Aqueous Phase Adsorption
Theory, Simulations and Experiments
Herausgeber: Singh, Jayant K; Verma, Nishith
Aqueous Phase Adsorption
Theory, Simulations and Experiments
Herausgeber: Singh, Jayant K; Verma, Nishith
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This book covers theoretical aspects of adsorption, followed by an introduction to molecular simulations and other numerical techniques that have become extremely useful as an engineering tool in recent times to understand the interplay of different mechanistic steps of adsorption. .
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This book covers theoretical aspects of adsorption, followed by an introduction to molecular simulations and other numerical techniques that have become extremely useful as an engineering tool in recent times to understand the interplay of different mechanistic steps of adsorption. .
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 316
- Erscheinungstermin: 30. Juni 2020
- Englisch
- Abmessung: 231mm x 155mm x 28mm
- Gewicht: 680g
- ISBN-13: 9780367570934
- ISBN-10: 0367570939
- Artikelnr.: 66557513
- Verlag: CRC Press
- Seitenzahl: 316
- Erscheinungstermin: 30. Juni 2020
- Englisch
- Abmessung: 231mm x 155mm x 28mm
- Gewicht: 680g
- ISBN-13: 9780367570934
- ISBN-10: 0367570939
- Artikelnr.: 66557513
Prof. Jayant K. Singh Jayant Singh is a professor in the department of chemical engineering at IIT Kanpur. Dr. Singh 's current research interest is in material modeling, self assembly, energy storage, wetting transition, nanotribology and selective adsorption. Dr Singh has co-authored over 95 peer-reviewed articles in international journals of repute. He is a recipient of prestigious awards such as JSPS Invitation Fellowship, Alexander von Humboldt Research Fellowship, Young Engineers of Indian National Academy of Engineering, Amar Dye Chem Award of IIChE, BRNS Young Scientist Award and DST-BOYSCAST Fellowship. He is also an elected member of National Academy of Science, India. Dr. Singh is currently an associate editor of the journal Chemical Engineering Communications, and also serves on the editorial board of The Scientific World journal. Prof. Nishith Verma Nishith Verma is a Professor of chemical engineering at the Indian Institute of Technology Kanpur, India. His research interests are the development of carbon-based materials, especially carbon nanofibers and nanoparticles in adsorption, catalytic reactions, biomedical, drug delivery, sensors, microbial fuel cells and agricultural applications. He has also developed lattice Boltzmann method-based mathematical models for adsorption and flow systems. Prof. Verma has published over 100 research articles in peer-reviewed international journals and has 8 Indian and US patents filed/granted. Prof. Verma is an Alexander Humboldt Fellow.
1. Theory, Molecular/Mesoscopic Simulations, and Experimental Techniques of
Aqueous Phase Adsorption. 2. Graphene Nanopores-Based Separation of
Impurities from Aqueous Medium: An insight from molecular simulation. 3.
Atomistic and Experimental Modeling for Adsorption of Metal Ions With
Carbon Nanotubes in Aqueous Environment. 4. Water and Aqueous Phase
Adsorption in Metal-Organic Frameworks: From Experiments to Simulations. 5.
Coating of Nanoparticles in Aqueous Solutions : Insights from Molecular
Dynamics Simulations. 6. Lattice-Boltzmann Modeling of Adsorption
Breakthrough in Packed Beds. 7. Improved Removal of Toxic Contaminants in
Water by Green Adsorbents. 8. Abiotic Removal with Adsorption and
Photocatalytic Reaction. 9. Revalorization of Agro-Food Residues as
Bioadsorbents for Wastewater Treatment. 10. Activated Carbon: Role of
Surface Chemistry in Water Purification Applications.
Aqueous Phase Adsorption. 2. Graphene Nanopores-Based Separation of
Impurities from Aqueous Medium: An insight from molecular simulation. 3.
Atomistic and Experimental Modeling for Adsorption of Metal Ions With
Carbon Nanotubes in Aqueous Environment. 4. Water and Aqueous Phase
Adsorption in Metal-Organic Frameworks: From Experiments to Simulations. 5.
Coating of Nanoparticles in Aqueous Solutions : Insights from Molecular
Dynamics Simulations. 6. Lattice-Boltzmann Modeling of Adsorption
Breakthrough in Packed Beds. 7. Improved Removal of Toxic Contaminants in
Water by Green Adsorbents. 8. Abiotic Removal with Adsorption and
Photocatalytic Reaction. 9. Revalorization of Agro-Food Residues as
Bioadsorbents for Wastewater Treatment. 10. Activated Carbon: Role of
Surface Chemistry in Water Purification Applications.
1. Theory, Molecular/Mesoscopic Simulations, and Experimental Techniques of
Aqueous Phase Adsorption. 2. Graphene Nanopores-Based Separation of
Impurities from Aqueous Medium: An insight from molecular simulation. 3.
Atomistic and Experimental Modeling for Adsorption of Metal Ions With
Carbon Nanotubes in Aqueous Environment. 4. Water and Aqueous Phase
Adsorption in Metal-Organic Frameworks: From Experiments to Simulations. 5.
Coating of Nanoparticles in Aqueous Solutions : Insights from Molecular
Dynamics Simulations. 6. Lattice-Boltzmann Modeling of Adsorption
Breakthrough in Packed Beds. 7. Improved Removal of Toxic Contaminants in
Water by Green Adsorbents. 8. Abiotic Removal with Adsorption and
Photocatalytic Reaction. 9. Revalorization of Agro-Food Residues as
Bioadsorbents for Wastewater Treatment. 10. Activated Carbon: Role of
Surface Chemistry in Water Purification Applications.
Aqueous Phase Adsorption. 2. Graphene Nanopores-Based Separation of
Impurities from Aqueous Medium: An insight from molecular simulation. 3.
Atomistic and Experimental Modeling for Adsorption of Metal Ions With
Carbon Nanotubes in Aqueous Environment. 4. Water and Aqueous Phase
Adsorption in Metal-Organic Frameworks: From Experiments to Simulations. 5.
Coating of Nanoparticles in Aqueous Solutions : Insights from Molecular
Dynamics Simulations. 6. Lattice-Boltzmann Modeling of Adsorption
Breakthrough in Packed Beds. 7. Improved Removal of Toxic Contaminants in
Water by Green Adsorbents. 8. Abiotic Removal with Adsorption and
Photocatalytic Reaction. 9. Revalorization of Agro-Food Residues as
Bioadsorbents for Wastewater Treatment. 10. Activated Carbon: Role of
Surface Chemistry in Water Purification Applications.