Designing & Applying Treatment Technologies:Remediation of Chlorinated & Recalcitrant Compound(C1-6)

Title: Designing & Applying Treatment Technologies:Remediation of Chlorinated & Recalcitrant Compound(C1-6)
Author: Godage B.; Hinchee, Robert E., Wickramanayake
ISBN: 1574770616 / 9781574770612
Format: Hard Cover
Pages: 366
Publisher: Battelle Press
Year: 1998
Availability: In Stock

Tab Article

Remediation practitioners and site managers often face complex environmental contamination challenges that prove to be either resistant to conventional remediation approaches or too costly to treat by such methods. Fortunately, new technologies are waiting in the wings, and sometimes a combination of existing and/or emerging technologies might prove to be the most cost-effective solution. Designing and Applying Treatment Technologies: Remediation of Chlorinated and Recalcitrant Compounds combines technical guidance on some of the newer remediation technologies with case studies on remediation strategies that have worked effectively at real-world sites. Chapters cover bench-scale testing, modeling and performance evaluation for permeable barriers, barrier design and construction, remediation of explosives and nitroaromatics, remediation of pesticides and herbicides, regulation and remediation of PCBs/dioxins, emerging technologies, and applying multiple remediation technologies.

Tab Article

Foreword

Section 1 : Emerging Technologies
Sequential Anaerobic/Aerobic Biodegradation of Chlorinated Solvents : Pilot-Scale Field Demonstration
Design and Operation of A Horizontal Well, In Situ Bioremediation System
Performance Evaluation of an In Situ Anaerobic Biotreatment System for Chlorinated Solvents
Soil Restoration with Superheated Steam Remediation, Recycle, and Recovery (SuperSTR3)
Design of In Situ Bioremediation System to Treat Groundwater Contaminated by Chlorinated Solvents
Design of an In Situ Injection/Extraction Bioremediation System
Technology Innovation for Sites Contaminated with Chlorinated Solvents, Pesticides, and Polychlorinated Biphenyls
Subsurface Hydrogen Addition for The In Situ Bioremediation of Chlorinated Solvents
Rapid PAH Degradation in Soil Using Enzyme Mixtures

Section 2 : Treatability Testing and Modeling for Permeable Barriers
Reactive Wall Column Testing to Support Remediation Decision Making
TCE Diffusion Through Clay Barriers Containing Granular Iron
Enhanced Zero-Valent Iron Degradation of Chlorinated Solvents Using Ultrasonic Energy
Wall and Curtain for Passive Collection/Treatment of Contaminant Plumes
Reactant Sand-Fracking Pilot Test Results
Enhancing The Reactivity of Permeable Barrier Media
Bench-Scale Tracer Tests for Evaluating Hydraulic Performance of Permeable Barrier Media

Section 3 : Barrier Design and Construction
Design and Construction of Vertical Hydraulic Fracture-Placed Iron Reactive Walls
Metal-Enhanced Reductive Dehalogenation Barrier Wall Design
Physical Containment of A DNAPL Source
Demonstration of A Permeable Barrier Technology for Pentachlorophenol-Contaminated Groundwater
Site Characterization to Aid in The Design of A Permeable Barrier at Dover AFB
In Situ Horizontal Subsurface Barrier Technology for Soil Remediation
Use of Continuous Trenching Technique to Install Iron Permeable Barriers

Section 4 : Performance Evaluation of Permeable Barriers
Technical Update : The First Commercial Subsurface Permeable Reactive Treatment Zone Composed of Granular Zero-Valent Iron
Field Performance of Vertical Hydraulic Fracture-Placed Iron Reactive Walls
Hydraulic Evaluation of A Permeable Barrier Using Tracer Tests, Velocity Measurements, and Modeling
Inorganic and Biological Evaluation of Cores from Permeable Iron Reactive Barriers
Evaluating The Moffett Field Permeable Barrier Using Groundwater Monitoring and Geochemical Modeling

Section 5 : Remediation of Pesticides/Herbicides
Degradation of Pesticides by Free Pseudomonas fluorescens Cell Cultures
Bioremediation of Soils Containing 2,4-D, 2,4,5-T, Dichlorprop, and Silvex

Section 6 : Regulation and Remediation of PCBs/Dioxins
Treatment of PCBs and Chlorinated Solvents by Electrochemical Peroxidation
Successful Remediation of PCDF-Contaminated Soil Using A Laboratory Reactor
Remediation of A Landfill Containing Dioxins, Organochlorine Pesticides, Chlorobenzenes, and Chlorophenols
Anaerobic/Aerobic Microbial Coupling for The Biodegradation of Polychlorinated Biphenyls
Photochemical Degradation of Dioxins in Soil
Anaerobic/Aerobic Bioremediation of PCB-Contaminated Soil and Sediment
Aerobic Biodegradation of PCBs in Photolyzed and Nonphotolyzed Surfactant Solutions
A National TSCA Operating Permit Application of ISV
Anaerobic Dechlorination of PCB in Marine Sediments : Possibilities for Enhancement
Preliminary Experiment for Remediation of PCBs-Contaminated Soil by Electroosmosis

Section 7 : Remediation of Explosives/Nitroaromatics
Remediation of 2,4-Dinitrotoluene Using Pseudomonas, Spizizen Medium, and Loam
Toxicity Reduction of Explosives-Contaminated Soils by Composting
Field Demonstration of Multiple Bioslurry Treatment Technologies for Explosives-Contaminated Soils
Hydrolysis/Biodegradation of Chemical Warfare Vesicant Agent HT : Two Approaches
Sequential Anaerobic-Aerobic Treatment of TNT-Contaminated Soil

Section 8 : Applying Multiple Remediation Technologies
Simultaneous Abiotic-Biotic Mineralization of Perchloroethylene (PCE)
Using an Integrated Approach to Remediate A Trichloroethylene-Contaminated Aquifer
In Situ Sequential Treatment of A Mixed Organic Plume Using Granular Iron, O2, and CO2 Sparging
Evaluating The Effectiveness of Ozonation and Combined Ozonation/Bio-remediation Technologies
Combining and Sequencing Technologies to Treat Chlorinated VOCs
Physical Remediation of A Trichloroethylene-Contaminated Industrial Site

Author Index
Keyword Index