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Materials and Processes for CO2 Capture, Conversion, and Sequestration

Materials and Processes for CO2 Capture, Conversion, and Sequestration

Autorzy
Wydawnictwo John Wiley & Sons
Data wydania 01/07/2018
Wydanie Pierwsze
Liczba stron 384
Forma publikacji książka w twardej oprawie
Poziom zaawansowania Dla profesjonalistów, specjalistów i badaczy naukowych
Język angielski
ISBN 9781119231035
Kategorie Środowisko, Nauka o materiałach
585.07 PLN (z VAT)
$156.85 / €132.55 / £119.70 /
Produkt na zamówienie
Dostawa 3-4 tygodnie
Ilość
Do schowka

Opis książki

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 CO2 Capture, Conversion and Sequestration offers chapters on: Carbon Capture in Metal-Organic Frameworks; Metal Organic Frameworks Materials for Post-Combustion CO2 Capture; New Progress of Microporous Metal-Organic Frameworks in CO2 Capture and Separation; In Situ Diffraction Studies of Selected Metal-Organic Framework (MOF) Materials for Guest Capture Applications; Electrochemical CO2 Capture and Conversion; Electrochemical Valorization of Carbon Dioxide in Molten Salts; Microstructural and Structural Characterization of Materials for CO2 Storage using Multi-Scale X-Ray Scattering Methods; Contribution of Density Functional Theory to Microporous Materials for Carbon Capture; and Computational Modeling Study of MnO2 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 CO2 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.

Materials and Processes for CO2 Capture, Conversion, and Sequestration

Spis treści

Preface xi


List of Contributors xiii


1 CARBON CAPTURE IN METAL-ORGANIC FRAMEWORKS 1
Mehrdad Asgari and Wendy L. Queen


1.1 Introduction 1


1.1.1 The Importance of Carbon Dioxide Capture 1


1.1.2 Conventional Industrial Process of Carbon Capture and Limitations: Liquid Amines 3


1.1.3 Metal-Organic Frameworks and Their Synthesis 4


1.1.4 CCS Technologies and MOF Requirements 6


1.1.5 Molecule Specific 10


1.2 Understanding the Adsorption Properties of MOFs 11


1.2.1 Single-Component Isotherms 11


1.2.2 Multicomponent Adsorption 14


1.2.3 Experimental Breakthrough 15


1.2.4 In Situ Characterization 16


1.3 MOFs for Post-combustion Capture 30


1.3.1 Necessary Framework Properties for CO2 Capture 30


1.3.2 Assessing MOFs for CO2/N2 Separations 32


1.3.3 MOFs with Open Metal Coordination Sites (OMCs) 34


1.3.4 MOFs Containing Lewis Basic Sites 37


1.3.5 Stability and Competitive Binding in the Presence of H2O 45


1.4 MOFs for Pre-combustion Capture 48


1.4.1 Advantages of Pre-combustion Capture 48


1.4.2 Necessary Framework Properties for CO2 Capture 49


1.4.3 Potential MOF Candidates for CO2/H2 Separations 50


1.5 MOFs for Oxy-Fuel Combustion Capture 54


1.5.1 Necessary Framework Properties for O2/N2 Separations 54


1.5.2 Biological Inspiration for O2/N2 Separations in MOFs 55


1.5.3 Potential MOF Candidates for O2/N2 Separations 56


1.6 Future Perspectives and Outlook 61


Acknowledgments 63


References 63


2 METAL-ORGANIC FRAMEWORKS MATERIALS FOR POST-COMBUSTION CO2 CAPTURE 79
Anne M. Marti


2.1 Introduction: The Importance of Carbon Capture and Storage Technologies 79


2.1.1 Post-combustion CO2 Capture Technologies 80


2.1.2 Metal-Organic Frameworks: Potential for Post-combustion CCS 82


2.2 Metal-Organic Frameworks as Sorbents 84


2.2.1 Criteria for Choosing the Best CO2 Sorbent 84


2.2.2 Discussion of Defined Sorbent Criteria 87


2.3 Metal-Organic Framework Membranes for CCS 99


2.3.1 Membrane Performance Defined 99


2.3.2 MOF Membrane Fabrication 102


2.4 Summary 104


References 104


3 NEW PROGRESS OF MICROPOROUS METAL-ORGANIC FRAMEWORKS IN CO2 CAPTURE AND SEPARATION 112
Zhangjing Zhang, Jin Tao, Shengchang Xiang, Banglin Chen, and Wei Zhou


3.1 Introduction 112


3.2 Survey of Typical MOF Adsorbents 116


3.2.1 CO2 Capture and Separation at Low Pressure 116


3.2.2 CO2 Capture and Separation at High Pressure 139


3.2.3 Capture CO2 Directly from Air 140


3.2.4 CO2/CH4 Separation 145


3.2.5 CO2/C2H2 Separation 148


3.2.6 Photocatalytic and Electrochemical Reduction

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