Tab Article

Foreword

Section 1 : Thermal Desorption
Chapter 1 : Full-Scale Thermal Desorption of Soil Contaminated with Chlorinated Compounds
Chapter 2 : Thermal Desorption Treatability Studies : Removing Chlorinated Organic Compounds from Soils
Chapter 3 : Remediation of Contaminated Soils Using Thermal Desorption
Chapter 4 : A Comparison of In Situ Soil Mixing Treatments
Chapter 5 : In Situ Thermal Desorption Using Thermal Wells and Blankets

Section 2 : In Situ Thermal Technologies
Chapter 6 : Soil Heating for Remediation of Dissolved Trichloroethylene in Low-Permeable Soil
Chapter 7 : Soil Vapor Extraction Enhanced by Microwave Energy
Chapter 8 : Research Issues for Thermal Remediation
Chapter 9 : Removal of Dissolved Solvents from Heated Heterogeneous Soils During Depressurization
Chapter 10 : Six-Phase Soil Heating of the Saturated Zone

Section 3 : Plasma Technologies
Chapter 11 : Plasma Remediation Technology for Chlorine, Sulfur, and Phosphorus-Containing Wastes
Chapter 12 : Destruction of Hazardous Military Wastes Using Plasma Arc Technology
Chapter 13 : Catalytic Combustion of Carbon Tetrachloride

Section 4 : In Situ Steam Processes
Chapter 14 : In-Place Volatilization of Chlorinated Solvents Using Steam and Compressed Air
Chapter 15 : Closing a DNAPL Site Through Source Removal and Natural Attenuation
Chapter 16 : DNAPL/LNAPL Remediation in Clay Till Using Steam-Enhanced Extraction
Chapter 17 : Thermal Enhancement and Fracturing to Remove Semivolatile Organic Compounds from Clay
Chapter 18 : Hot Water Injection for the Remediation of Oily Wastes
Chapter 19 : Steam-Enhanced Extraction of Wood Treatment Chemicals from Soils
Chapter 20 : Remediation Demonstration of Dual-Auger Rotary Steam Stripping
Chapter 21 : In Situ Hydrothermal Oxidative Destruction of DNAPLs in a Creosote-Contaminated Site

Section 5 : Soil Vapor Extraction/Multiphase Extraction
Chapter 22 : Soil Vapor Extraction as a Containment Technique
Chapter 23 : Accelerated Remediation of Chlorinated Solvents via Cyclic Multiphase Extraction
Chapter 24 : Use of Diffusion Modeling to Aid Assessment of Rate-Limited Vapor Transport for SVE Closure
Chapter 25 : Passive Soil Vapor Extraction for Interim Remediation at the Savannah River Site
Chapter 26 : Design and Operational Contingency for Remediation of Low-Permeability Stratum
Chapter 27 : Does Multiphase Extraction Require Soil Desaturation to Remediate Chlorinated Sites?

Section 6 : Enhancements to Pump-and-Treat Systems
Chapter 28 : Pump and Treat May Be the Solution
Chapter 29 : Petrochemical Removal from Contaminated Wells
Chapter 30 : Modification of Sorption Characteristics in Aquifers to Improve Groundwater Remediation
Chapter 31 : Hydraulic In Situ Remediation Techniques with Surfactants : Optimization of Hydraulic Systems
Chapter 32 : Groundwater Treatment Using Air Stripping : A Successful Case Study
Chapter 33 : Chlorinated Solvent Groundwater Remediation at the Fairbanks Disposal Pit
Chapter 34 : Plume Stabilization Using Pump-and-Treat Technology
Chapter 35 : Removal of VOCs from Groundwater Using Air-Sparged Hydrocyclone Stripping Technology
Chapter 36 : Comparative Analysis of Trichloroethene Removal from the Santa Margarita Aquifer
Chapter 37 : Bench-Scale Evaluation of Dissolved Chlorinated Solvent Capture Using Cationic Surfactants

Section 7 : Groundwater Circulating Wells
Chapter 38 : Multi-Site Comparison of Chlorinated Solvent Remediation Using Innovative Technology
Chapter 39 : Numerical Performance Evaluation of a Pilot-Scale Recirculating Well System (NoVOCs™)
Chapter 40 : Pilot Recirculating Well System (NoVOCsTM) for Remediation of a Deep TCE Plume
Chapter 41 : Effects of Anisotropy and Low Conductivity on Recirculation-Well Performance

Section 8 : Air Sparging
Chapter 42 : Kinetic Analysis of Pilot Test Results of the C-Sparge™ Process
Chapter 43 : Air Sparging of Chlorinated Volatile Organic Compounds in a Layered Geologic Setting
Chapter 44 : An Analysis of Air Sparging for Chlorinated Solvent Sites
Chapter 45 : Methyl tert-Butyl Ether Removal by In Situ Air Sparging in Physical Model Studies

Section 9 : Dehalogenation Technologies
Chapter 46 : Enhancing Chlorinated Methanes Degradation by Modifying the Feº Reduction System
Chapter 47 : Matrix Effects on Catalyst Deactivation in a Pd/H2 Hydrodehalogenation System
Chapter 48 : Dehalogenation of Chlorinated Solvents Using a Palladium Catalyst and Hydrogen Gas
Chapter 49 : Temperature Effect on Reductive Dechlorination of Trichloroethene by Zero-Valent Metals
Chapter 50 : Abiotic Treatment of Trichloroethylene : Lab-Scale Results and Kinetic Model
Chapter 51 : Electron Transfer to Organochlorine Compounds by an Iron(II) Porphyrin-Dithionite System
Chapter 52 : Reductive Dechlorination of TCE by Dithionite-Treated Sediment
Chapter 53 : Effect of Iron Corrosion Inhibitors on Trichloroethylene Reduction
Chapter 54 : Abiotic Trichloroethylene Dehalogenation Using Sodium Hydrosulfite : Laboratory and Field Investigation

Section 10 : Oxidation Technologies
Chapter 55 : Field Demonstration of In Situ Fenton's Destruction of DNAPLS
Chapter 56 : Aqueous Oxidation of Trichloroethene (TCE) : A Kinetic and Thermodynamic Analysis
Chapter 57 : VOX Destruction by Peroxide/Ultraviolet
Chapter 58 : In Situ Treatment of Organics by Sequential Reduction and Oxidation
Chapter 59 : In Situ Oxidation of Trichloroethylene Using Potassium Permanganate : Part 2. Pilot Study
Chapter 60 : In Situ Chemical Oxidation of Pentachlorophenol and Polycyclic Aromatic Hydrocarbons : From Laboratory Tests to Field Demonstration
Chapter 61 : Ozone and Contaminant Transport During In Situ Ozonation
Chapter 62 : In Situ Oxidation of Trichloroethene Using Potassium Permanganate, Part 1 : Theory and Design
Chapter 63 : Oxidation of Chlorinated Solvents by Permanganate
Chapter 64 : Evaluation of Flameless Thermal Oxidation for Vapor-Phase VOC Treatment
Chapter 65 : Innovative Air Stripping and Catalytic Oxidation Techniques for Treatment of Chlorinated Solvent Plumes
Chapter 66 : Batch and Column Testing to Evaluate Chemical Oxidation of DNAPL Source Zones
Chapter 67 : Oxidative Dechlorination of Chlorinated Organics by Soluble Ruthenium Catalysts
Chapter 68 : Full-Scale Soil Remediation of Chlorinated Solvents in Clay Soils by In Situ Chemical Oxidation

Section 11 : Photo-, Electro-, and Catalytic Mechanisms
Chapter 69 : Photocatalytic Degradation of Organics in Aqueous Suspensions
Chapter 70 : Development of Technology for Electrochemical Reduction of Chlorinated Aromatic Compounds
Chapter 71 : Ozone/Electron Beam Irradiation Removes Perchloroethylene and Genotoxic Compounds from Groundwater
Chapter 72 : Electrokinetics as a Supporting Technology for In Situ TCE Biodegradation
Chapter 73 : Low-Profile Stripping of Organic Pollutants and Destruction by Gas-Phase Photolysis
Chapter 74 : Electrolytic Reduction of Chlorinated Solvents : Kinetics, Electrode Selectivity, and Electrode Materials

Author Index
Keyword Index