Process for in situ decontamination of subsurface soil and groundwater
First Claim
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1. A process for in situ decontamination of a contaminated subsurface area containing volatile contaminants, nonvolatile aqueous soluble contaminants and nonvolatile nonaqueous volatile contaminants, comprising the steps of:
- (a) constructing an injection well system comprising a plurality of injection wells proximate to the periphery of and/or located within said contaminated area;
(b) constructing at least one extraction well disposed within said contaminated area and spaced apart from said injection wells;
(c) concurrently injecting steam into said injection well system and applying subatmospheric pressure to said extraction well whereby steam is drawn in a substantially horizontal direction through said contaminated subsurface area to thereby heat said area, volatilize, and extract a substantial amount of said volatile contaminants from said area;
whereby water, nonvolatile and volatile contaminants are withdrawn through said extraction well;
(d) ceasing injection of said steam into said injection well system and continuing the application of subatmospheric pressure at said extraction well to withdraw residual steam and gases, and residual liquids from said subsurface area, which gases and steam are volatilized by the residual heat in said subsurface area.
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Abstract
A method is provided for in situ decontamination of contaminated subsurface area by injection of steam into injection wells and withdrawing liquids and vapors from extraction wells under subatmospheric pressure whereby steam is passed through the contaminated area in an essentially horizontal direction. After a substantial portion of the contamination has been removed in this manner, the injection of steam is ceased, but the extraction at subatmospheric pressure is continued, to volatilize and remove the residual water and contaminants trapped in the pores of the soil. The steam injection may be periodically resumed to reheat the area and to replenish the water in the pores.
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Citations
8 Claims
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1. A process for in situ decontamination of a contaminated subsurface area containing volatile contaminants, nonvolatile aqueous soluble contaminants and nonvolatile nonaqueous volatile contaminants, comprising the steps of:
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(a) constructing an injection well system comprising a plurality of injection wells proximate to the periphery of and/or located within said contaminated area; (b) constructing at least one extraction well disposed within said contaminated area and spaced apart from said injection wells; (c) concurrently injecting steam into said injection well system and applying subatmospheric pressure to said extraction well whereby steam is drawn in a substantially horizontal direction through said contaminated subsurface area to thereby heat said area, volatilize, and extract a substantial amount of said volatile contaminants from said area;
whereby water, nonvolatile and volatile contaminants are withdrawn through said extraction well;(d) ceasing injection of said steam into said injection well system and continuing the application of subatmospheric pressure at said extraction well to withdraw residual steam and gases, and residual liquids from said subsurface area, which gases and steam are volatilized by the residual heat in said subsurface area. - View Dependent Claims (2, 3, 4)
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5. A process for in situ decontamination of a contaminated subsurface area containing volatile contaminants, nonvolatile aqueous soluble contaminants and nonvolatile nonaqueous volatile contaminants, comprising the steps of:
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(a) concurrently injecting steam into an injection well system, said system comprising a plurality of injection wells proximate to the periphery of and/or located within said contaminated area, and applying subatmospheric pressure to at least one extraction well disposed within said contaminated area and spaced apart from said injection wells, whereby steam is drawn in a substantially horizontal direction through said contaminated subsurface area to thereby heat said area, volatilize, and extract a substantial amount of said volatile contaminants from said area;
whereby water, nonvolatile and volatile contaminants are withdrawn through said extraction well;(b) ceasing injection of said steam into said injection well system and continuing the application of subatmospheric pressure at said extraction well to withdraw residual steam and gases, and residual liquids from said subsurface area, which gases and steam are volatilized by the residual heat in said subsurface area. - View Dependent Claims (6, 7, 8)
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Specification
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Current AssigneeRegents of the University of California (University of California)
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Original AssigneeRegents of the University of California (University of California)
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InventorsHunt, James R., Sitar, Nicholas, Stewart, Lloyd D. Jr., Udell, Kent S.
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Primary Examiner(s)Kisliuk, Bruce M.
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Application NumberUS07/394,739Time in Patent Office650 DaysField of Search166/246, 166/245, 166/263, 166/272, 166/369, 166/370, 405/128, 405/258, 405/131, 405/263, 405/264, 210/610, 210/611, 210/170, 210/747, 210/922US Class Current166/272.3CPC Class CodesB09C 1/005 Extraction of vapours or ga...B09C 1/02 Extraction using liquids, e...B09C 1/06 thermallyB09C 2101/00 In situE02D 3/11 by thermal, electrical or e...E21B 43/24 using heat, e.g. steam inje...
