Wastewater Engineering
Treatment and Reuse. Metcalf & Eddy
Rev. by George Tchobanoglous, Franklin L. Burton and H. D. Stensel
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Wastewater Engineering Treatment and Reuse Fourth Edition Metcalf & Eddy, Inc., and Revised by George Tchobanoglous, Franklin Burton, and H. David Stensel *Contains stron focus on advanced wastewater treatment technologies, including biological treatment processes *Stresses reuse aspect of wastewater biosolids *Includes numerous data tables and photos of facilities and equipment METCALF & EDDY, INC. is an environmental engineering firm in Wakefield, MA. GEORGE TCHOBANOGLOUS (Davis, CA) is Professor Emeritus, University of California at Davis, Davis, CA. FRANKLIN L. BURTON (Los Altos, CA) is a ...
Wastewater Engineering Treatment and Reuse Fourth Edition Metcalf & Eddy, Inc., and Revised by George Tchobanoglous, Franklin Burton, and H. David Stensel *Contains stron focus on advanced wastewater treatment technologies, including biological treatment processes *Stresses reuse aspect of wastewater biosolids *Includes numerous data tables and photos of facilities and equipment METCALF & EDDY, INC. is an environmental engineering firm in Wakefield, MA. GEORGE TCHOBANOGLOUS (Davis, CA) is Professor Emeritus, University of California at Davis, Davis, CA. FRANKLIN L. BURTON (Los Altos, CA) is a Consulting Engineer in Los Altos, CA. H. DAVID STENSEL (Seattle, WA) is employed by the University of Washington, Seattle, WA.
Table of contents:
1. Wastewater Engineering: An Overview 2. Constituents in Wastewater 3. Analysis and Selection of Wastewater Flowrates and Constituent Loadings 4. Introduction to Process Analysis and Selection 5. Physical Unit Operations 6. Chemical Unit Processes 7. Fundamentals of Biological Treatment 8. Suspended Growth Biological Treatment Processes 9. Attached Growth and Combined Biological Treatment Processes 10. Anaerobic Suspended and Attached Growth Biological Treatment Processes 11. Advanced Wastewater Treatment 12. Disinfection Processes 13. Water Reuse 14. Treatment, Reuse, and Disposal of Solids and Biosolids 15. Issues Related to Treatment-Plant Performance Appendixes A Conversion Factors B Physical Properties of Selected Gases and the Composition of Air C Physical Properties of Water D Solubility of Dissolved Oxygen in Water as a Function of Salinity and Barometric Pressure E MPN Tables and Their Use F Carbonate Equilibrium G Moody Diagrams for the Analysis of Flow in Pipes
Table of contents:
1. Wastewater Engineering: An Overview 2. Constituents in Wastewater 3. Analysis and Selection of Wastewater Flowrates and Constituent Loadings 4. Introduction to Process Analysis and Selection 5. Physical Unit Operations 6. Chemical Unit Processes 7. Fundamentals of Biological Treatment 8. Suspended Growth Biological Treatment Processes 9. Attached Growth and Combined Biological Treatment Processes 10. Anaerobic Suspended and Attached Growth Biological Treatment Processes 11. Advanced Wastewater Treatment 12. Disinfection Processes 13. Water Reuse 14. Treatment, Reuse, and Disposal of Solids and Biosolids 15. Issues Related to Treatment-Plant Performance Appendixes A Conversion Factors B Physical Properties of Selected Gases and the Composition of Air C Physical Properties of Water D Solubility of Dissolved Oxygen in Water as a Function of Salinity and Barometric Pressure E MPN Tables and Their Use F Carbonate Equilibrium G Moody Diagrams for the Analysis of Flow in Pipes