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Materials and processes for CO2 capture, conversion, and sequestration / edited by Lan Li [and three others].

Ebook Central Academic Complete Available online

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Knovel General Engineering & Project Administration Academic Available online

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Knovel Sustainable Energy and Development Academic Available online

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Format:
Book
Contributor:
American Ceramic Society.
Li, Lan (Materials scientist), editor.
Language:
English
Subjects (All):
Carbon sequestration.
Carbon dioxide mitigation.
Physical Description:
1 online resource (xiv, 362 pages)
Place of Publication:
Hoboken, NJ : Wiley, 2018.
Summary:
Addresses materials, technology, and products that could help solve the global environmental crisis once commercialized This multidisciplinary book encompasses state-of-the-art research on the topics of Carbon Capture and Storage (CCS), and complements existing CCS technique publications with the newest research and reviews. It discusses key challenges involved in the CCS materials design, processing, and modeling and provides in-depth coverage of solvent-based carbon capture, sorbent-based carbon capture, membrane-based carbon capture, novel carbon capture methods, computational modeling, carbon capture materials including metal organic frameworks (MOF), electrochemical capture and conversion, membranes and solvents, and geological sequestration. Materials and Processes for CO 2 Capture, Conversion and Sequestration offers chapters on: Carbon Capture in Metal-Organic Frameworks; Metal Organic Frameworks Materials for Post-Combustion CO 2 Capture; New Progress of Microporous Metal-Organic Frameworks in CO 2 Capture and Separation; In Situ Diffraction Studies of Selected Metal-Organic Framework (MOF) Materials for Guest Capture Applications; Electrochemical CO 2 Capture and Conversion; Electrochemical Valorization of Carbon Dioxide in Molten Salts; Microstructural and Structural Characterization of Materials for CO 2 Storage using Multi-Scale X-Ray Scattering Methods; Contribution of Density Functional Theory to Microporous Materials for Carbon Capture; and Computational Modeling Study of MnO 2 Octahedral Molecular Sieves for Carbon Dioxide Capture Applications. * Addresses one of the most pressing concerns of society-that of environmental damage caused by the greenhouse gases emitted as we use fossil fuels * Covers cutting-edge capture technology with a focus on materials and technology rather than regulation and cost * Highlights the common and novel CCS materials that are of greatest interest to industrial researchers * Provides insight into CCS materials design, processing characterization, and computer modeling Materials and Processes for CO 2 Capture, Conversion and Sequestration is ideal for materials scientists and engineers, energy scientists and engineers, inorganic chemists, environmental scientists, pollution control scientists, and carbon chemists.
Contents:
Carbon capture in metal-organic frameworks / Mehrdad Asgari and Wendy L. Queen
Metal organic frameworks materials for post-combustion CO2 capture / Anne M. Marti
New progress of microporous metal-organic frameworks in CO2 capture and separation / Zhangjing Zhang, Jin Tao, Shengchang Xiang, Banglin Chen, and Wei Zhou
In situ diffraction studies of selected metal-organic framework (MOF) materials for guest capture/exchange applications / Winnie Wong-Ng
Electrochemical CO2 capture and conversion / Peng Zhang, Jingjing Tong, and Kevin Huang
Electrochemical valorization of carbon dioxide in molten salts / Huayi Yin and Dihua Wang
Microstructural and structural characterization of materials for CO2 storage using multi-scale x-ray scattering methods / Greeshma Gadikota and Andrew Allen
Contribution of density functional theory to microporous materials for carbon capture / Eric Cockayne
Computational modeling study of MnO2 octahedral molecular sieves for carbon dioxide capture applications / I. Williamson, M. Lawson, E. B. Nelson, and L. Li.
Notes:
Description based on print version record.
Includes bibliographical references and index.
ISBN:
9781119231080
1119231086
9781523137411
152313741X
9781119231066
111923106X
9781119231059
1119231051

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