Social cost-benefit analysis of waste disposal in LDCs : the case of Malaysia

Hassan, Mohd Nasir

January 1990

No description available.

628.44

The effects of amendments on soil structural development in a clay soil-forming material used as a landfill restoration cap

Gregory, Andrew Stuart

January 2001

No description available.

628

Radionuclide transport as vapor through unsaturated fractured rock

Green, Ronald T.

January 1986

The objective of this study is to identify and examine potential mechanisms of radionuclide transport as vapor at a high-level radioactive waste repository located in unsaturated fractured rock. Transport mechanisms and processes have been investigated near the repository and at larger distances. Transport mechanisms potentially important at larger distances include ordinary diffusion, viscous flow and free convection. Ordinary diffusion includes self and binary diffusion, Knudsen flow and surface diffusion. Pressure flow and slip flow comprise viscous flow. Free convective flow results from a gas density contrast. Transport mechanisms or processes dominant near the repository include ordinary diffusion, viscous flow plus several mechanisms whose driving forces arise from the non-isothermal, radioactive nature of high-level waste. The additional mechanisms include forced diffusion, aerosol transport, thermal diffusion and thermophoresis. Near a repository vapor transport mechanisms and processes can provide a significant means of transport from a failed canister to the geologic medium from which other processes can transport radionuclides to the accessible environment. These issues are believed to be important factors that must be addressed in the assessment of specfic engineering designs and site selection of any proposed HLW repository.

Hydrology.

Hazardous waste sites -- Leaching.

A three-dimensional analysis of flow and solute transport resulting from deep well injection into faulted stratigraphic units

Wallace, Michael Gary, 1958-

January 1989

An analysis was performed of a Texas gulf coast hazardous waste injection well disposal system. The system was complicated by the presence of a fault which transected the injection interval. The existence of the fault presented the potential for enhanced vertical migration of the injected solutes via a tortuous path of interconnected, highly permeable sand units. Evaluation of this potential necessitated a fully three dimensional model which incorporated the arrangement of the alternating shales and sands and their associated discontinuities. Computer run time and memory limitations compelled a dissection of the problem into components, as well as the utilization of a specific mixture of conservative and realistic assumptions. The analysis indicated that within 10,000 years, the waste would advance vertically no further than one hundred feet into the overlying stratigraphy, and laterally no further than 24,000 feet from the point of injection.

Hazardous waste sites -- Leaching.

Injection wells.

Waste disposal in the ground.

Perspectives on clinical waste management in Scotland

Clark, Colin Forbes

January 1997

No description available.

628.44

The engineering and geochemical properties of compacted chalk for the lining of landfill sites

Lidgley, Sarah H.

January 1993

No description available.

628.44

The fate of trace metals at the Garroch head sewage sludge dump site in the Firth of Clyde, Scotland

Clark, Gillian K.

January 1989

No description available.

628.44

Incineration characteristics of coal fired industrial wastes in grate and fluidised bed combustors

Wang, Tian Fei

January 1997

No description available.

628.44

Management of landfill leachates by ozone treatment and recycle

Beaman, Melanie Simone

January 1998

No description available.

628.44

Studies on the initial degradation of sludge in soil

Watt-Smyrk, J. S.

January 1981

No description available.

628.44