Difference between revisions of "Chlorinated Solvents"

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*[[Soil & Groundwater Contaminants]]
 
*[[Soil & Groundwater Contaminants]]
 
*[[Monitored Natural Attenuation (MNA) of Chlorinated Solvents]]
 
*[[Monitored Natural Attenuation (MNA) of Chlorinated Solvents]]
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*[[Biodegradation (Reductive Processes)]]
  
  
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==See Also==
 
==See Also==
 
*[https://serdp-estcp.org/Tools-and-Training/Environmental-Restoration/DNAPL-Source-Zones/Frequently-Asked-Questions-Regarding-Management-of-Chlorinated-Solvents-in-Soils-and-Groundwater FAQ Regarding Management of Chlorinated Solvents in Soil and Groundwater]
 
*[https://serdp-estcp.org/Tools-and-Training/Environmental-Restoration/DNAPL-Source-Zones/Frequently-Asked-Questions-Regarding-Management-of-Chlorinated-Solvents-in-Soils-and-Groundwater FAQ Regarding Management of Chlorinated Solvents in Soil and Groundwater]
*[http://www.environmentalrestoration.wiki/images/6/6b/AFCEE_Protocol_2007_chlorinated_solvents.pdf Protocol for In-Situ Bioremediation of Chlorinated Solvents Using Edible Oil]
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*[http://www.environmentalrestoration.wiki/images/6/6b/AFCEE_Protocol_2007_chlorinated_solvents.pdf Protocol for In Situ Bioremediation of Chlorinated Solvents Using Edible Oil]

Revision as of 12:12, 27 April 2018

Chlorinated solvents, including chlorinated volatile organic compounds (CVOC or CVOCs), are chemical compounds containing chlorine that have been widely used in various industries. They are divided in three groups (methanes, ethanes, ethenes) based on their structures, and include common groundwater contaminants such as carbon tetrachloride (CT), perchloroethene (PCE), trichloroethene (TCE), and vinyl chloride (VC). Chlorinated solvents tend to be colorless liquids at room temperatures, heavier than water, volatile, sparingly soluble, and moderately hydrophobic.

Related Article(s):


CONTRIBUTOR(S): Dr. Bilgen Yuncu, P.E. and M. Tony Lieberman


Key Resource(s):

Introduction

Chlorinated solvents are a large family of organic solvents that contain chlorine atoms in their molecular structure. They were first produced in Germany in the 1800s, and widespread use in the United States (U.S.) began after World War II. In the period of 1940-1980, the U.S. produced about 2 billion pounds of chlorinated solvents each year[2]. Chlorinated solvents, including carbon tetrachloride (CT), 1,1,1-trichloroethane (TCA), perchloroethene or tetrachloroethene (PCE) and trichloroethene (TCE) have been among the most widely used cleaning and degreasing solvents in the U.S[3]. They also have been used in a wide variety of other purposes such as adhesives, chemical intermediates, clothes, pharmaceuticals, pesticides, and textile processing.

Physical & Chemical Properties

Chlorinated solvents are organic compounds generally constructed of a simple hydrocarbon chain (typically one to three carbon atoms in length). They can be divided into three categories based on their structural characteristics: chlorinated methanes, chlorinated ethanes and chlorinated ethenes.

Chlorinated methanes represent the most structurally simple solvent class and consist of a single carbon center (known as a methyl carbon) to which as many as four chlorine atoms are bonded. From the perspective of groundwater contamination, perhaps the most well-known chlorinated methanes are carbon tetrachloride (CT) or tetrachloromethane, trichloromethane (commonly known as chloroform [CF]), dichloromethane (DCM), or methylene chloride (MC) and chloromethane (CM), or methyl chloride.

Chlorinated ethanes consist of two carbon centers joined by a single covalent bond. The most frequently encountered groundwater pollutants of this class include 1,1,1-trichloroethane (1,1,1-TCA) and 1,2-dichloroethane.

Chlorinated ethenes (also referred to as chlorinated ethylenes) also possess two carbon centers, but unlike chlorinated ethanes, these carbon atoms are joined by a carbon-carbon double bond. Chlorinated ethenes that are important groundwater contaminants include tetrachloroethene, or perchloroethene (PCE), trichloroethene (TCE), dichloroethene (DCE)) (DCE, mainly two geometric isomers cis-1,2-dichloroethene and trans-1,2-dichloroethene), and vinyl chloride (VC).

Nomenclature and structure of selected compounds from each solvent class as well as some physical and chemical properties of most widely used chlorinated solvents are listed in Table 1.


Table 1. Nomenclature, Structure, Chemical and Physical Properties of Most Widely Used Chlorinated Solvents[1].
IUPAC Name Common Name Acronym Molecular Formula Chemical Structure Formula Weight Density (ρ)(g/mL) Aqueous Solubility (mg/L) Vapor Pressure (ρ0)(kPa) Henry's Law Constanta Log Kow MCLb (μg/L)
Chlorinated Methanes
tetrachloromethane carbon tetrachloride CT CCl4
Tetrachloromethane.png
153.8 1.59 800 20.5 28.9 2.64 0.005
trichloromethane chloroform CF CHCl3
Trichloromethane.png
119.4 1.49 8,200 26.2 3.8 1.97 0.080c
dichloromethane methylene chloride DCM CH2Cl2
Dichloromethane.png
84.9 1.33 13,200 55.3 1.7 1.25 0.005
chloromethane methyl chloride CM CH3Cl
Chloromethane.png
50.5 0.92 5,235 570 9.6 0.91 NRd
Chlorinated Ethanes
hexachloroethane perchloroethane HCA C2Cl6
Hexachloroethane.png
236.7 2.09 50 0.05e - 3.93 NR
pentachloroethane - PCA C2HCl5
Pentachloroethane.png
202.3 1.68 500 0.6 2.5 2.89 NR
1,1,1,2-tetrachloroethane - 1,1,1,2-TeCA C2H2Cl4
1,1,1,2-Tetrachloroethane.png
167.9 1.54 1,100 1.6 2.4 - NR
1,1,2,2-tetrachloroethane - 1,1,2,2-TeCA C2H2Cl4
1,1,2,2-Tetrachloroethane.png
167.9 1.60 2,962 0.8 0.44 2.39 NR
1,1,2-trichloroethane - 1,1,2-TCA C2H3Cl3
1,1,2-Trichloroethane.svg.png
133.4 1.44 4,394 3.22 0.96 2.38 0.005
1,1,1-trichloroethane methyl chloroform 1,1,1-TCA C2H3Cl3
1,1,1-trichloroethane.png
133.4 1.35 1,495 16.5 14.5 2.49 0.20
1,2-dichloroethane - 1,2-DCA C2H4Cl2
1,2-dichloroethane.png
99.0 1.25 8,606 10.5 1.2 1.48 0.005
1,1-dichloroethane - 1,1-DCA C2H4Cl2
1,1-Dichloroethane 2.svg.png
99.0 1.17 4,676 30.3 6.2 1.79 NR
chloroethane - CA C2H5Cl
Chloroethane.png
64.5 0.92 5,700 16.0 1.8 1.43 NR
Chlorinated Ethenes
tetrachloroethene perchloroethene PCE C2Cl4
Tetrachloroethene.png
165.8 1.63 150 2.4 26.3 2.88 0.005
trichloroethene - TCE C2HCl3
Trichloroethene.png
131.4 1.46 1,100 9.9 11.7 2.53 0.005
cis-1,2-dichloroethene cis-dichloroethene cis-DCE C2H2Cl2
Cis-1,2-dichloroethene.png
96.9 1.28 3,500 27.1 7.4 1.86 0.07
trans-1,2-dichloroethene trans-dichloroethene trans-DCE C2H2Cl2
Trans-1,2-dichloroethene.png
96.9 1.26 6,260 44.4 6.8 1.93 0.1
1,1-dichloroethene vinylidene chloride 1,1-DCE C2H2Cl2
1,1-Dichloroethene.svg.png
96.9 1.22 3,344 80.5 23.0 2.13 0.007
chloroethene vinyl chloride VC C2H3Cl
Chloroethene.png
62.5 0.91 2,763 355 79.2 1.38 0.002
Notes:

atm = atmosphere; g = gram; Kow = octanol/water partitioning coefficient; Koc -- soil organic carbon/water partitioning coefficient; L = liter; MCL = maximum contaminant level; mg = milligram; mL = milliliter; mol = mole.


aHenry's Law Constant (KH)(x10-3 atm ・ m3/mol)

bSource: http://water.epa.gov/drink/contaminants/#List

cMCL for total trihalomethanes is defined as the summed concentration of chloroform, bromoform (CHBr3),bromodichloromethane (CHBrCl2), and dibromochloromethane (CHBr2Cl). http://water.epa.gov/drink/contaminants/basicinformation/disinfectionbyproducts.cfm

dNR : Not regulated.

eReported vapor pressure for solid-phase hexachloroethane.


Chlorinated solvents and many of their transformation products are colorless liquids at room temperature. They are heavier than water with densities greater than 1 gram per cubic centimeter (g/cm3) which means they can penetrate deeply into an aquifer. They are relatively volatile compounds with relatively high Henry’s Law constants(KH), a measure of the strength of partitioning from water into air). Generally, when KH for a compound exceeds 0.2 atmosphere/mole fraction (atm/M), they can readily be removed from water by air stripping it. Most chlorinated solvents can be classified as sparingly soluble in water, with aqueous solubilities generally on the order of 10s to 100s of mg/L. As the number of chlorine atoms on a compound increases, the solubility decreases. Because of their relatively low solubilities, chlorinated solvents dissolve slowly in groundwater. Another consequence of their limited solubility is their tendency to occur in the subsurface as a separate immiscible liquid phase which, because of its density compared to water, tends to sink in groundwater. Under these conditions, these are referred to as dense non-aqueous phase liquid (DNAPL). Although chlorinated solvents are not very soluble in water, their solubility is typically orders of magnitude greater than their established drinking water standards.

Chlorinated solvents can be considered moderately hydrophobic which can be determined by their octanol-water partition coefficients (Kow, a measure of the tendency of a substance to prefer an organic or oily phase rather than an aqueous phase). Log Kow values less than 3 indicate that the compound does not sorb strongly to aquifer solids, but can be removed readily by activated carbon. On the other hand, compounds with log Kow less than 2, such as VC, generally are not removed well by activated carbon either[1].

References

  1. ^ 1.0 1.1 1.2 Cwiertny, D.M., Scherer, M.M., 2010. Chlorinated solvent chemistry: structures, nomenclature and properties. In In situ remediation of chlorinated solvent plumes. Springer New York. pgs. 29-37. doi:10.1007/978-1-4419-1401-9_2
  2. ^ Pankow, J.F., Cherry, J.A., 1996. Dense Chlorinated Solvents and Other DNAPLs in Groundwater, Waterloo Press, Portland, OR. ISBN 0964801418
  3. ^ Doherty, R.E., 2000. A history of the production and use of carbon tetrachloride, tetrachloroethylene, trichloroethylene and 1, 1, 1-trichloroethane in the United States: Part 1--historical background; carbon tetrachloride and tetrachloroethylene. Environmental Forensics, 1(2), 69-81. doi:10.1006/enfo.2000.0010

See Also