Full Product Details
Author: John F. Scamehorn ,
Jeffrey H. Harwell
Publisher: American Chemical Society
Imprint: American Chemical Society
Volume: 740
Dimensions:
Width: 15.70cm
, Height: 2.60cm
, Length: 23.50cm
Weight: 0.772kg
ISBN: 9780841236189
ISBN 10: 0841236186
Pages: 464
Publication Date: 13 January 2000
Audience:
Professional and scholarly
,
Professional & Vocational
Format: Hardback
Publisher's Status: No Longer Our Product
Availability: In Print
This item will be ordered in for you from one of our suppliers. Upon receipt, we will promptly dispatch it out to you. For in store availability, please contact us.
Reviews
"""From an April 1998 symposium in Dallas, Texas, 23 papers examine an approach to separation that is promising because the techniques can use a biodegradable and nontoxic agent, often have low energy requirements, and are often capable of treating easily degraded materials such as biochemicals. They cover surfactant-enhanced soil remediation, membrane-based separations, separations based on adsorption and flotation, and extraction and deinking processes. Specific topics include separating volatile organic compounds from surfactant solutions by pervaporation, black copolymer micelles for water remediation, removing particulates from oxygen systems using surfactant-enhanced fluorinated solvents, and deinking papers printed with water-based inks.""--SciTech Book News""This volume is based on a symposium sponsored by the Separation Science and Technology Subdivision of the ACS Division of Industrial and Engineering Chemistry held in April 1998. An introductory review chapter is followed by chapters classified in four categories: surfactant-enhanced soil remediation, membrane-based separations, absorption and flotation separations, and extraction and deinking processes. The field of surfactant technologies is growing explosively because surfactants can be used in an environmentally friendly ""green"" fashion and can also deal safely with easily degraded biochemicals."" -- Mark S. Lesney, Today's Chemist at Work, May 2000"
From an April 1998 symposium in Dallas, Texas, 23 papers examine an approach to separation that is promising because the techniques can use a biodegradable and nontoxic agent, often have low energy requirements, and are often capable of treating easily degraded materials such as biochemicals. They cover surfactant-enhanced soil remediation, membrane-based separations, separations based on adsorption and flotation, and extraction and deinking processes. Specific topics include separating volatile organic compounds from surfactant solutions by pervaporation, black copolymer micelles for water remediation, removing particulates from oxygen systems using surfactant-enhanced fluorinated solvents, and deinking papers printed with water-based inks. --SciTech Book News<br> This volume is based on a symposium sponsored by the Separation Science and Technology Subdivision of the ACS Division of Industrial and Engineering Chemistry held in April 1998. An introductory review chapter is followed by chapters classified in four categories: surfactant-enhanced soil remediation, membrane-based separations, absorption and flotation separations, and extraction and deinking processes. The field of surfactant technologies is growing explosively because surfactants can be used in an environmentally friendly green fashion and can also deal safely with easily degraded biochemicals. -- Mark S. Lesney, Today's Chemist at Work, May 2000<br>
<br> From an April 1998 symposium in Dallas, Texas, 23 papers examine an approach to separation that is promising because the techniques can use a biodegradable and nontoxic agent, often have low energy requirements, and are often capable of treating easily degraded materials such as biochemicals. They cover surfactant-enhanced soil remediation, membrane-based separations, separations based on adsorption and flotation, and extraction and deinking processes. Specific topics include separating volatile organic compounds from surfactant solutions by pervaporation, black copolymer micelles for water remediation, removing particulates from oxygen systems using surfactant-enhanced fluorinated solvents, and deinking papers printed with water-based inks. --SciTech Book News<p><br> This volume is based on a symposium sponsored by the Separation Science and Technology Subdivision of the ACS Division of Industrial and Engineering Chemistry held in April 1998. An introductory review chapter is fol
<br> From an April 1998 symposium in Dallas, Texas, 23 papers examine an approach to separation that is promising because the techniques can use a biodegradable and nontoxic agent, often have low energy requirements, and are often capable of treating easily degraded materials such as biochemicals. They cover surfactant-enhanced soil remediation, membrane-based separations, separations based on adsorption and flotation, and extraction and deinking processes. Specific topics include separating volatile organic compounds from surfactant solutions by pervaporation, black copolymer micelles for water remediation, removing particulates from oxygen systems using surfactant-enhanced fluorinated solvents, and deinking papers printed with water-based inks. --SciTech Book News<br> This volume is based on a symposium sponsored by the Separation Science and Technology Subdivision of the ACS Division of Industrial and Engineering Chemistry held in April 1998. An introductory review chapter is follow
