Record Display for the EPA National Library Catalog
RECORD NUMBER: 638 OF 648
|OLS Field Name||OLS Field Data|
|Main Title||Waste and water management for conventional coal combustion assessment report, 1979 /|
|Author||Santhanam, C. J. ; Lunt, R. R. ; Cooper, C. B. ; Kleinschmidt, D. E. ; Bodek, I. ;|
|CORP Author||Little (Arthur D.), Inc., Cambridge, MA.;Industrial Environmental Research Lab., Research Triangle Park, NC.|
|Publisher||U.S. Environmental Protection Agency, Industrial Environmental Research Laboratory ; Available to the public through the National Technical Information Service,|
|Report Number||EPA 600/7-80-012a; EPA 600/7-80-012b; EPA 600/7-80-012c; EPA 600/7-80-012d; EPA 600/7-80-012e; EPA-68-02-2654|
|Subjects||Furnaces--Combustion--Environmental aspects. ; Flue gases--Desulfurization. ; Steam power-plants--Environmental aspects. ; Flue gases--Desulfurization. ; Furnaces--Combustion--Environmental aspects. ; Steam power plants--Environmental aspects. ; Flue gases--Desulphurization|
|Additional Subjects||Solid waste disposal ; Water pollution control ; Air pollution control equipment ; Fly ash ; Sulfur dioxide ; Electric power plants ; Boilers ; Recirculation ; Economic analysis ; Substitutes ; Flue gases ; Waste water reuse ; Flue gas desulfurization ; Waste recycling ; State of the art|
|Collation||5 v. : ill. ; 28 cm.|
The report is an executive summary, the first of five volumes giving a detailed assessment of the state-of-the-art of water and waste management technology for conventional combustion of coal. Various R and D programs sponsored by EPA and private industry have achieved significant results in many areas. Substantial progress has been made in characterizing major wastewater streams and in determining physical, chemical, and engineering properties of flue gas cleaning (FGC) wastes. Overall water management studies have shown that more efficient water recycle/reuse can be achieved, and can serve as models for water management plans in new facilities. Generation of FGC wastes is expected to increase dramatically. Utilization of FGC wastes is also expected to grow, but much more slowly. Major FGC waste disposal methods are ponding, disposal in managed fills, and mine disposal. Progress in dewatering and stabilization processes is expected to increase the relative attractiveness and viability of the latter two methods. Potential environmental impacts are primarily contamination of surface water and groundwater, and land degradation (physical instability, large land requirements); actual impacts are site- and system-specific. Applying appropriate control technology can mitigate adverse impacts. Disposal costs are $9-15 per dry ton of FGC wastes.
"Industrial Environmental Research Laboratory, Office of Environmental Engineering and Technology." "January 1980"--V. 1. "March 1980"--V. 2-5. Includes bibliographical references. "Contract no. 68-02-2654, program element no. EHE624A."
v. 1. Executive summary -- v. 2. Water management -- v. 3. Generation and characterization of FGC wastes -- v. 4. Utilization of FGC wastes -- v. 5. Disposal of FGC wastes.