Synopses & Reviews
The past 30 years have seen the emergence of a growing desire worldwide to take positive actions to restore and protect the environment from the degrading effects of all forms of pollution: air, noise, solid waste, and water. The Handbook of Environmental Engineering series guides readers to answer the fundamental questions facing pollution in the modern era - How serious is pollution? Is the technology needed to abate it not only available, but feasible? Among the topics included in this, the sixth edition, are: biosolids, flotation thickening, anaerobic and aerobic digestion, pressurized ozonation, lime stabilization, elutriation and polymer conditioning, and animal waste treatment. Cutting-edge and highly practical, the Handbook of Environmental Engineering, Volume Six, offers educators, students, and engineers a strong grounding in the principles of environmental engineering, as well as providing effective methods for developing optimal abatement technologies at costs that are fully justified by the degree of abatement achieved. With an emphasis on using the best available technologies, the authors of these volumes present the necessary engineering protocols derived from the fundamental principles of chemistry, physics, and mathematics, making these volumes essential references for environmental pollution researchers.
Review
From the reviews: "This tome comprises 23 chapters of unequal length written by an ensemble of 20 authors ... . This book will be extremely useful to advanced undergraduate and graduate students - and I should also add to their teachers, preceptors and mentors -of civil and environmental engineering, to designers of wastewater treatment, biosolids and sludge treatment systems, and to scientists and researchers dealing with biosolids management operations." (J. G. LLaurado, Management of Environmental Quality, Vol. 19 (3), 2008)
Review
From the reviews:
"This tome comprises 23 chapters of unequal length written by an ensemble of 20 authors ... . This book will be extremely useful to advanced undergraduate and graduate students - and I should also add to their teachers, preceptors and mentors -of civil and environmental engineering, to designers of wastewater treatment, biosolids and sludge treatment systems, and to scientists and researchers dealing with biosolids management operations." (J. G. LLaurado, Management of Environmental Quality, Vol. 19 (3), 2008)
Synopsis
The goals of Biosolids Treatment Processes, is to: (1) to cover entire environmental fields, including air and noise pollution control, solid waste processing and resource recovery, physicochemical treatment processes, biological treatment processes, biosolids management, water resources, natural control processes, radioactive waste disposal and thermal pollution control; and (2) to employ a multimedia approach to environmental pollution control since air, water, soil and energy are all interrelated.
Synopsis
The past thirty years have seen the emergence of a growing desire worldwide that positive actions be taken to restore and protect the environment from the degrading effects of all forms of pollution air, water, soil, and noise. Because pollution is a direct or indirect consequence of waste, the seemingly idealistic demand for zero discharge can be construed as an unrealistic demand for zero waste. However, as long as waste continues to exist, we can only attempt to abate the subsequent pollution by converting it to a less noxious form. Three major questions usually arise when a particular type of pollution has been identified: (1) How serious is the pollution? (2) Is the technology to abate it available? and (3) Do the costs of abatement justify the degree of abatement achieved? This book is one of the volumes of the Handbook of Environmental Engineering series. The principal intention of this series is to help readers formulate answers to the above three questions. The traditional approach of applying tried-and-true solutions to specific pollution problems has been a major contributing factor to the success of en- ronmental engineering, and has accounted in large measure for the establi- ment of a methodology of pollution control. However, the realization of the ever-increasing complexity and interrelated nature of current environmental problems renders it imperative that intelligent planning of pollution abatement systems be undertaken."
Synopsis
The aim of Biosolids Treatment Processes, is to cover entire environmental fields. These include air and noise pollution control, solid waste processing and resource recovery, physicochemical treatment processes, biological treatment processes, biosolids management, water resources, natural control processes, radioactive waste disposal and thermal pollution control. It also aims to employ a multimedia approach to environmental pollution control.
Table of Contents
Contents:
1. Characteristics and Quantity of Biosolids
Nazih K. Shammas and Lawrence K. Wang
2. Gravity Thickening
Nazih K. Shammas and Lawrence K. Wang
3. Flotation Thickening
Lawrence K. Wang, Nazih K. Shammas, William A. Selke, and Donald B. Aulenbach
4. Centrifugation Clarification and Thickening
Lawrence K. Wang, Shoou-Yuh Chang, Yung-Tse Hung, H. S. Muralidhara, and Satya P. Chauhan
5. Anaerobic Digestion
Jerry R. Taricska, David A. Long, J. Paul Chen, Yung-Tse Hung, and Shuai-Wen Zou
6. Aerobic Digestion
Nazih K. Shammas and Lawrence K. Wang
7. Lime Stabilization
Clint Williford, Wei-Yin Chen, Nazih K. Shammas, and Lawrence K. Wang
8. Pressurized Ozonation
Lawrence K. Wang and Nazih K. Shammas
9. Low-Temperature Thermal Treatment Processes
Lawrence K. Wang, Clint Williford, Wei-Yin Chen, and Nazih K. Shammas
10. Irradiation and Solid Substances Disinfection
Lawrence K. Wang, J. Paul Chen, and Robert Ziegler
11. Inorganic Chemical Conditioning and Stabilization
Nazih K. Shammas and Lawrence K. Wang
12. Elutriation and Polymer Conditioning
Lawrence K. Wang, Shoou-Yuh Chang, Yung-Tse Hung, and J. Paul Chen
13. Drying Beds
Lawrence K. Wang, Yan Li, Nazih K. Shammas, and George P. Sakellaropoulos
14. Animal Wastes Treatment Using Anaerobic Lagoons
Lawrence K. Wang, Yung-Tse Hung, and J. Paul Chen
15. Vertical Shaft Digestion
Lawrence K. Wang, Nazih K. Shammas, Jeffrey Guild, and David Pollock
16. Vacuum Filtration
Nazih K. Shammas and Lawrence K. Wang
17. Belt Filter Presses
Nazih K. Shammas and Lawrence K. Wang
18. Pressure Filtration
Nazih K. Shammas and Lawrence K. Wang
19. Evaporation Processes
Lawrence K. Wang, Nazih K. Shammas, Clint Williford, Wei-Yin Chen, and George P. Sakellaropoulos
20. High-Temperature Thermal Processes
Clint Williford, Wei-Yin Chen, Lawrence K. Wang, and Nazih K. Shammas
21. Biosolids Composting
Nazih K. Shammas and Lawrence K. Wang
22. Vermicomposting Process
Lawrence K. Wang, Yung-Tse Hung, and Kathleen Hung Li
23. Land Application of Biosolids
Nazih K. Shammas and Lawrence K. Wang
Appendix - Conversion Factors
Lawrence K. Wang