Reuse of surfactants and cosolvents for NAPL remediation
著者
書誌事項
Reuse of surfactants and cosolvents for NAPL remediation
(AATDF monographs)
Lewis Publishers, c2000
- : alk. paper
大学図書館所蔵 全2件
  青森
  岩手
  宮城
  秋田
  山形
  福島
  茨城
  栃木
  群馬
  埼玉
  千葉
  東京
  神奈川
  新潟
  富山
  石川
  福井
  山梨
  長野
  岐阜
  静岡
  愛知
  三重
  滋賀
  京都
  大阪
  兵庫
  奈良
  和歌山
  鳥取
  島根
  岡山
  広島
  山口
  徳島
  香川
  愛媛
  高知
  福岡
  佐賀
  長崎
  熊本
  大分
  宮崎
  鹿児島
  沖縄
  韓国
  中国
  タイ
  イギリス
  ドイツ
  スイス
  フランス
  ベルギー
  オランダ
  スウェーデン
  ノルウェー
  アメリカ
注記
Includes bibliographical references (p. 305-306) and index
内容説明・目次
内容説明
Surfactant-enhanced or cosolvent-enhanced ground water remediation remains one of the most promising extensions to pump-and-treat technology for contaminant source removal. This technology has proven effective in field demonstrations for the enhanced removal of both LNAPLS and DNAPLS. The cost of the surfactant and above ground fluid treatment presents the most serious impediment to full-scale application of this technology. Reuse of Surfactants and Cosolvents for NAPL Remediation provides the results of a field demonstration of an economical in situ treatment for NAPL remediation.
The field demonstration focused on the recovery of surfactants ready for reuse and included the following objectives:
Evaluate the technologies that recover surfactants for reuse in aquifer remediation
Demonstrate the most promising treatment at a field site
Perform economic analyses for the pilot-scale and full-scale in situ surfactant-aided soil flushing technologies
Estimate potential performance and applicability of the in situ surfactant-aided technologies
Recovery and reuse of surfactants used in site remediation can substantially improve the overall economics. Prior to this project, it had not been demonstrated that a surfactant recovery process could be reliably designed and operated at field conditions. Nor had the question of the most cost effective surfactant recovery scheme been addressed. Reuse of Surfactants and Cosolvents for NAPL Remediation highlights innovative and cost effective technologies for ground water remediaiton.
目次
Introduction
Background of Surfactant Recovery Process
Project Objectives and Goals
Scope and Technical Approach
Monograph Organization
Preliminary Evaluation of Processes
Summary of Preliminary Review
Surfactant Contaminant Removal Process
Surfactant Concentration Process
Laboratory Studies
General Considerations for Laboratory Tests
Bench-Scale Process Evaluation
Preliminary Economic Evaluation
Laboratory Tests for Design Parameters
Results and Conclusions
Demonstration Design
Field Site Selection
Site Characteristics
Field Demonstration Design
Field Demonstration
Pilot System Field Implementation
Scenarios for the Pilot Surfactant Recovery Test
Pilot System Operation and Maintenance
Sampling and Chemical Analyses
Site Restoration and Waste Management
Performance Data Evaluation
Discussion of Field Demonstration Results
Field Demonstration Conclusions
Recommendations
Hypothetical Full Scale System Design and Economic Analysis
Approach to Full Scale Design
Measurement Procedures
Full Scale Design
Cost and Economic Analysis
Performance and Potential Application
Summary of Potential Performance
Site Characteristics Affecting Applicability, Performance, and Cost
Design and Operating Parameters Affecting Performance, Applicability and Cost
Material Handling Requirements
Regulatory Requirements for Performance and Compliance Criteria
References
Appendices
Appendix A: Preliminary Technology Evaluation and Process Description
Appendix B: Experimental Design
Appendix C: SASM: Surfactant Air Stripping Model
Appendix D: Detailed Laboratory Test Results
Appendix E: SASM Results for Pilot-System Design and Scale-Up
Appendix F: Detailed Field Activity and Test Result Summary
Appendix G: Pilot Unit Operation Procedures
Appendix H: Engineering Design for Surfactant-Foam With Recovery and Reuse
Appendix I: Base Case Drawings
Appendix J: Design Spreadsheets and Mass Balance
Appendix K: STRIPR Output for Full Scale Process Design
Appendix L: Cost Estimates
Appendix M: Equipment Specifications for Full Scale Process
References
Index
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