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 71
Page 94
... determine rates and extent of biodegradation in aqueous solutions and soil - water slurries . Selection of suitable ... Determination of the role of additives ( surfactants , co - substrates ) on desorption and biodegradation ...
... determine rates and extent of biodegradation in aqueous solutions and soil - water slurries . Selection of suitable ... Determination of the role of additives ( surfactants , co - substrates ) on desorption and biodegradation ...
Page 197
... determined to be equal to or less than 1 for laminar flow , although some researchers reportedly extend the Reynolds ... determined by measuring the fluid conductivity of the soil in either the laboratory or the field . Because the ...
... determined to be equal to or less than 1 for laminar flow , although some researchers reportedly extend the Reynolds ... determined by measuring the fluid conductivity of the soil in either the laboratory or the field . Because the ...
Page 201
... determining the solubility limits and the stability of a particular form of many of the dissolved compounds . This is an important factor for determining the stability of ... determined a relationship in turn TRANSPORT PARAMETERS 201.
... determining the solubility limits and the stability of a particular form of many of the dissolved compounds . This is an important factor for determining the stability of ... determined a relationship in turn TRANSPORT PARAMETERS 201.
Contents
Introduction to Microbiological Degradation of Aqueous Waste | 35 |
Bioslurry Reactors | 69 |
Membrane Biofilm Reactors | 103 |
Copyright | |
10 other sections not shown
Common terms and phrases
activity adsorbed adsorption aeration aerobic anaerobic applications aqueous aquifer Aroclor aromatic bacteria Baltzis batch benzene biodegradation biofilm Biological Treatment biomass bioreactor bioremediation bioslurry carbon chemical chlorinated clogging coefficient composting concentration congeners contaminated soil culture dechlorination DeFilippi degradation denitrification desorption diffusion effects effluent electron acceptor Environ Environmental factors Figure fixed-film reactor flow foam g/m³ groundwater growth hazardous waste Hudson River hydrocarbons hydrogen ICB system immobilized impeller increase injection inorganic kinetics liquid material membrane metabolic methanogenic mg/L Microbiol microorganisms mineralization mixed mixture naphthalene nitrate nutrients occur operating organic compounds oxidation oxygen packing particles Penta Pentachlorophenol permeability reduction phase phenol pollutant pore porosity porous potential reaction redox removal samples sediments Shareefdeen sludge slurry slurry-phase solids solubility sorption species studies substrate subsurface surface surfactant target compounds temperature toluene toxicity typically vadose zone volatilization wastewater zone
References to this book
Fundamentals of Environmental Chemistry, Second Edition Stanley E. Manahan No preview available - 2010 |