Details
Evolution Mechanism on Structural Characteristics of Lead-Contaminated Soil in the Solidification/Stabilization Process
Springer Theses
139,09 € |
|
Verlag: | Springer |
Format: | |
Veröffentl.: | 18.09.2018 |
ISBN/EAN: | 9789811311932 |
Sprache: | englisch |
Dieses eBook enthält ein Wasserzeichen.
Beschreibungen
<p>This book highlights the use of Solidification/Stabilization (S/S) to treat lead-contaminated soils, which are widely present in China. It reveals the evolutionary mechanism of the structural characteristics of Pb contaminated soil during the S/S process. In addition, the book systematically analyzes laws influencing the S/S process and its internal mechanisms, and develops new models for the strength prediction and Pb leaching prediction of S/S monolith. The results can provide essential theoretical guidance and parameter-related support for the design of Pb-contamiated soil S/S remediation and recycling solutions.</p><p></p>
Introduction.- Interfacial Mechanical Effect and Micro-mechanism of Pb-Soil Interaction.- Study on Mechanism of Phosphate-based Cementing Material for S/S of Pb Contaminated Soil.- Evolution on Engineering and Micro structural Characteristic of S/S Treated Pb Contaminated Soil.- Environmental Prediction Model for Leaching Process of S/S treated Pb-contaminated Soil.- Long-term monitoring and analysis evaluation of S/S remediation of Pb-contaminated Soil.- Conclusions and Prospects.
<p>This book highlights the use of Solidification/Stabilization (S/S) to treat lead-contaminated soils, which are widely present in China. It reveals the evolutionary mechanism of the structural characteristics of Pb contaminated soil during the S/S process. In addition, the book systematically analyzes laws influencing the S/S process and its internal mechanisms, and develops new models for the strength prediction and Pb leaching prediction of S/S monolith. The results can provide essential theoretical guidance and parameter-related support for the design of Pb-contaminated soil S/S remediation and recycling solutions.</p><p></p>
Nominated by the Chinese Academy of Sciences as an outstanding thesis in the field Details the engineering characteristics and micro-mechanisms of Pb-contaminated soil in interactions between Pb and soil Demonstrates the solidification/stabilization (S/S) mechanism of Pb-contaminated soil by means of a binder containing phosphorus Establishes a leaching prediction model for the dynamic release of Pb from S/S-treated Pb-contaminated soils
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