In situ treatment technology

The most exciting technical area in the remediation field today is "in place" or "in situ" technologies. This new book in the popular Geraghty & Miller series provides a single reference source, consolidating information on the various in situ technologies. Each of the primary areas is covered in a separate chapter, allowing for in-depth reviews, including laboratory and pilot plant studies, full-scale design, operation and maintenance, cost analysis, and case histories. Expert accounts are also given emerging in situ technologies. One of the unique features of this new book is its excellent coverage of the geologic foundation and limitations of each of the technologies. Material at the beginning of the book explains the limitations of pump and treatment remediation, and shows how some of these limitations may also apply to in situ technologies. This section provides the reader with a basis on which to analyze and predict the possible success of any new in situ methods that are developed in the future.

LIMITATIONS OF PUMP-AND-TREAT REMEDIATION METHODS, E.K. Nyer Water as a Carrier The Contamination Plume Plume Movement Advection Dispersion Retardation Chemical Precipitation and Biotransformation Non-Aqueous Phase Liquids - NAPL Pump and Treat Air as the Carrier Limitations Conclusion LIFE CYCLE DESIGN, E.K. Nyer Life Cycle Design for Pump and Treat Systems Concentration Changes with Time Capital Costs Operator Expenses Using Life Cycle Design to Describe the End of the Project What is Clean? Retardation vs. Biochemical Activity Active Management Life Cycle Design for in Situ Treatment Methods Determining the Time Required to Complete a Life Cycle in Groundwater Remediation IN SITU BIOREMEDIATION, E.K. Nyer, T.L. Crossman, and G. Boettcher Introduction Biochemical Reactions Microorganisms Distribution and Occurrence of Microorganisms in the Environment Soil Ground Water Biochemical Reactions of Microorganisms Inorganic Nutrients Environmental Factors Microbial Biodegradation of Xenobiotic Organic Compounds Gratuitous Biodegradation Cometabolism Microbial Communities Halogenated Hydrocarbons Degradation Rate In Situ Bioremediation Biogeochemical Characterization Modeling Support for Intrinsic Bioattenuation Risk/Biomodeling Approach Case Histories of Intrinsic Bioattenuation Enhanced Bioremediation Existing Reactions Change of Environment Delivery of Required Enhancements Summary VAPOR EXTRACTION AND BIOVENTING, S. Fam Introduction Contaminant Partitioning in the Subsurface Air Flow Requirements and Capabilities Air Flow Capability Air Flow Requirements Evaluation of Conditions Where VES is Applicable Contaminant Properties Vapor Pressure Solubility Henry's Law Other Molecular Properties Summary Properties of the Soil Bulk Density/Soil Porosity Soil Adsorption Soil Moisture Site Surface Topography Depth to Water Table Site Homogeneity Modeling Tools for Vapor Extraction System Design Engineering Design Model Flow Models Multiphase Transport Models Pilot Studies Laboratory Studies Field Pilot Studies Vapor Extraction Testing Well Vapor Extraction Monitoring Well System Design Bioventing Introduction Advantages of Vapor Phase Biotreatment Performance Criteria/Bioventing Plan Protocols Laboratory Testing Field Respirometry Testing Soil Gas Permeability Testing Bioventing System Configurations Clean Up Goals and Costs Case Study VACUUM-ENHANCED RECOVERY, P.L. Palmer Introduction Mass Balance Approach to Site Remediation Groundwater Recovery Enhancement Applicability Enhanced Effectiveness - LNAPLs Enhanced Effectiveness - Dissolved Phase Enhanced Effectiveness - Air Phase Types of Systems Preliminary Evaluation of Applicability Pilot Test Procedures Test and Monitoring Wells Test Method Monitoring Mass Removal Estimation System Design Well Design Well Spacing Fluid Flow Rate Vacuum Pressure Air Flow Rate Off-Gas Treatment Equipment Selection Mass Removal and Reaching Cleanup Goals Enhanced Effectiveness - LNAPLs Enhanced Effectiveness - Dissolved Phase Enhanced Effectiveness - Dewatering IN SITU AIR SPARGING, S.S. Suthersan Introduction Governing Phenomena In Situ Air Stripping Direct Volatilization Biodegradation Applicability Examples of Contaminant Applicability Geological Considerations Description of the Process Air Injection into Water-Saturated Soils Mounding of Water Table Distribution of Air Flow Pathways System Design Parameters Air Distribution (Zone of Influence) Depth of Air Injection Air Injection Pressure and Flow Rate Injection Mode (Pulsing) Injection Wells Contaminant Type and Distribution Pilot Testing Limitations Modifications to Conventional Air Sparging Application Horizontal Trench Sparging In Well Air Sparging Biosparging Clean-Up Rates AIR TREATMENT FOR IN SITU TECHNOLOGIES, S. Sam Introduction Design Criteria Regulatory Requirements Mass of Contaminants Life Cycle Emission Concentration Citing and Utility Considerations Treatment Technologies Adsorption-Based Treatment Technologies Oxidation-Based Technologies Biological Technologies Technology Selection Summary FRACTURING, D.F. Kidd Introduction Applicability Geologic Conditions Technology Description Hydraulic Fracturing Pneumatic Fracturing Screening Tools Geologic Characterization Geotechnical Evaluations Pilot Testing Proppants Full-Scale Design Case Histories Pneumatic Fracturing Air Phase Effectiveness - Hydraulic Fracturing Air Phase REACTIVE WALLS, P.L. Palmer Introduction General Reactive Wall Designs Installation Methodologies Types of in Situ Reactors Transformation Processes Physical Removal Modify pH or Eh Conditions Precipitation of Metals Contaminant Removal via Sorption or Ion Exchange Biological Degradation Design Considerations Case Study: Reactive Wall Design Background Funnel and Gate Modeling Study Gradient Control Underflow of Barrier Gate Design MISCELLANEOUS IN SITU TREATMENT TECHNOLOGIES, F.J. Johns, II and E.K. Nyer Introduction Contaminant Removal Technologies Steam Flushing Hot Air Flushing Resistance Heating Radio Frequency Heating Chemically-Enhanced Flushing Electrochemical Remediation In-Well Air Stripping Phytoremediation Contaminant Fixation Technologies Stabilization and Solidification Vitrification In Situ Biochemical Precipitation Index