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    "Site Assessment and Remediation Handbook" by Martin N. Sara (Repost)

    Posted By: exLib
    "Site Assessment and Remediation Handbook" by Martin N. Sara (Repost)

    "Site Assessment and Remediation Handbook" by Martin N. Sara
    Lewis Publishers, Chарmаn & Hаll / СRС Press | 2003 | ISBN: 1566705770 9781566705776 | 1161 pages | PDF | 70 MB

    Completely revised and updated, this Handbook provides coverage of new procedures and technologies for an expanded range of site investigations. With over 700 figures, tables, and flow charts, the handbook is a comprehensive resource for engineers, geologists, and hydrologists conducting site investigation, and a one-stop, technical reference for environmental attorneys.

    TABLE OF CONTENTS
    CHAPTER 1: INTRODUCTION
    1.1 INTRODUCTION TO SITE ASSESSMENTS
    1.2 SCOPE
    1.3 HISTORIC BACKGROUND TO SITE ASSESSMENTS
    1.4 OBJECTIVES AND APPROACH
    1.5 INTRODUCTION TO INTRINSIC REMEDIATION
    1.6 INNOVATIVE CHARACTERIZATION TOOLS
    1.7 COST EFFECTIVE SITE REMEDIATION
    1.8 HANDBOOK CHAPTER CONTENTS
    REFERENCES
    CHAPTER 2: PHASE I INVESTIGATIONS
    2.1 INTRODUCTION TO PHASE I STUDIES
    2.2 PHASE I STUDIES
    2.3 SITE RECONNAISSANCE
    2.4 PRELIMINARY CONCEPTUAL HYDROGEOLOGIC MODEL
    2.5 PHASE I GENERAL SITE ASSESSMENT REPORT
    2.6 GREENFIELD SITING
    2.7 MONITORING SYSTEM EVALUATION
    2.8 ENVIRONMENTAL AUDITS AND PROPERTY ACQUISITION REVIEWS
    2.9 ASSESSMENT MONITORING PHASE I PROGRAMS
    REFERENCES
    CHAPTER 3: PHASE II SURFICAL FIELD INVESTIGATIONS
    3.1 PHASE II COMPONENTS
    3.2 TOPOGRAPHIC MAP
    3.3 SOILS
    3.4 GEOLOGIC MAPPING
    3.5 GEOPHYSICAL TECHNIQUES
    3.6 HYDROLOGY
    3.7 SURROUNDING LAND USE, WATER USE AND WATER QUALITY CHARACTERISTICS
    3.8 FIELD ECOLOGY SURVEYS
    3.9 HISTORICAL AND ARCHAEOLOGICAL SURVEYS
    3.10 METHODS AND TOOLS OF HOLOCENE FAULT INVESTIGATIONS
    3.11 ADDITIONAL FIELD SURVEYS
    REFERENCES
    CHAPTER 4: PHASE II SUBSURFACE INVESTIGATIONS
    4.1 INTRODUCTION
    4.2 BORING PLAN
    4.3 SUBSURFACE METHODS
    4.4 TEST HOLE SAMPLING
    4.5 DETERMINATION OF THE SUBSURFACE PROFILE
    4.6 LOGGING DATA FROM BOREHOLES
    4.7 LOGGING ROCK CORE FOR ROCK QUALITY DESIGNATION (RQD)
    4.8 BOREHOLE GEOPHYSICAL LOGS
    4.9 FIELD IN SITU TESTS FOR PHYSICAL PARAMETERS
    4.10 DIRECT PUSH CONE PENETRATION TESTING
    4.11 PIEZOMETERS
    4.12 WATER-LEVEL MEASUREMENT
    4.13 DECOMMISSIONING OF BOREHOLES, PIEZOMETERS AND WELLS
    REFERENCES
    CHAPTER 5: PHASE II ENVIRONMENTAL TESTING
    5.1 INTRODUCTION
    5.2 SATURATED HYDRAULIC CONDUCTIVITY ABOVE THE WATER TABLE
    5.3 METHODS FOR MEASURING UNSATURATED HYDRAULIC CONDUCTIVITY
    5.4 BOREHOLE TESTS OF FIELD HYDRAULIC CONDUCTIVITY
    5.5 FIELD PROCEDURES
    5.6 LABORATORY ANALYSES
    REFERENCES
    CHAPTER 6: FRACTURED-ROCK ASSESSMENTS
    6.1 INTRODUCTION
    6.2 PHASE I ASSESSMENTS: FRACTURED ROCK
    6.3 PHASE IIs FOR FRACTURED ROCK
    6.4 GEOLOGIC MAPPING
    6.5 SURFACE GEOPHYSICS
    6.6 BORING PLAN
    6.7 DRILLING AND LOGGING CORE HOLES
    6.8 DOWN-THE-HOLE GEOPHYSICS
    6.9 BOREHOLE CONDITION AND GEOMETRY
    6.10 STEREOGRAPHIC PROJECTION IN SITE ASSESSMENTS
    6.11 DETERMINATION OF GROUND-WATER FLOW DIRECTIONS AND VELOCITIES IN FRACTURED ROCK
    6.12 WELL TESTING METHODS
    6.13 MULTILEVEL HEAD MEASUREMENTS
    6.14 CONCEPTUAL MODEL
    6.15 LOCATION AND INSTALLATION OF MONITORING WELLS
    REFERENCES
    CHAPTER 7: PHASE II DATA ANALYSIS AND INTERPRETATION
    7.1 INTRODUCTION
    7.2 CHARACTERIZATION OF LITHOLOGY
    7.3 AQUIFER CHARACTERISTICS
    7.4 CHARACTERISTICS OF GROUND-WATER FLOW
    7.5 HYDROGEOLOGIC PROPERTIES
    7.6 ANALYSIS OF AQUIFER TESTS
    REFERENCES
    CHAPTER 8: THE CONCEPTUAL MODEL
    8.1 INTRODUCTION TO CONCEPTUAL MODELS
    8.2 REGIONAL AND SITE GEOLOGY
    8.3 CHARACTERISTICS OF THE SATURATED ZONE
    8.4 CONCEPTUAL GEOLOGIC MODELS
    8.5 EXAMPLES OF GEOLOGIC CONCEPTUAL MODELS
    8.6 THE FLOWNET
    8.7 FLOWNET/CONCEPTUAL MODEL FORMULATION IN EXAMPLES
    8.8 CORRELATION OF FLOWNETS AND GEOLOGIC STRUCTURES
    8.9 CONCLUSIONS
    REFERENCES
    CHAPTER 9: MONITORING SYSTEM DESIGN
    9.1 INTRODUCTION TO MONITORING DESIGN
    9.2 REGULATORY CONCEPTS IN FACILITY MONITORING
    9.3 DATA ANALYSIS REQUIRED FOR DESIGN
    9.4 SELECT TARGET MONITORING ZONES
    9.5 LOCATE BACKGROUND AND DOWNGRADIENT WELLS
    9.6 SEPARATION OF ADJACENT MONITORING PROGRAMS
    9.7 DENSITY CONTROL
    9.8 FUNDAMENTAL MONITORING CONCEPTS OF THE VADOSE ZONE
    9.9 EXAMPLES OF MONITORING DESIGN
    9.10 SUTI PROBLEM ON DESIGN OF GROUND-WATER MONITORING SYSTEMS PROBLEM
    REFERENCES
    CHAPTER 10: ASSESSMENT MONITORING DESIGN
    10.1 RCRA ASSESSMENT MONITORING PROGRAMS
    10.2 CERCLA (SUPERFUND) REGULATIONS
    10.3 STATE REGULATIONS AND ASSESSMENT MONITORING
    10.4 ASSESSMENT MONITORING ANALYSIS
    10.5 ASSESSMENT MONITORING TECHNIQUES
    10.6 SYSTEM DESIGN AND OPERATION
    10.7 SOIL SAMPLING AND ANALYSIS DESIGN
    10.8 ESTIMATION OF SORPTION PROPERTIES OF SOILS
    10.9 SOIL-GAS SURVEYS
    10.10 BACKGROUND SOIL CONCENTRATION
    10.11 GROUND-WATER REMEDIATION
    10.12 RISK ASSESSMENT FOR REMEDIAL PROJECTS
    10.13 PREDEFINED SCOPES OF WORK
    10.14 HORIZONTAL WELLS, BLIND OR CONTINUOUS
    REFERENCES
    CHAPTER 11: ORGANIZATION AND ANALYSIS OF WATER QUALITY DATA
    11.1 INTRODUCTION TO WATER QUALITY DATA
    11.2 BASELINE WATER QUALITY
    11.3 ANALYTIC SERVICES LABORATORIES
    11.4 MDLs, PQLs, IDLs, EMLRLs
    11.5 MONITORING SITE WATER QUALITY
    11.6 COMPARISONS OF WATER QUALITY
    11.7 STATISTICAL TREATMENT OF WATER QUALITY DATA
    11.8 VERIFICATION OF EXCEEDANCE
    11.9 EDITING AND MANAGING DATA
    11.10 THE STATISTICS OF REMEDIATION
    11.11 TECHNICAL APPROACH
    REFERENCES
    CHAPTER 12: REPORTING
    12.1 MEET WITH THE CONSULTANT
    12.2 PROPOSAL CONTENT
    12.3 DOCUMENTATION
    12.4 QUALITY ASSURANCE FOR SITE ASSESSMENT INVESTIGATIONS
    12.5 REPORTS
    12.6 DOCUMENTATION
    12.7 PROFESSIONAL LIABILITY CONTROL
    12.8 CONCLUSIONS
    CHAPTER 13: MONITORED NATURAL ATTENUATION
    13.1 INTRODUCTION TO MNA
    13.2 CHLORINATED SOLVENTS
    13.3 INORGANICS
    13.4 NATURAL ATTENUATION AND MONITORED NATURAL ATTENUATION
    13.5 LINES OF EVIDENCE
    13.6 WHEN CAN MNA BE APPLIED AS A REMEDY?
    13.7 ADVANTAGES AND DISADVANTAGES OF MONITORED NATURAL ATTENUATION
    13.8 METHODS
    13.9 SITES WHERE MONITORED NATURAL ATTENUATION MAY BE APPROPRIATE
    13.10 MNA METHODS
    REFERENCES
    APPENDICES
    APPENDIX Al: GLOSSARY OF TECHNICAL TERMS
    APPENDIX Bl: KEY ELEMENTS FOR THE DEVELOPMENT OF PHASE I HYDROGEOLOGICAL INVESTIGATION REQUEST FOR PROPOSAL
    APPENDIX B2: EXAMPLE OF A 2003 STATEMENT OF WORK FOR A REMEDIAL INVESTIGATION AND FEASIBILITY STUDY WHERE RISK ASSESSMENT IS AN IMPORTANT PART OF THE EVALUATION FOR AN INDUSTRIAL SITE
    APPENDIX B3: MODEL STATEMENT OF WORK
    APPENDIX Cl: RCRA SUBTITLE D CHEMICAL PARAMETERS
    APPENDIX C2: RISK CALCULATION TABLES
    APPENDIX C3: RCRA GROUND WATER
    APPENDIX C4: SAFE DRINKING WATER ACT PARAMETER LISTS
    APPENDIX C5: CERCLA CHEMICAL PARAMETER LISTS
    APPENDIX Dl: SPECIFICATIONS FOR CONSTRUCTING A FIRE PROTECTION WELL
    APPENDIX D2: EXAMPLE SPECIFICATIONS FOR CONSTRUCTING A GROUND-WATER SUPPLY SYSTEM TECHNICAL SPECIFICATIONS
    APPENDIX D3: EXAMPLE MONITORING WELL SPECIFICATIONS
    INDEX
    with TOC BookMarkLinks