Abstract
This paper considers the problem of designing precipitators (for coal-fired electric power plants) which are cost-effective in the collection of low sulfur fly ash. “Hot” and “enlarged” precipitators are analyzed. A hot precipi-tator reduces fly ash resistivity, an enlarged precipitator increases treatment time, and both are capable of precipitating low sulfur fly ash at high collection efficiencies. In a parametric comparison of hot and enlarged precipitation costs it is found that an enlarged precipitator is likely to be less costly at high collection efficiencies. The analysis uses data on 37 full scale precipitator systems to determine an empirical Deutsch-type efficiency equation. The predictive power of this equation is shown to be quite good in several tests using data from some additional precipitator systems which are treating low sulfur fly ash. Precipitator installation costs are estimated by minimizing precipitator accounting costs subject to this empirically derived efficiency equation. These...
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