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Introductory technical guidance for civil engineers, environmental engineers and other professional engineers and construction managers interested in remediation of contaminated soils by air sparging. Here is what is discussed: 1. TECHNOLOGY DESCRIPTION, 2. OVERVIEW OF AIR SPARGING, 3. AIR SPARGING TECHNOLOGY OPTIONS, 4. RELATED TECHNOLOGIES , 5. SUMMARY OF PHYSICAL PROCESSES, 6. COMPONENTS OF INJECTION PRESSURE, 7. GROUNDWATER MIXING, 8. ASSOCIATED TECHNICAL ISSUES, 9. TECHNOLOGY ASSESSMENT: EFFECTIVENESS AND LIMITATIONS, 10. TECHNOLOGY STATUS, 11. CONDITIONS AMENABLE TO IAS, 12. RESULTS IN REGULATORY “CLOSURE”, 13. IAS MODELS.
Introductory technical guidance for civil engineers, environmental engineers and other professional engineers and construction managers interested in air sparging remediation of contaminated soil. Here is what is discussed: 1. TECHNOLOGY DESCRIPTION, 2. OVERVIEW OF AIR SPARGING, 3. AIR SPARGING TECHNOLOGY OPTIONS, 4. RELATED TECHNOLOGIES, 5. SUMMARY OF PHYSICAL PROCESSES, 6. COMPONENTS OF INJECTION PRESSURE, 7. GROUNDWATER MIXING, 8. ASSOCIATED TECHNICAL ISSUES, 9. TECHNOLOGY ASSESSMENT: EFFECTIVENESS AND LIMITATIONS, 10. TECHNOLOGY STATUS, 11. CONDITIONS AMENABLE TO IAS, 12. RESULTS IN REGULATORY “CLOSURE”, 13. IAS MODELS.
Introductory technical guidance for civil, environmental and mechanical engineers and construction managers interested in air sparging methods of contaminated soil remediation. Here is what is discussed: 1. TECHNOLOGY DESCRIPTION 2. OVERVIEW OF AIR SPARGING 3. AIR SPARGING TECHNOLOGY OPTIONS 4. RELATED TECHNOLOGIES 5. SUMMARY OF PHYSICAL PROCESSES 6. COMPONENTS OF INJECTION PRESSURE 7. GROUNDWATER MIXING 8. ASSOCIATED TECHNICAL ISSUES 9. TECHNOLOGY ASSESSMENT: EFFECTIVENESS AND LIMITATIONS 10. TECHNOLOGY STATUS 11. CONDITIONS AMENABLE TO IAS 12. RESULTS IN REGULATORY “CLOSURE” 13. IAS MODELS.
Introductory technical guidance for civil and environmental engineers interested in air sparging treatment of contaminated soil and groundwater. Here is what is discussed: 1. INTRODUCTION 2. OVERVIEW OF AIR SPARGING 3. AIR SPARGING TECHNOLOGY OPTIONS 4. RELATED TECHNOLOGIES 5. SUMMARY OF PHYSICAL PROCESSES 6. COMPONENTS OF INJECTION PRESSURE. 7. GROUNDWATER MIXING 8. ASSOCIATED TECHNICAL ISSUES 9. TECHNOLOGY ASSESSMENT: EFFECTIVENESS AND LIMITATIONS 10. TECHNOLOGY STATUS 11. CONDITIONS AMENABLE TO IAS 12. SUCCESS CRITERIA 13. IAS MODELS.
Introductory technical guidance for civil and environmental engineers interested in planning for air sparging treatment of contaminated soil. Here is what is discussed: 1. INTRODUCTION 2. TECHNOLOGY SCREENING STRATEGY 3. PRE-DESIGN DATA COLLECTION REQUIREMENTS 4. FEASIBILITY STUDIES.
This manual provides practical guidance for the design and operation of soil vapor extraction (SVE) and bioventing (BV) systems. It is intended for use by engineers, geologists, hydrogeologists, and soil scientists, chemists, project managers, and others who possess a technical education and some design experience but only the broadest familiarity with SVE or BV systems.
Introductory technical guidance for civil and environmental engineers interested in insitu air sparging treatment for contaminated soil. Here is what is discussed: 1. INTRODUCTION 2. DESIGN STRATEGY 3. DESIGN GUIDANCE—SUBSURFACE 4. WELL FIELD DESIGN 5. SUBSURFACE CONSTRUCTION 6. MANIFOLD AND INSTRUMENTATION DESIGN 7. AIR DELIVERY EQUIPMENT DESIGN 8. POWER DISTRIBUTION AND CONTROLS 9. SYSTEM APPURTENANCES 10. DESIGN DOCUMENTS.
This report provides an engineering analysis of, and status report on, selected enhancements for soil vapor extraction (SVE) treatment technologies. The report is intended to assist project managers considering an SVE treatment system by providing them with an up-to-date status of enhancement technologies; an evaluation of each technology's applicability to various site conditions; a presentation of cost and performance information; a list of vendors specializing in the technologies; a discussion of relative strengths and limitations of the technologies; recommendations to keep in mind when considering the enhancements; and a compilation of references. The performance of an SVE system depends on properties of both the contaminants and the soil. SVE is generally applicable to compounds with a vapor pressure of greater than 1 millimeter of mercury at 20EC and a Henry s Law constant of greater than 100 atmospheres per mole fraction. SVE is most effective at sites with relatively permeable contaminated soil and with saturated hydraulic conductivities of greater than 1 x 10 or 1 x 10 centimeter per second (cm/s). SVE by itself does not effectively remove contaminants -3 -2 in saturated soil. However, SVE can be used as an integral part of some treatment schemes that treat both groundwater and the overlying vadose zone. Enhancement technologies should be considered when contaminant or soil characteristics limit the effectiveness of SVE or when contaminants are present in saturated soil. The five enhancement technologies covered in this report are as follows and are described in the following subsections: * Air Sparging * Dual-phase Extraction * Directional Drilling * Pneumatic and Hydraulic Fracturing * Thermal Enhancement.