Technical Factsheet on 1, 2- Dichloroethane


Technical Factsheet on: 1,2-
DICHLOROETHANE
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: zero mg/L
MCL: 0.005 mg/L
HAL(child): 1- to 10-day: 0.7 mg/L; Longer-term: 0.7 mg/L
Health Effects Summary
Acute: EPA has found acute oral exposures to 1,2-dichloroethane to potentially cause central
nervous system disorders, and adverse lung, kidney, liver circulatory and gastrointestinal
effects.
Drinking water levels which are considered "safe" for short-term exposures: For a 10-kg (22
lb.) child consuming 1 liter of water per day: upto a 7-year exposure to 0.7 mg/L.
Chronic: No reliable data are available concerning toxic effects from chronic exposures to 1,2-
dichloroethane at levels above the MCL.
Cancer: There is some evidence that 1,2-Dichloroethane may have the potential to cause
cancer from a lifetime exposure at levels above the MCL.
Usage Patterns
Production of 1,2-dichloroethane has increased steadily: from about 14 billion lbs. in 1990 to
18 billion lbs. in 1993. In 1985 it was estimated that industries consumed 1,2-dichloroethane
as follows: Vinyl chloride monomer, 97%; chlorinated solvents, 2%; miscellaneous, 1%.
The greatest use of 1,2-dichloroethane is in chemical manufacture, including: vinyl chloride,
tri- & tetra-chloroethylene, vinylidene chloride & trichloroethane, ethylene glycol,

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diaminoethylene, polyvinyl chloride, nylon, viscose rayon, styrene-butadiene rubber, and
various plastics; as a lead scavenger in gasoline.
1,2-dichloroethane has a variety of uses as a solvent uses: for resins, asphalt, bitumen,
rubber; for fats, oils, waxes, gums resins; used as pickling agent and a dry clean agent; in
photography, xerography, water softening & in production of cosmetics; for processing
pharmaceutical products; in leather cleaning, degreaser compounds, rubber cement, and
acrylic adhesives. It is also used in extracting spices such as annatto, paprika & turmeric.
Other uses include as a fumigant for harvested grain, in orchards, in mushroom houses;
fumigant for upholstery and carpets.
Release Patterns
Major atmospheric releases of 1,2-dichloroethane are due to its production and use as a
chemical intermediate, lead scavenger, extraction and cleaning solvent, diluent for
pesticides, grain fumigant and in paint, coatings and adhesives. Other releases are from
waste water, spills, and/or improper disposal primarily from its use as a cleaning solvent and
chemical intermediates. Land release is primarily from its production and use as a cleaning
solvent and diluent for pesticides. Chlorination of water does not appear to contribute to 1,2-
dichloroethane in drinking water.
From 1987 to 1993, according to the Toxics Release Inventory, releases to water totalled
over 433,000 lbs. Release to land totalled over 22,000 lbs. These releases were primarily
from facilities classified as producing industrial organic chemicals, alkalies and chlorine. The
largest releases occurred in New Jersey and Louisiana.
Environmental Fate
Releases to water will primarily be removed by evaporation (half-life several hours to 10
days). Although firm experimental data are lacking, the photooxidation of 1,2-dichloroethane
in water is expected to be slow. The rate of hydrolysis is not significant, being much slower
than other pertinent environmental processes such as volatilization and photooxidation.
Releases on land will dissipate by volatilization to air and by percolation into groundwater
where it is likely to persist for a very long time. Little adsorption to soil is expected based
upon an experimental Koc of 33 for silt loam which in agreement with values calculated from
the water solubility. 1,2-Dichloroethane rapidly percolates through sandy soil.
Once in the atmosphere, it may be transported long distances and is primarily removed by
photooxidation (half-life approx 1 month). The direct photolysis of 1,2-dichloroethane is not a
significant loss process. It is primarily degraded in the atmosphere by reaction with hydroxyl
radicals, having a half-life of a little over a month with a 1.9% loss for a 12 hour sunlit day.
Indirect evidence for photooxidation of 1,2-dichloroethane comes from the observation that
monitoring levels are highest during the night and early morning. The products of
photooxidation are C02 and HCI.

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Biodegradability tests with 1,2-dichloroethane resulted in little or no biodegradation in aerobic
systems using sewage seed or activated sludge. The one river die-away test reported no
degradation. The percent BOD produced in 5-10 days was 0-7%. Another investigator
reported slow to moderate biodegradation activity. The extent of biodegradation is difficult to
assess due to compounds' susceptibility to volatilization. No degradation occurred in an
acclimated anaerobic system after 4 months incubation.
1,2-Dichloroethane is not expected to bioconcentrate in fish due to its low octanol/water
partition function (1.48). The measured log BCF in bluegill sunfish is 0.30. Its presence in
some food products is probably due to its use as an extractant. Major human exposure is
from urban air, drinking water from contaminated aquifers and occupational atmospheres.
Chemical/Physical Properties
CAS Number: 107-06-2
Color/ Form/Odor: Colorless, oily liquid with a pleasant, sweet, chloroform-like odor
MP.: N/A B.P.: N/A
Vapor Pressure: N/A; highly volatile
Density/Spec. Grav.: 1.235 at 20 C
Octanol/Water Partition (Kow): Log Kow = 1.48
Solubilities: 8.7 g/L of water at 20 C;
Soil sorption coefficient: Koc measured at 33 for silt/loam; high to very high mobility in soil
Odor/Taste Thresholds: Taste threshold in water is 29 mg/L
Bioconcentration Factor: Log BCF is 0.30 in fish; not expected to bioconcentrate in fish.
Henry's Law Coefficient: N/A
Trade Names/Synonyms: 1,2-Ethylene dichloride; Glycol dichloride; Freon 150; Borer sol;
Brocide; Destruxol borer-sol; Dichlor-mulsion; Dutch oil; Granosan
Other Regulatory Information
Monitoring:
-For Ground/Surface Water Sources:

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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
Treatment/Best Available Technologies: Granular Activated Charcoal
and Packed Tower Aeration
Toxic Release Inventory - Releases to Water and Land, 1987
to 1993 (in pounds):
Water	Land
TOTALS (in pounds)	433,056	22,616
Top Six States*
NJ	192,700
LA	136,508
TX	36,459
MO	6,786
NY	11,330
KY	10,309
231
2,292
7,028
8,730
0
0
Major Industries
Industrial organics	211,146
Alkalies, chlorine	120,283
Cyclic crudes, intermed.	32,945
Agricultural chemicals	11,918
Industrial gases	15,497
Plastics materials, resins	6,908
363
3,254
119
8,980
0
6,895

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0
Photographic equip.
11,566
0
Other Chemicals
8,179
521
Pharmaceuticals
7,525
1,479
Petroleum refining
1,730
* Water/Land totals only include facilities with releases greater than a certain amount -
usually 1000 to 10,000 lbs
For Additional Information
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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