Energy present sources

J. L. Epler and M. R. Guerin, Mutagenic components of alternate energy sources. Presented at and published in the Proceedings of the 71st Annual Meeting of the Air Pollution Control Association, Houston, Texas, June 25-30, 1978 (in press). 

Potassium Chloride. The principal ore encountered in the U.S. and Canadian mines is sylvinite [12174-64-0] a mechanical mixture of KCl and NaCl. Three beneficiation methods used for producing fertilizer grades of KCl ate thermal dissolution, heavy media separation, and flotation (qv). The choice of method depends on factors such as grade and type of ore, local energy sources, amount of clay present, and local fuel and water availabiUty and costs. 

Chemical Composition. Chemical compositional data iaclude proximate and ultimate analyses, measures of aromaticity and reactivity, elemental composition of ash, and trace metal compositions of fuel and ash. All of these characteristics impact the combustion processes associated with wastes as fuels. Table 4 presents an analysis of a variety of wood-waste fuels these energy sources have modest energy contents. 

The use of microwave irradiation as an energy source for chemical reactions and processes has been extensively investigated during recent years and has found wide application in various fields of chemistry and technology. The following presentation focuses on the scope and potential of microwaves in chemical analysis. 

More than 30 years ago Jacob and Monod introduced the Escherichia coli lac operon as a model for gene regulation. The lac repressor molecule functions as a switch, regulated by inducer molecules, which controls the synthesis of enzymes necessary for E. coli to use lactose as an energy source. In the absence of lactose the repressor binds tightly to the operator DNA preventing the synthesis of these enzymes. Conversely when lactose is present, the repressor dissociates from the operator, allowing transcription of the operon. 

The fear of accidents like Chernobyl, and the high cost of nuclear waste disposal, halted nuclear power plant construction in the United States m the 1980s, and in most ol the rest ol the world by the 1990s. Because nuclear fusion does not present the waste disposal problem of fission reactors, there is hope that fusion will be the primary energy source late in the twenty-first centuiy as the supplies of natural gas and petroleum dwindle. 

Continuing dependence on fossil fuels raises several major ethical issues. Ethical questions concerning our responsibilities to future generations arc raised by the fact that fossil fuels are a nonrenewable energy source, so that eveiy barrel of oil or ton of coal burned today is forever lost to future generations. Further, the by-products of fossil fuel combustion pose hazards to both present and future generations. 

Legrand, R. Warren, C. S. "Biogas generation from commimity-derived wastes and biomass in the U.S. " Paper presented at the Tenth Annual Energy-Sources Technology Conf. and Exhib. ASME Dallas, TX, 1987. 

The waste management situation in Austria is presented, and it is explained that Baufeld-Austria GmbH has developed a method and concept, with the eooperation of cement plant experts, to enable some Austrian eement factories to responsibly use plastics waste as an energy source. The conditions used for developing the model, relating to fuel quality, environmental proteetion, and public health, are explained. The Baufeld model for processing of plastics waste is then described. Details of future plans are included. 

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