Biological Treatment of Hazardous WastesUnlike most books on the subject, which offer only formulaic solutions to particular problems, Biological Treatment of Hazardous Wastes provides professionals with a conceptual framework within which to develop effective treatments tailored to any hazardous waste scenario they may encounter. Written by an author team comprising twenty-five North American and European experts, the text delineates the complex factors involved in the design of successful in situ and ex situ biotreatment approaches. Offering a balanced presentation of basic principles and engineering practices, it progresses from basic microbiological, biochemical, hydrogeological, and engineering principles to the development of design methodologies and specific hazardous waste scenarios - many of them based on the numerous case studies found throughout the book. |
From inside the book
Results 1-3 of 88
Page 52
... Removal Cutting oil emulsion “ 16,000 2,500 6.7 55.9 84 % Specialty chemicals production 13,000 9,000 8.0 66.8 69 ... removal averaged 90 ± 8 % . Refer to Sheridan ( 1993 ) for a good description of practical empirical methods to ...
... Removal Cutting oil emulsion “ 16,000 2,500 6.7 55.9 84 % Specialty chemicals production 13,000 9,000 8.0 66.8 69 ... removal averaged 90 ± 8 % . Refer to Sheridan ( 1993 ) for a good description of practical empirical methods to ...
Page 57
... Removal Efficiency The ICB system has the ability to reduce organic pollutants to very low concentrations at relatively short hydraulic retention times . Table 2.7 shows the removal efficiency of priority pollutants from a coal tar ...
... Removal Efficiency The ICB system has the ability to reduce organic pollutants to very low concentrations at relatively short hydraulic retention times . Table 2.7 shows the removal efficiency of priority pollutants from a coal tar ...
Page 373
... removal can be achieved by automatically cooling the recirculating process gas in an external heat exchanger . If properly executed , nearly all heat removal can be accomplished without the use of fresh air , thereby reducing the volume ...
... removal can be achieved by automatically cooling the recirculating process gas in an external heat exchanger . If properly executed , nearly all heat removal can be accomplished without the use of fresh air , thereby reducing the volume ...
Common terms and phrases
activity adsorbed adsorption aeration aerobic anaerobic applications aqueous aquifer aromatic bacteria Baltzis batch benzene bioavailability biodegradation biofilm biofouling Biological Treatment biomass bioreactor bioremediation bioslurry Biotech carbon chemical chlorinated clogging coefficient column composting concentration culture dechlorination DeFilippi degradation denitrification desorption diffusion effects effluent electron acceptor Engineering Environ Environmental equations ethanol factors fixed-film reactor flow foam g/m³ groundwater growth Hazardous Waste hydrocarbons hydrogen ICB system immobilized impeller increase injection kinetics Lewandowski liquid membrane metabolic methanogens mg/L microbial Microbiol microorganisms mineralization mixed Monod naphthalene nitrate nutrients occur operating organic compounds organic contaminants oxidation oxygen parameters particles Pentachlorophenol permeability reduction phase phenol pollutant pore porosity porous potential reaction recycle redox region removal sediments Shareefdeen sludge slurry slurry-phase solids solubility sorption species studies substrate subsurface surface surfactant Taylor and Jaffé temperature toluene toxicity typically vadose zone volatile wastewater zone
References to this book
Fundamentals of Environmental Chemistry, Second Edition Stanley E. Manahan No preview available - 2010 |