Contamination of groundwater by organic contaminants is now widely recognized as a serious threat to the integrity of
many municipal and rural. water supplies. The source of this contamination includes various waste disposal activities (e.g.,
industrial impoundments, landfills, accidental spills, underground storage tank leaks, pesticide and fertilizer application, etc.)
This project is to illustrate a ten-year study on the removal of trichloroethylene (TCE) contaminated groundwater. TCE is
a widely used solvent primarily for metal degreasing and dry cleaning operations (US EPA. 1975). In October 1978, a fitting on
a 1,890 L underground storage tank of trichloroethylene (TCE) was found to be leaking in Vero Beach, Florida. The tank had
been in place approximately three years, but the volume of the spill was undetermined since the duration and leak rate were
unknown. Trichloroethylene is soluble in water to 1,100 mg/L at 25°C and has a specific gravity of 1.466. This characteristic
enabled the TCE at the spill site to migrate at least 246m laterally and 18.3 m vertically to the Vero Beach City Production
Well. Samples of shallow groundwater adjacent to the storage tank revealed a TCE concentration of 39,000 ppb (Everglades,
19Contamination of groundwater by organic contaminants is now widely recognized as a serious threat to the integrity of
many municipal and rural. water supplies. The source of this contamination includes various waste disposal activities (e.g.,
industrial impoundments, landfills, accidental spills, underground storage tank leaks, pesticide and fertilizer application, etc.)
This project is to illustrate a ten-year study on the removal of trichloroethylene (TCE) contaminated groundwater. TCE is
a widely used solvent primarily for metal degreasing and dry cleaning operations (US EPA. 1975). In October 1978, a fitting on
a 1,890 L underground storage tank of trichloroethylene (TCE) was found to be leaking in Vero Beach, Florida. The tank had
been in place approximately three years, but the volume of the spill was undetermined since the duration and leak rate were
unknown. Trichloroethylene is soluble in water to 1,100 mg/L at 25°C and has a specific gravity of 1.466. This characteristic
enabled the TCE at the spill site to migrate at least 246m laterally and 18.3 m vertically to the Vero Beach City Production
Well. Samples of shallow groundwater adjacent to the storage tank revealed a TCE concentration of 39,000 ppb (Everglades,
1978). Aware of this problem, the local and state authorities gave permission to pump out the contaminated water as a means
of reducing concentrations in the aquifer.
reducing concentrations in the aquifer.
Member of
Contributors
Publisher
IUAPPA
Date Issued
1994
Note
Language
Type
Genre
Form
Extent
8 p.
Subject (Topical)
Identifier
FA00007335
Additional Information
Contamination of groundwater by organic contaminants is now widely recognized as a serious threat to the integrity of
many municipal and rural. water supplies. The source of this contamination includes various waste disposal activities (e.g.,
industrial impoundments, landfills, accidental spills, underground storage tank leaks, pesticide and fertilizer application, etc.)
This project is to illustrate a ten-year study on the removal of trichloroethylene (TCE) contaminated groundwater. TCE is
a widely used solvent primarily for metal degreasing and dry cleaning operations (US EPA. 1975). In October 1978, a fitting on
a 1,890 L underground storage tank of trichloroethylene (TCE) was found to be leaking in Vero Beach, Florida. The tank had
been in place approximately three years, but the volume of the spill was undetermined since the duration and leak rate were
unknown. Trichloroethylene is soluble in water to 1,100 mg/L at 25°C and has a specific gravity of 1.466. This characteristic
enabled the TCE at the spill site to migrate at least 246m laterally and 18.3 m vertically to the Vero Beach City Production
Well. Samples of shallow groundwater adjacent to the storage tank revealed a TCE concentration of 39,000 ppb (Everglades,
19Contamination of groundwater by organic contaminants is now widely recognized as a serious threat to the integrity of
many municipal and rural. water supplies. The source of this contamination includes various waste disposal activities (e.g.,
industrial impoundments, landfills, accidental spills, underground storage tank leaks, pesticide and fertilizer application, etc.)
This project is to illustrate a ten-year study on the removal of trichloroethylene (TCE) contaminated groundwater. TCE is
a widely used solvent primarily for metal degreasing and dry cleaning operations (US EPA. 1975). In October 1978, a fitting on
a 1,890 L underground storage tank of trichloroethylene (TCE) was found to be leaking in Vero Beach, Florida. The tank had
been in place approximately three years, but the volume of the spill was undetermined since the duration and leak rate were
unknown. Trichloroethylene is soluble in water to 1,100 mg/L at 25°C and has a specific gravity of 1.466. This characteristic
enabled the TCE at the spill site to migrate at least 246m laterally and 18.3 m vertically to the Vero Beach City Production
Well. Samples of shallow groundwater adjacent to the storage tank revealed a TCE concentration of 39,000 ppb (Everglades,
1978). Aware of this problem, the local and state authorities gave permission to pump out the contaminated water as a means
of reducing concentrations in the aquifer.
reducing concentrations in the aquifer.
many municipal and rural. water supplies. The source of this contamination includes various waste disposal activities (e.g.,
industrial impoundments, landfills, accidental spills, underground storage tank leaks, pesticide and fertilizer application, etc.)
This project is to illustrate a ten-year study on the removal of trichloroethylene (TCE) contaminated groundwater. TCE is
a widely used solvent primarily for metal degreasing and dry cleaning operations (US EPA. 1975). In October 1978, a fitting on
a 1,890 L underground storage tank of trichloroethylene (TCE) was found to be leaking in Vero Beach, Florida. The tank had
been in place approximately three years, but the volume of the spill was undetermined since the duration and leak rate were
unknown. Trichloroethylene is soluble in water to 1,100 mg/L at 25°C and has a specific gravity of 1.466. This characteristic
enabled the TCE at the spill site to migrate at least 246m laterally and 18.3 m vertically to the Vero Beach City Production
Well. Samples of shallow groundwater adjacent to the storage tank revealed a TCE concentration of 39,000 ppb (Everglades,
19Contamination of groundwater by organic contaminants is now widely recognized as a serious threat to the integrity of
many municipal and rural. water supplies. The source of this contamination includes various waste disposal activities (e.g.,
industrial impoundments, landfills, accidental spills, underground storage tank leaks, pesticide and fertilizer application, etc.)
This project is to illustrate a ten-year study on the removal of trichloroethylene (TCE) contaminated groundwater. TCE is
a widely used solvent primarily for metal degreasing and dry cleaning operations (US EPA. 1975). In October 1978, a fitting on
a 1,890 L underground storage tank of trichloroethylene (TCE) was found to be leaking in Vero Beach, Florida. The tank had
been in place approximately three years, but the volume of the spill was undetermined since the duration and leak rate were
unknown. Trichloroethylene is soluble in water to 1,100 mg/L at 25°C and has a specific gravity of 1.466. This characteristic
enabled the TCE at the spill site to migrate at least 246m laterally and 18.3 m vertically to the Vero Beach City Production
Well. Samples of shallow groundwater adjacent to the storage tank revealed a TCE concentration of 39,000 ppb (Everglades,
1978). Aware of this problem, the local and state authorities gave permission to pump out the contaminated water as a means
of reducing concentrations in the aquifer.
reducing concentrations in the aquifer.
Florida Atlantic University. Harbor Branch Oceanographic Institute contribution 1044
This manuscript is an author version with the final publication available and
may be cited as: Wang, T. C. (1994). A ten-year study on the removal of contaminated groundwater
and its impact to a run-off canal and coastal environment. In 7th IUAPPA regional conference for
Pacific Rim on air pollution and waste issues: proceedings, November 2-4, 1994, Academia Sinica
Activity, Volume IV (pp. 61-67). Taipei: Environmental Protection Society.
may be cited as: Wang, T. C. (1994). A ten-year study on the removal of contaminated groundwater
and its impact to a run-off canal and coastal environment. In 7th IUAPPA regional conference for
Pacific Rim on air pollution and waste issues: proceedings, November 2-4, 1994, Academia Sinica
Activity, Volume IV (pp. 61-67). Taipei: Environmental Protection Society.
Date Backup
1994
Date Text
1994
Date Issued (EDTF)
1994
Extension
FAU
IID
FA00007335
Organizations
Attributed name: Harbor Branch Oceanographic Institute
Person Preferred Name
Wang, Tsen C.
Physical Description
8 p.
Title Plain
A ten-year study on the removal of contaminated groundwaterand its impact to a run-off canal and coastal environment
Origin Information
1994
IUAPPA
Taipei
Place
Taipei
Title
A ten-year study on the removal of contaminated groundwaterand its impact to a run-off canal and coastal environment
Other Title Info
A ten-year study on the removal of contaminated groundwaterand its impact to a run-off canal and coastal environment