Deep-well injected wastes amounts

Sources, Amounts, and Composition of Deep-Well-Injected Wastes. 785... 

The sources, amounts, and composition of injected hazardous wastes are a matter of record, because the Resource Conservation and Recovery Act (RCRA)5,14 requires hazardous waste to be manifested (i.e., a record noting the generator of the waste, its composition or characteristics, and its volume must follow the waste load from its source to its ultimate disposal site). The sources and amounts of injected hazardous waste can be determined, therefore, based on these records. Table 20.2 shows the estimated volume of deep-well-injected wastes by industrial category.3 More than 11 billion gallons of hazardous waste were injected in 1983. Organic chemicals (51%) and petroleum-refining and petrochemical products (25%) accounted for three-quarters of the volume of injected wastes that... 

The sources, amounts, and composition of existing deep-well-injected hazardous wastes... 

Polar organic compounds such as amino acids normally do not polymerize in water because of dipole-dipole interactions. However, polymerization of amino acids to peptides may occur on clay surfaces. For example, Degens and Metheja51 found kaolinite to serve as a catalyst for the polymerization of amino acids to peptides. In natural systems, Cu2+ is not very likely to exist in significant concentrations. However, Fe3+ may be present in the deep-well environment in sufficient amounts to enhance the adsorption of phenol, benzene, and related aromatics. Wastes from resinmanufacturing facilities, food-processing plants, pharmaceutical plants, and other types of chemical plants occasionally contain resin-like materials that may polymerize to form solids at deep-well-injection pressures and temperatures. 

There are no known natural sources of hexachlorobutadiene which contribute to environmental levels. The main source of hexachlorobutadiene in the United States is its production as a by-product of chlorinated hydrocarbon synthesis. An estimated 100,000 pounds of this by-product are released to the environment each year. The majority of hexachlorobutadiene-containing waste is disposed of by incineration, with lesser amounts disposed by deep well injection and landfill. 

Production, Import/Export, Use, Release, and Disposal. Hexachlorobutadiene is not produced for commercial purposes in the United States, however small amounts are imported from Germany. Hexachlorobutadiene is mainly produced as a by-product of chlorinated hydrocarbon synthesis and is a primary component of "hex-wastes" (EPA 1982b). Its uses as a pesticide and fumigant have been discontinued. Hexachlorobutadiene is disposed chiefly by incineration, and to a lesser extent by deep well injection and landfill operations (EPA 1982b). More recent production and release data would be helpful in estimating human exposure to hexachlorobutadiene. 

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