Nuclear waste solid

Fluidized-bed process incinerators have been used mostly in the petroleum and paper industries, and for processing nuclear wastes, spent cook liquor, wood chips, and sewage sludge disposal. Wastes in any physical state can be applied to a fluidized-bed process incinerator. Au.xiliary equipment includes a fuel burner system, an air supply system, and feed systems for liquid and solid wastes. The two basic bed design modes, bubbling bed and circulating bed, are distinguished by the e.xtent to which solids are entrained from the bed into the gas stream. 

The volume of nuclear wastes produced is relatively small compared with the volume of municipal solid wastes and industrial wastes and is very much less than that of agricultural and mining wastes. Each year, for example, the 104 nuclear power plants now operating in the United States generate a total of about 30,000 short tons (27,000 metric tons) of nuclear waste. That volume is about 0.001 percent the amount of hazardous wastes produced every year. In the five decades that nuclear power plants have been operating in the United States, a total of about 9,000 short tons (8,200 metric... 

MCB MCC MINEQL MOX MSWI p,-SXRF MW Microwave burn-out Materials Characterization Center Mineral equilibria (computer program) Mixed-oxide (fuel) Municipal solid waste incinerator Synchrotron-based X-ray microfluorescence Magnox waste glass (British Nuclear Fuel Public Ltd. Company)... 

Radioactive metal wastes from the nuclear industry are of increasing concern as the amount of waste to be disposed of increases. Current treatment of nuclear wastewater involves the addition of lime, which is effective in precipitating most metals out of solution with the exception of radium (Tsezos Keller, 1983). Barium chloride (BaCl2) is used to precipitate radium from sulfur-rich effluents as barium-radium sulfate. Other treatment methods include incineration for some solid wastes, and filtration, adsorption and crystallization for liquid wastes (Godbee Kibbey, 1981). 

The definition of solid waste in RCRA specifically excludes source, special nuclear, and byproduct materials as defined in AEA. Therefore, radioactive constituents of wastes that arise from operations of the nuclear fuel cycle are excluded from regulation as hazardous waste under RCRA. 

High-level waste thus includes the concentrated wastes that arise from reprocessing of commercial or defense nuclear fuel that contain virtually all the fission products and transuranium radionuclides (except plutonium) in spent fuel. However, the definition does not mention the constituents of the waste, and it is only qualitative because concentrated is not quantified and the minimum fuel burnup that would yield high-level waste is not specified. Although the definition given above referred only to liquid (aqueous) waste, it is clear from further discussions in 10 CFR Part 50, Appendix F (AEC, 1970), that AEC intended that high-level waste also would include concentrated solid waste derived from liquid high-level waste that was suitable for permanent disposal. 

Hazardous chemical waste is defined in RCRA regulations as a solid waste that exhibits the characteristic of ignitability, corrosivity, reactivity, or toxicity, or is a specifically listed waste. The definition of hazardous waste specifically excludes radioactive material (source, special nuclear, or byproduct material) defined in AEA. 

TOM R. MARRERO, Visiting Professor, Chemical Engineering Department, Texas A M University In nuclear power, they have a problem with regard to solid wastes which are relatively small in amount. What are they going to do with the wastes from the combustion of coal which are apparently mountainous, and also the CO This is to the panel. 

The solid wastes from nuclear operations include the concentrates from liquid and airborne treatment along with paper, clothing, lab glassware, and scrap equipment. The transuranic and low-level wastes both receive... 

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