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Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
|---|---|---|---|---|---|
Searching... | 30000002569089 | TD426.E58 1992 | Open Access Book | Proceedings, Conference, Workshop etc. | Searching... |
Searching... | 30000003234840 | TD426.E58 1992 | Open Access Book | Proceedings, Conference, Workshop etc. | Searching... |
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Summary
Summary
Discusses current applications and new developments in separation science for the remediation of contaminated groundwater and soil. Examines waste treatment and waste avoidance technologies and the applications of separation science to waste minimization and preconcentration. Presents fundamental research for developing new technologies in the remediation of contaminated aquifers and surface and subsurface media. Offers insights into measuring the depth of problems and the effectiveness of treatment. Includes an overview chapter examining the extent of environmental abuse, the high cost of cleanup, and the federal regulations that govern cleanup and disposal of present waste.
Reviews 1
Choice Review
Cost estimates for remediating the tens of thousands of hazardous waste sites in the US already exceed one trillion dollars, and even this figure is probably a serious underestimation. There is a critical need to develop new technologies to decontaminate the soil and groundwater at existing sites and also to prevent the accumulation of further wastes. This book, based on papers from a 1991 symposium, focuses primarily on the major components of the problem--heavy metals, radioisotopes, and organics--but it also includes some related topics, such as plastics recycling. The three main sections cover remediation technologies, methods of waste avoidance, and promising new methods currently under development. The introduction provides a general overview, but the papers are mainly research reports on specific treatment methods, and so are rather specialized. The information should, however, be very useful to advanced undergraduates, graduate students, and experienced practitioners. H. E. Pence; SUNY College at Oneonta
Table of Contents
| Environmental Restoration and Separation Science |
| Removal of Inorganic Contaminants from Groundwater: Use of Supported Liquid Membranes |
| Removal of Plutonium from Low-Level Process Wastewaters by Adsorption |
| Decontamination of Groundwater by Using Membrane-Assisted Solvent Extraction |
| Low-Temperature Transportable Technology for On-Site Remediation |
| Use of Chelating Agents for Remediation of Heavy Metal Contaminated Soil |
| Surfactant Flooding of Diesel-Fuel-Contaminated Soil |
| Separation Steps in Polymer Recycling Processes |
| Removal of Hydrophobic Organic Compounds from the Aqueous Phase: Continuous Non-Foaming Adsorptive Bubble Separation Processes |
| Recovery of Valuable Metals from Industrial Wastes |
| Removing Heavy Metals from Phosphoric Acid and Phosphate Fluid Fertilizers: Organic and Inorganic Reagents |
| Kinetics of Removal of Heavy Metals by a Chelating Ion-Exchange Resin: Regeneration of the Resin by NH4OH Solution |
| Ligand-Modified Micellar-Enhanced Ultrafiltration for Metal Ion Separations: Use of N-Alkyltriamines |
| Polymeric Ligands for Ionic and Molecular Separations |
| Solvent Extraction Methods for the Analytical Separation of Environmental Radionuclides |
| Limiting Activity Coefficients of Nonelectrolytes in Aqueous Solutions |
| Polycyclic Aromatic Hydrocarbon Analogues: Another Approach to Environmental Separation Problems |
| Trace Element Distribution in Various Phases of Aquatic Systems of the Savannah River Plant |
