| 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 |
| 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 |
