Technical Factsheet on: 1,1,1 -TRICHLOROETHANE
List of Contaminants
As part of the Drinking Water and Health pages, this fact sheet is part of a larger publication:
National Primary Drinking Water Regulations
Drinking Water Standards
MCLG: 0.2 mg/L
MCL: 0.2 mg/L
HAL(child): 1 day: 100 mg/L; Longer-term: 40 mg/L
Health Effects Summary
Acute: EPA has found that 1,1,1-trichloroethane has the potential to cause damage to the liver, nervous
system and circulatory system from acute exposures above the MCL.
Drinking water levels which are considered "safe" for short-term exposures: For a 10-kg (22 lb.) child
consuming 1 liter per day, a one-day exposure of 100 mg/L; upto a 7-year exposure to 40 mg/L.
Chronic: 1,1,1-trichloroethane has the potential to cause liver, nervous system and circulatory system
damage from a lifetime exposure at levels above the MCL.
Cancer: There is inadequate evidence to state whether or not 1,1,1-trichloroethane has the potential to
cause cancer from exposures in drinking water.
Usage Patterns
Demand for 1,1,1-trichloroethane in 1988 was 700 million lb., increased to 705 million in 1989, and was
projected (in 1989) to reach 735 million lb. in 1993.
Solvent uses include vapor degreasing of metal products; for cleaning precision instruments; for textile
processing and dyeing; in aerosols, in which it acts both as a vapor pressure depressant and as a solvent
and carrier for many of the active ingredients used in aerosols. It is also used as an intermediate in the
manufacture of organic chemicals, as a coolant and lubricant in metal cutting oils; as a component of inks
and drain cleaners. Agricultural uses have included postharvest fumigation of strawberries; for
degreening citrus fruits; as a solvent for various insecticides.
Proportions consumed for various uses in 1989 were: vapor degreasing, 34%; cold cleaning, 12%;
aerosols, 10%; adhesives, 8%; intermediate, 7%; coatings, 5%; electronics, 4%; other, 5%; exports, 15%.
Release Patterns
1,1,1-Trichloroethane is likely to enter the environment from air emissions or in wastewater from its
production or use in vapor degreasing, metal cleaning, etc. It can also enter the environment in leachates
and volatile emissions from landfills.
From 1987 to 1993, according to EPA's Toxic Chemical Release Inventory, releases to water totalled over
222,000 lbs. Releases to land totalled over 812,000 lbs. These releases were primarily from metal
fabrication industries. The largest releases occurred in California and Georgia. The largest direct releases
to water occurred in Utah and Indiana.
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Environmental Fate
1,1,1-Trichloroethane has a high Henry's Law constant (8X10-3 atm-cu m/mole) and will volatilize rapidly
from water and soil with diffusion through the liquid phase controlling volatilization from water. Half-life for
evaporation from water obtained from laboratory systems range from a fraction of an hour to several
hours. Various estimates of volatilization half-lives range from 5.1-10.6 days for ponds, 3-29 hr for rivers,
and 3.8-12 days for lakes.
The adsorption of 1,1,1-trichloroethane to soil is proportional to the organic carbon content of the soil. The
mineral content of the soil is not a contributing factor. 1,1,1-Trichloroethane is adsorbed strongly to peat
moss, less strongly to clay, very slightly to dolomite limestone and not at all to sand. It has a low
adsorption to silt loam (Koc = 183). From the fact that it is not retained in the soil during bank infiltration,
and that it is frequently found in groundwater in high concentrations, one can safely conclude that it is not
adsorbed strongly by soils, especially subsurface soils. Based upon experimental measurement, the
mean Koc range of 1,1,1-trichloroethane in a silty clay soil and sandy loam soil is 81-89.
There is no or very slow degradation in soils. No degradation has been observed in subsurface soils in 27
weeks. However in loamy sand, slow degradation has been observed under acclimated conditions. Slow
degradation may occur in water under anaerobic or aerated conditions; degradation may take several
weeks and acclimation is important. No degradation in river water has been found. 1,1,1-Trichloroethane
degraded to vinylidene chloride as a first step in its biotransformation in microcosms containing aquifer
water and sediment collected from uncontaminated sites in the Everglades. Considerable degradation
occurred within two weeks. Field evidence of biodegradation in aquifers indicates a half-life of 231 days.
1,1,1-Trichloroethane has been shown to undergo biotransformation by a reductive dechlorination to 1,1-
dichloroethane and chloroethane under methanogenic conditions. Laboratory reactors have
demonstrated that 1,1,1-trichloroethane can be biodegraded under anaerobic simulations; it was
suggested that in-situ anaerobic biodegrdation may be a viable alternative for clean-up for various
contaminated soil and groundwater sites.
Hydrolysis is not a significant degradation process having a half-life of approximately 6 months. The
product of hydrolysis is vinylidene chloride. Direct photolysis is not important in the troposphere, but is in
the stratosphere, and leads to the chemical's rapid degradation. Photodegradation is not observed in
water.
The BCF in bluegill sunfish in a 28 day test was 8.9. This indicates that 1,1,1 -trichloroethane has little
tendency to bioconcentrate in fish. Although the amount of experimental data for 1,1,1-trichloroethane is
limited, confidence in this result is increased because values of BCFs in related compounds are similar.
Chemical/Physical Properties
CAS Number: 71-55-6
Color/ Form/Odor: Colorless liquid with sweet, chloroform-like odor
M.P.: -30.4C B.P.: 74.1 C
Vapor Pressure: 127 mm Hg at 25 C
Octanol/Water Partition (Kow): Log Kow = 2.49
Density/Spec. Grav.: 1.34 at 20 C
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Solubility: Soluble in water; 4.4 g/L of water at 20 C;
Soil sorption coefficient: Koc is 81 in silty clay, 89 in sandy loam.
Odor/Taste Thresholds: N/A
Bioconcentration Factor: Low; 8.9 in fish
Henry's Law Coefficient: 0.008 atm-cu m/mole;
Trade Names/Synonyms: Chloroethene; Methylchloroform; Aerothene TT; Algylen; Alpha-T; Chlorten;
Gemalgene; Genklene; Dowclene; Solvent 111; Trichloran; Inhibisol
Other Regulatory Information
Monitoring:
- For Ground/Surface Water Sources:
Initial Frequency- 4 quarterly samples every 3 years
Repeat Frequency- Annually after 1 year of no detection
- Triggers - Return to Initial Freq. if detect at > 0.0005 mg/L
Analysis
Reference Source Method Numbers
EPA 600/4-88-039 502.2; 524.2; 551
Treatment - Best Available Technologies: Granular Activated Charcoal and Packed Tower Aeration
Toxic Release Inventory - Releases to Water and Land, 1987 to 1993 (in pounds):
TOTALS (in pounds)
Top Six States*
Water
222,403
Land
812,873
CA
GA
AR
IN
VA
UT
0
0
0
15,000
0
40,000
109,070
73,258
67,000
46,096
51,822
0
Major Industries*
Gray iron foundries
Aircraft
Manufacturing industries
Wood furniture
Fabricated structural metal
Plating, polishing
Turbines, generators
1,084
546
1,018
0
6,152
40,317
0
76,158
73,258
72,572
53,038
51,425
41,647
966
* State totals only include facilities with releases greater than 10,000 lbs.
For Additional Information
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EPA can provide further regulatory or other general information:
EPA Safe Drinking Water Hotline - 800/426-4791
Other sources of toxicological and environmental fate data include:
Toxic Substance Control Act Information Line - 202/554-1404
Toxics Release Inventory, National Library of Medicine - 301/496-6531
Agency for Toxic Substances and Disease Registry - 404/639-6000
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