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E-raamat: Practical Environmental Bioremediation: The Field Guide, Second Edition

(Philip Environmental Inc., Houston, Texas, USA), (Montgomery Watson Company, Des Moines, Iowa, USA), (Consultant, Albuquerque, New Mexico, USA)
  • Formaat: 208 pages
  • Ilmumisaeg: 14-Apr-2023
  • Kirjastus: CRC Press Inc
  • Keel: eng
  • ISBN-13: 9781000950397
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Practical Environmental Bioremediation: The Field Guide, Second EditionSuurem pilt
  • Formaat: 208 pages
  • Ilmumisaeg: 14-Apr-2023
  • Kirjastus: CRC Press Inc
  • Keel: eng
  • ISBN-13: 9781000950397
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First published in 1992, this volume discusses the application of the innovative technology of bioremediation, the microbiological treatment of environments contaminated with various organic and inorganic compounds. The volume condenses current knowledge, presenting the technical issues and concepts in language that can be readily understood by the general public and students in the field. Chapters include historical perspective; microbial nutrition and environmental requirements; microbial destruction of environmental pollutants; the bioremediation laboratory; applied bioremediation; anaerobic biodegradation; surface bioremediation of soils and sludges; bioreactors; In situ aquifer bioremediation; lagoon bioremediation; Vadose zone bioremediation; and developing bioremediation technologies. Annotation c. by Book News, Inc., Portland, Or.

Bioremediation, or enhanced microbiological treatment, of environments contaminated with a variety of organic and inorganic compounds is one of the most effective innovative technologies to come around this century! Practical Environmental Bioremediation: The Field Guide presents updated material, case histories and many instructive illustrations to reflect the evolving image of this fast-emerging industry.
Bioremediation technology has witnessed great strides towards simplifying treatability formats, finding new approaches to field application, more potent nutrient formulations, monitoring protocols and the resulting general improvement in results. This new guide condenses all current available knowledge and presents necessary technical aspects and concepts in language that can be readily comprehended by the technical student, experienced scientist or engineer, the aspiring newcomer, or anyone else interested in this exciting natural cleanup technique.

Arvustused

"The authors make a point to correct some of the misuses of terminology commonly encountered in this field... a resource appropriate for professionals, graduate, and upper-division undergraduate students, and faculty." -Choice

The strengths of this new bioremediation guide are the clear and concise manner in which the authors convey the fundamentals and practical aspects of many forms of bioremediation...The book is very well organized, and presents complex concepts in plain language while providing excellent discussions that detail the major bioremediation processes and considerations. The authors have succeeded in producing an informative guide offering many facts and concepts in a format that is enjoyable to read... The book will benefit practitioners and novices alike in the decision-making of where and how to implement bioremediation in the field."-Jean M. Neubeck, Consulting Hydrologist, Alpha Geoscience

"...This book on bioremediation provides a great deal of fundamental concepts and technical information necessary to understand and implement a bioremediation strategy at contaminated sites. The authors clearly and directly communicate the basics of bioremediation in plain language that will benefit laymen and practitioners of environmental science... the reading in both easy and informative."-Northeastern Geology and Environmental Sciences

"This very multi-disciplinary title is recommended for academic libraries and other special collections that cover the subject areas of environmental engineering, waste recovery, and environmental cleanup monitoring. However, it is more suitable as an overview of, or guide to, the subject rather than a ready reference source."-E-Streams, Vol. 2, No. 2, February 1999

Chapter 1 Introduction: A Historical Perspective
1(12)
Regulatory History
1(3)
Early Successes
4(1)
Discovery of Hydrocarbon-Degrading Microbes
5(1)
Oil Spills
6(1)
Discovery of Metal-Detoxifying Microbes
6(1)
Three Bioremediation Treatment Approaches
7(2)
Biostimulation
7(1)
Bioaugmentation
7(2)
Intrinsic Treatment
9(1)
Recent Advances in Bioremediation Technology
9(1)
The
Chapters Ahead
10(1)
References
10(3)
Chapter 2 Microbial Nutrition and Environmental Requirements
13(18)
Microbial Ubiquity
13(2)
Microbial Nutrition
15(1)
Moisture
16(1)
Energy for Metabolism
17(1)
The Role of Oxygen
17(2)
Environmental Requirements
19(4)
Microbial Growth
23(3)
Acclimation
23(1)
Logarithmic Growth
23(2)
Stationary Phase
25(1)
Death Phase
25(1)
Bacterial Pathogens
26(1)
Microbial Survival
27(1)
References
28(3)
Chapter 3 Microbial Destruction of Environmental Pollutants
31(20)
Biomineralization vs. Biotransformation
31(1)
Biodegradation Processes for Organic Compounds
32(3)
Aerobic Respiration
32(1)
Anaerobic Respiration
33(2)
Fermentation
35(1)
Biooxidation in Wastewater Treatment
35(1)
Bioattachment
36(1)
Biosorption
37(1)
Biosolubilization
38(1)
Microbial Detoxification of Metals
38(2)
Halobacteria
40(1)
Mixed Populations
41(1)
Cometabolism
42(1)
Chlorinated Hydrocarbons
43(1)
Radiation Effects
44(1)
Acquired Radiation Resistance
45(1)
Radioactive Mixed Waste Treatment
46(1)
Constructed Wetlands
47(1)
References
47(4)
Chapter 4 The Bioremediation Laboratory
51(8)
Bioassessment Screening Studies
53(1)
Microbiological Assay
54(1)
Biotreatability Studies
55(2)
Microcosms
56(1)
Respirometry
56(1)
Bioreactors
56(1)
Choosing a Laboratory
57(2)
Chapter 5 Applied Bioremediation: An Overview
59(18)
The Bioremediation Approach
59(2)
Intrinsic Bioremediation
61(1)
Selection Guide for Appropriate Biotechnology
61(3)
Soils and Sludges
63(1)
Liquids and Aqueous Solutions
63(1)
Project Organization
64(1)
Site Characterization
64(3)
Initial Bioassessment Testing
67(2)
Detailed Studies, Pilot Testing, and Process Design
69(4)
Procurement, Installation, and Start-Up
73(1)
Process Monitoring and Operation
74(1)
Final Sampling and Closure
74(1)
Reporting and Management
75(1)
References
75(2)
Chapter 6 Anaerobic Biodegradation: Sans Oxygen
77(12)
Process Definition
77(1)
Anaerobic Degradation
78(2)
Pros and Cons of Anaerobic Treatment
80(1)
Types of Anaerobic Systems
81(3)
Digesters
81(1)
Anaerobic Activated Sludge
82(1)
Fixed-Film Units
82(1)
Anaerobic Rotating Biological Contactors (ARBCs)
83(1)
Fluidized Bed Bioreactors
83(1)
Upflow Anaerobic Sludge Blanket (UASB)
84(1)
Ex Situ Soil Treatment (Soil Cells)
84(1)
In Situ Anaerobic Remediation
85(1)
Design Considerations
85(1)
Applications for Anaerobic Treatment
86(1)
References
87(2)
Chapter 7 Surface Bioremediation of Soils and Sludges: Land Treatment
89(24)
Regulations
90(1)
Feasibility Testing
91(3)
Design and Construction
94(4)
Nutrient Application
98(2)
Operations and Monitoring
100(2)
Closure
102(1)
Variations
103(2)
Biopile
103(1)
Biovault
104(1)
Biopit
105(1)
Project Exercise
105(7)
How Much Soil?
108(1)
How Big an Area?
108(1)
Materials
109(1)
Watering System
109(1)
How Long Might it Take?
110(1)
Does the Buyer Need the Space?
110(1)
What Will the Conceptual Design Cost?
111(1)
References
112(1)
Chapter 8 Bioreactors: The Technology of Total Control
113(16)
Introduction
113(1)
Process Definition
113(1)
Bioreactor Configurations
114(7)
Activated Sludge
116(1)
Sequencing Batch Reactors (SBRs)
117(1)
Rotating Biological Contactors (RBCs)
118(1)
Trickling Filters
118(1)
Soil Slurry Reactors
118(2)
Vapor Phase Bioreactors (Biofilters)
120(1)
Fixed Film, Plug Flow
121(1)
Design Considerations
121(2)
Pilot Testing
123(1)
Installation and Start-Up
124(1)
Case History
125(1)
Conclusion
126(1)
References
126(3)
Chapter 9 In Situ Aquifer Bioremediation
129(16)
Hydrogeologic Variables
129(1)
Light vs. Dense NAPL
130(1)
Standard Pump-and-Treat Option
131(2)
In Situ Option Destroys Contaminants
133(1)
Nonaqueous Phase Liquid (NAPL)
133(1)
Hydrogeology
133(3)
Microbiology
136(1)
Engineering
137(3)
Installation and Start-Up
140(1)
Operations and Monitoring
141(3)
Closure
144(1)
References
144(1)
Chapter 10 Lagoon Bioremediation
145(8)
Treatment Options
145(1)
Feasibility Testing
146(1)
Design Considerations
147(1)
Oxygen Injection
147(1)
Sludge Suspension
148(1)
Sludge Shearing
149(1)
Nutrient Supply
150(1)
Operation and Monitoring
150(1)
Closure
151(1)
References
151(2)
Chapter 11 Vadose Zone Bioremediation
153(8)
Bioventing
153(6)
Delineation
155(1)
Respirometry
155(1)
Design Considerations
156(2)
Process Monitoring
158(1)
Biosparging
159(1)
References
160(1)
Chapter 12 Developing Bioremediation Technologies: The Road Ahead
161(8)
How We Got Here
161(2)
Specific Biostimulations
161(1)
Cometabolism
161(1)
Advanced Acclimations and Bacterial Enzymes
162(1)
Microbial Chelants and Surfactants
162(1)
Genetic Engineering
162(1)
Sequencing Treatments
163(1)
Vadose Zone Treatment
163(1)
The Road Ahead
163(4)
Metals Bioremediation
164(1)
Inorganics
164(1)
Fermentations
164(1)
Mixed Waste
164(1)
In Situ Bioremediation
165(2)
Intrinsic
165(1)
Enhanced Anaerobic
165(1)
Enhanced Aerobic
165(1)
Sequencing Anaerobic/Aerobic
166(1)
Bioaugmentation
166(1)
References
167(2)
Appendix I 169(2)
Glossary 171(10)
Index 181
King, R. Barry; Sheldon, John K.; Long, Gilbert M.
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