Ferhan Cecen, Özgür Aktas
Activated Carbon for Water and Wastewater Treatment
Integration of Adsorption and Biological Treatment
Ferhan Cecen, Özgür Aktas
Activated Carbon for Water and Wastewater Treatment
Integration of Adsorption and Biological Treatment
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This monograph provides comprehensive coverage of technologies which integrate adsorption and biological processes in water and wastewater treatment. The authors provide both an introduction to the topic as well as a detailed discussion of theoretical and practical considerations.
After a review of the basics involved in the chemistry, biology and technology of integrated adsorption and biological removal, they discuss the setup of pilot- and full-scale treatment facilities, covering powdered as well as granular activated carbon. They elucidate the factors that influence the successful…mehr
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This monograph provides comprehensive coverage of technologies which integrate adsorption and biological processes in water and wastewater treatment. The authors provide both an introduction to the topic as well as a detailed discussion of theoretical and practical considerations.
After a review of the basics involved in the chemistry, biology and technology of integrated adsorption and biological removal, they discuss the setup of pilot- and full-scale treatment facilities, covering powdered as well as granular activated carbon. They elucidate the factors that influence the successful operation of integrated systems. Their discussion on integrated systems expands from the effects of environmental to the removal of various pollutants, to regeneration of activated carbon, and to the analysis of such systems in mathematical terms. The authors conclude with a look at future needs for research and develoment.
A truly valuable resource for environmental engineers, environmental and water chemists, as well as professionals working in water and wastewater treatment.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
After a review of the basics involved in the chemistry, biology and technology of integrated adsorption and biological removal, they discuss the setup of pilot- and full-scale treatment facilities, covering powdered as well as granular activated carbon. They elucidate the factors that influence the successful operation of integrated systems. Their discussion on integrated systems expands from the effects of environmental to the removal of various pollutants, to regeneration of activated carbon, and to the analysis of such systems in mathematical terms. The authors conclude with a look at future needs for research and develoment.
A truly valuable resource for environmental engineers, environmental and water chemists, as well as professionals working in water and wastewater treatment.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Wiley-VCH
- 1. Auflage
- Seitenzahl: 388
- Erscheinungstermin: 21. September 2011
- Englisch
- Abmessung: 240mm x 170mm x 24mm
- Gewicht: 920g
- ISBN-13: 9783527324712
- ISBN-10: 3527324712
- Artikelnr.: 33342747
- Verlag: Wiley-VCH
- 1. Auflage
- Seitenzahl: 388
- Erscheinungstermin: 21. September 2011
- Englisch
- Abmessung: 240mm x 170mm x 24mm
- Gewicht: 920g
- ISBN-13: 9783527324712
- ISBN-10: 3527324712
- Artikelnr.: 33342747
Ferhan Çeçen was born in 1961. She is a professor at the Institute of Environmental Sciences, Bogaziçi University in Istanbul. She received the B.Sc. Degree in Chemical Engineering from the Bogaziçi University, M.Sc. and Ph.D. degrees in Environmental Engineering from the Technical University in Istanbul. She has authored many publications on environmental biotechnology with a special emphasis on biofilm and activated sludge systems, nitrification, denitrification, leachate treatment, treatment of industrial wastewaters by a combination of activated sludge with adsorption processes. In the last 10 years, her studies focused on adsorption, biological removal and effects of specific pollutants such as heavy metals and organochlorines.
Özgür Aktas is currently a researcher at the Environment Institute of TUBITAK Marmara Research Center. Previously he was a research assistant at the Institute of Environmental Sciences in Bogaziçi University. He received his B.Sc. Degree in Chemical Engineering and M.Sc. and Ph.D. degrees in Environmental Technology from the Institute of Environmental Sciences, Bogaziçi University in Istanbul. His research focuses on activated carbon adsorption in biological processes and bioregeneration of activated carbon in these combined systems.
Özgür Aktas is currently a researcher at the Environment Institute of TUBITAK Marmara Research Center. Previously he was a research assistant at the Institute of Environmental Sciences in Bogaziçi University. He received his B.Sc. Degree in Chemical Engineering and M.Sc. and Ph.D. degrees in Environmental Technology from the Institute of Environmental Sciences, Bogaziçi University in Istanbul. His research focuses on activated carbon adsorption in biological processes and bioregeneration of activated carbon in these combined systems.
Preface
WATER AND WASTEWATER TREATMENT: HISTORICAL PERSPECTIVE OF ACTIVATED CARBON ADSORPTION AND ITS INTEGRATION WITH BIOLOGICAL PROCESSES
Historical Appraisal of Activated Carbon
General Use of Activated Carbon
Application of Activated Carbon in Environmental Pollution
FUNDAMENTALS OF ADSORPTION INTO ACTIVATED CARBON IN WATER AND WASTEWATER TREATMENT
Activated Carbon
Adsorption
Activated Carbon Reactors in Water and Wastewater Treatment
Activated Carbon Regeneration and Reactivation
INTEGRATION OF ACTIVATED CARBON ADSORPTION AND BIOLOGICAL PROCESSES IN WASTEWATER TREATMENT
Secondary and Tertiary Treatment: Progression from Separated Biological Removal and Adsorption to Integrated Systems
Fundamental Mechanisms in Integrated Adsorption and Biological Removal
Integration of Granular Activated Carbon (GAC) into Biological Wastewater Treatment
Integration of Powdered Activated Carbon (PAC) into Biological Wastewater Treatment
Biomembrane Operation Assisted by PAC and GAC
Observed Benefits of Integrated Systems
Regeneration of PACT and GAC Sludges
EFFECT OF ACTIVATED CARBON ON BIOLOGICAL TREATMENT OF SPECIFIC POLLUTANTS AND WASTEWATERS: LABORATORY- AND PILOT-SCALE STUDIES
Treatment of Industrial Wastewaters
Removal of Specific Chemicals
Landfill Leachate Treatment
COMBINATION OF ACTIVATED CARBON WITH BIOLOGICAL WASTEWATER TREATMENT AT FULL-SCALE
Full-Scale PACT Systems
Biological Activated Carbon (BAC) Filtration at Full-Scale
MODELING THE INTEGRATION OF ADSORPTION WITH BIOLOGICAL PROCESSES IN WASTEWATER TREATMENT
Modeling of GAC Adsorbers with Biological Activity
Modeling of the PACT Process
BIOREGENERATION OF ACTIVATED CARBON IN BIOLOGICAL TREATMENT
Mechanisms of Bioregeneration
Offline Bioregeneration
Concurrent (Simultaneous) Bioregeneration in PACT and BAC Systems
Dependency of Bioregeneration on the Reversibility of Adsorption
Other Factors Affecting Bioregeneration
Determination of Bioregeneration
Bioregeneration in Anaerobic/Anoxic Systems
Models Involving Bioregeneration of Activated Carbon
COMBINATION OF ACTIVATED CARBON ADSORPTION AND BIOLOGICAL PROCESSES IN DRINKING WATER TREATMENT
Introduction
Rationale for Introduction of Biological Processes in Water Treatment
Significance of Organic Matter in Water Treatment
Removal of NOM in Conventional Water Treatment
Use of Activated Carbon in Water Treatment
Biological Activated Carbon (BAC) Filtration
Adsorption and Biodegradation Characteristics of Water
REMOVAL OF NOM, NUTRIENTS AND MICROPOLLUTANTS IN BAC FILTRATION
Removal of Organic Matter
Factors Affecting the Performance of BAC Filtration
Performance of BAC Filters: Organics Removal
Performance of BAC Filters: Nutrient Removal
Removal of Micropollutants from Drinking Water in BAC Systems
Removal of Ionic Pollutants in BAC Filtration
Integration of PAC and GAC into Biological Membrane Operations
Integration of GAC into Groundwater Bioremediation
Biomass Characteristics in BAC Filtration
BAC FILTRATION EXAMPLES IN FULL-SCALE DRINKING WATER TREATMENT PLANTS
Limits for BDOC and AOC as Indicators of RE-Growth Potential in Water Distribution
BAC Filtration Experiences in Full-Scale Surface Water Treatment
New Approaches in the Evaluation of Ozonation and BAC Filtration
BAC Filtration Experiences in Full-Scale Groundwater Treatment
REVIEW OF BAC FILTRATION MODELING IN DRINKING WATER TREATMENT
Substrate Removal and Biofilm Formation
Modeling of BAC Filtration
CONCLUDING REMARKS AND FUTURE OUTLOOK
Overview of Applications in Wastewater and Water Treatment: PACT and BAC Systems
Further Research on Removal Mechanisms and Micropollutant Elimination
Further Research on Regeneration of Activated Carbon
WATER AND WASTEWATER TREATMENT: HISTORICAL PERSPECTIVE OF ACTIVATED CARBON ADSORPTION AND ITS INTEGRATION WITH BIOLOGICAL PROCESSES
Historical Appraisal of Activated Carbon
General Use of Activated Carbon
Application of Activated Carbon in Environmental Pollution
FUNDAMENTALS OF ADSORPTION INTO ACTIVATED CARBON IN WATER AND WASTEWATER TREATMENT
Activated Carbon
Adsorption
Activated Carbon Reactors in Water and Wastewater Treatment
Activated Carbon Regeneration and Reactivation
INTEGRATION OF ACTIVATED CARBON ADSORPTION AND BIOLOGICAL PROCESSES IN WASTEWATER TREATMENT
Secondary and Tertiary Treatment: Progression from Separated Biological Removal and Adsorption to Integrated Systems
Fundamental Mechanisms in Integrated Adsorption and Biological Removal
Integration of Granular Activated Carbon (GAC) into Biological Wastewater Treatment
Integration of Powdered Activated Carbon (PAC) into Biological Wastewater Treatment
Biomembrane Operation Assisted by PAC and GAC
Observed Benefits of Integrated Systems
Regeneration of PACT and GAC Sludges
EFFECT OF ACTIVATED CARBON ON BIOLOGICAL TREATMENT OF SPECIFIC POLLUTANTS AND WASTEWATERS: LABORATORY- AND PILOT-SCALE STUDIES
Treatment of Industrial Wastewaters
Removal of Specific Chemicals
Landfill Leachate Treatment
COMBINATION OF ACTIVATED CARBON WITH BIOLOGICAL WASTEWATER TREATMENT AT FULL-SCALE
Full-Scale PACT Systems
Biological Activated Carbon (BAC) Filtration at Full-Scale
MODELING THE INTEGRATION OF ADSORPTION WITH BIOLOGICAL PROCESSES IN WASTEWATER TREATMENT
Modeling of GAC Adsorbers with Biological Activity
Modeling of the PACT Process
BIOREGENERATION OF ACTIVATED CARBON IN BIOLOGICAL TREATMENT
Mechanisms of Bioregeneration
Offline Bioregeneration
Concurrent (Simultaneous) Bioregeneration in PACT and BAC Systems
Dependency of Bioregeneration on the Reversibility of Adsorption
Other Factors Affecting Bioregeneration
Determination of Bioregeneration
Bioregeneration in Anaerobic/Anoxic Systems
Models Involving Bioregeneration of Activated Carbon
COMBINATION OF ACTIVATED CARBON ADSORPTION AND BIOLOGICAL PROCESSES IN DRINKING WATER TREATMENT
Introduction
Rationale for Introduction of Biological Processes in Water Treatment
Significance of Organic Matter in Water Treatment
Removal of NOM in Conventional Water Treatment
Use of Activated Carbon in Water Treatment
Biological Activated Carbon (BAC) Filtration
Adsorption and Biodegradation Characteristics of Water
REMOVAL OF NOM, NUTRIENTS AND MICROPOLLUTANTS IN BAC FILTRATION
Removal of Organic Matter
Factors Affecting the Performance of BAC Filtration
Performance of BAC Filters: Organics Removal
Performance of BAC Filters: Nutrient Removal
Removal of Micropollutants from Drinking Water in BAC Systems
Removal of Ionic Pollutants in BAC Filtration
Integration of PAC and GAC into Biological Membrane Operations
Integration of GAC into Groundwater Bioremediation
Biomass Characteristics in BAC Filtration
BAC FILTRATION EXAMPLES IN FULL-SCALE DRINKING WATER TREATMENT PLANTS
Limits for BDOC and AOC as Indicators of RE-Growth Potential in Water Distribution
BAC Filtration Experiences in Full-Scale Surface Water Treatment
New Approaches in the Evaluation of Ozonation and BAC Filtration
BAC Filtration Experiences in Full-Scale Groundwater Treatment
REVIEW OF BAC FILTRATION MODELING IN DRINKING WATER TREATMENT
Substrate Removal and Biofilm Formation
Modeling of BAC Filtration
CONCLUDING REMARKS AND FUTURE OUTLOOK
Overview of Applications in Wastewater and Water Treatment: PACT and BAC Systems
Further Research on Removal Mechanisms and Micropollutant Elimination
Further Research on Regeneration of Activated Carbon
Preface
WATER AND WASTEWATER TREATMENT: HISTORICAL PERSPECTIVE OF ACTIVATED CARBON ADSORPTION AND ITS INTEGRATION WITH BIOLOGICAL PROCESSES
Historical Appraisal of Activated Carbon
General Use of Activated Carbon
Application of Activated Carbon in Environmental Pollution
FUNDAMENTALS OF ADSORPTION INTO ACTIVATED CARBON IN WATER AND WASTEWATER TREATMENT
Activated Carbon
Adsorption
Activated Carbon Reactors in Water and Wastewater Treatment
Activated Carbon Regeneration and Reactivation
INTEGRATION OF ACTIVATED CARBON ADSORPTION AND BIOLOGICAL PROCESSES IN WASTEWATER TREATMENT
Secondary and Tertiary Treatment: Progression from Separated Biological Removal and Adsorption to Integrated Systems
Fundamental Mechanisms in Integrated Adsorption and Biological Removal
Integration of Granular Activated Carbon (GAC) into Biological Wastewater Treatment
Integration of Powdered Activated Carbon (PAC) into Biological Wastewater Treatment
Biomembrane Operation Assisted by PAC and GAC
Observed Benefits of Integrated Systems
Regeneration of PACT and GAC Sludges
EFFECT OF ACTIVATED CARBON ON BIOLOGICAL TREATMENT OF SPECIFIC POLLUTANTS AND WASTEWATERS: LABORATORY- AND PILOT-SCALE STUDIES
Treatment of Industrial Wastewaters
Removal of Specific Chemicals
Landfill Leachate Treatment
COMBINATION OF ACTIVATED CARBON WITH BIOLOGICAL WASTEWATER TREATMENT AT FULL-SCALE
Full-Scale PACT Systems
Biological Activated Carbon (BAC) Filtration at Full-Scale
MODELING THE INTEGRATION OF ADSORPTION WITH BIOLOGICAL PROCESSES IN WASTEWATER TREATMENT
Modeling of GAC Adsorbers with Biological Activity
Modeling of the PACT Process
BIOREGENERATION OF ACTIVATED CARBON IN BIOLOGICAL TREATMENT
Mechanisms of Bioregeneration
Offline Bioregeneration
Concurrent (Simultaneous) Bioregeneration in PACT and BAC Systems
Dependency of Bioregeneration on the Reversibility of Adsorption
Other Factors Affecting Bioregeneration
Determination of Bioregeneration
Bioregeneration in Anaerobic/Anoxic Systems
Models Involving Bioregeneration of Activated Carbon
COMBINATION OF ACTIVATED CARBON ADSORPTION AND BIOLOGICAL PROCESSES IN DRINKING WATER TREATMENT
Introduction
Rationale for Introduction of Biological Processes in Water Treatment
Significance of Organic Matter in Water Treatment
Removal of NOM in Conventional Water Treatment
Use of Activated Carbon in Water Treatment
Biological Activated Carbon (BAC) Filtration
Adsorption and Biodegradation Characteristics of Water
REMOVAL OF NOM, NUTRIENTS AND MICROPOLLUTANTS IN BAC FILTRATION
Removal of Organic Matter
Factors Affecting the Performance of BAC Filtration
Performance of BAC Filters: Organics Removal
Performance of BAC Filters: Nutrient Removal
Removal of Micropollutants from Drinking Water in BAC Systems
Removal of Ionic Pollutants in BAC Filtration
Integration of PAC and GAC into Biological Membrane Operations
Integration of GAC into Groundwater Bioremediation
Biomass Characteristics in BAC Filtration
BAC FILTRATION EXAMPLES IN FULL-SCALE DRINKING WATER TREATMENT PLANTS
Limits for BDOC and AOC as Indicators of RE-Growth Potential in Water Distribution
BAC Filtration Experiences in Full-Scale Surface Water Treatment
New Approaches in the Evaluation of Ozonation and BAC Filtration
BAC Filtration Experiences in Full-Scale Groundwater Treatment
REVIEW OF BAC FILTRATION MODELING IN DRINKING WATER TREATMENT
Substrate Removal and Biofilm Formation
Modeling of BAC Filtration
CONCLUDING REMARKS AND FUTURE OUTLOOK
Overview of Applications in Wastewater and Water Treatment: PACT and BAC Systems
Further Research on Removal Mechanisms and Micropollutant Elimination
Further Research on Regeneration of Activated Carbon
WATER AND WASTEWATER TREATMENT: HISTORICAL PERSPECTIVE OF ACTIVATED CARBON ADSORPTION AND ITS INTEGRATION WITH BIOLOGICAL PROCESSES
Historical Appraisal of Activated Carbon
General Use of Activated Carbon
Application of Activated Carbon in Environmental Pollution
FUNDAMENTALS OF ADSORPTION INTO ACTIVATED CARBON IN WATER AND WASTEWATER TREATMENT
Activated Carbon
Adsorption
Activated Carbon Reactors in Water and Wastewater Treatment
Activated Carbon Regeneration and Reactivation
INTEGRATION OF ACTIVATED CARBON ADSORPTION AND BIOLOGICAL PROCESSES IN WASTEWATER TREATMENT
Secondary and Tertiary Treatment: Progression from Separated Biological Removal and Adsorption to Integrated Systems
Fundamental Mechanisms in Integrated Adsorption and Biological Removal
Integration of Granular Activated Carbon (GAC) into Biological Wastewater Treatment
Integration of Powdered Activated Carbon (PAC) into Biological Wastewater Treatment
Biomembrane Operation Assisted by PAC and GAC
Observed Benefits of Integrated Systems
Regeneration of PACT and GAC Sludges
EFFECT OF ACTIVATED CARBON ON BIOLOGICAL TREATMENT OF SPECIFIC POLLUTANTS AND WASTEWATERS: LABORATORY- AND PILOT-SCALE STUDIES
Treatment of Industrial Wastewaters
Removal of Specific Chemicals
Landfill Leachate Treatment
COMBINATION OF ACTIVATED CARBON WITH BIOLOGICAL WASTEWATER TREATMENT AT FULL-SCALE
Full-Scale PACT Systems
Biological Activated Carbon (BAC) Filtration at Full-Scale
MODELING THE INTEGRATION OF ADSORPTION WITH BIOLOGICAL PROCESSES IN WASTEWATER TREATMENT
Modeling of GAC Adsorbers with Biological Activity
Modeling of the PACT Process
BIOREGENERATION OF ACTIVATED CARBON IN BIOLOGICAL TREATMENT
Mechanisms of Bioregeneration
Offline Bioregeneration
Concurrent (Simultaneous) Bioregeneration in PACT and BAC Systems
Dependency of Bioregeneration on the Reversibility of Adsorption
Other Factors Affecting Bioregeneration
Determination of Bioregeneration
Bioregeneration in Anaerobic/Anoxic Systems
Models Involving Bioregeneration of Activated Carbon
COMBINATION OF ACTIVATED CARBON ADSORPTION AND BIOLOGICAL PROCESSES IN DRINKING WATER TREATMENT
Introduction
Rationale for Introduction of Biological Processes in Water Treatment
Significance of Organic Matter in Water Treatment
Removal of NOM in Conventional Water Treatment
Use of Activated Carbon in Water Treatment
Biological Activated Carbon (BAC) Filtration
Adsorption and Biodegradation Characteristics of Water
REMOVAL OF NOM, NUTRIENTS AND MICROPOLLUTANTS IN BAC FILTRATION
Removal of Organic Matter
Factors Affecting the Performance of BAC Filtration
Performance of BAC Filters: Organics Removal
Performance of BAC Filters: Nutrient Removal
Removal of Micropollutants from Drinking Water in BAC Systems
Removal of Ionic Pollutants in BAC Filtration
Integration of PAC and GAC into Biological Membrane Operations
Integration of GAC into Groundwater Bioremediation
Biomass Characteristics in BAC Filtration
BAC FILTRATION EXAMPLES IN FULL-SCALE DRINKING WATER TREATMENT PLANTS
Limits for BDOC and AOC as Indicators of RE-Growth Potential in Water Distribution
BAC Filtration Experiences in Full-Scale Surface Water Treatment
New Approaches in the Evaluation of Ozonation and BAC Filtration
BAC Filtration Experiences in Full-Scale Groundwater Treatment
REVIEW OF BAC FILTRATION MODELING IN DRINKING WATER TREATMENT
Substrate Removal and Biofilm Formation
Modeling of BAC Filtration
CONCLUDING REMARKS AND FUTURE OUTLOOK
Overview of Applications in Wastewater and Water Treatment: PACT and BAC Systems
Further Research on Removal Mechanisms and Micropollutant Elimination
Further Research on Regeneration of Activated Carbon