Adsorption promises to play an integral role in several future energy and environmental technologies, including hydrogen storage, CO removal for fuel cell technology, desulfurization of transportation fuels, and technologies for meeting higher standards on air and water pollutants.
Ralph Yang's Adsorbents provides a single and comprehensive source of knowledge for all commercial and new sorbent materials, presenting the fundamental principles for their syntheses, their adsorption properties, and their present and potential applications for separation and purification. Chapter topics in this authoritative, forward-looking volume include:
Ralph Yang's Adsorbents provides a single and comprehensive source of knowledge for all commercial and new sorbent materials, presenting the fundamental principles for their syntheses, their adsorption properties, and their present and potential applications for separation and purification. Chapter topics in this authoritative, forward-looking volume include:
- Formulas for calculating the basic forces or potentials for adsorption
- Calculation of pore-size distribution from a single adsorption isotherm
- Rules for sorbent selection
- Fundamental principles for syntheses/preparation, adsorption properties, and applications of commercially available sorbents
- Mesoporous molecular sieves and zeolites
- complexation sorbents and their applications
- Carbon nanotubes, pillared clays, and polymeric resins
Contents
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1 - Introductory
Remarks
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2 - Fundamental
Factors for Designing Adsorbent
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3 - Sorbent
Selection: Equilibrium Isotherms, Diffusion, Cyclic Processes, and Sorbent
Selection Criteria
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4 - Pore
Size Distribution
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5 - Activated
Carbon
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6 - Silica
Gel, MCM, and Activated Alumina
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7 - Zeolites
and Molecular Sieves
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8 - π‐Complexation
Sorbents and Applications
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9 - Carbon
Nanotubes, Pillared Clays, and Polymeric Resins
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10 - Sorbents
for Applications
Author
Index
Subject
Index
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