HAZARDOUS LOCATION CLASSIFICATION WHAT CONSTITUTES A HAZARDOUS LOCATION? The classification of a given area as to Class, Division, and Group is solely the judgment of THE OWNER, INSURANCE COMPANY, AND THE ­AUTHORITY HAVING JURISDICTION. Articles 500-517 of the National Electrical Code define, categorize and provide the basic ground rules of the application and installation of ­lighting fixtures in hazardous locations. Hazardous locations are defined in terms of Class, Division and Group, per the NEC. The definition of each is as follows: “CLASS I locations are those in which flammable Gases or Vapors are or may be present in the air in quantities sufficient to produce explosive or ignitable mixtures.” “CLASS II locations are those that are hazardous because of the presence of Combustible Dust.” “CLASS III locations are those that are hazardous because of the presence of easily ignitable Fibers or Flyings, but in which such fibers or flyings are not likely to be in suspension in the air in quantities sufficient to produce ignitable mixtures.” Each “CLASS” is further defined as either Division 1 or Division 2. DIVISION 1 is an environment that is Normally Hazardous. DIVISION 2 is an environment that is Not Normally Hazardous. Each Division may be further classified according to the particular gas, vapor or dust, by defining the areas by groups, see table below. Don’t confuse UL844 with UL1598 which meets the standards for those locations which require only enclosed and gasketed products. You can’t readily differentiate between UL1598 and UL844 listed luminaires by examining the product. So how do you tell one from the other? THE BEST WAY TO BE SURE OF A UL844 LISTING IS TO EXAMINE THE LABEL AND SEE THE WORDS “LISTED ELECTRIC LIGHTING FIXTURES FOR HAZARDOUS LOCATIONS” OR “LISTED ELECTRIC LIGHTING FIXTURES FOR HAZARDOUS LOCATIONS” IN CLOSE PROXIMITY TO THE CIRCULAR UL LOGO. UL844 IS THE ONLY UL STANDARD FOR HAZARDOUS LOCATION ­LIGHTING SUMMARY OF HAZARDOUS ATMOSPHERES* NEC CLASS DIVISION TYPICAL ATMOSPHERE AND GROUPAUTOIGNITION TEMPERATURES TEMPERATURE LIMITING MEASURED VALUE I 1 A Acetylene (305°C, 581°F) Maximum GASES, Normally exterior VAPORS hazardous B Hydrogen (502°C, 986°F) manufactured temperature in gases containing more than 30% 40°C ambient. hydrogen (by volume) H8 is in 25°C C ethylene (450°C, 842°F) ambient cyclopropane (503°C, 938°F) D hexanes (225°C, 437 °F) butane (288°C, 550°F) propane (450°C, 842°F acetone (465°C, 869°F) benzene (420°C, 788°F gasoline (280-471°C, 536-880°F) 2** A Same as Division 1 Max interior Not B Same as Division 1 temperature in normally C Same as Division 1 40°C ambient. hazardous D Same as Division 1 P54H is in 25°C ambient GE TYPE ORDERING NUMBER 280°C (536°F) and Not Available Articles 500-503 of NEC 280°C (566°F) and Articles 500-503 of NEC 180°C (356°F) and Articles 500-503 of NEC 280°C (526°F) and Articles 500-503 of NEC H9 H8 Max temp of luminaire not to exceed the autoignition temp (°C) of gas H2 or vapor involved. Ref. Articles 500-503 of NEC P54H PMGA MGH II 1 E Metal dust, including aluminum, Max exterior COMBUSTIBLE Normally magnesium, and their commercial alloys, temperature in DUSTS hazardous and other metals of similarly hazardous 40°C ambient characteristics with a dust F Carbon black, coal, coke dust blanket. H8 is in 25°C G Flour, starch, grain dusts. ambient. 2** G Same as Division 1 Max exterior Not temp under normally conditions of hazardous use III 1, 2 Same as Class II, Division 2 Same as Class EASILY II, Div. 2 IGNITIBLE FIBERS AND FLYINGS 200°C (392°F) and Articles 500-503 of NEC H2 200°C (392°F) and Articles 500-503 of NEC 165°C (329°F) and Articles 500-503 of NEC 165°C (329°F) and Articles 500-503 of NEC H9 MGH H8 FP2 165°C (329°F) and Articles 500-503 of NEC H2 MGH * Information for this table is extracted from the National Electrical Code (NEC), Article 500, and from the National Fire Prevention Association’s “National Electrical Code Handbook,” (reference to NFPA 497M). ** Not normally hazardous means that the gases or dusts are not normally present. The classification of a given area as to Class, Division, and Group is solely the judgement of THE OWNER, INSURANCE COMPANY, AND THE AUTHORITY HAVING JURISDICTION. GE Lighting Solutions • 1-888-MY-GE-LED • www.gelightingsolutions.com 1-888- 6 9 - 4 3-5 3 3 OLP-2907_HazardousLocationClassification_H4-H5_010612.indd 1 Page-1 OLP-2907 1/18/2012 2:43:01 PM HAZARDOUS MATERIAL COMMONLY ENCOUNTERED As a guide for THE OWNER, RESPONSIBLE INSURANCE COMPANY, AND THE AUTHORITY HAVING JURISDICTION in determining the proper NEC Group classification for a flammable gas, to use the following table is reprinted from the “Manual for Classification of Gases, Vapors and Dusts for Electrical Equipment in Hazardous (Classified) Locations” NFPA 497M and lists the Autoignition Temperature (AIT) of gases and vapors of liquids with Flash Points below 100°F (37°C). It also lists Group Classifications for the gases as determined by tests (indicated by *) or based on analogy with tested materials and on chemical structure. While the classification of the untested materials represents the best judgement of two groups of experts, it is conceivable that the Group Classification of any particular untested material may be incorrect. In certain instances, therefore, it may be advisable to submit untested materials to a qualified testing laboratory for verification of the assigned Group ­Classification. NOTE: The temperature and Group Classifications are subject to change. Consult the latest edition of NFPA 497M for the most recent information. NOTE: Reprinted with permission from NFPA 497M, Classification of Class I Hazardous Locations for Electrical Installations, National Fire Protection Association, Quincy, MA 02269. This reprinted material is not the ­complete and official position of the NFPA on the referenced subject which is ­represented only by the standard in its entirety. GROUP CLASSIFICATION AND AUTOIGNITION TEMPERATURE (AIT) OF SELECTED FLAMMABLE GASES AND VAPORS OF LIQUIDS HAVING FLASH POINTS BELOW 100°F (37.8°C). MATERIAL ACETALDEHYDE ACETONE ACETONITRILE ACETYLENE ACROLEIN (INHIBITED) ACRYLONITRILE ALLYL ALCOHOL ALLYL CHLORIDE AMMONIA N-AMYL ACETATE SEC-AMYL ACETATE BENZENE 1,3-BUTADIENE BUTANE 1-BUTANOL 2-BUTANOL N-BUTYL ACETATE ISO-BUTYL ACETATE SEC-BUTYL ACETATE BUTYLAMINE BUTYLENE BUTYL MERCAPTAN N-BUTYRALDEHYDE CARBON DISULFIDE CARBON MONOXIDE CHLOROBENZENE CHLOROPRENE CROTONALDEHYDE CUMENE CYCLOHEXANE CYCLOHEXENE CYCLOPROPANE 1,1-DICHLOROETHANE 1,2-DICHLOROETHYLENE 1,3,-DICHLOROPROPENE DICYCLOPENTADIENE DIETHYL ETHER DIETHYLAMINE DI-ISOBUTYLENE DI-ISOPROPYLAMINE DIMETHYLAMINE 1,4-DIOXANE DI-N-PROPYLAMINE EPICHLOROHYDRIN ETHANE ETHANOL AIT GROUP°F C* 347 D* 869 D 975 A* 581 1 B(C)* 455 D* 898 C* 713 D 905 2 D* 928 D 680 D – D* 928 B(D)*1 788 D* 550 D* 650 D* 761 D* 790 D* 790 D – D 594 D 725 C – C* 425 3 -* 194 C* 1128 D 1099 D – C* 450 D 795 D 473 D 471 D* 938 D 820 D 860 D – C 937 C* 320 C* 594 D* 736 C 600 C 752 C 356 C 570 C* 772 D* 882 D* 685 °C 175 465 524 305 235 481 378 485 498 360 – 498 420 288 343 405 421 421 – 312 385 – 218 90 609 593 – 232 424 245 244 503 438 460 – 503 160 312 391 316 400 180 299 411 472 363 AIT MATERIAL GROUP°F ETHYL ACETATE D* 800 ETHYL ACRYLATE (INHIBITED) D* 702 ETHYLAMINE D* 725 ETHYL BENZENE D 810 ETHYL CHLORIDE D 966 ETHYLENE C* 842 ETHYLENEDIAMINE D* 725 ETHYLENE DICHLORIDE D* 775 ETHYLENIMINE C* 608 1 ETHYLENE OXIDE B(C)* 804 ETHYL FORMATE D 851 ETHYL MERCAPTAN C* 572 N-ETHYL MORPHOLINE C – FORMALDEHYDE (GAS) B 795 GASOLINE D* 536-880 HEPTANE D* 399 HEPTENE D 500 HEXANE D* 437 2-HEXANONE D 795 HEXENES D 473 HYDROGEN B* 968 HYDROGEN CYANIDE C* 1000 HYDROGEN SELENIDE C – HYDROGEN SULFIDE C* 500 ISOAMYL ACETATE D 680 ISOBUTYL ACRYLATE D 800 ISOBUTYRALDEHYDE C 385 ISOPRENE D* 428 ISOPROPYL ACETATE D 860 ISOPROPYLAMINE D 756 ISOPROPYL ETHER D* 830 ISOPROPYL GLYCIDYL ETHER C – LIQUEFIED PETROLEUM GAS D 761-842 MANUFACTURED GAS (CONTAINING MORE THAT 30% H2 BY VOLUME)B* – MESITYL OXIDE D* 652 METHANE D* 999 METHANOL D* 725 METHYL ACETATE D 850 METHYLACETYLENE C* – METHYLACETYLENE-PROPADIENE (STABILIZED) C – METHYL ACRYLATE D 875 METHYLAMINE D 806 METHYLCYCLOHEXANE D 482 METHYL ETHER C* 662 NOTES TO TABLE *Material has been classified by test. 1If equipment is isolated by sealing out conduit 1/2-in. (12.7mm) or larger, in accordance with Article 501-5(a) of NFPA 70, National Electrical Code, equipment for the group classification shown in a parenthesis is permitted. 2For Classification of areas involving ammonia, see Safety Code for Mechanical Refrigeration, ANSI/ASHRAE 15, and Safety Requirements for the Storage and Handling of Anhydrous Ammonia, ANSI/CGA G2.1 °C 427 372 385 432 519 450 385 413 320 429 455 300 – 429 280-471 204 260 225 424 245 520 538 – 260 360 427 196 220 460 402 443 – 405-450 – 344 537 385 454 – – 468 430 250 350 AIT MATERIAL GROUP°F METHYL ETHYL KETONE D* 759 METHYL FORMAL C* 460 METHYL FORMATE D 840 METHYL ISOBUTYL KETONE D* 840 METHYL ISOCYANATE D 994 METHYL MERCAPTAN C – METHYL METHACRYLATE D 792 2-METHYL-1-PROPANOL D* 780 2-METHYL-2-PROPANOL D* 892 MONOETHYL HYDRAZINE C 382 4 NAPHTHA (PETROLEUM) D* 550 NITROETHANE C 778 NITROMETHANE C 785 1-NITROPROPANE C 789 2-NITROPROPANE C* 802 NONANE D 401 NONENE D – OCTANE D* 403 OCTENE D 446 PENTANE D* 470 1-PENTANOL D* 572 2-PENTANONE D 846 1-PENTENE D 527 PROPANE D* 842 1-PROPANOL D* 775 2-PROPANOL D* 750 PROPRIONALDEHYDE C 405 N-PROPYL ACETATE D 842 PROPYLENE D* 851 PROPYLENE DICHLORIDE D 1035 1 PROPYLENE OXIDE B(C)* 840 N-PROPYL ETHER C* 419 PROPYL NITRATE B* 347 PYRIDINE D* 900 STYRENE D* 914 TERTAHYDROFURAN C* 610 TOLUENE D* 896 TRIETHYLAMINE C* – TURPENTINE D 488 UNSYMMETRICAL DIMETHYL HYDRAZINE (UDMH) C* 480 VALERALDEHYDE C 432 VINYL ACETATE D* 756 VINYL CHLORIDE D* 882 VINYLIDENE CHLORIDE D 1058 XYLENES D* 867-984 °C 404 238 449 449 534 – 422 416 478 194 288 414 418 421 428 205 – 206 230 243 300 452 275 450 413 399 207 450 455 557 449 215 175 482 490 321 480 – 253 249 222 402 472 570 464-529 3Certain chemicals may have characteristics that require ­safeguards beyond those required for any of the above groups. Carbon Disulfide is one of these chemicals because of its low autoignition temperature and small joint clearance to arrest flame propagation. 4Petroleum Naptha is a saturated hydrocarbon mixture whose boiling range is 20° to 135°C. It is also known as benzine, ligroin, petroleum ether, and naptha. References: Autoignition temperatures listed above are the lowest value for each material as listed in NFPA 325M, Fire Hazard ­Properties of ­Flammable Liquids, Gases, and Volatile Solids, or as reported in an article by Hilado, C. J. and Clark, S.W., in Chemical Engineering, September 4, 1972. Page-2 OLP-2907 OLP-2907_HazardousLocationClassification_H4-H5_010612.indd 2 1/18/2012 2:43:01 PM