6 Gas Sample Drawing Monitor

Features	Special Features
Monitor up to 6 different gases PPM, % LEL, or % Vol. auto-ranging combustible detection H2 Specific LEL/PPM detection Multilingual (5 languages) Powerful long-life pump up to 125’ range Low flow pump shut off and alarm Methane elimination for environmental use Alkaline 16 hours or NiMH 18 hours capability Password protection Datalogging standard Auto calibration / single gas calibration Internal hydrophobic dust filter External probe with hydrophobic filter Ergonomic RFI / EMI / chemical / weather resistant enclosure Intrinsically safe design, CSA approval	Low flow alarm shuts pump off to avoid damage to instrument. Hydrophobic filter disc in probe. Internal hydrophobic filter. Single gas calibration capability. Methane elimination feature for environmental applications. Security Password protected. Meets EPA Method 21 protocol for fugitive emissions testing (most applications). Plug and play toxic sensors. Datalogging available for all configurations. Transformer gas testing version available.

Features

Special Features

Monitor up to 6 different gases
PPM, % LEL, or % Vol. auto-ranging combustible detection
H2 Specific LEL/PPM detection
Multilingual (5 languages)
Powerful long-life pump up to 125’ range
Low flow pump shut off and alarm
Methane elimination for environmental use
Alkaline 16 hours or NiMH 18 hours capability
Password protection
Datalogging standard
Auto calibration / single gas calibration
Internal hydrophobic dust filter
External probe with hydrophobic filter
Ergonomic RFI / EMI / chemical / weather resistant enclosure
Intrinsically safe design, CSA approval

Low flow alarm shuts pump off to avoid damage to instrument.
Hydrophobic filter disc in probe.
Internal hydrophobic filter.
Single gas calibration capability.
Methane elimination feature for
environmental applications.
Security Password protected.
Meets EPA Method 21 protocol for
fugitive emissions testing
(most applications).
Plug and play toxic sensors.
Datalogging available for all
configurations.
Transformer gas testing version available.

Specialty Sensors

The PID sensor is capable of detecting high or low ppm levels (0-50 & 0-2,000) of VOC gases. Other smart sensors include % volume capability for CH4 and H2 using a TC (thermal conductivity) sensor; ppm or LEL hydrocarbon detection at the push of a button; infrared sensors for CO2 (ppm or % volume), methane or hydrocarbons in LEL and % volume ranges; Optional LEL / ppm H2 specific sensor, methane elimination feature for environmental applications; and a variety of super toxic gases.

EAGLE 2 is a powerful instrument that does more than just offer the standard confined space protection for LEL, O2, H2S and CO.

Made In U.S.A

PID (Photoionization Detector)
- Low or high range for VOC detection
- Humidity and contamination resistant
Infrared (IR)
CO2, % LEL CH4, % Vol. CH4, % LEL HC, % Vol. HC
Thermal Conductivity (TC) % Vol. H2, % Vol. CH4
Smart toxic, plug and play sensors NH3, AsH3, Cl2, HCN, PH3, & SO2

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SPECIFICATIONS

Enclosure	Weatherproof, chemical resistant, RFI / EMI coated high impact polycarbonate-PBT blend. Can operate in 2.0” of water without leakage. Ergonomically balanced with rugged top mounted handle. Water & dust resistant equivalent to IP64.
Dimensions	9.5” L x 5.25” W x 5.875” H
Weight	3.8 Lbs (standard 4 gas with batteries)
Detection Principle	Catalytic combustion, electrochemical cell, galvanic cell, infrared, photo ionization detector, and thermal conductivity.
Sensor Life	2 Years under normal conditions.
Sampling Method	Powerful, long-life pump (over 6,000 hours) can draw samples over 125 feet. Flow rate approximately 2.0 SCFH
Display	3 display modes: display all gases, large font-autoscroll, or large font-manual scroll. Polyurethane protected overlay. Backlight, illuminates for alarms and by demand with adjustable time.
Language	Readout can display in 5 languages (English, French, German, Italian, or Spanish.
Alarms	2 Alarms per channel plus TWA and STEL alarms for toxics. The two alarms are fully adjustable for levels, latching or self reset, and silenceable.
Alarm Method	Buzzer 95 dB at 30 cm, four high intensity LED’s.
Controls	4 External glove friendly push buttons for operation, demand zero, and autocalibration. Buttons also access LEL/ppm, alarm silence, peak hold, TWA/STEL values, battery status, conversion factors, and many other features.
Continuous Operation	At 70°F, 16 hours using alkaline batteries, or 18 hours using Ni-MH.
Power Source	4 Alkaline or Ni-MH, size C batteries (Charger has alkaline recognition to prevent battery damage if charging is attempted with alkalines).
Operating Temp. & Humidity	-20°C to 50°C (-4°F to 122°F), 0 to 95% RH, non-condensing.
Response Time	30 Seconds to 90% (for most gases) using standard 5 ft hose.
Safety Rating	Intrinsically Safe, Class I Groups A, B, C, D.Approvals: CSA / CE
Standard Accessories	Shoulder strap, alkaline batteries, hydrophobic probe, and 5 foot hose, internal hydrophobic filter
Optional Accessories	Dilution fitting (50/50) Ni-MH batteries Battery charger, 115 VAC, 220 VAC, or 12 VDC (charge time 4 hours) with continuous operation function Extension hoses
Warranty	Two year material and workmanship, one year for PID sensor

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Gases & Detectable Ranges

The EAGLE 2 can be configured with up to 6 gas sensors from the list below.

Standard Confined Space Gases
Gas	Measuring Range	Accuracy (whichever is greater)
Hydrocarbons (CH4, std)	0 – 100% LEL	± 5% of reading or ± 2% LEL (*)
Hydrocarbons (CH4, std)	0 – 50,000 ppm	± 25 ppm or ± 5% of reading (*)
Oxygen (O2)	0 – 40% Vol.	0.5% O2
Carbon Monoxide (CO)	0 – 500 ppm	± 5% of reading or ± 5 ppm CO (*)
Hydrogen Sulfide (H2S)	0 – 100 ppm	± 5% of reading or ± 2 ppm H2S (*)
Toxics
Ammonia (NH3)	0 – 75 ppm	± 10% of reading or ± 5% of full scale (*)
Arsine (AsH3)	0 – 1.5 ppm
Chlorine (Cl2)	0 – 3 ppm
Hydrogen Cyanide (HCN)	0 – 15 ppm
Phosphine (PH3)	0 – 1 ppm
Sulfur Dioxide (SO2)	0 – 6 ppm
IR Sensors
Carbon Dioxide (CO2)	0 – 10,000 ppm0 – 5% Vol. 0 – 60% Vol.	± 5% of reading or ± 2% of full scale (*)
Methane (CH4)	0 – 100% LEL0 – 100% Vol.
Hydrocarbons	0 – 100% LEL 0 – 30% Vol.
PID Sensors
VOC	0 – 2,000 ppm 0 – 50 ppm	+10% of reading + 1 digit
TC Sensors
Methane (CH4)	0 – 100% Vol.	+10% of reading + 1 digit	± 5% of reading or ± 2% of full scale (*)
Hydrogen (H2)	0 – 10% Vol. 0 – 100% Vol.		± 5% of reading or ± 2% of full scale (*)

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EAGLE 2 PID Response Factors for VOCs

Photoionization detectors are calibrated using isobutylene, but PID is a broadband VOC detection technique, with a sensitivity that differs for each VOC. If you know what VOC you are detecting, then the table below will allow you to calculate the concentration for your specific VOC. Remember, these are approximate values, so for best accuracy you should calibrate with the relevant VOC.

Multiply the indicated concentration by the appropriate Relative Response value to provide an estimate of actual VOC concentration.

Gas / VOC	CAS No.	Formula	Relative Response
Acetaldehyde	75-07-0	C2H4O	4.9
Acetic Acid	64-17-7	C2H4O2	36
Acetic Anhydride	108-24-7	C4H6O3	4.0
Acetone	67-64-1	C3H6O	0.7
Acetonitrile	75-05-8	CH3CN	ZR
Acetylene	74-86-2	C2H2	ZR
Acrolein	107-02-8	C3H4O	4.0
Acrylic Acid	79-10-7	C3H4O2	2.7
Acrylonitrile	107-13-1	C3H3N	ZR
Allyl alcohol	107-18-6	C3H6O	2.1
Allyl chloride	107-05-1	C3H5Cl	4.5
Ammonia	7664-41-7	H3N	8.5
Amyl acetate, n-	628-63-7	C7H14O2	1.8
Amyl alcohol	71-41-0	C5H12O	3.2
Aniline	62-53-3	C6H7N	0.5
Anisole	100-66-3	C7H8O	0.5
Arsine	7784-42-1	AsH3	2.5
Asphalt, petroleum fumes	8052-42-4		1.0
Benzaldehyde	100-52-7	C7H6O	0.9
Benzene	71-43-2	C6H6	0.5
Benzenethiol	108-98-5	C6H5SH	0.7
Benzonitrile	100-47-0	C7H5N	0.7
Benzyl alcohol	100-51-6	C7H8O	1.3
Benzyl chloride	100-44-7	C7H7Cl	0.6
Benzyl formate	104-57-4	C8H8O2	0.8
Biphenyl	92-52-4	C12H10	0.4
Bis (2,3-epoxy-propyl) ether	2238-07-5	C6H10O3	3.0
Boron trifluoride	7637 07 2	BF3	ZR
Bromine	7726-95-6	Br2	20
Bromine pentafluoride	7789-30-2	BrF5	ZR
Bromobenzene	108-86-1	C6H5Br	0.7
Bromochloro- methane	74-97-5	CH2ClBr	ZR
Bromoethane	74-96-4	C2H5Br	5.0
Bromoethyl methyl ether, 2-	6482-24-2	C3H7OBr	2.5
Bromoform	75-25-2	CHBr3	2.8
Bromopropane, 1-	106-94-5	C3H7Br	1.3
Bromotrifluoro- methane	75-63-8	CF3Br	ZR
Butadiene	106-99-0	C4H6	0.8
Butadiene diepoxide, 1,3-	1464-53-5	C4H6O2	4.0
Butane, n-	106-97-8	C4H10	46
Butanol, 1-	71-36-3	C4H10O	4.0
Buten-3-ol, 1-	598-32-3	C4H8O	1.2
Butene, 1-	106-98-9	C4H8	1.3
Butoxyethanol, 2-	111-76-2	C6H14O2	1.1
Butyl acetate, n-	123-86-4	C6H12O2	2.4
Butyl acrylate, n-	141-32-2	C7H12O2	1.5
Butyl lactate	138-22-7	C7H14O3	2.5
Butyl mercaptan	109-79-5	C4H10S	0.5
Camphene	565-00-4	C10H16	0.5
Carbon dioxide	124-38-9	CO2	ZR
Carbon disulfide	75-15-0	CS2	1.4
Carbon monoxide	630-08-0	CO	ZR
Carbon tetrabromide	558-13-4	CBr4	3.0
Carbon tetrachloride	56-23-5	CCl4	ZR
Carbonyl sulphide	463-58-1	COS	ZR
Carvone, R-	6485-40-1	C10H14O	1.0
Chlorine	7782-50-5	Cl2	ZR
Chlorine dioxide	10049-04-4	ClO2	1.0
Chlorine trifluoride	7790-91-2	ClF3	ZR
Chloro-1,1,1,2-tetrafluoro- ethane	2837-89-0	C2HClF4	ZR
Chloro-1,1,1-trifluoroethane, 2-	75-88-7	C2H2ClF3	ZR
Chloro-1,1,2,2-tetrafluoro- ethane	354-25-6	C2HClF4	ZR
Chloro-1,1,2-trifluoroethane, 1-	421-04-5	C2H2ClF3	ZR
Chloro-1,1- difluoroethane, 1-	75-68-3	C2H3ClF2	ZR
Chloro-1,1- difluoroethane, 1-	75-68-3	C2H3ClF2	ZR
Chloro-1,1- difluoroethane, 2-	338-65-8	C2H3ClF2	ZR
Chloro-1,2,2-tri- fluoroethane	431-07-2	C2H2ClF3	ZR
Chloro-1,3- butadiene, 2-	126-99-8	C4H5Cl	3.2
Chloro-1- fluoroethane, 1-	1615-75-4	C2H4ClF	ZR
Chloro-2- fluoroethane, 1-	762-50-5	C2H4ClF	ZR
Chloroacetal- dehyde	107-20-0	C2H3OCl	ZR
Chlorobenzene	108-90-7	C6H5Cl	0.5
Chlorodifluoro- methane	75-45-6	CHClF2	ZR
Chloroethane	75-00-3	C2H5Cl	ZR
Chloroethyl methyl ether, 2-	627-42-9	C3H7ClO	2.6
Chlorofluoro- methane	593-70-4	CH2ClF	ZR
Chloroform	67-66-3	CHCl3	ZR
Chloromethane	74-87-3	CH3Cl	ZR
Chloropenta- fluoroethane	76-15-3	C2ClF5	ZR
Chlorotoluene, o-	95-49-8	C7H7Cl	0.5
Chlorotoluene, p-	108-41-8	C7H7Cl	0.5
Chlorotri- fluoroethylene	79-38-9	C2ClF3	1.0
Chlorotrifluoro- methane	75-72-9	CClF3	ZR
Citral	5392-40-5	C10H16O	1.0
Citronellol	26489-01-0	C10H20O	1.0
Cresol, m-	108-39-4	C7H8O	1.1
Cresol, o-	95-48-7	C7H8O	1.1
Cresol, p-	106-44-5	C7H8O	1.1
Crotonaldehyde	4170-30-3	C4H6O	1.0
Cumene	98-82-8	C9H12	0.6
Cyanamide	420-04-2	CH2N2	ZR
Cyanogen bromide	506-68-3	CNBr	ZR
Cyanogen chloride	506-77-4	CNCl	ZR
Cyclohexane	110-82-7	C6H12	1.3
Cyclohexanol	108-93-0	C6H12O	2.9
Cyclohexanone	108-94-1	C6H10O	1.1
Cyclohexene	110-83-8	C6H10	0.8
Cyclohexyla- mine	108-91-8	C6H13N	1.0
Cyclopentane	287-92-3	C5H10	4.0
Decane, n-	124-18-5	C10H22	1.0
Diacetone alcohol	123-42-2	C6H12O2	0.8
Dibenzoyl peroxide	94-36-0	C14H10O4	0.8
Diborane	19287-45-7	B2H6	ZR
Dibromochloro- methane	124-48-1	CHBr2Cl	10.0
Dibromodifluoro- methane	75-61-6	CF2Br2	ZR
Dibromoethane 1,2-	106-93-4	C2H4Br2	2.0
Dibromotetra- fluoroethane , 1,2-	124-73-2	C2F4Br2	ZR
Dibutyl hydrogen phosphate	107-66-4	HC8H18 PO4	4.0
Dichloro-1,1,1-trifluoroethane, 2,2-	306-83-2	C2HCl2F3	ZR
Dichloro-1,1-difluoroethane, 1,2-	1649-08-7	C2H2Cl2F2	ZR
Dichloro-1,2,2-trifluoroethane, 1,2-	354-23-4	C2HCl2F3	ZR
Dichloro-1,2-difluoroethane, 1,2-	631-06-1	C2H2Cl2F2	ZR
Dichloro-1- fluoroethane, 1,1-	1717-00-6	C2H3Cl2F	ZR
Dichloro-1 -fluoroethane, 1,1-	1717-00-6	C2H3Cl2F	ZR
Dichloro-1- fluoroethane, 1,2-	430-57-9	C2H3Cl2F	ZR
Dichloro-1- propene, 2,3-	78-88-6	C3H4Cl2	1.4
Dichloro-2,2,-difluoroethane, 1,1-	79-35-6	C2H2Cl2F2	ZR
Dichloro- acetylene	7572-29-4	C2Cl2	5.0
Dichloro- benzene o-	95-50-1	C6H4Cl2	0.5
Dichlorodifluoro- methane	75-71-8	CCl2F2	ZR
Dichloroethane 1,2-	107-06-2	C2H4Cl2	ZR
Dichloroethane, 1,1-	75-34-3	C2H4Cl2	ZR
Dichloroethene, 1,1-	75-35-4	C2H2Cl2	1.0
Dichloroethene, cis-1,2-	156-59-2	C2H2Cl2	0.8
Dichloroethene, trans-1,2-	540-59-0	C2H2Cl2	0.7
Dichloro- ethylene 1,2-	540-59-0	C2H2Cl2	0.8
Dichlorofluoro- methane	75-43-4	CHFCl2	ZR
Dichloro- methane	75-09-2	CH2Cl2	39
Dichloro- propane, 1,2-	78-87-5	C3H6Cl2	ZR
Dichlorotetra- fluoroethane, 1,1-	374-07-2	C2Cl2F4	ZR
Dichlorotetra- fluoroethane, 1,2-	76-14-2	C2Cl2F4	ZR
Dicyclo- pentadiene	77-73-6	C10H12	0.9
Diesel Fuel	68334-30-5		0.8
Diethyl ether	60-29-7	C4H10O	0.9
Diethyl maleate	141-05-9	C8H12O4	2.0
Diethyl phthalate	84-66-2	C12H14O4	1.0
Diethyl sulphate	64-67-5	C4H10SO4	3.0
Diethyl sulphide	352-93-2	C4H10S	0.6
Diethylamino- propylamine, 3-	104-78-9	C7H18N2	1.0
Difluoro- ethane, 1,1-	75-37-6	C2H4F2	ZR
Difluoro- ethane, 1,2-	624-72-6	C2H4F2	ZR
Difluoro- methane	75-10-5	CH2F2	ZR
Dihydrogen selenide	7783 07 5	H2Se	1.0
Dihydroxy- benzene, 1,2	120-80-9	C6H6O2	1.0
Dihydroxy- benzene, 1,3	108-46-3	C6H6O2	1.0
Diisobutylene	107-39-1	C8H16	0.6
Diisopropyl ether	108-20-3	C6H14O	0.7
Diketene	674-82-8	C4H4O2	2.2
Dimethoxy- methane	109-87-5	C3H8O2	1.4
Dimethyl cyclohexane, 1,2-	583-57-3	C8H16	1.1
Dimethyl disulphide	624-92-0	C2H6S2	0.2
Dimethyl ether	115-10-6	C2H6O	1.3
Dimethyl phthalate	131-11-3	C10H10O4	1.0
Dimethyl sulphate	77-78-1	C2H6O4S	ZR
Dimethyl sulphide	75-18-3	C2H6S	0.5
Dimethy- lacetamide N,N-	127-19-5	C4H9NO	1.3
Dimethylaniline, NN-	121-69-7	C8H11N	0.6
Dimethylbutyl acetate	108-84-9	C8H16O2	1.6
Dimethylforma- mide	68-12-2	C3H7NO	0.9
Dimethylheptan- 4-one, 2,6-	108-83-8	C9H18O	0.8
Dimethyl- hydrazine, 1,1-	57-14-7	C2H8N2	1.0
Dinitrobenzene, m-	99-65-0	C6H4N2O4	3.0
Dinitrobenzene, o-	528-29-0	C6H4N2O4	ZR
Dinitrobenzene, p-	100-25-4	C6H4N2O4	5.0
Dinonyl phthalate	84-76-4	C26H42O4	1.0
Dioxane 1,2-		C4H8O2	1.5
Dioxane 1,4-	123-91-1	C4H8O2	1.5
Dipentene	138-86-3	C10H16	0.9
Diphenyl ether	101-84-8	C12H10O	0.8
Disulphur decafluoride	5714-22-7	S2F10	ZR
Di-tert-butyl- p-cresol	2409-55-4	C11H16O	1.0
Divinylbenzene	1321-74-0	C10H10	0.4
Dodecanol	112-53-8	C12H26O	0.9
Enflurane	13838-16-9	C4H2F5ClO	ZR
Epichlorohydrin	106-89-8	C3H5ClO	8.0
Epoxypropyl isopropyl ether, 2,3-	4016-14-2	C6H12O2	1.1
Ethane	74-84-0	C2H6	ZR
Ethanol	64-17-5	C2H6O	8.7
Ethanolamine	141-43-5	C2H7NO	3.0
Ethoxy-2- propanol, 1-	1569-02-4	C5H10O2	2.0
Ethoxyethanol, 2-	110-80-5	C4H10O2	29.8
Ethoxyethyl acetate, 2-	111-15-9	C6H12O3	3.0
Ethyl (S)-(-)- lactate	97-64-3	C5H10O3	3.0
Ethyl acetate	141-78-6	C4H8O2	3.6
Ethyl acrylate	140-88-5	C5H8O2	2.0
Ethyl benzene	100-41-4	C8H10	0.5
Ethyl butyrate	105-54-4	C6H12O2	1.0
Ethyl chlorofor- mate	541-41-3	C3H5O2Cl	80
Ethyl cyanoacrylate	7085-85-0	C6H7O2N	1.5
Ethyl decanoate	110-38-3	C12H24O2	1.8
Ethyl formate	109-94-4	C3H6O2	30
Ethyl hexanoate	123-66-0	C8H16O2	2.6
Ethyl hexanol, 2-	105-76-7	C8H18O	1.5
Ethyl hexyl acrylate, 2-	103-11-7	C11H20O2	1.0
Ethyl mercaptan	75-08-1	C2H6S	0.7
Ethyl octanoate	106-32-1	C10H20O2	2.3
Ethylene	74-85-1	C2H4	8.0
Ethylene dinitrate	628-96-6	C2H4O6N2	ZR
Ethylene glycol	107-21-1	C2H6O2	20.0
Ethylene oxide	75-21-8	C2H4O	15.0
Ferrocene	102-54-5	C10H10Fe	0.8
Fluorine	7782-41-4	F2	ZR
Fluoroethane	353-33-6	C2H5F	ZR
Fluoromethane	593-53-3	CH3F	ZR
Formaldehyde	50-00-0	CH2O	ZR
Formamide	75-12-7	CH3ON	2.0
Formic acid	64-18-6	CH2O2	ZR
Furfural	98-01-1	C5H4O2	1.4
Furfuryl alcohol	98-00-0	C5H6O2	2.0
Gasoline vapors	8006-61-9		1.1
Gasoline vapors	8006-61-9		0.8
Gasoline vapors 92 octane	8006-61-9		0.8
Germane	7782-65-2	GeH4	10.0
Glutaralde- hyde	111-30-8	C5H8O2	0.9
Halothane	151-67-7	CF3CHBrCl	ZR
Helium		He	ZR
Heptan-2-one	110-43-0	C7H14O	0.7
Heptan-3-one	106-35-4	C7H14O	0.8
Heptane n-	142-82-5	C7H16	2.1
Hexachloro- ethane	67-72-1	C2Cl6	ZR
Hexafluoro- ethane	76-16-4	C2F6	ZR
Hexamethyl- disilazane, 1,1,1,3,3,3-.	999-97-3	C6H19NSi2	1.0
Hexamethyl- disiloxane.	107-46-0	C6H18OSi2	0.3
Hexan-2-one	591-78-6	C6H12O	0.8
Hexane n-	110-54-3	C6H14	4.2
Hexene, 1-	592-41-6	C6H12	0.9
Hydrazine	302-01-2	H4N2	3.0
Hydrazoic acid	7782-79-8	HN3	ZR
Hydrogen	1333-74-0	H2	ZR
Hydrogen bromide	10035-10-6	HBr	ZR
Hydrogen chloride	7647-01-0	HCl	ZR
Hydrogen cyanide	74-90-8	HCN	ZR
Hydrogen fluoride	7664-39-3	HF	ZR
Hydrogen peroxide	7722-84-1	H2O2	4.0
Hydrogen sulfide	7783-06-4	H2S	4.0
Hydroquinone	123-31-9	C6H6O2	0.8
Hydroxypropyl acrylate 2-	999-61-1	C6H10O3	1.5
Iminodi (ethylamine) 2,2-	111-40-0	C4H13N3	0.9
Iminodiethanol 2,2'-	111-42-2	C4H11NO2	1.6
Indene	95-13-6	C9H8	0.5
Iodine	7553-56-2	I2	0.2
Iodoform	75-47-8	CHI3	1.5
Iodomethane	74-88-4	CH3I	0.4
Isoamyl acetate	123-92-2	C7H14O2	1.6
Isobutane	75-28-5	C4H10	8.0
Isobutanol	78-83-1	C4H10O	3.5
Isobutyl acetate	110-19-0	C6H12O2	2.3
Isobutyl acrylate	106-63-8	C7H12O2	1.3
Isobutylene	115-11-7	C4H8	1.0
Isobutyraldehyde	78-84-2	C4H8O	1.2
Isocyanates, all			NV
Isodecanol	25339-17-7	C10H22O	0.9
Isoflurane	26675-46-7	C3H2ClF5O	ZR
Isononanol	2452-97-9	C9H20O	1.5
Isooctane	565-75-3	C8H18	1.1
Isooctanol	26952-21-6	C8H18O	1.7
Isopentane	78-78-4	C5H12	6.0
Isophorone	78-59-1	C9H14O	0.8
Isoprene	78-79-5	C5H8	0.7
Isopropanol	67-63-0	C3H8O	4.4
Isopropyl acetate	108-21-4	C5H10O2	2.2
Isopropyl chloroformate	108-23-6	C4H7O2Cl	1.6
Jet Fuel JP-4			0.8
Jet Fuel JP-5			0.7
Jet Fuel JP-8			0.7
Kerosene	8008-20-6		0.8
Ketene	463-51-4	C2H2O	3.0
Liquefied petroleum gas	68476-85-7		ZR
Maleic anhydride	108-31-6	C4H2O3	2.0
Mercaptoacetic acid	68-11-1	C2H4O2S	1.0
Mercury	7439-97-6	Hg	NV
Mercury alkyls			NV
Mesitylene	108-67-8	C9H12	0.3
Methacrylic acid	79-41-4	C4H6O2	2.3
Methacrylonitrile	126-98-7	C4H5N	5.0
Methane	74-82-8	CH4	ZR
Methanol	67-56-1	CH4O	200
Methoxyethanol, 2-	109-86-4	C3H8O2	2.7
Methoxyethoxy- ethanol, 2-	111-77-3	C5H12O3	1.4
Methoxym- ethylethoxy-2- propanol	34590-94-8	C7H16O3	1.3
Methoxypropan- 2-ol	107-98-2	C4H10O2	3.0
Methoxypropyl acetate	108-65-6	C6H12O3	1.2
Methyl acetate	79-20-9	C3H6O2	5.2
Methyl acrylate	96-33-3	C4H6O2	3.4
Methyl bromide	74-83-9	CH3Br	1.9
Methyl cyano- acrylate	137-05-3	C5H5O2N	5.0
Methyl ethyl ketone	78-93-3	C4H8O	0.8
Methyl ethyl ketone peroxides	1338-23-4	C8H18O2	0.8
Methyl formate	107-31-3	C2H4O2	ZR
Methyl isobutyl ketone	108-10-1	C6H12O	0.8
Methyl isocyanate	624-83-9	C2H3NO	ZR
Methyl isothiocyanate	556-61-6	C2H3NS	0.6
Methyl mercaptan	74-93-1	CH4S	0.7
Methyl metha- crylate	80-62-6	C5H8O2	1.6
Methyl propyl ketone	107-87-9	C5H10O	0.8
Methyl salicylate	119-36-8	C8H8O3	1.2
Methyl sulphide	75-18-3	C2H6S	0.5
Methyl t-butyl ether	1634-04-4	C5H12O	0.8
Methyl-2- propen-1-ol, 2-	51-42-8	C4H8O	1.1
Methyl-2- pyrrolidinone, N-	872-50-4	C5H9NO	0.9
Methyl-4,6- dinitrophenol, 2-	534-52-1	C7H6N2O5	3.0
Methyl-5- hepten-2-one, 6-	110-93-0	C8H14O	0.8
Methylamine	74-89-5	CH5N	1.4
Methylbutan- 1-ol, 3-	123-51-3	C5H12O	3.4
Methylcyclo- hexane	108-87-2	C7H14	1.1
Methylcyclo- hexanol, 4-	589-91-3	C7H14O	2.4
Methylcyclo- hexanone 2-	583-60-8	C7H12O	1.0
Methylheptan- 3-one, 5-	541-85-5	C8H16O	0.8
Methylhexan- 2-one, 5-	110-12-3	C7H14O	0.8
Methyl- hydrazine	60-34-4	CH6N2	1.3
Methyl-N-2,4, 6tetranitro- aniline, N-	479-45-8	C7H5N5O8	3.0
Methylpent- 3-en-2-one, 4-	141-79-7	C6H10O	0.7
Methylpentan- 2-ol, 4-	108-11-2	C6H14O	2.8
Methylpentane- 2,4-diol, 2-	107-41-5	C6H14O2	4.0
Methylpropan- 2-ol, 2-	75-65-0	C4H10O	3.5
Methylstyrene	25013-15-4	C9H10	0.5
Mineral oil	8042-47-5		0.8
Mineral spirits	64475-85-0		0.8
Naphthalene	91-20-3	C10H8	0.4
Nitric oxide	10102-43-9	NO	8.0
Nitroaniline 4-	100-01-6	C6H6N2O2	0.8
Nitrobenzene	98-95-3	C6H5NO2	1.7
Nitroethane	79-24-3	C2H5NO2	ZR
Nitrogen dioxide	10102-44-0	NO2	10.0
Nitrogen trichloride	10025-85-1	NCl3	1.0
Nitrogen trifluoride	7783-54-2	NF3	ZR
Nitromethane	75-52-5	CH3NO2	ZR
Nitropropane, 1-	108-03-2	C3H7NO2	ZR
Nitropropane, 2-	79-46-9	C3H7NO2	ZR
Nitrous oxide	10024-97-2	N2O	ZR
Nonane, n-	111-84-2	C9H20	1.3
Norbornadiene, 2,5-	121-46-0	C7H8	0.6
Octachloronaph- thalene	2234-13-1	C10Cl8	1.0
Octane, n-	111-65-9	C8H18	1.6
Octene, 1-	111-66-0	C8H16	0.7
Oxalic acid	144-62-7	C2H2O4	ZR
Oxalonitrile	460-19-5	C2N2	ZR
Oxydiethanol 2,2-	111-46-6	C4H10O3	4.0
Oxygen		O2	ZR
Ozone	10028-15-6	O3	ZR
Paraffin wax, fume	8002-74-2		1.0
Paraffins, normal	64771-72-8		1.0
Pentacarbonyl iron	13463-40-6	FeC5O5	1.0
Pentachloro- ethane	76-01-7	C2HCl5	ZR
Pentachloro- fluoroethane	354-56-3	C2Cl5F	ZR
Pentafluoro- ethane	354-33-6	C2HF5	ZR
Pentan-2-one	107-87-9	C5H10O	0.8
Pentan-3-one	96-22-0	C5H10O	0.8
Pentandione, 2,4-	123-54-6	C5H8O2	0.8
Pentane, n-	109-66-0	C5H12	7.9
Peracetic acid	79-21-0	C2H4O3	2.0
Perchloryl fluoride	7616-94-6	Cl03F	ZR
Perfluoropropane	76-19-7	C3F8	ZR
Petroleum ether			0.9
Phenol	108-95-2	C6H6O	1.2
Phenyl propene, 2-	98-83-9	C9H10	0.4
Phenyl-2,3- epoxypropyl ether	122-60-1	C9H10O2	0.8
Phenylene- diamine, p-	106-50-3	C6H8N2	0.6
Phosgene	75-44-5	COCl2	ZR
Phosphine	7803-51-2	PH3	2.0
Picoline, 3-	108-99-6	C6H7N	0.9
Pinene, alpha	80-56-8	C10H16	0.3
Pinene, beta	127-91-3	C10H16	0.3
Piperidine	110-89-4	C5H11N	0.9
Piperylene	504-60-9	C5H8	0.7
Prop-2-yn-1-ol	107-19-7	C3H4O	1.3
Propan-1-ol	71-23-8	C3H8O	4.8
Propane	74-98-6	C3H8	ZR
Propane-1,2-diol, total	57-55-6	C3H8O2	10.0
Propene	115-07-1	C3H6	1.4
Propionaldehyde	123-38-6	C3H6O	1.7
Propionic acid	79-09-4	C3H6O2	8.0
Propyl acetate, n-	109-60-4	C5H10O2	2.5
Propylene dinitrate	6423-43-4	C3H6N2O6	ZR
Propylene oxide	75-56-9	C3H6O	7.0
Propyleneimine	75-55-8	C3H7N	1.3
Pyridine	110-86-1	C5H5N	0.8
Pyridylamine 2-	504-29-0	C5H6N2	0.8
Silane	7803-62-5	SiH4	ZR
Sodium fluoroa- cetate	62-74-8	C2H2O2FNa	ZR
Styrene	100-42-5	C8H8	0.4
Sulphur dioxide	7446-09-5	SO2	ZR
Sulphur hexa- fluoride	2551-62-4	SF6	ZR
Sulphur tetra- fluoride	7783-60-0	SF4	ZR
Sulphuric acid	7664-93-9	H2SO4	ZR
Sulphuryl fluoride	2699-79-8	SO2F2	ZR
Terphenyls		C18H14	0.6
Terpinolene	586-62-9	C10H16	0.5
Tert-butanol	75-65-0	C4H10O	2.6
Tetrabromo- ethane, 1,1,2,2-	79-27-6	C2H2Br4	2.0
Tetracarbonyl- nickel	13463-39-3	NiC4O4	1.0
Tetrachloro-1,2-difluoroethane, 1,1,2,2-	76-12-0	C2Cl4F2	ZR
Tetrachloro-1-fluoroethane, 1,1,2,2-	354-14-3	C2HCl4F	ZR
Tetrachloro-2,2-difluoroethane, 1,1,1,2-	76-11-9	C2Cl4F2	ZR
Tetrachloro-2-fluoroethane, 1,1,1,2-	354-11-0	C2HCl4F	ZR
Tetrachloro- ethane, 1,1,1,2-	630-20-6	C2H2Cl4	ZR
Tetrachloro- ethane, 1,1,2,2-	79-34-5	C2H2Cl4	ZR
Tetrachloroe- thylene	127-18-4	C2Cl4	0.7
Tetrachloronaph- thalenes, all isomers	20020-02-4	C10H4Cl4	1.0
Tetraethyl orthosilicate	78-10-4	C8H20O4Si	2.0
Tetraethyllead	78-00-2	C8H20Pb	ZR
Tetrafluoro- ethane, 1,1,1,2-	811-97-2	C2H2F4	ZR
Tetrafluoro- ethane, 1,1,2,2-	359-35-3	C2H2F4	ZR
Tetrafluoro- ethylene	116-14-3	C2F4	1.0
Tetrafluoro- methane	75-73-0	CF4	ZR
Tetrahydrofuran	109-99-9	C4H8O	1.6
Tetramethyl orthosilicate	681-84-5	C4H12O4Si	ZR
Tetramethyl succinonitrile	3333-52-6	C8H12N2	1.0
Therminol			1.0
Thionyl chloride	7719-09-7	SOCl2	ZR
Toluene	108-88-3	C7H8	0.5
Toluene-2,4-diiso- cyanate	584-84-9	C9H6N2O2	1.6
Toluenesulphonyl chloride, p-	98-59-9	C7H7SO2 Cl	3.0
Toluidine, o-	95-53-4	C7H9N	0.5
Tributyl phosphate	126-73-8	C12H27O4P	5.0
Tributylamine	102-82-9	C12H27N	1.0
Trichloro-1,1-difluoroethane, 1,2,2-	354-21-2	C2HCl3F2	ZR
Trichloro-1,2-difluoroethane, 1,1,2-	354-15-4	C2HCl3F2	ZR
Trichloro-2,2-difluoroethane, 1,1,1-	354-12-1	C2HCl3F2	ZR
Trichloro-2-fluoroe- thane, 1,1,2-	359-28-4	C2H2Cl3F	ZR
Trichlorobenzene 1,2,4-	120-82-1	C6H3Cl3	0.6
Trichloroethane, 1,1,1-	71-55-6	C2H3Cl3	ZR
Trichloroethane, 1,1,2-	79-00-5	C2H3Cl3	ZR
Trichloroethylene	79-01-6	C2HCl3	0.7
Trichlorofluoro- methane	75-69-4	CCl3F	ZR
Trichloronitro- methane	76-06-2	CCl3NO2	ZR
Trichlorophenoxy- acetic acid, 2,4,5-	93-76-5	C8H5O3Cl 3	1.0
Trichloropropane 1,2,3-	96-18-4	C3H5Cl3	ZR
Trichlorotrifluoroe- thane, 1,1,1-	354-58-5	C2Cl3F3	ZR
Trichlorotr-ifluoroe- thane, 1,1,2-	76-13-1	C2Cl3F3	ZR
Trifluoroethane, 1,1,1-	420-46-2	C2H3F3	ZR
Trifluoroethane, 1,1,2-	430-66-0	C2H3F3	ZR
Trifluoroethanol, 2,2,2-	75-89-8	C2H3F3O	ZR
Trifluoromethane	75-46-7	CHF3	ZR
Trimethylamine	53-50-3	C3H9N	0.5
Trimethylbenzene mixtures		C9H12	0.3
Trimethyl- benzene, 1,3,5-	108-67-8	C9H12	0.3
Trinitrotoluene 2,4,6-	118-96-7	C7H5N3O6	ZR
Turpentine	8006-64-2	C10H16	0.6
TVOC			1.0
Undecane, n-	1120-21-4	C11H24	0.9
Vinyl acetate	108-05-2	C4H6O2	1.1
Vinyl bromide	593-60-2	C2H3Br	1.0
Vinyl chloride	75-01-4	C2H3Cl	2.1
Vinyl-2-pyrrolid- inone, 1-	88-12-0	C6H9NO	0.9
Xylene mixed isomers	1330-20-7	C8H10	0.4
Xylene, m-	108-38-3	C8H10	0.4
Xylene, o-	95-47-6	C8H10	0.6
Xylene, p-	106-42-3	C8H10	0.6
Xylidine, all	1300-73-8	C8H11N	0.7