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ASTM Selected Technical Papers
Stabilization and Solidification of Hazardous, Radioactive, and Mixed Wastes: 3rd Volume
By
TM Gilliam
TM Gilliam
Editor
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CC Wiles
CC Wiles
Editor
Search for other works by this author on:
ISBN-10:
0-8031-2020-6
ISBN:
978-0-8031-2020-4
No. of Pages:
734
Publisher:
ASTM International
Publication date:
1996

In situ vitrification (ISV) is a promising technology for remediating buried waste sites and contaminated soil sites. However, concerns exist that low soil permeabilities may limit vapor transport away from the advancing melt front and cause a melt expulsion that breaches ISV containment. As a result, two ISV lab tests were conducted at the Idaho National Engineering Laboratory (INEL) using INEL soil (permeability: 10-6 cm/s) and a low permeability (10-10 cm/s) clay material. The clay test also had a ceramic tube inserted vertically through the center of the area being melted to provide one-dimensional data on vapor transport. Results confirm that low soil permeabilities can limit vapor transport away from the advancing ISV melt front. In addition, peak pressures inside the ceramic tube were significantly greater than those outside the tube, indicating the importance of horizontal vapor transport around the advancing ISV melt front.

1.
Geosafe Corporation
,
Investigation Into the Causes and Application Significance of the Melt Displacement Event Occurring During Geosafe Operational Acceptance Test #2 (OAT-2)
, GSC-2301,
Geosafe Corporation
,
2950 Geo. Washington Way, Richland, WA 99352
, May, 1993.
2.
Tixier
,
J. S.
,
Corathers
,
L. A.
, and
Anderson
,
L. B.
, “
Vitrification of Underground Storage Tanks: Technology Development, Regulatory Issues, and Cost Analysis
,” Waste Management 92: Technology and Programs for Radioactive Waste Management and Environmental Restoration, Volume
2
,
Post
Roy G.
and
Wacks
Morton E.
, Eds.,
American Nuclear Society
,
1992
, pp. 1521–1528.
3.
Pruess
,
K.
,
TOUGH2 - A General Purpose Numerical Simulator for Multiphase Fluid and Heat Flow
, LBL-29400,
Lawrence Berkeley Laboratories, University of California-Berkeley
,
Berkeley, California
,
05
1991
.
4.
Mousseau
,
V. A.
,
McKinnon
,
R. J.
, and
Slater
,
C. E.
, “
Heat and Moisture Transport in Unsaturated Soil Surrounding an In Situ Vitrification Melt Pool
,” Waste Management 92: Technology and Programs for Radioactive Waste Management and Environmental Restoration, Volume
2
,
Post
Roy G.
and
Wacks
Morton E.
, Eds.,
American Nuclear Society
,
1992
, pp. 1503–1508.
5.
Liikala
,
S. C.
, “
Engineering-Scale Tests of In Situ Vitrification to PCB and Radioactive Contaminated Soils
,”
Pacific Test Laboratories
, Presented at the Environmental Remediation 1991 Conference on Cleaning Up the Environment for the 21st Century, September 8–11, 1991.
6.
Dragun
,
J.
, “
Geochemistry and Soil Chemistry Reactions Occurring During In Situ Vitrification
,” Journal of Hazardous Materials,
26
(
1991
), pp. 343–364,
Elsevier Science Publishers B.V.
,
Amsterdam
.
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