Conducting a Job Hazard Assessment - UofR: Environmental Health
Tutorial B: Conducting an Arc Flash Hazard Analysis ... - SKM
Transcript of Tutorial B: Conducting an Arc Flash Hazard Analysis ... - SKM
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Tutorial B:Conducting an Arc Flash Hazard Analysis to Determine the Maximum Likely Incident
Energy in Plant Electrical Arcs; and Methods to Manage the Hazard
H Landis Floyd
Daniel R Doan
Craig M Wellman
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Arc Flash Hazards Analysis
H. Landis Floyd
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Tutorial Agenda
• History, Research, Regulations -Lanny Floyd
• Incident Energy Assessment, Spreadsheet Use - Dan Doan
• Engineering and Administrative Controls, PPE - Craig Wellman
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Managing Arc Flash Hazards
• How we got to where we are• Impact of 2000 revision to NFPA70E
• Implementation tools
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DuPontArc Flash Injury Performance
1992 - 1999
• 148 Arc Flash Incidents
• 21 Injuries
• 1999– 14 Incidents– 4 Injuries
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Arc Flash Timeline1968 Dow implements arc flash PPE program
1980 Published article on use of arc flash PPE
1981 Ralph Lee publishes theory for hazard calculations
1986 DuPont implements arc flash PPE program
1990 OSHA subpart S does not address arc flash details
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Arc Flash Timeline
1994 OSHA 1910.269 addresses clothing hazards
1995 DuPont undertakes arc flash R&D
1995 ASTM Arc Test Method development
1995 NFPA70E defines arc flash boundary
1996 DuPont arc flash research published
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Arc Flash Timeline
1997 DuPont protective clothing research published
1998 ASTM standards for PPE testing
1999 Arc Flash rated PPE appears
2000 NFPA70E expands arc flash requirements
2002 NEC requires arc flash hazard warning
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Bad things can happen.An electric arc fault is a bad thing.
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Why is Burn Injury a Major Concern?
• The most severe burns are caused by ignited clothing, not by the original flash fire or electric arc exposure.
• Clothed areas can be burned more severely than exposed skin.
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Clothed areas can be burned more
severely than exposed skin
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Injury Consequences
• Burn injuries can be fatal
• Survival depends on age, health, exposure intensity and time, area of the body burned
• Treatment of second degree burns requires weeks, for third degree burns it can be years
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Treating Burn Injury Is Very Expensive
• The cost of treatment can exceed USD1,000,000 for a single case.
• Treatment can require years of skin grafting and rehabilitation.
• The victim may never be able to return to work.
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The Personal Cost Is Devastating
• Due to disfigurement and intense pain the victim will often not want to live, depression is common.
• Children will likely not be able recognize the burn victim after the accident.
• The victim’s spouse will be traumatized, divorce is common.
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The Past:
• No standard methods to determine incident energy of a potential arc hazard
• No standard methods to rate PPE performance
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Today:
Technology exists to determine incident energy and establish PPE ratings.
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Standards• ASTM F1958-99Standard Test Method for Determining the
Ignitability of Non-flame-Resistance Materials for Clothing by Electric Arc Exposure Method Using Mannequins
• ASTM F1959-99Standard Test Method for Determining the Arc Thermal Performance Value of Materials for Clothing
• ASTM F1506-01Standard Performance Specification for Flame Resistant Textile Materials for Wearing Apparel for Use by Electrical Workers Exposed to Momentary Electric Arc and Related Thermal Hazards
• ASTM F1891-00aStandard Specification for Arc and Flame
Resistant Rainwear
• NFPA70E-2000Standard for Electrical Safety Requirements in Employee Workplaces
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Incident Energy
• Energy Per Unit of Area Received On A Surface Located A Specific Distance Away From The Electric Arc, Both Radiant And Convective, in Units of cal/cm2.
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Cal/cm2
• 1.2 cal/cm2 - Second Degree Burn
• 3 cal/cm2 - 1% probability ignition of light weight cotton shirt.
• 6 cal/cm2 - Arc Rating of 1 layer 6 oz/yd2 aramid.
• 32 cal/cm2 - Arc Rating of one layer 6 oz/yd2 plus 4.5 oz/yd2 aramid
over a cotton T-shirt.
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Highlights of changes impacting arc flash hazards PPE in the 2000
edition of NFPA70E
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NFPA70E - 2000
Where it has been determined that work will be performed within the flash protection boundary, the flash hazard analysis shall determine, and the employer shall document, the incident energy exposure of the worker
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This incident energy exposure level shall be based on the working distance of the employee’s face and chest areasfrom a prospective arc source for the specific task to be performed.
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Working Distance
480V MCC
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Flame Resistant Clothing and Personal Protective Equipment shall be used by the employee based upon the incident energy exposure associated with the specific task.
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Chapter 3 Protective Equipment
3-1 General.
Employees working in areas where there are electrical hazards shall be provided with, and shall use, protective equipment that is designed and constructed for the specific part of the body to be protected and for the work to be performed.
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3-3 Personal Protection Equipment.
3-3.1 General.
When an employee is working within the flash protection boundary, he/she shall wear clothing and other protective equipment in accordance with 2-1.3.3.3 of Part II.
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3-3.2 Movement and Visibility
When flame resistant (or fire retardant treated) clothing is worn to protect an employee, it shall cover all ignitable clothingand shall allow for movement and visibility.
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3-3.5 Body Protection
Employees shall wear clothing resistant to flash flame wherever there is possible exposureto an electric arc flash.
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Such clothing can be provided as shirt and trousers, or as coveralls, or as a combination of jacket and trousers, or, for maximum protection, as coveralls and jacket. The higher degree of protection is provided by heavier fabrics or by layering combinations of natural fiber clothing resistant to electric arc flash (under layers of fire resistant clothing.)
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Personal Protective EquipmentFlash Burn Protection
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3-3.9.4.2 Outer Layers
Garments worn as outer layers over FR clothing, such as jackets or rainwear, shall also be made from FR material
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3-3.9.4.3 Underlayers
Meltable synthetic fibers shall be avoided in fabric underlayers next to the skin. Garments worn as underlayers (underwear) that neither ignite nor melt and drip in the course of an exposure to the electric arc and related thermal hazard may provide additional thermal protection.
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3-3.9.4.4 Coverage
Clothing shall cover potentially exposed areas as completely as possible.
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3-3.9.4 Factors in Selection of Protective Clothing
Protective clothing includes shirts, pants, coveralls, jackets, and parkas worn routinely by workers who, under normal working conditions, are exposed to momentary electric arc and related thermal hazards. Arc and flame resistant rainwear worn in inclement weather are included in this category of clothing.
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Clothing and equipment that maximize worker protectionshall be utilized. Clothing and equipment required by the degree of exposure shall be permitted to be worn alone or be integrated with normal apparel. It shall cover associated parts of the body and all normal apparel that is not flame-flash resistant, while allowing movement and visibility.
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All personal protective equipment shall be maintained in a sanitary and reliable condition. Individual protection items will normally be used in conjunction with one another as a system to provide appropriate protection.
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3-3.9.4.1 Layering
FR and natural fiber garments shall be permitted to be used for a layered system for added protection. A typical layering system may include an undershirt, a shirt and trouser and coverall. Specific tasks may call for specific protection systems.
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The 2002 Edition of the National Electrical Code will have this new requirement in Article 110.16
110.16 Flash Protection. Switchboards, panelboards, and motor control centers in other than dwelling occupancies, that are likely to require examination, adjustment, servicing, or maintenance whileenergized, shall be field marked to warn qualified persons of potential electric arc flash hazards. The marking shall be located so as to be clearly visible to qualified persons before examination, adjustment, servicing, or maintenance of the equipment.
FPN No. 1: NFPA 70E-2000, Electrical Safety Requirements for Employee Workplaces, provides assistance in determining severity of potential exposure, planning safe work practices, and selecting personal protective equipment.
FPN No. 2: ANSI Z535.4-1998, Product Safety Signs and Labels, provides guidelines for the design of safety signs and labels for application to products.
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Summary so far...
• Arc Flash Hazard just recognized in last decades of the 20th century.
• Regulations and standards developed in the last decade.
• We have the tools to assess the hazard.
Questions?
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Arc Flash Hazard Analysis
Daniel R. Doan
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Methods of Analysis
• 70E equations • Arc Pro• Use of C. L. Fuses to
Reduce Arc Flash Energy• Worksheet• All rigorous methods require the
same steps
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Arc Flash Hazard Analysis
• Review the steps for analysis
• Example
• Document Control
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Arc Flash Hazard Analysis
Step 1 Determine plant conditions
Step 2 Find short circuit fault values
Step 3 Find arcing fault currents in protection
Step 4 Find arc clearing times
Step 5 Determine working distance
Step 6 Calculate the incident energy
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Arc Flash Hazard Analysis
Step 1 Determine plant conditions
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Step 1. Determine plant conditions
- Review system single line and operation.
- List conditions, such as:Normal operationLoops closedTransformers in parallelDual Feeds
- Do analysis for each condition that applies
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Example System
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Step 1 - Example conditions
• Two main transformers, Loop open (Normal condition)
• Two main transformers, Loop closed
• One main transformer, Loop open
• One main transformer, Loop closed
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Arc Flash Hazard Analysis
Step 1 Determine plant conditions
Step 2 Find bolted short circuit fault values
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Step 2. Find Short Circuit Values
- If available, look at previous studies or design calculations
- Use a vendor’s on-line program
- Use a short circuit study program for large or complicated systems
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Step 2. Find Short Circuit Values
- Determine symmetrical three phase fault values for the 1.5 to 4 cycle case.
- Don’t add a safety factor. Higher current can give shorter arc fault duration and the wrong energy value.
- Example of a system entered into a commercial program
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Example
• Create Single Line - layout, bus names
• Enter details on transformers, buses, substations, and feeders
• Enter large motors
• At MCC Level, enter single motors if above 100 HP
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Example
Bolted Fault
Bus Name Voltage kA
Switch Center 1 12kV 9
Substation Bus 480V 52
MCC 480V 41
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Arc Flash Hazard Analysis
Step 1 Determine plant conditions
Step 2 Find short circuit fault values
Step 3 Find arcing fault current in protection
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Step 3. Find Arcing Current
- Arcing fault current is less than bolted fault
(systems no higher than 690 Volts) .
-- Arcing Fault Current is the same as the
bolted fault current in systems over 690 V.
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600V, 3-Phase Arc Current As A Function Of Bolted Fault Current
0
5
10
15
20
25
30
35
40
45
50
0 10 20 30 40 50 60 70 80 90 100 110Bolted Fault Current, kA
Arc
Cu
rre
nt,
kA
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Find arcing fault current using equations
For < 1 kV, FA = - 0.003 FB
2 + 0.734 FB + 1.356where: FA = Arcing fault current in kA FB = Bolted fault current in kA (5-106 kA)
For > 1 kV,FA = FB
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Step 3. Find Arcing Current in Protection
• Arcing current divides between multiple
sources
• Motor contribution from the faulted bus
doesn’t go through the fuse or breaker.
• Study report will show contributions from
motors and different buses
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Total 52,000 100.0% 31,400From:Bus A 26,000 50.0% 15,700Bus B 24,000 46.2% 14,492Motors 2,000 3.8% 1,208
Step 3. Find Arcing Current in Protection
Bolted Arcing
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Example
Bolted Arcing Fault Fault
Bus Name Voltage kA kA
Switch Center 1 12kV 9 8.7
Substation Bus 480V 52 30.5
MCC 480V 41 25.6
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Arc Flash Hazard Analysis
Step 1 Determine plant conditions
Step 2 Find short circuit fault values
Step 3 Find arcing fault currents in protection
Step 4 Find arc clearing times
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Step 4. Arc Clearing Times
• Get system coordination drawings.
• Update as required.
• Get protective device Time-Current Curves for simple case
• Use arcing fault current in protective device.
• Arc clearing time = Trip time + Operating time
= Melting time + Arcing time
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.01
.1
1
10
100
1000
.5 1 10 100 1000 10000
Current in Amperes: x 100 at 0.48 kV and x 4.000 at 12 kV.
Time in Seconds
TIME CURRENT CHARACTERISTIC CURVES
CURVES ARE PLOTTED TO DATE: NO:
Substation 80J - N. AIR COMPRESSOR GE SST Trip Unit - Existing Settings
0.48 kV TCC-1A 1-26-1999
CT: 1200:5Pick Up:1200 A 12 kVTapRange:[0.25 / 12.0] Tap:5.00 TD: 412-Relay GE IAC-77
12 kV100E A S&C SM4,5 STD 25KV9-Fuse
XFMR INRUSH
FLA=1202.81 A0.48 kVP=1000 kVAZ=5.86 %8-Transformer
XFMR FLA
0.48 kV1200 A GE CLF-CLASS L6-Fuse
F:21000A
INST: 8.000Sen:600 LTM:1.000 LTB:35-LVCB GE SST
(1/phase) 0.48kVE.P.R.350 KCMIL (CU)4-Cable
0.48 kV400ABUSS LPS-RK-12-Fuse
Acc. time:2.00 secLocked Rotor:2160.0 AFull Load:360.0 A1-Motor Starting
Hot Stall Time
Cold Stall Time
1 2 0 0 AV C B5 2
1 2 0 0 :5
5 11 2
v o lts1 2 0 0 0
9
1 0 0 0 k V A
8
4 8 0 V , 1 0 0 0 AM A IN B U S
C L F1 2 0 0 A
6
6 0 0 A F /6 0 0 A SA K U -2 5
5
2 -3 /C 3 5 0 M C MC A B L E
4
6 0 0 AD IS C
4 0 0 AL P S -R K
2
3 0 0h p
M1
F 2 1 0 0 0 A m p s
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Step 4. Arc Clearing Times - CLF
Use maximum melting time from fuse curve if fault current is not in limiting range
Limit point is the 0.01 sec point on the fuse curve.
For 1-2 times limit point in amps, use 0.008 seconds (1/2 cycle)
Over 2 times limit point, use 0.004 seconds (1/4 cycle)
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Step 4. Arc Clearing - Relays, Bkrs
•Get relay trip times from curves
Instantaneous: use 0.01 sec
•Use typical breaker operating times
LV Power Breakers .05 sec
MV Breakers .08 sec
HV Breakers .13 sec
•Clearing Time = Trip time + Operating Time
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Example
Bus Name Trip Operating Clearing Time Time Time
Switch Center 1 0 0.4 0.4
Substation Bus 0.15 0.05 0.20
MCC 0.25 0.05 0.30
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Arc Flash Hazard Analysis
Step 1 Determine plant conditions
Step 2 Find short circuit fault values
Step 3 Find arcing fault currents in protection
Step 4 Find arc clearing times
Step 5 Determine working distance
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Step 5. Working Distance
- Depends on task and equipment
- Small distance increase makes a big difference in incident energy
- General work: 18 inches (50 cm)
- MV: consider tasks with 36 inches (100 cm) distance
- HV: may be remote air switches, use larger distances like 72 inches (2 meters)
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Example
Bus Name Working Distance (in)
Switch Center 1 36
Substation Bus 18
MCC 18
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Arc Flash Hazard Analysis
Step 1 Determine plant conditions
Step 2 Find short circuit fault values
Step 3 Find arcing fault currents in protection
Step 4 Find arc clearing times
Step 5 Determine working distance
Step 6 Calculate the incident energy and arc flash boundary
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Step 6. Calculate Incident Energy
- Now you have all the data you need
- Insert data in Worksheet
- Use equations
- Example
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380-1000V, 3-Phase "Arc-In-Box" Maximum Incident Energy Algorithm
EMB = 1038.7 D-1.474 t [.0093FB2 - 0.3453 FB +5.9675]
where: EMB = Maximum Box Incident Energy, cal/cm2
D = Distance From Electrodes, inches (DB>18)FB = Bolted Fault Current, kA (16-52 kA Range) t = Duration of Arc, seconds
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380-1000V, 3-Phase “Arc-In-Box” Algorithm Solved For
Boundary DistanceD = [ (t/EMB) (9.66 FB
2 - 358.7 F + 6198) ] 0.6785
Equation can define boundary distanceFor specific incident energy levels such as:
• 2nd Degree Burn Boundary of Bare Skin• FR Clothing Protection Boundary
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> 1 KV, 3-Phase, Incident Energy Algorithm - Lee Theory
EMB = 793 FB V t / D 2
where: EMB = Maximum Box Incident Energy, cal/cm2
D = Distance From Electrodes, inches (DB>18)FB = Bolted Fault Current, kAV = System Ph-Ph Voltage, kV t = Duration of Arc, seconds
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Example
Bus Name Incident Energy(cal/cm2)
Switch Center 1 22.1
Substation Bus 28.2
MCC 30.0
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Final Results
• Run calculations for all conditions
• Put together in summary
• Group by voltages or by area
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Equation Limitations
• LV Equations per current published research are limited to Bolted Fault currents between 16 kA and 52 kA.
• Theoretical equations have no limit, but are incorrect when compared to actual tests.
• Developed a method to use theoretical equations to extend the range of useful equations...
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Compare Equations
At 480V, Fault of 16kA, and Distance of 36 inches,
Equation 1 (Research) returns 7.5 cal/cm2
Equation 2 (Theoretical) returns 4.7 cal/cm2
Scale factor k = 7.5 / 4.7 = 1.61
Now use Equation 2 multiplied by k when Fault is less than 16 kA.
Similar method applied for over 52 kA
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0.00
5.00
10.00
15.00
20.00
25.00
30.00
35.00
40.00
45.00
50.00
0.00 10.00 20.00 30.00 40.00 50.00
Bolted Fault, kA
Ene
rgy
Uncorrected
Corrected
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Common Mistakes1. Use the wrong current.Remedy: The arcing fault current should be used to
determine TA. The bolted fault current should be used in the incident energy equation.
2. Forget to consider multiple sources of fault current.
Remedy: In loop systems the fault current will probably be divided between two protective devices - making the arcing time much longer.
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Learnings
1. Found MCCs and buses with much higher energy levels than expected
2. Current Limiting fuses don’t always keep the energy below 1.2 cal/cm2.
3. Non-fused LV Breakers can give very high energy levels, depending on settings.
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Spreadsheet available at PCIC Website
At the Safety Subcommittee web page,
http://www.ieee-pcic.org/safety/safety.htm
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Arc Flash Hazard AnalysisStep 1 Determine plant conditions
Step 2 Find short circuit fault values
Step 3 Find arcing fault currents in protection
Step 4 Find arc clearing times
Step 5 Determine working distance
Step 6 Calculate the incident energy
Final Results and Document Control
Questions?
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Arc Flash Hazard Managing the Hazard
Craig M. Wellman
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Managing the Hazard
• PPE Program – Apply PPE to protect people
• Administrative controls – Operate/maintain so as to minimize the hazard
• Engineering controls – Design to minimize the hazard
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PPE program
• Assess functional needs
• Plan for garment management
• Train users
• Institutionalize program
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PPE program
• Assess functional needs– Determine incident energy (E) levels for
equipment
– Determine tasks in equipment requiring PPE
– Job factors - duration, weather, dexterity, vision
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Classes of equipment
Panelboards, drives, starters, controllers, transformers, 240V to 690V, fed by breaker600 V class motor control center (MCCs) fed by fused switch or breaker with limiter600 V class MCCs and plug- in- bus duct fed by breaker without limiter600 V/ 1000 V class switchgearOther 600 V/ 1000 V class equipmentFused contactor type motor starters, 1kV to 5kVMetal- clad switchgear, 1 kV to 5 kVMetal- enclosed switchgear, 1 kV to 5 kVMetal- clad switchgear, > 5 kVMetal- enclosed switchgear, > 5 kV
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Reading a panel meter while operating a meter switch
CB or fused switch operation with enclosure doors closed
CB or fused switch operation with enclosure doors open
Work on energized parts, including voltage testing
Work on control circuits with energized parts I20 V or below exposed
Work on control circuits with energized parts >120 V exposed
Insertion / removal / racking / of CBs / units from cubicles, doors open
Insertion / removal / racking of CBs / units from cubicles, doors closed
Application of safety grounds, after voltage test
Removal of bolted covers (to expose bare, energized parts)
Opening hinged covers (to expose bare, energized parts)
Opening voltage transformer or control power transformer compartments
Example site task list
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Task list guidance
• One level of PPE per class of equipment may not be reasonable
• One or two feeds
• Doors
• Medium voltage applications where resistance grounding is used, in either modern metal clad switchgear (includes sleeves over stabs) or shielded cable
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PPE Program
• Garment management plan– Assignment plan - People/group/location?
Number?
– Maintenance plan - Contract vs. individual
– Select PPE for E levels, tasks, job conditions, • Everyday wear
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FR garments rated by fabric weight
• Men’s and women’s lines – Shirts 4.5 oz and 6 oz
– Lab coats 6 oz
– Pants 6 oz, 7.5 oz, 8.5 oz
– Bib overalls 6 oz
– Coveralls 4.5 oz, 6 oz, and 7.5 oz
– Knit shirts 6.5 oz and 9.5 oz
– Hooded sweatshirts 9.5 oz
– Switching coats 7.5 oz, 10 oz
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Flame resistant shirt
(Pants also needed)
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Face shield
• Green face shield with extenders provides 8 cal/cm2 protection to front
• Clear face shield provides very limited protection
• Does not protect rear of head as required (Knit balaclava)
• Hooded sweat shirt works for 8 cal/cm2
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FR garments tested and rated in cal/cm2 by NRTL
Levels Products
8 Face-fitting face shield
31 Bib-overalls, jacket, coat, hood
45 Insulated FR coveralls
50 Bib-overalls, coat, hood
100 Bib-overalls, coat, hood
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Arc Flash Protection for up to 31 cal/cm2
(FR pants also needed)
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Protection for lower energy levels
ClothingHead
Protection Rating in cal/cm2
Street clothing Safety glasses 0
6 oz. FR shirt andpants Same 1.2
SameFaceshield and
balaclava 6
Same + 6 oz FRcoveralls
Hood, 31cal/cm2 20
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Protection for higher levels
FR Clothing Head protection Rating incal/cm2
6 oz coveralls + coat withtwo 10 oz layers
50 c/c hood 50
31 c/c coat + pants 31 c/c hood 31
6 oz coveralls + 31 c/ccoat and pants
50 c/c hood 40
50 c/c coat + pants 50 c/c hood 50
100 c/c coat + pants 100 c/c hood 100
Calories/cm2 (c/c)
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Typical rainwear and chemical splash products
• Raincoats
• Jackets, pants
• Arc flash hoods
• Acid gear
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Arc rated rainwear
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Usability Issues - Heavy PPE
• Traps body heat
• Fogs up, limited ventilation
• Visibility
• Communication
• Stiffness
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PPE Program
• Functional needs
• Garment plan
• Training
• Institutionalize – Document all plans
– Post E levels
– Enforce
– Update
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2002 NEC has arc hazard label requirement - Here is one solution
(FR material)
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Top half of label -Printed in quantity
WARNING !Arc Flash and Shock HazardArc Flash and Shock HazardArc Flash and Shock HazardArc Flash and Shock Hazard
Appropriate PPE RequiredAppropriate PPE RequiredAppropriate PPE RequiredAppropriate PPE Required
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Bottom half of label -Custom printed
24 inch Flash Hazard Boundary
3 cal/cm2 Flash Hazard at 18 inches
480 VAC Shock Hazard when Cover is removed
36 inch Limited Approach
12 inch Restricted Approach - 500 V Class 00 Gloves
1 inch Prohibited Approach - 500 V Class 00 GlovesDate: 6/28/2001
Bldg. ECR #1 Equipment Name: Slurry Pump Starter
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Managing the hazard --Administrative controls
• Operate and maintain in a way that minimizes the hazard– Site team can provide
• Site procedures
• Training
• Process hazards analysis for electrical rooms
• PPE program requirements
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Site operating and maintenance procedures
• Lock and tag – General and equipment specific
• Maintenance Grounds– How? Where? When? With what?
– How assure removal?
• Switching – Recognize the hazard of tying two buses
together and minimize the time
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2500 KVA11.4KV / 480V
2500 KVA11.4KV / 480V
SUB O SUB P
TIEBKR
OLD HICKORYCRYSTAR
SPARE
Transfer of Loads From Sub O To Sub P
•Check Voltages & Loads on Subs O & P.
•Lead & Backup Person Put on Appropriate PPE.
•Remove Locks & Close Tie Breaker.
•Open & Lock Both Sub O Primary Breakers.
•Remove Spare Breaker From Top Fdr 1 Compt
•Megger Spare Breaker & Re-Install.
•Remove Cover Plates For Fdrs 2-6 Top Compts.
•Close Top Spare Breaker For Fdr 1.
•Open Bottom Breaker For Fdr 1.
•Move Bottom Fdr 1 Breaker to Top Fdr 2 Compt.
•Close Top Breaker for Fdr 2.
•Open Bottom Breaker For Fdr 2.
•Move Bottom Fdr 2 Breaker to Top Fdr 3 Compt.
•Close Top Breaker for Fdr 3.
•Open Bottom Breaker For Fdr 3.
•Continue Until All Loads Are On Top Bus, Sub P.
•Open & Lock Tie Breaker.
•Replace Cover Plates For Fdrs 1-5 Bottom Compts
•Remove PPE.
1 2 3 4 5 6
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2500 KVA11.4KV / 480V
2500 KVA11.4KV / 480V
SUB O SUB P
TIEBKR
OLD HICKORYCRYSTAR
SPARE
Restoring Subs O & P Back to Normal
•Lead & Backup Person Put on Appropriate PPE
•Remove Cover Plates For Fdrs 1-5 Bottom Compts
•Remove Locks & Close Tie Breaker.
•Close Bottom Breaker for Fdr 6.
•Open Top Breaker For Fdr 6.
•Move Top Fdr 6 Breaker to Bottom Fdr 5 Compt.
•Close Bottom Breaker for Fdr 5.
•Open Top Breaker For Fdr 5.
•Move Top Fdr 5 Breaker to Bottom Fdr 4 Compt.
•Close Bottom Breaker for Feeder 4.
•Open Top Breaker for Feeder 4.
•Continue Until All Loads Are Back to Normal..
•Replace Cover Plates For Fdrs 2-6 Top Compts
•Spare Breaker Will Be In Top Fdr 1 Compt.
•Remove Locks & Close Sub O Primary Breaker.
•Open & Lock Tie Breaker.
•Remove PPE.
•Check Voltages and Loads on Both Subs O & P.
1 2 3 4 5 6
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Training
• What training is needed?– OSHA
– NFPA 70E
– Company level practices
– Site specific procedures
– Equipment specific (Model 7700)
– Use and care of PPE
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Process hazards analysis for ECRs, Switchyards
• Get help on running analysis
• What are the hazards?– Shock, arc flash, fire, fall
• How can you mitigate them?– How call for help? -- Phone and FA available
– Exit signs and lights
– PPE available
• Can you reduce the likelihood? – How turn off power? -- Single lines posted
– Identification and warning labels
– Provision for locks where needed
– Minimize obstructions, stored material
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Engineering Controls --Design to minimize the hazard
• Reduce need for work on energized equipment
• Reduce probability of three phase faults
• Reduce fault current
• Reduce fault duration
• Reduce impact of arc flash on people
• Provide information on available fault energy
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Studies reveal all electrical injuries involve energized equipment!
• Most organizations prohibit hot work, (except testing.)
• Why do injuries still occur?– Testing
– Racking in breakers
– Operating switches and circuit breakers
– Equipment failures when no work underway
– Job expanded beyond original intent -#1 reason!
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Reduce need for work on or nearenergized equipment
• Design to enable shutdowns– Unitize loads - group by process function
– Provide dual feeds to critical equipment -controls
– Money is always available for safety
• Design for easy testing and grounding
• Design for remote racking and operation
• Install warning labels
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Reduce probability of three phase faults
– Metal clad vs. metal enclosed switchgear
– Insulated bus
– Resistance grounded system• Low resistance grounded - > 1 kV
• High resistance grounded - 480 V, 400 V
– Adequate ground fault return path
– Connection points for ground jumpers
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Maintenance grounding stud480vac Side of 12,000 to 480 transformer
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Reduce fault current
• Fast current limiting fuses – Limiter fuses on 480 V feeder breakers
• Resistance grounding– HRG on 480 V systems
– LRG on 2.4 kV to 22 kV systems
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Reduce fault duration
• Use current limiting fuses
• Tighten up the coordination
• Select protective devices for people protection as well as equipment protection and reliable operation.– Select relay settings for fast trips
– Select lower rated fuses
– Cut possible fault energy in half
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.1
1
10
100
.5 1 10 100 1000 10000
Tim
e in S
econds
Ins t:3300 A (prim ary )CT: 300:5P ic k Up:240 A 11.5 k VTapRange:[4.0 / 16.0] Tap:4.00 TD: 413-Relay GE IA C-77
CT: 300:5P ic k Up:180 A 11.5 k VTapRange:[2.5 / 10.0] Tap:3.00 TD: 1.70012-Relay M ULTILIN S R750 E IA C
X FM R INRUS H
FLA =3007.03 A0.48 k V
Faul ts are at S S 480 V bus wi th 1 or 2 trans .
0.48 k V1200 A
F:46500A
F:89600A
0.48 k V800 A GOULD FORM 600 HI A M P2-Fus e
kV11.5
300:5
515013
300:5
5112
2500 kVA
10
SS 64Evolts480
5
2
MCCvolts480
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Reduce impact of arc flash on people
• Avoid openings/vents in equipment doors– Prefer door openings at the side of the door to
openings in the center
• Arc resistant switchgear– Big benefit for switching
• Remote operating controls for switchgear
• Remote racking - 480 V and higher
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Summary
• We know a lot more about arc flash hazards than we did a few years ago
• Regulations have new arc flash requirements
• Better PPE is available
• New application standards are available
• While progress will continue, the time for improved protection is now.
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When do arc flash injuries occur?
• When not expected
• When equipment is deenergized
• When at end of long feeder, where bolted fault current is lowest
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Line-of-defence
• PPE for the arc flash hazard is the last line-of-defense. It is not intended to prevent all injuries but is intended to mitigate the impact of an arc flash should one occur.
• Per NFPA 70E, the incident energy exposure shall be based on theworking distance of the employee's face and head from a prospective arc source for the specific task to be performed. FR clothing and PPE shall be used.... based upon the incident energy exposure... . That means injuries to hands and arms are expected if an arc at the level calculated and protected against occurs.
• PPE designed to prevent all injuries would be so restrictive people could not work and it is not available.
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Caution
• The equations embedded in this worksheet enable calculation of the estimated maximum incident energy and the estimated arc flash boundary distance.
• Users should be aware that the equations are based upon measuredincident energy under a specific set of test conditions and on theoretical work. Real arc exposures may be more or less severe than indicated by this worksheet. In addition, the potentially hazardous effects of molten copper splatter, projectiles, pressure impulses, and toxic arc byproducts have not been considered in the equations.
• Available bolted fault currents should be determined at the point of each potential fault. Using conservatively high bolted fault currents may give lower results in incident energy than are possible, depending on the protective device time-current response.
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Disclaimer– The information offered in this program is based on technical data
believed to be reliable. It is offered as a possible tool for conducting an arc flash hazard analysis. It is subject to revision as additional knowledge and experience is gained.
– THE INFORMATION IS PROVIDED WITH NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED.
– NO USE SHOULD BE MADE OF THE INFORMATION EXCEPT BY FULLY QUALIFIED PROFESSIONALS HAVING FORMED THEIR OWN EVALUTION OF THE INFORMATION FOR THEIR OWN PURPOSES AND APPLICATIONS.
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References
OSHA citations:• US OSHA Cites Ford in Arc Flash Accident - March 2000
• OSHA Cites Rhode Island Electric Utility in Electric Arc Flash Injury- March 2000
ASTM Standards• F1506-98 Standard Performance Specification for Textile Material for
Wearing Apparel for Use by Electrical Workers Exposed to Momentary Electric Arc and Related Thermal Hazards
• F1958/F1958M-99 Standard Test Method for Determining theIgnitability of Non-flame-Resistant Materials for Clothing by Electric Arc Exposure Method Using Mannequins
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References - PCIC Technical PapersAll on CD, some on PCIC website
• "The Other Electrical Hazard: Electric Arc Blast Burns"; Ralph H. Lee; 1982
• "Report on Enclosure Internal Arcing Tests"; Epperly, Heberlein and Higgins; 1994
• "Protective Clothing Guidelines for Electric Arc Exposure"; Neal, Doughty, andBingham; 1996
• "Testing Update on Protective Clothing & Equipment for Electric Arc Exposure"; Neal, Doughty, Dear, and Bingham; 1997
• "Predicting Incident Energy to Better Manage the Electric Arc Hazard on 600 V Power Distribution Systems"; Neal, Doughty and Floyd; 1998
• Staged Tests Increase Awareness of Arc-Flash Hazards in Electrical Equipment; Jones, Capelli-Schellpfeffer, Downey, Jamil, Liggett, Macalady, McClung,Saporita, Saunders, and Smith; 1997
• Modeling of the Pressure Wave Associated with Arc Fault; Wactor, Miller, Bowen, Capelli-Schellpfeffer; 2000
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