Documentation for Immediately Dangerous to Life or Health Concentrations (IDLHs)

Chlorine

IDLH Documentation

CAS number: 7782505

NIOSH REL: 0.5 ppm (1.45 mg/m³) 15minute CEILING

Current OSHA PEL: 1 ppm (3 mg/m³) CEILING

1989 OSHA PEL: 0.5 ppm (1.5 mg/m³) TWA, 1 ppm (3 mg/m³) STEL

19931994 ACGIH TLV: 0.5 ppm (1.5 mg/m³) TWA, 1 ppm (2.9 mg/m³) STEL

Description of Substance: Greenishyellow gas with a pungent, irritating odor.

LEL: . . Nonflammable Gas

Original (SCP) IDLH: 30 ppm

Basis for original (SCP) IDLH: The chosen IDLH is based on the statement by ILO [1971] that exposure to 30 ppm will cause intense coughing fits, and exposure to 40 to 60 ppm for 30 to 60 minutes or more may cause serious damage.

Existing shortterm exposure guidelines: National Research Council [NRC 1984] Emergency Exposure Guidance Levels (EEGLs):

1hour EEGL: 3 ppm

24hour EEGL: 0.5 ppm

ACUTE TOXICITY DATA

Lethal concentration data:

Species

Reference

LC₅₀

(ppm)

LC_Lo

(ppm)

Time

Adjusted 0.5-hr

LC (CF*)

Derived

value

Rat

Mouse

G. pig

Human

Back et al. 1972

Lehmann 1887

Prentiss 1937

Tab Biol Per 1933

293

137

-----

3,200

858

550

1 hr

3 hr

30 min

5 min

357 ppm (1.22)

167 ppm (1.22)

5,342 ppm (1.67)

858 ppm (1.0)

330 ppm (0.60)

36 ppm

17 ppm

534 ppm

86 ppm

33 ppm

*Note: Conversion factor (CF) was determined with "n" = 3.5 [ten Berge et al. 1986].

Other animal data: RD₅₀ (mouse), 9.34 ppm [Alarie 1981].

Other human data: Exposures to 30 ppm have been reported to cause intense coughing fits and exposure to 40 to 60 ppm for 30 to 60 minutes or more may cause serious damage [ILO 1971]. A concentration of 34 to 51 ppm has been reported to be lethal in 1 to 1.5 hours [Freitag 1941] while 14 to 21 ppm has been suggested as being dangerous within 0.5 to 1 hour [NPIRI 1983].

Revised IDLH: 10 ppm

Basis for revised IDLH: The revised IDLH for chlorine is 10 ppm based on acute inhalation toxicity data in humans [Freitag 1941; ILO 1971; NPIRI 1983].

REFERENCES:

1. Alarie Y [1981]. Doseresponse analysis in animal studies: prediction of human responses. Environ Health Perspect 42:913.

2. Back KC, Thomas AA, MacEwen JD [1972]. Reclassification of materials listed as transportation health hazards. WrightPatterson Air Force Base, OH: 6570th Aerospace Medical Research Laboratory, Report no. TSA20723, pp. A182 to A183.

3. Freitag [1941]. Danger of chlorine gas. Z. Gesamte Schiess Sprengstoffwes.

4. ILO [1971]. Chlorine and compounds. In: Encyclopaedia of occupational health and safety. 2nd ed. Vol. I (AK). Geneva, Switzerland: International Labour Office, pp. 287288.

5. Lehmann KB [1887]. Experimentelle studien uber den einfluss technisch und hygienisch wichtiger gase und dampfe auf den organismus. Thiel III und IV: Chlor und brom. Arch Hyg 7:231285 (in German).

6. NPIRI [1983]. Raw materials data handbook, physical and chemical properties, fire hazard and health hazard data. Vol. II. 2nd ed. Organic solvents. Bethlehem, PA: National Printing Ink Research Institute, pp. 831857.

7. NRC [1984]. Emergency and continuous exposure limits for selected airborne contaminants. Vol. 2. Washington, DC: National Academy Press, Committee on Toxicology, Board on Toxicology and Environmental Health Hazards, Commission on Life Sciences, National Research Council, pp. 511.

8. Prentiss AM [1937]. Chemicals in war. A treatise on chemical warfare. New York, NY: McGrawHill Book Company, Inc., p. 150.

9. Tab Biol Per [1933]; 3:231 (in German).

10. ten Berge WF, Zwart A, Appelman LM [1986]. Concentration-time mortality response relationship of irritant and systematically acting vapours and gases. J Haz Mat 13:301309.
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