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RECORD NUMBER: 4 OF 220

Main Title Advances in Encapsulation Technologies for the Management of Mercury-Contaminated Hazardous Wastes.
Author Chattopadhyay, S. ; Condit, W. E. ;
CORP Author Battelle, Columbus, OH.;National Risk Management Research Lab., Cincinnati, OH.
Publisher 30 Aug 2002
Year Published 2002
Report Number GS-10F-0275K; 600/R-02/081
Stock Number PB2003-101801
Subjects Mercury ; Hazardous materials ; Encapsulation ; Waste processing ; Phosphate ceramics ; Polyethylene encapsulation ; Synthetic elastomers ; Polysiloxane ; Sol-gels ; Asphalt ; Polyester ; Epoxy resins ; Dolocrete ; Heavy metals ; Sulfur polymer cement encapsulation
Additional Subjects Mercury ; Hazardous materials ; Encapsulation ; Waste processing ; Phosphate ceramics ; Polyethylene encapsulation ; Synthetic elastomers ; Polysiloxane ; Sol-gels ; Asphalt ; Polyester ; Epoxy resins ; Dolocrete ; Heavy metals ; Sulfur polymer cement encapsulation
Internet Access
Description Access URL
https://nepis.epa.gov/Exe/ZyPDF.cgi?Dockey=2000E71P.PDF
Holdings
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Status
NTIS  PB2003-101801 Some EPA libraries have a fiche copy filed under the call number shown. 07/26/2022
Collation CD-ROM
Abstract
Although industrial and commercial uses of mercury have been curtailed in recent times, there is a demonstrated need for the development of reliable hazardous waste management techniques because of ongoing hazardous waste generation and historic operations that have led to significant contamination. The focus of this article is on the current state of encapsulation technologies and materials being used to immobilize elemental mercury, mercury-containing debris, and other mercury-contaminated wastes, soils, or sludges. The range of encapsulation materials used in bench-scale, pilot-scale, and full-scale applications for mercury-containing wastes are summarized in this report. Several studies have been completed regarding the application of sulfur polymer stabilization/solidification, chemically bonded phosphate ceramic encapsulation, and polyethylene encapsulation. Other technologies or materials reported in the literature or under development for encapsulation include asphalt, polyester resins, synthetic elastomers, polysiloxane, sol-gels (e.g., polycerams), and DolocreteTM. The objective of these encapsulation methods is primarily to physically immobilize hazardous wastes to prevent contact with leaching agents such as water. These methods may also include a stabilization step to chemically fix mercury into a highly insoluble form. Economic information relating to the use of these materials is provided, along with available vendor information. Future technology development and research needs are also discussed.
Notes
Technical report, 46 p.
Contents Notes
"August 2002"