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Environmental Progress

The basic operation of solid waste management involves waste collection, transportation, storage and treatment. Although these functions remain similar, as environmental management progresses, the roles and applications of products may change therefore, an ideal waste management system is function oriented, not product oriented [22-26]. [Pg.93]

Grossmann, J.F. Hudson and D.H. Marks, Journal of the Environmental Engineering Division, 1974,100,1219. [Pg.93]

Coleman, P. Masoni, A. Dryer and F. McDougall, International Journal of Life Cycle Assessment, 2003, 8, [Pg.94]

Kraines, H. Shigeoka and H. Komiyama, Clean Technologies and Environmental Policy, 2003, 4, 204. [Pg.94]

Checkland in Systems Thinking, Systems Practice, Wiley, Chichester, UK, 1981. [Pg.94]

Blowers, P. Titus, M. (2004) Use of Life-Cycle Inventory as a Screening Tool for Environmental Performance Supercritical Carbon Dioxide in the Semiconductor Industry. Environmental Progress, 23, 284-290. [Pg.25]

Hammond CA. 1986. The Dow-Stretford Chemical Recovery Process. Environmental Progress 5 1-4. [Pg.186]

Muradov, N. et al., Environmentally compatible processing of residual oil with simultaneous hydrogen production, in Energy and Environmental Progress, Vol. D, Veziroglu, N., Ed., Nova Science, New York, 105,1991. [Pg.98]

Weber AS, Matsumoto MR. 1987. Feasibility of intermittent biological treatment for hazardous wastes. Environmental Progress 6(3) 166-171. [Pg.162]

LaRegina J, Bozzelli JW, Harkov R, et al. 1986. Volatile organic compounds at hazardous waste sites and a sanitary landfill in New Jersey. Environmental Progress 5 18-27. [Pg.170]

Iretskaya, S., Nzihou, A., Zahraoui, C. Sharrock, P. 1999. Metal leaching from MSW fly ash before and after chemical and thermal treatments. Environmental Progress, 18, 144-148. [Pg.469]

Karell, M. A. Blumenthal, M. H. 2001. Air regulatory impacts of the use of tire-derived fuel. Environmental Progress, 20, 80-86. [Pg.497]

Armenante, P. M., Kafkewitz, D., Lewandowski, G. Kung, C-M. (1992). Integrated anaerobic-aerobic process for the biodegradation of chlorinated aromatic compounds. Environmental Progress, 11, 113—22. [Pg.31]

Autry, A. R. Ellis, G. M. (1992). Bioremediation an effective remedial alternative for petroleum hydrocarbon-contaminated soil. Environmental Progress, 11, 318-23-Block, R., Stroo, H. Swett, G. H. (1993). Bioremediation - why doesn t it work sometimes Chemical Engineering Progress, 89 (8), 44-50. [Pg.31]

Govind, R., Lai, L. Dobbs, R. (1991). Integrated model for predicting the fate of organics in wastewater treatment plants. Environmental Progress, 10, 13-23. [Pg.32]

Rogers, J.A., Tedaldi, D.J. Kavanaugh, M. C. (1993). A screening protocol for bioremediation of contaminated soil. Environmental Progress, 12, 146-56. [Pg.33]

Krishnan, E. R. August 1983. "Recovery of Heavy Metals From Steelmaking Dust." Environmental Progress. Vol. 2, No. 3. [Pg.32]

Gurol M D, Bremen W, Holden T (1985) Oxidation of cyanides in industrial wastewaters by ozone, Environmental Progress 4 46-51. [Pg.35]

Whitlow J E, Roth J A (1988) Heterogeneous Ozonation Kinetics of Pollutants in Wastewater, Environmental Progress 7 52-57. [Pg.142]

Scott J P and Ollis D F (1995) Integration of Chemical and Biological Oxidation Processes for Water Treatment Review and Recommendations, Environmental Progress 14 88-103. [Pg.175]

Stich F A, Bhattacharyya D (1987) Ozonolysis of Organic Compounds in a Two-Phase Fluorocarbon-Water System, Environmental Progress 6 224-229. [Pg.175]

Ghosh, M.M. and Yuan, J.R. (1987) Adsorption of inorganic arsenic and organioarsenicals on hydrous oxides. Environmental Progress, 6(3), 150-57. [Pg.343]

Greenleaf, J.E., Lin, J.-C. and Sengupta, A.K. (2006) Two novel applications of ion exchange fibers arsenic removal and chemical-free softening of hard water. Environmental Progress, 25(4), 300-11. [Pg.419]

Jegadeesan, G., Mondal, K. and Lalvani, S.B. (2005) Arsenate remediation using nanosized modified zerovalent iron particles. Environmental Progress, 24(3), 289-96. [Pg.421]

Pamukcu, S., and Wittle, J. K., (1992). Electrokinetic removal of selected heavy metals from soil. Environmental Progress, 11(3), 241-250. [Pg.113]

Chang SG, Lee GC. 1992. LBL PHOSNOX process for combined removal of S02 and NOx from flue gas. Environmental Progress 11 66-73. [Pg.219]

Klaassen, R. and Jansen, A.E. (2001) The membrane contactor Environmental applications and possibilities. Environmental Progress, 20, 37. [Pg.533]

Ho, W.S.W., Wang, B Neumuller, T.E. and Roller, J. (2001) Supported liquid membranes for removal and recovery of metals from waste waters and process streams. Environmental Progress, 20, 117. [Pg.539]

Castaldi, F. J. (2003). Tank-based bioremediation of petroleum waste sludges. Environmental Progress, 22, 25-36. [Pg.201]

Singh, Anu and C. E. Adams (1997). Rapid evaluation and installation of a low cost water treatment scheme at a superfund site. Environmental Progress. 16, 4, 281-286. [Pg.143]

M. J. McIntosh, G. G. Arzonmanidis, and F. E. Brockmeier, Recovery of fnels and chemicals through catalytic pyrolysis of plastic wastes. Environmental Progress, 17(1), 19-23 (1998). [Pg.754]

See other pages where Environmental Progress is mentioned: [Pg.1367]    [Pg.332]    [Pg.217]    [Pg.423]    [Pg.596]    [Pg.46]    [Pg.47]    [Pg.348]    [Pg.349]    [Pg.373]    [Pg.33]    [Pg.33]    [Pg.184]    [Pg.248]    [Pg.275]    [Pg.333]    [Pg.438]    [Pg.234]    [Pg.234]    [Pg.234]    [Pg.2060]    [Pg.432]   


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