST
IN C
OM
PAN
YM
AR
S72
0,00
0C
hlor
ine
10C
HE
MPL
Y D
IV. O
F E
+E
(U
S) I
NC
.B
UN
OL
A70
4,00
0C
hlor
ine
11L
AR
OC
HE
IN
DU
STR
IES
INC
.D
ON
OR
A70
2,07
8A
mm
onia
(an
hydr
ous)
12
MA
NL
EY
-RE
GA
N C
HE
MIC
AL
S D
IV. O
F E
+E
(U
S) I
NC
.M
IDD
LE
TO
WN
690,
000
Chl
orin
e
13
FOA
ME
X C
OR
RY
PL
AN
TC
OR
RY
590,
000
Tol
uene
diis
ocya
nate
(un
spec
ifie
d is
omer
)
14
SAM
UE
L S
. BA
XT
ER
WA
TE
R T
RE
AT
ME
NT
PL
AN
TPH
ILA
DE
LPH
IA54
0,00
0C
hlor
ine
15L
ON
ZA
IN
C.
WIL
LIA
MSP
OR
T54
0,00
0C
hlor
ine
16O
CC
IDE
NT
AL
CH
EM
ICA
L C
OR
P. -
PO
TT
STO
WN
PL
AN
TPO
TT
STO
WN
412,
600
Vin
yl a
ceta
te m
onom
er
17
SUN
OC
O, I
NC
. (R
&M
) -
PHIL
AD
EL
PHIA
RE
FIN
ER
YPH
ILA
DE
LPH
IA40
0,00
0H
ydro
gen
fluo
ride
(co
nc >
=50
%)
18R
OH
M A
ND
HA
AS
PHIL
AD
EL
PHIA
PL
AN
TPH
ILA
DE
LPH
IA38
0,00
0O
leum
(Fu
min
g Su
lfur
ic a
cid)
19
APP
LE
TO
N P
APE
RS
INC
. - S
PRIN
G M
ILL
RO
AR
ING
SPR
ING
360,
000
Chl
orin
e
20
TA
NN
ER
IN
DU
STR
IES,
IN
C.
MO
RR
ISV
ILL
E31
6,00
0A
mm
onia
(an
hydr
ous)
21
LE
BA
NO
N C
HE
MIC
AL
CO
RPO
RA
TIO
N -
LE
BA
NO
NL
EB
AN
ON
290,
000
Am
mon
ia (
anhy
drou
s)
22B
OR
DE
N C
HE
MIC
AL
, IN
C. -
MO
UN
T J
EW
ET
TM
T J
EW
ET
T27
0,00
0Fo
rmal
dehy
de (
solu
tion)
23A
RM
CO
IN
C B
UT
LE
R O
PER
AT
ION
S -
MA
IN P
LA
NT
BU
TL
ER
250,
000
Hyd
roge
n fl
uori
de (
conc
>=
50%
)
24
OSR
AM
SY
LV
AN
IA P
RO
DU
CT
S, I
NC
. TO
WA
ND
AT
OW
AN
DA
240,
000
Am
mon
ia (
conc
>=
20%
)
25C
AR
TE
X C
OR
POR
AT
ION
- F
AIR
LE
SS H
ILL
S PL
AN
TFA
IRL
ESS
HIL
LS
224,
000
Tol
uene
diis
ocya
nate
(un
spec
ifie
d is
omer
)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Pen
nsyl
vani
a st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
RH
OD
E I
SLA
ND
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1T
AN
NE
R I
ND
UST
RIE
S, I
NC
.E
AST
PR
OV
IDE
NC
E51
4,00
0A
mm
onia
(an
hydr
ous)
2
GE
OR
GE
MA
NN
& C
OM
PAN
Y, I
NC
.PR
OV
IDE
NC
E18
0,00
0C
hlor
ine
3C
LA
RIA
NT
CO
RPO
RA
TIO
N -
CO
VE
NT
RY
CO
VE
NT
RY
128,
000
Sulf
ur tr
ioxi
de
4A
IR P
RO
DU
CT
S A
ND
CH
EM
ICA
LS,
IN
C.
CU
MB
ER
LA
ND
115,
000
Epi
chlo
rohy
drin
5O
SRA
M S
YL
VA
NIA
PR
OD
UC
TS,
IN
C.
CE
NT
RA
L F
AL
LS
46,2
00H
ydro
gen
fluo
ride
(co
nc >
=50
%)
6A
. T. W
AL
L C
OM
PAN
YW
AR
WIC
K35
,356
Am
mon
ia (
anhy
drou
s)
7H
AY
ES
HE
AT
TR
EA
TIN
GC
RA
NST
ON
35,0
00A
mm
onia
(co
nc >
=20
%)
8
PAW
TU
CK
ET
PO
WE
RPA
WT
UC
KE
T27
,680
Am
mon
ia (
conc
>=
20%
)
9W
EST
WA
RW
ICK
RE
GIO
NA
L W
AST
EW
AT
ER
TR
EA
TM
EN
T F
AC
.W
EST
WA
RW
ICK
24,0
00C
hlor
ine
10PR
OV
IDE
NC
E W
AT
ER
TR
EA
TM
EN
T P
LA
NT
HO
PE24
,000
Chl
orin
e
11
TA
NN
ER
IN
DU
STR
IES,
IN
C.
EA
ST P
RO
VID
EN
CE
23,0
00A
mm
onia
(an
hydr
ous)
12
PAW
TU
CK
ET
WA
TE
R S
UPP
LY
BO
AR
DC
UM
BE
RL
AN
D18
,000
Chl
orin
e
13
SUPE
RV
AL
U, I
NC
.C
RA
NST
ON
17,0
00A
mm
onia
(an
hydr
ous)
14
WA
RW
ICK
WA
STE
WA
TE
R T
RE
AT
ME
NT
FA
CIL
ITY
WA
RW
ICK
14,0
00C
hlor
ine
15D
YST
AR
L.P
. - C
OV
EN
TR
YC
OV
EN
TR
Y12
,000
Chl
orin
e
16
BE
RC
EN
, IN
C.
CR
AN
STO
N10
,000
Form
alde
hyde
(so
lutio
n)
17
WO
ON
SOC
KE
T R
EG
ION
AL
WA
STE
WA
TE
R C
OM
MIS
SIO
NW
OO
NSO
CK
ET
6,00
0C
hlor
ine
18C
HA
RL
ES
HA
MM
AN
WA
TE
R T
RE
AT
ME
NT
PL
AN
TW
OO
NSO
CK
ET
5,25
0C
hlor
ine
19Q
UO
NSE
T P
OIN
T W
AST
EW
AT
ER
TR
EA
TM
EN
T F
AC
ILIT
YN
OR
TH
KIN
GST
OW
N4,
000
Chl
orin
e
20
WA
TE
R P
OL
LU
TIO
N C
ON
TR
OL
NE
WPO
RT
2,00
0C
hlor
ine
21C
ITY
OF
NE
WPO
RT
ST
AT
ION
#1
NE
WPO
RT
2,00
0C
hlor
ine
22L
AW
TO
N V
AL
LE
Y W
AT
ER
TR
EA
TM
EN
T P
LA
NT
POR
TSM
OU
TH
2,00
0C
hlor
ine
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
Fac
iliti
es in
Rho
de I
slan
d st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
SOU
TH
CA
RO
LIN
A
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
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pro
cess
(l
bs)
Che
mic
al
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IN P
RO
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CT
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NC
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200,
000
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TA
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CH
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3,90
0,00
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inyl
ace
tate
mon
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EL
AN
ESE
AC
ET
AT
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CE
LR
IVE
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CK
HIL
L2,
800,
000
Form
alde
hyde
(so
lutio
n)
4
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OR
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CIF
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NS,
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C.
RU
SSE
LL
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LE
1,20
0,00
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rmal
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de (
solu
tion)
5T
AN
NE
R I
ND
UST
RIE
S, I
NC
.SW
AN
SEA
1,12
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mm
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hydr
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6
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8
AL
BR
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490,
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13
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GE
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430,
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Phos
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14
HA
MPT
ON
FA
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ITY
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MPT
ON
384,
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Form
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lutio
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15
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AN
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350,
000
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16A
RC
HIM
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IN
C.
EL
GIN
336,
000
Bro
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17
AIR
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TS
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S, L
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PIE
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T33
0,00
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mon
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18N
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301,
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mon
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anhy
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20H
AM
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N, S
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TH
CA
RO
LIN
A P
LA
NT
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253,
440
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21
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LE
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RT
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226,
320
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mon
ia (
conc
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)
22O
RA
NG
EB
UR
GO
RA
NG
EB
UR
G22
4,31
3A
mm
onia
(an
hydr
ous)
23
HE
NK
EL
CO
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RA
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N/M
AU
LD
IN, S
C M
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0,00
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24
BP
AM
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S, I
NC
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MO
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220,
000
Acr
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itrile
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OL
D K
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SU
MT
ER
PR
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ESS
ING
PL
AN
TSU
MT
ER
200,
000
Am
mon
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anhy
drou
s)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Sou
th C
arol
ina
stor
ing
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
SOU
TH
DA
KO
TA
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1B
AT
H F
AC
ILIT
Y, S
TA
TIO
N #
19A
BE
RD
EE
N2,
000,
000
Am
mon
ia (
anhy
drou
s)
2IN
TE
RM
OU
NT
AIN
AD
HE
SIV
ES,
L.L
.C.
RA
PID
CIT
Y90
0,00
0Fo
rmal
dehy
de (
solu
tion)
3T
UL
AR
E F
AC
ILIT
Y, S
TA
TIO
N #
18T
UL
AR
E62
0,00
0A
mm
onia
(an
hydr
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4
FAR
ME
RS
CO
OPE
RA
TIV
E C
OM
PAN
YB
RO
OK
ING
S37
0,00
0A
mm
onia
(an
hydr
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5
MIN
NK
OT
A F
AR
ME
RS
CO
OPE
RA
TIV
EB
AL
TIC
350,
000
Am
mon
ia (
anhy
drou
s)
6C
ON
DE
FA
CIL
ITY
, ST
AT
ION
#14
CO
ND
E34
3,84
8A
mm
onia
(an
hydr
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7
BR
IST
OL
FA
CIL
ITY
, ST
AT
ION
#06
BR
IST
OL
340,
000
Am
mon
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anhy
drou
s)
8C
OL
UM
BIA
FA
CIL
ITY
, ST
AT
ION
#07
CO
LU
MB
IA32
0,00
0A
mm
onia
(an
hydr
ous)
9
GR
OT
ON
FA
CIL
ITY
, ST
AT
ION
#12
GR
OT
ON
310,
000
Am
mon
ia (
anhy
drou
s)
10H
UR
ON
FA
CIL
ITY
, ST
AT
ION
#20
HU
RO
N30
2,00
0A
mm
onia
(an
hydr
ous)
11
JOH
N M
OR
RE
LL
& C
O.
SIO
UX
FA
LL
S30
0,00
0A
mm
onia
(an
hydr
ous)
12
LA
NG
FOR
D F
AC
ILIT
Y, S
TA
TIO
N #
29L
AN
GFO
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300,
000
Am
mon
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anhy
drou
s)
13M
CL
AU
GH
LIN
FA
CIL
ITY
, ST
AT
ION
#36
MC
LA
UG
HL
IN28
2,18
9A
mm
onia
(an
hydr
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14
NO
RT
HE
RN
PL
AIN
S C
OO
PER
AT
IVE
-SE
LB
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LB
Y28
0,00
0A
mm
onia
(an
hydr
ous)
15
FRA
NK
FOR
T F
AC
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Y, S
TA
TIO
N #
09FR
AN
KFO
RT
280,
000
Am
mon
ia (
anhy
drou
s)
16R
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FIE
LD
FA
CIL
ITY
, ST
AT
ION
#24
RE
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EL
D28
0,00
0A
mm
onia
(an
hydr
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17
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RE
SFO
RD
FA
RM
ER
S C
O-O
P E
LE
VA
TO
RB
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D21
0,00
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mm
onia
(an
hydr
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18
CH
AM
BE
RL
AIN
FA
CIL
ITY
, ST
AT
ION
#36
CH
AM
BE
RL
AIN
180,
000
Am
mon
ia (
anhy
drou
s)
19M
EL
LE
TT
E F
AC
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Y, S
TA
TIO
N #
11M
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LE
TT
E17
6,00
0A
mm
onia
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hydr
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20
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EN
TFO
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FA
CIL
ITY
, ST
AT
ION
#05
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EN
TFO
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176,
000
Am
mon
ia (
anhy
drou
s)
21C
EN
EX
HA
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AT
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CO
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CA
CO
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CA
170,
000
Am
mon
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anhy
drou
s)
22V
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RG
CO
OP
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EV
AT
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AC
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160,
555
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mon
ia (
anhy
drou
s)
23C
LA
RK
CO
MM
UN
ITY
OIL
FE
RT
ILIZ
ER
PL
AN
TC
LA
RK
160,
000
Am
mon
ia (
anhy
drou
s)
24H
AM
LIN
CO
UN
TY
CO
OP
OIL
CO
MPA
NY
HA
YT
I16
0,00
0A
mm
onia
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hydr
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25
EA
STE
RN
FA
RM
ER
S C
OO
P-G
AR
RE
TSO
NG
AR
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TSO
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0,00
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mm
onia
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hydr
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*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
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25
Fac
iliti
es in
Sou
th D
akot
a st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
TE
NN
ESS
EE
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
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mic
al
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LIN
CO
RPO
RA
TIO
N, C
HA
RL
EST
ON
TN
PL
AN
TC
HA
RL
EST
ON
26,0
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TE
RT
RA
DE
HO
LD
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S, I
NC
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16
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20
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LA
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260,
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0,00
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ace
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mon
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24SP
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TE
X, I
NC
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UM
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220,
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disu
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ME
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CR
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196,
274
Am
mon
ia (
anhy
drou
s)
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rem
ely
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bsta
nces
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ned
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.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Ten
ness
ee s
tori
ng t
he la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
TE
XA
S
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1SA
N J
AC
INT
O R
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R A
UT
HO
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Y W
W P
LA
NT
- S
O2
TH
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OO
DL
AN
DS
800,
012,
000
Sulf
ur d
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de (
anhy
drou
s)
2
NE
CH
ES
IND
UST
RIA
L P
AR
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NC
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UM
ON
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AL
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LA
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70,0
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4
BA
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RT
MA
RIN
E T
ER
MIN
AL
SEA
BR
OO
K70
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Vin
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ceta
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onom
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5
STE
RL
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CH
EM
ICA
LS
INC
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POR
AT
ED
TE
XA
S C
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66,1
20,0
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hydr
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6
FA
RM
LA
ND
IN
DU
STR
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IN
C.
FAR
NSW
OR
TH
60,2
07,0
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hydr
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7
BA
SF C
OR
POR
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TE
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INA
LFR
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T60
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mon
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anhy
drou
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CO
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RA
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EE
POR
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9
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CH
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34,7
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LA
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34,5
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AU
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T34
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mon
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anhy
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13R
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PL
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S C
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K32
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ylon
itrile
15D
U P
ON
T V
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IA P
LA
NT
VIC
TO
RIA
30,0
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mm
onia
(an
hydr
ous)
16
HO
UST
ON
AM
MO
NIA
TE
RM
INA
LPA
SAD
EN
A30
,000
,000
Am
mon
ia (
anhy
drou
s)
17PA
KT
AN
K C
OR
POR
AT
ION
- D
EE
R P
AR
K T
ER
MIN
AL
DE
ER
PA
RK
28,0
06,8
60C
hlor
ofor
m
18
LB
C P
ET
RO
UN
ITE
D/ B
AY
POR
T T
ER
MIN
AL
SEA
BR
OO
K24
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,600
Vin
yl a
ceta
te m
onom
er
19
UN
ION
CA
RB
IDE
CO
RPO
RA
TIO
NT
EX
AS
CIT
Y23
,500
,000
Vin
yl a
ceta
te m
onom
er
20
OD
FJE
LL
TE
RM
INA
LS
(BA
YT
AN
K)
INC
.SE
AB
RO
OK
21,0
00,0
00C
hlor
ofor
m
21
STO
LT
HA
VE
N H
OU
STO
N, I
NC
.H
OU
STO
N16
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,000
Epi
chlo
rohy
drin
22A
GR
IFO
S FE
RT
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E L
PPA
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EN
A15
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Am
mon
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anhy
drou
s)
23SH
EL
L D
EE
R P
AR
K R
EFI
NIN
G C
OM
PAN
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R P
AR
K13
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,000
Epi
chlo
rohy
drin
24H
UN
TSM
AN
CO
RP.
, OL
EFI
NS
& O
XID
ES
(O&
O)
PLA
NT
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T N
EC
HE
S12
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Eth
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ide
25O
XY
VIN
YL
S, L
P -
BA
TT
LE
GR
OU
ND
CH
LO
R-A
LK
AL
I PL
AN
TL
APO
RT
E12
,000
,000
Chl
orin
e
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Tex
as s
tori
ng t
he la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
UT
AH
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1L
AR
OC
HE
IN
DU
STR
IES,
IN
C. -
GE
NE
VA
NIT
RO
GE
N P
LA
NT
OR
EM
8,55
8,81
2A
mm
onia
(an
hydr
ous)
2
TH
AT
CH
ER
CO
MPA
NY
SAL
T L
AK
E C
ITY
1,20
0,00
0Su
lfur
dio
xide
(an
hydr
ous)
3T
HE
EN
SIG
N-B
ICK
FOR
D C
OM
PAN
Y -
SPA
NIS
H F
OR
K, U
TSP
AN
ISH
FO
RK
630,
000
Nitr
ic a
cid
(con
c >
=80
%)
4
AM
ER
ICA
N P
AC
IFIC
CO
RPO
RA
TIO
N, U
TA
H O
PER
AT
ION
SC
ED
AR
CIT
Y42
3,74
0A
mm
onia
(an
hydr
ous)
5
CH
EV
RO
N S
AL
T L
AK
E R
EFI
NE
RY
SAL
T L
AK
E C
ITY
280,
000
Hyd
roge
n fl
uori
de (
conc
>=
50%
)
6
WH
ITE
ME
SA U
RA
NIU
M M
ILL
BL
AN
DIN
G28
0,00
0A
mm
onia
(an
hydr
ous)
7
GA
RL
AN
D B
RA
NC
HG
AR
LA
ND
270,
000
Am
mon
ia (
anhy
drou
s)
8C
EN
TR
AL
VA
LL
EY
WA
TE
R R
EC
LA
MA
TIO
NSA
LT
LA
KE
CIT
Y18
0,00
0C
hlor
ine
9W
EST
ER
N Z
IRC
ON
IUM
OG
DE
N18
0,00
0C
hlor
ine
10B
RU
SH W
EL
LM
AN
, IN
C.
DE
LT
A18
0,00
0A
mm
onia
(an
hydr
ous)
11
PHIL
LIP
S 66
WO
OD
S C
RO
SS R
EFI
NE
RY
WO
OD
S C
RO
SS17
0,00
0H
ydro
gen
fluo
ride
(co
nc >
=50
%)
12N
EST
LE
FR
OZ
EN
DIV
ISIO
NSP
RIN
GV
ILL
E16
0,00
0A
mm
onia
(an
hydr
ous)
13
UT
AH
WIN
TE
R S
POR
TS
PAR
KPA
RK
CIT
Y13
5,00
0A
mm
onia
(an
hydr
ous)
14
TH
E A
LT
A G
RO
UP
- SA
LT
LA
KE
CIT
Y O
PER
AT
ION
SSA
LT
LA
KE
CIT
Y13
0,00
0T
itani
um te
trac
hlor
ide
15K
EN
NE
CO
TT
UT
AH
CO
PPE
R C
OR
P. S
ME
LT
ER
AN
D R
EFI
NE
RY
MA
GN
A11
9,00
0Su
lfur
dio
xide
(an
hydr
ous)
16SO
UT
H V
AL
LE
Y W
AT
ER
RE
CL
AM
AT
ION
FA
CIL
ITY
WE
ST J
OR
DA
N80
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Chl
orin
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17
NO
RT
H D
AV
IS C
OU
NT
Y S
EW
ER
DIS
TR
ICT
SYR
AC
USE
70,0
00C
hlor
ine
18B
IG W
EST
OIL
LL
CN
OR
TH
SA
LT
LA
KE
70,0
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ydro
gen
fluo
ride
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nc >
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%)
19L
EW
IST
ON
BR
AN
CH
LE
WIS
TO
N62
,000
Am
mon
ia (
anhy
drou
s)
20L
ITT
LE
CO
TT
ON
WO
OD
WA
TE
R T
RE
AT
ME
NT
PL
AN
TSA
ND
Y40
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Chl
orin
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21
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DA
N V
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ER
TR
EA
TM
EN
T P
LA
NT
BL
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LE
32,0
00C
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ine
22A
LB
ER
TSO
N’S
IN
CO
RPO
RA
TE
D R
EFR
IGE
RA
TE
D D
IST
RIB
UT
ION
NO
RT
H S
AL
T L
AK
E31
,000
Am
mon
ia (
anhy
drou
s)
23E
. A. M
ILL
ER
HY
RU
M30
,000
Am
mon
ia (
anhy
drou
s)
24C
EN
TR
AL
WE
BE
R S
EW
ER
IM
PRO
VE
ME
NT
DIS
TR
ICT
OG
DE
N28
,000
Chl
orin
e
25
SFI-
LO
GA
NL
OG
AN
26,6
88A
mm
onia
(an
hydr
ous)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Uta
h st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
VE
RM
ON
T
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1ST
. AL
BA
NS
PLA
NT
ST. A
LB
AN
S31
,410
Am
mon
ia (
anhy
drou
s)
2W
AT
ER
BU
RY
FA
CIL
ITY
WA
TE
RB
UR
Y16
,500
Am
mon
ia (
anhy
drou
s)
3A
GR
IMA
RK
MID
DL
EB
UR
Y12
,900
Am
mon
ia (
anhy
drou
s)
4N
OR
TH
SPR
ING
FIE
LD
PL
AN
TN
OR
TH
SPR
ING
FIE
LD
12,0
00A
mm
onia
(an
hydr
ous)
5
MO
NT
PEL
IER
WA
TE
R P
OL
LU
TIO
N C
ON
TR
OL
FA
CIL
ITY
MO
NT
PEL
IER
8,00
0C
hlor
ine
6N
EW
POR
T W
AST
EW
AT
ER
TR
EA
TM
EN
T F
AC
ILIT
YN
EW
POR
T1,
000
Chl
orin
e
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
Fac
iliti
es in
Ver
mon
t st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
VIR
GIN
IA
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1A
LL
IED
SIG
NA
L -
HO
PEW
EL
L P
LA
NT
HO
PEW
EL
L40
,000
,000
Am
mon
ia (
anhy
drou
s)
2R
AD
FOR
D A
RM
Y A
MM
UN
ITIO
N P
LA
NT
RA
DFO
RD
, VA
2,10
0,00
0N
itric
aci
d (c
onc
>=
80%
)
3H
ER
CU
LE
S -
HO
PEW
EL
L P
LA
NT
HO
PEW
EL
L85
0,00
0C
hlor
ine
4PR
ILL
AM
AN
CH
EM
ICA
L, S
UFF
OL
K D
IVIS
ION
SUFF
OL
K60
0,00
0C
hlor
ine
5L
AR
OC
HE
IN
DU
STR
IES
INC
.SU
FFO
LK
545,
710
Am
mon
ia (
anhy
drou
s)
6C
IBA
SPE
CIA
LT
Y C
HE
MIC
AL
S W
AT
ER
TR
EA
TM
EN
TS,
IN
C.
SUFF
OL
K53
5,00
0A
cryl
onitr
ile
7
DU
PON
T S
PRU
AN
CE
PL
AN
TC
HE
STE
RFI
EL
D52
0,00
0C
hlor
ofor
m
8
RO
YST
ER
- C
LA
RK
W
EST
PO
INT
WE
ST P
OIN
T50
0,00
0A
mm
onia
(an
hydr
ous)
9
SOL
ITE
CO
RP.
, DB
A V
IRG
INIA
SO
LIT
EC
ASC
AD
E46
0,00
0V
inyl
ace
tate
mon
omer
10JC
I JO
NE
S C
HE
MIC
AL
S IN
C M
ILFO
RD
PL
AN
TM
ILFO
RD
360,
000
Chl
orin
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11
SEW
EL
L P
RO
DU
CT
S, I
NC
. - S
AL
EM
PL
AN
TSA
LE
M36
0,00
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hlor
ine
12R
OY
STE
R -
CL
AR
K
NO
RFO
LK
CH
ESA
PEA
KE
339,
300
Am
mon
ia (
anhy
drou
s)
13ST
ON
EW
AL
L P
LA
NT
EL
KT
ON
300,
000
Hyd
roge
n ch
lori
de (
anhy
drou
s)
14
CIT
Y O
F R
ICH
MO
ND
WA
TE
R P
UR
IFIC
AT
ION
PL
AN
TR
ICH
MO
ND
265,
000
Chl
orin
e
15
CIT
Y O
F R
ICH
MO
ND
WA
STE
WA
TE
R T
RE
AT
ME
NT
PL
AN
TR
ICH
MO
ND
237,
000
Chl
orin
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16
HE
RC
UL
ES
INC
OR
POR
AT
ED
FR
AN
KL
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CO
UR
TL
AN
D21
0,00
0Ph
osph
orus
tric
hlor
ide
17IN
TE
RN
AT
ION
AL
PA
PER
-FR
AN
KL
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IRG
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FRA
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LIN
180,
000
Chl
orin
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18
CO
NA
GR
A F
RO
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N F
OO
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CR
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177,
565
Am
mon
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anhy
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19A
NH
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C.
WIL
LIA
MSB
UR
G B
RE
WE
RY
WIL
LIA
MSB
UR
G17
0,00
0A
mm
onia
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hydr
ous)
20
CE
LA
NE
SE C
HE
MIC
AL
DIV
ISIO
N -
AM
INE
S PL
AN
TPO
RT
SMO
UT
H14
0,00
0A
mm
onia
(an
hydr
ous)
21
SMIT
HFI
EL
D P
AC
KIN
G C
O. (
SMII
TH
FIE
LD
, VA
)SM
ITH
FIE
LD
130,
000
Am
mon
ia (
anhy
drou
s)
22H
OPE
WE
LL
WA
TE
R T
RE
AT
ME
NT
PL
AN
TH
OPE
WE
LL
120,
000
Chl
orin
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23
RO
YST
ER
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LA
RK
CH
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PEA
KE
CH
ESA
PEA
KE
119,
000
Am
mon
ia (
conc
>=
20%
)
24G
WA
LT
NE
Y O
F SM
ITH
FIE
LD
SMIT
HFI
EL
D11
0,00
0A
mm
onia
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hydr
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25
HIC
KSO
N D
AN
CH
EM
CO
RPO
RA
TIO
ND
AN
VIL
LE
107,
404
Hyd
roch
lori
c ac
id (
conc
>=
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)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Vir
gini
a st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
WA
SHIN
GT
ON
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1K
EN
NE
WIC
K P
LA
NT
- H
ED
GE
S A
RE
AK
EN
NE
WIC
K10
0,20
0,00
0A
mm
onia
(an
hydr
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2
CF
IND
UST
RIE
S, I
NC
. - R
ITZ
VIL
LE
TE
RM
INA
LR
ITZ
VIL
LE
60,2
80,0
00A
mm
onia
(co
nc >
=20
%)
3
KE
NN
EW
ICK
PL
AN
T -
FIN
LE
Y A
RE
AK
EN
NE
WIC
K44
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Am
mon
ia (
anhy
drou
s)
4K
EN
NE
WIC
K P
LA
NT
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NE
WIC
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EN
NE
WIC
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400,
000
Am
mon
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anhy
drou
s)
5(2
1) B
OE
TT
CH
ER
CE
NT
RA
L F
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RY
4,50
0,00
0A
mm
onia
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hydr
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6
PIO
NE
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CH
LO
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LK
AL
I C
OM
PAN
Y, I
NC
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900,
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Chl
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7
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OR
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500,
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8
NU
CH
EM
POM
ER
OY
930,
000
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mon
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anhy
drou
s)
9W
AL
LA
WA
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A F
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CO
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LA
WA
LL
A F
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RW
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LA
WA
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A86
6,40
0A
mm
onia
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nc >
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%)
10
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DE
WA
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A M
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WA
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AN
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A72
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12C
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TY
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686,
000
Am
mon
ia (
conc
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)
13B
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MIC
AL
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NT
PL
AN
TK
EN
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0,00
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de (
solu
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483,
327
Am
mon
ia (
conc
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)
15W
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N F
AR
M S
ER
VIC
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GT
ON
HA
RR
ING
TO
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0,00
0A
mm
onia
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nc >
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%)
16
TID
EW
AT
ER
SN
AK
E R
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R T
ER
MIN
AL
PASC
O43
5,00
0A
mm
onia
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hydr
ous)
17
GR
AN
GE
SU
PPL
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OM
PAN
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SSA
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433,
200
Am
mon
ia (
conc
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20%
)
18(0
1) T
HE
MC
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OR
CO
MPA
NY
CO
LFA
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CO
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X43
0,00
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mm
onia
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hydr
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19
FOA
ME
X L
P -
KE
NT
FA
CIL
ITY
KE
NT
400,
000
Tol
uene
diis
ocya
nate
(un
spec
ifie
d is
omer
)
20
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RN
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SE
RV
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AR
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NR
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RD
AN
375,
000
Am
mon
ia (
conc
>=
20%
)
21JC
I -
JON
ES
CH
EM
ICA
LS,
IN
C.
T
AC
OM
A P
LA
NT
TA
CO
MA
360,
000
Chl
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22
EA
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EC
TIO
N R
EC
LA
MA
TIO
N P
LA
NT
RE
NT
ON
360,
000
Chl
orin
e
23
WA
SHO
UG
AL
PL
AN
TW
ASH
OU
GA
L35
0,00
0C
arbo
n di
sulf
ide
24
TE
SSE
ND
ER
LO
KE
RL
EY
, IN
C. -
FIN
LE
Y F
AC
ILIT
YK
EN
NE
WIC
K34
8,60
0A
mm
onia
(an
hydr
ous)
25
POM
ER
OY
GR
AIN
GR
OW
ER
S, I
NC
.PO
ME
RO
Y34
0,00
0A
mm
onia
(co
nc >
=20
%)
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Was
hing
ton
stor
ing
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
WE
ST V
IRG
INIA
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1D
UPO
NT
WA
SHIN
GT
ON
WO
RK
SPA
RK
ER
SBU
RG
28,0
00,0
00Fo
rmal
dehy
de (
solu
tion)
2D
UPO
NT
BE
LL
E P
LA
NT
BE
LL
E20
,000
,000
Am
mon
ia (
anhy
drou
s)
3L
YO
ND
EL
L N
OR
TH
CH
AR
LE
STO
N D
IST
RIB
UT
ION
TE
RM
INA
LC
HA
RL
EST
ON
9,76
3,00
0Pr
opyl
ene
oxid
e
4
NO
RT
H C
HA
RL
EST
ON
DIS
TR
IBU
TIO
N T
ER
MIN
AL
CH
AR
LE
STO
N5,
606,
940
Vin
yl a
ceta
te m
onom
er
5
PPG
IN
DU
STR
IES,
IN
C.,
NA
TR
IUM
NE
W M
AR
TIN
SVIL
LE
4,71
7,75
5C
arbo
n di
sulf
ide
6
GE
PL
AST
ICS
- W
ASH
ING
TO
NW
ASH
ING
TO
N3,
700,
000
Acr
ylon
itrile
7B
AY
ER
CO
RPO
RA
TIO
N -
NE
W M
AR
TIN
SVIL
LE
PL
AN
TN
EW
MA
RT
INSV
ILL
E3,
000,
000
Tol
uene
diis
ocya
nate
(un
spec
ifie
d is
omer
)
8
LY
ON
DE
LL
SO
UT
H C
HA
RL
EST
ON
PL
AN
TSO
UT
H C
HA
RL
EST
ON
2,27
5,00
0Pr
opyl
ene
oxid
e
9
UN
ION
CA
RB
IDE
IN
STIT
UT
E P
LA
NT
INST
ITU
TE
1,74
4,20
0E
thyl
ene
oxid
e
10
P. B
. & S
. CH
EM
ICA
L C
OM
PAN
Y, I
NC
. (64
)ST
. AL
BA
NS
1,24
7,44
4C
hlor
ine
11FM
C C
OR
POR
AT
ION
- N
ITR
O, W
V P
LA
NT
NIT
RO
750,
000
Phos
phor
us tr
ichl
orid
e
12
CL
EA
RO
N C
OR
P.SO
UT
H C
HA
RL
EST
ON
720,
000
Chl
orin
e
13
RH
ON
E P
OU
LE
NC
IN
STIT
UT
E P
LA
NT
INST
ITU
TE
670,
000
Am
mon
ia (
anhy
drou
s)
14FL
EX
SYS
NIT
RO
PL
AN
TN
ITR
O43
0,00
0C
arbo
n di
sulf
ide
15
AK
ZO
NO
BE
L C
HE
MIC
AL
S, I
NC
.G
AL
LIP
OL
IS F
ER
RY
400,
000
Phos
phor
us tr
ichl
orid
e
16
TA
NN
ER
IN
DU
STR
IES,
IN
C.
KE
NO
VA
336,
000
Am
mon
ia (
anhy
drou
s)
17C
ITY
OF
WH
EE
LIN
G W
AT
ER
PO
LL
UT
ION
CO
NT
RO
L F
AC
ILIT
YW
HE
EL
ING
220,
000
Chl
orin
e
18
WIT
CO
CO
RPO
RA
TIO
N, S
IST
ER
SVIL
LE
PL
AN
TFR
IEN
DL
Y20
0,00
0A
cryl
onitr
ile
19
LY
ON
DE
LL
AC
N R
AIL
CA
R A
T U
CC
MA
SSE
Y R
AIL
YA
RD
SOU
TH
CH
AR
LE
STO
N19
0,00
0A
cryl
onitr
ile
20
TA
NN
ER
IN
DU
STR
IES,
IN
C.
MO
RG
AN
TO
WN
180,
230
Am
mon
ia (
anhy
drou
s)
21C
YT
EC
IN
DU
STR
IES,
WIL
LO
W I
SLA
ND
PL
AN
TW
ILL
OW
ISL
AN
D18
0,00
0H
ydro
chlo
ric
acid
(co
nc >
=37
%)
22
UN
ION
CA
RB
IDE
SO
UT
H C
HA
RL
EST
ON
PL
AN
TSO
UT
H C
HA
RL
EST
ON
161,
000
Form
alde
hyde
(so
lutio
n)
23
GE
SPE
CIA
LT
Y C
HE
MIC
AL
S IN
C. M
OR
GA
NT
OW
N S
OU
TH
PL
AN
TM
OR
GA
NT
OW
N14
6,00
0Ph
osph
orus
tric
hlor
ide
24G
E S
PEC
IAL
TY
CH
EM
ICA
LS
INC
. MO
RG
AN
TO
WN
NO
RT
H P
LA
NT
MO
RG
AN
TO
WN
146,
000
Phos
phor
us tr
ichl
orid
e
25
CE
NT
UR
Y A
LU
MIN
UM
OF
WE
ST V
IRG
INIA
, IN
C.
RA
VE
NSW
OO
D11
0,00
0C
hlor
ine
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Wes
t V
irgi
nia
stor
ing
the
larg
est
amou
nts
of e
xtre
mel
y ha
zard
ous
subs
tanc
es.*
App
endi
x B
WIS
CO
NSI
N
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1B
OR
DE
N C
HE
MIC
AL
, IN
C.,
SHE
BO
YG
AN
PL
AN
TSH
EB
OY
GA
N75
0,00
0Fo
rmal
dehy
de (
solu
tion)
2W
AU
SAU
-MO
SIN
EE
PA
PER
CO
RPO
RA
TIO
N (
BR
OK
AW
, WI)
BR
OK
AW
720,
000
Chl
orin
e
3
VU
LC
AN
CH
EM
ICA
LS
POR
T E
DW
AR
DS
600,
000
Chl
orin
e
4
HY
DR
ITE
CH
EM
ICA
L C
O. -
OSH
KO
SHO
SHK
OSH
593,
000
Chl
orin
e
5
P. H
. GL
AT
FEL
TE
R C
OM
PAN
Y -
BE
RG
STR
OM
DIV
ISIO
NN
EE
NA
H36
0,00
0C
hlor
ine
6W
ISC
ON
SIN
TIS
SUE
MIL
LS,
IN
C.
ME
NA
SHA
360,
000
Chl
orin
e
7
PLA
STIC
S E
NG
. CO
. NO
RT
H A
VE
. PL
AN
TSH
EB
OY
GA
N34
0,00
0Fo
rmal
dehy
de (
solu
tion)
8W
OO
DB
RID
GE
CO
RPO
RA
TIO
N -
BR
OD
HE
AD
BR
OD
HE
AD
328,
000
Tol
uene
diis
ocya
nate
(un
spec
ifie
d is
omer
)
9
GE
NC
OR
P PE
RFO
RM
AN
CE
CH
EM
ICA
LS-
GR
EE
NB
AY
LA
TE
X P
LA
NT
GR
EE
N B
AY
313,
000
Acr
ylon
itrile
10H
ER
CU
LE
S IN
CO
RPO
RA
TE
D -
MIL
WA
UK
EE
PL
AN
TM
ILW
AU
KE
E30
5,00
0E
pich
loro
hydr
in
11
RE
DD
Y A
G S
ER
VIC
E, I
NC
. (
MA
IN O
FFIC
E)
STIT
ZE
R30
3,05
1A
mm
onia
(an
hydr
ous)
12
RO
YST
ER
- C
LA
RK
M
AD
ISO
NM
AD
ISO
N29
0,00
0A
mm
onia
(an
hydr
ous)
13
NO
RT
HE
RN
FS,
IN
C -
EL
KH
OR
NE
LK
HO
RN
280,
000
Am
mon
ia (
anhy
drou
s)
14A
BIT
EC
CO
RPO
RA
TIO
NJA
NE
SVIL
LE
270,
000
Eth
ylen
e ox
ide
15K
RA
FT F
OO
DS,
IN
C.
MA
DIS
ON
239,
255
Am
mon
ia (
anhy
drou
s)
16FA
RM
ER
S C
O-O
P S
& S
ASS
OC
-GA
LE
SVIL
LE
AG
RO
NO
MY
PL
T.
GA
LE
SVIL
LE
238,
000
Am
mon
ia (
anhy
drou
s)
17T
OM
AH
PR
OD
UC
TS,
IN
CO
RPO
RA
TE
DM
ILT
ON
230,
000
Met
hyl c
hlor
ide
18C
OT
TA
GE
GR
OV
E C
OO
PER
AT
IVE
- H
IGH
WA
Y N
CO
MPL
EX
CO
TT
AG
E G
RO
VE
222,
300
Am
mon
ia (
anhy
drou
s)
19G
RA
ND
RIV
ER
CO
OPE
RA
TIV
E -
AN
HY
DR
OU
S A
MM
ON
IAM
AR
KE
SAN
210,
000
Am
mon
ia (
anhy
drou
s)
20R
ED
DY
AG
SE
RV
ICE
, IN
C.
(ST
OR
AG
E L
OT
)ST
ITZ
ER
198,
603
Am
mon
ia (
anhy
drou
s)
21E
AST
TR
OY
- N
H3
EA
ST T
RO
Y19
0,54
0A
mm
onia
(an
hydr
ous)
22
POY
NE
TT
E A
GR
ON
OM
YPO
YN
ET
TE
181,
860
Am
mon
ia (
anhy
drou
s)
23W
AB
ASH
AL
LO
YS,
L.L
.CO
AK
CR
EE
K18
0,00
0C
hlor
ine
24O
NL
INE
PA
CK
AG
ING
, IN
C.
PLO
VE
R18
0,00
0C
hlor
ine
25FR
ASE
R P
APE
RS
INC
- P
AR
K F
AL
LS
OPE
RA
TIO
NS
PAR
K F
AL
LS
180,
000
Chl
orin
e
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Wis
cons
in s
tori
ng t
he la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
App
endi
x B
WY
OM
ING
Fac
ility
Nam
eC
ity
Max
imum
am
ount
in a
si
ngle
pro
cess
(l
bs)
Che
mic
al
1C
OA
STA
L C
HE
M, I
NC
. - C
HE
YE
NN
E W
YO
MIN
GC
HE
YE
NN
E67
,000
,000
Am
mon
ia (
anhy
drou
s)
2SF
PH
OSP
HA
TE
S L
IMIT
ED
CO
MPA
NY
RO
CK
SPR
ING
S5,
130,
000
Am
mon
ia (
anhy
drou
s)
3R
IVE
RT
ON
FA
CIL
ITY
RIV
ER
TO
N1,
200,
000
Ole
um (
Fum
ing
Sulf
uric
aci
d)
4FM
C C
OR
POR
AT
ION
, GR
EE
N R
IVE
R,
WY
OM
ING
FA
CIL
ITY
GR
EE
N R
IVE
R36
0,00
0A
mm
onia
(an
hydr
ous)
5
CO
LO
RA
DO
IN
TE
RST
AT
E G
AS
CO
. - T
AB
LE
RO
CK
PL
AN
TR
OC
K S
PRIN
GS
240,
000
Am
mon
ia (
anhy
drou
s)
6FR
ON
TIE
R R
EFI
NIN
G I
NC
.C
HE
YE
NN
E14
6,00
0H
ydro
gen
fluo
ride
(co
nc >
=50
%)
7T
OR
RIN
GT
ON
SIM
PLO
T S
OIL
BU
ILD
ER
ST
OR
RIN
GT
ON
145,
000
Am
mon
ia (
anhy
drou
s)
8A
NSC
HU
TZ
RA
NC
H E
AST
GA
S PL
AN
TE
VA
NST
ON
143,
723
Am
mon
ia (
anhy
drou
s)
9PA
NH
AN
DL
E C
OO
PER
AT
IVE
FE
RT
ILIZ
ER
(T
OR
RIN
GT
ON
)T
OR
RIN
GT
ON
130,
000
Am
mon
ia (
anhy
drou
s)
10H
IGH
PL
AIN
S C
OO
P FE
RT
ILIZ
ER
(PI
NE
BL
UFF
, WY
)PI
NE
BL
UFF
130,
000
Am
mon
ia (
anhy
drou
s)
11PO
WE
R R
ESO
UR
CE
S, I
NC
. - H
IGH
LA
ND
UR
AN
IUM
PR
OJE
CT
DO
UG
LA
S90
,000
Am
mon
ia (
anhy
drou
s)
12E
XX
ON
CO
MPA
NY
, U.S
.A. S
HU
TE
CR
EE
K F
AC
ILIT
YK
EM
ME
RE
R80
,000
Hyd
roge
n su
lfid
e
13JI
RD
ON
AG
RI
CH
EM
ICA
LS,
IN
C.
TO
RR
ING
TO
N63
,000
Am
mon
ia (
anhy
drou
s)
14B
AIR
OIL
OC
CO
2 PL
AN
TB
AIR
OIL
51,6
67A
mm
onia
(an
hydr
ous)
15
SIN
CL
AIR
WY
OM
ING
RE
FIN
ER
YSI
NC
LA
IR42
,000
Chl
orin
e
16
UA
P N
OR
TH
WE
ST, B
ASI
NW
OR
LA
ND
40,0
00A
mm
onia
(an
hydr
ous)
17
EX
XO
N C
OM
PAN
Y, U
.S.A
. BL
AC
K C
AN
YO
N D
EH
Y. F
AC
ILIT
YL
AB
AR
GE
19,0
00H
ydro
gen
sulf
ide
18
EV
AN
STO
N W
AT
ER
TR
EA
TM
EN
T P
LA
NT
EV
AN
STO
N16
,000
Chl
orin
e
19
RA
Y L
. SH
ER
AR
D W
AT
ER
TR
EA
TM
EN
T P
LA
NT
CH
EY
EN
NE
10,0
00C
hlor
ine
20D
RY
CR
EE
K W
AST
EW
AT
ER
FA
CIL
ITY
CH
EY
EN
NE
10,0
00C
hlor
ine
21C
RO
W C
RE
EK
WA
STE
WA
TE
R F
AC
ILIT
YC
HE
YE
NN
E10
,000
Chl
orin
e
22
RO
UN
DT
OP
WA
TE
R T
RE
AT
ME
NT
PL
AN
TC
HE
YE
NN
E8,
000
Chl
orin
e
23
BIG
GO
OSE
WA
TE
R T
RE
AT
ME
NT
PL
AN
TSH
ER
IDA
N8,
000
Chl
orin
e
24
SHE
RID
AN
WA
TE
R T
RE
AT
ME
NT
PL
AN
TSH
ER
IDA
N8,
000
Chl
orin
e
25
GIL
LE
TT
E W
AST
EW
AT
ER
TR
EA
TM
EN
T F
AC
ILIT
YG
ILL
ET
TE
8,00
0C
hlor
ine
*Ext
rem
ely
haza
rdou
s su
bsta
nces
as
defi
ned
by th
e U
.S. E
nvir
onm
enta
l Pro
tect
ion
Age
ncy
unde
r th
e C
lean
Air
Act
, Sec
tion
112(
r).
The
25
Fac
iliti
es in
Wyo
min
g st
orin
g th
e la
rges
t am
ount
s of
ext
rem
ely
haza
rdou
s su
bsta
nces
.*
Appendix C
Appendix C
Health Hazards of Selected Extremely Hazardous Substances*
ACRYLONITRILEAcrylonitrile is a flammable and reactive liquid, clear or slightly yellowish in color, with a faintodor. It is used to make synthetic fibers and polymers. Acute exposure irritates the eyes, nose,throat and lungs. High exposure levels can cause weakness, headache, confusion, nausea,vomiting, and collapse. At the highest exposure levels fluid build-up in the lungs (pulmonaryedema) may lead to death. Chronic exposure may interfere with the thyroid gland. Acrylonitrileis a probable human carcinogen.
AMMONIAAmmonia is a corrosive colorless gas with a strong odor. It is used in making fertilizer, plastics,dyes, textiles, detergents, and pesticides. Acute ammonia exposure can irritate the skin; burn theeyes, causing temporary or permanent blindness; and cause headaches, nausea, and vomiting.High levels can cause fluid in the respiratory system (pulmonary or laryngeal edema) which maylead to death. Chronic exposure damages the lungs; repeated exposure can lead to bronchitis withcoughing or shortness of breath.
CARBON DISULFIDECarbon disulfide is a flammable colorless or faintly yellow liquid with a strong, disagreeableodor. It is used in manufacturing viscose rayon, cellophane, carbon tetrachloride, and flotationagents. Acute exposure can severely irritate the eyes, skin, and nose, and can cause headaches,nausea, dizziness, unconsciousness, and death. Chronic exposure can damage the developingfetus, and may cause spontaneous abortions in women and sperm abnormalities in men. Repeatexposures can also cause nervous system damage including tingling, weakness, and severe mood,personality, and mental changes that can be long lasting (for months or years).
CHLORINEChlorine is a greenish-yellow gas with a strong, irritating odor. It is used in making otherchemicals, as a disinfectant, in bleaching, and for purifying water and sewage. Acute exposurecan severely burn the eyes and skin, causing permanent damage, and may cause throat irritation,tearing, coughing, nose bleeds, chest pain, fluid build-up in the lungs (pulmonary edema), anddeath. Chronic exposure can damage the teeth, and irritate the lungs, causing bronchitis,coughing, and shortness of breath. A single high exposure can permanently damage the lungs.
CHLOROFORMChloroform is a colorless liquid used in making dyes, drugs, and pesticides. Acute exposure tochloroform can irritate and burn the skin, eyes, nose, and throat, and cause dizziness,lightheadedness, headache, confusion, and irregular heartbeat which may lead to death.Chloroform is a probable carcinogen and is suspected of causing birth defects. Chronicchloroform exposure can damage the skin, liver, kidneys, and nervous system.
DIMETHYL DICHLOROSILANEDimethyl dichlorosilane is a colorless liquid that is flammable and corrosive. It is used to makesilicones. Direct contact can severely irritate and burn the skin and eyes. Breathing dimethyldichlorisilane can irritate the lungs, including fluid build-up (pulmonary edema) at high exposures.
Appendix C
EPICHLOROHYDRINEpichlorihydrin is a reactive colorless liquid with a slightly irritating, chloroform-like odor. It isused to make plastics, resins, and glycerin. Acute exposure to epichlorohydrin vapor irritates theeyes, nose, bronchial tubes, and lungs. High levels can chemically burn the lungs or causedangerous fluid build-up, which may lead to death. Eye contact may cause permanent damage,and skin contact can cause painful blistering which may be delayed in onset for minutes or hours.Chronic exposure can damage the kidneys, liver, and lungs. Epichlorohydrin is a probable humancarcinogen, and may decrease fertility in males.
ETHYLENE OXIDEEthylene is a colorless gas that is highly flammable, reactive, and explosive. It is used to makeantifreeze, polyesters, and detergents, and is used for industrial sterilization. Acute exposure canirritate the eyes, skin, nose, throat, and lungs, and may cause shortness of breath, headache,nausea, vomiting, diarrhea, drowsiness, weakness, and loss of muscle control. Higher exposurelevels may cause loss of consciousness, fluid in the lungs (pulmonary edema), and death.Chronic exposure to ethylene oxide may cause cancer and birth defects, as well as damage to theliver, kidneys, and nervous system.
ETHYLENEDIAMINEEthylenediamine is a flammable and corrosive colorless liquid with an ammonia-like odor. It isused as a solvent, a stabilizer for rubber latex, and in antifreeze solutions. Breathingethylenediamine can irritate the nose, throat, and lungs, and contact can irritate and blister theskin, leading to recurrent skin allergy. High exposure may cause liver, kidney and lung damage,including lung allergy.
FORMALDEHYDEFormaldehyde is a flammable, colorless gas with a pungent, suffocating odor. It is used inmanufacturing plastics and other chemicals, such as adhesive resins in particleboard, plywood,foam insulation, and other products. Acute exposure irritates and burns the skin, eyes, nose,mouth, and throat. Higher levels can cause a build-up of fluid in the lungs (pulmonary edema) orspasm in the windpipe, either of which may be fatal. Chronic exposure may cause both anasthma-like allergy and bronchitis with symptoms of coughing and shortness of breath.Formaldehyde causes cancer of the nasal passages in animals and is considered a probable humancarcinogen.
HYDROCHLORIC ACID (HYDROGEN CHLORIDE)Hydrochloric acid is a corrosive colorless to slightly yellow gas with a strong odor. It is used inmetal processing, analytical chemistry, and in making other chemicals. Acute exposure tohydrochloric acid can cause severe burns of the skin and eyes, leading to permanent damage andblindness. Breathing hydrochloric acid vapor irritates the mouth, nose, throat, and lungs, causingcoughing, shortness of breath, fluid build-up in the lungs (pulmonary edema), and possibly death.Chronic exposure damages the lungs and may erode the teeth.
HYDROCYANIC ACID (HYDROGEN CYANIDE)Hydrocyanic acid is a flammable and reactive pale blue liquid or gas with a bitter, almond-likeodor. The gas is used in industry to kill rodents and insects. The liquid is used in making otherchemicals such as acrylates and acrylonitrile. Acute exposure can irritate and burn the skin, eyes,and throat, and can cause dizziness, headache, and nausea. High levels can lead rapidly toconvulsions or sudden death. Chronic exposure damages the thyroid gland and nervous system.
Appendix C
HYDROFLUORIC ACID (HYDROGEN FLUORIDE)Hydrofluoric acid is a corrosive colorless fuming liquid or gas with a strong irritating odor. It isused in etching glass and in making other chemicals, including gasoline. Breathing the vaporcauses extreme respiratory irritation (with cough, fever, chills, and tightness) that may be fatal.Contact can severely burn the skin and eyes, resulting in permanent eye damage or blindness.Long term exposure may damage the liver and kidneys, and causes fluorosis, with symptoms ofweight loss, malaise, anemia, and osteosclerosis.
PROPYLENE OXIDEPropylene oxide is a flammable and reactive liquid that is clear or colorless. It is used as afumigant and in making lubricants, detergents, and other chemicals. Acute exposure can severelyburn the skin and eyes. Inhaling the vapor can irritate the nose, throat, and lungs, and causedifficulty breathing. Exposure can lead to headache, dizziness, and passing out. Propylene oxideis a probable carcinogen and a mutagen (capable of causing mutations in genetic material).
SULFUR DIOXIDESulfur dioxide is a colorless gas with a sharp pungent odor. It may be shipped and stored as acompressed liquefied gas. Sulfur dioxide is used in the manufacture of sulfuric acid, sulfurtrioxide, and sulfites; in solvent extraction; and as a refrigerant, among other uses. Acuteexposure irritates the eyes and air passages. High exposures to the skin and eyes can cause severeburns and blindness, and breathing high levels can lead to death.
SULFURIC ACIDSulfuric acid is an oily liquid that is highly corrosive. It is used in fertilizers, chemicals, dyes,petroleum refining, etching and analytical chemistry, and in making iron, steel, and industrialexplosives. Breathing sulfuric acid can irritate the lungs; high levels can cause death through adangerous build-up of fluid in the lungs (pulmonary edema). Contact can severely burn the skinand eyes. Repeat exposure can cause erosion and pitting of the teeth, stomach upset, nose bleeds,tearing of the eyes, emphysema, and bronchitis.
TITANIUM TETRACHLORIDETitanium tetrachloride is a colorless to light yellow liquid that has a penetrating acid odor. It isused to make titanium pigments, iridescent glass, artificial pearls, and as a catalyst inpolymerization. Titanium tetrachloride is highly irritating to the skin, eyes, and mucousmembranes. Acute exposure can burn the skin, eyes, throat, and lungs. Chronic exposure canlead to chronic bronchitis, wheezing, and build-up of fluid in the lungs.
TOLUENE-2,4-DIISOCYANATEToluene-2,4-Diisocyanate is a colorless to pale yellow liquid with a strong fruity odor. It is usedto make polyurethane foams, elastomers, and coatings. Contact can irritate and burn the eyes andskin, and breathing vapor can irritate the nose, throat, and lungs, leading to coughing, chesttightness, and shortness of breath. High levels can lead to fluid in the lungs (pulmonary edema).Chronic exposure may cause concentration and memory problems. Toluene-2,4-Diisocyanate is aprobable carcinogen.
VINYL ACETATEVinyl acetate is a flammable and reactive colorless liquid with a sharp sweet odor. It is used inmaking polyvinyl resins. Acute exposure to vinyl acetate can irritate the eyes, nose, throat, andskin, and cause shortness of breath. High levels can cause fatigue, irritability and dizziness.Prolonged contact can blister and burn the skin.
* Extremely hazardous substances are defined by the U.S. EPA under the Clean Air Act, Section 112(r).
Appendix D
Appendix D
Questions for Local Governments to Ask ChemicalFacilities About Y2K-Readiness1
1. Has your facility established an overall program to manage Y2K-readiness, includingcontingency plans? What is the name, address, and phone number of the responsible person?
2. Have you obtained any independent, third-party verification of your Y2K remediation andtesting program? If so, by which entity or entities?
• Independent Contractor/Consultant• Major Customers• State Government• Other
3. Have you identified periods or specific dates of increased risk for Y2K-related problems atyour facility? If so, please identify them.
4. Are you planning a “safety holiday” (temporary shutdown of high-risk operations), orsignificantly scaled-back operations to protect against potential Y2K problems during any orall of these high-risk dates? If not, why not?
5. In case of Y2K-related plant shutdowns, are you committed to maintaining employee pay andbenefits?
6. Do you intend to inform, or have you already informed:
a. the community, andb. the EPA, andc. emergency responders,of potential risks (including worst-case scenarios) associated with Y2K problems? If so,describe how.
7. Are you willing to release the Community Impact Section (of the off-site consequenceanalysis) of your Risk Management Plan which addresses the potential worst-case accidentscenarios at your facility?
1 Compiled by NJ Work Environment Council, Public Research Works, and Texans United.