Direct Natural Gas Conversion to Value-Added Chemicals

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título Direct Natural Gas Conversion to Value-Added Chemicals

autor Shekhawat, Dushyant; Hu, Jianli

editor Taylor & Francis Ltd

data de edição 09/2020

número de páginas 466

capa Dura

idioma Inglês

ISBN13 9780367077938

prazo de entrega 15 a 20 dias

peso (gramas) 1056

Descrição não disponível.

Preface

Editors

List of Contributors

Chapter 1 Electrochemical Conversion of Natural Gas to Value Added Chemicals

Chapter 2 Microwaves in Nonoxidative Conversion of Natural Gas to Value-Added Products

Chapter 3 Nonthermal Plasma Conversion of Natural Gas to Oxygenates

Chapter 4 Natural Gas Conversion to Olefins via Chemical Looping

Chapter 5 Oxidative Coupling of Methane

Chapter 6 Direct Natural Gas Conversion to Oxygenates

Chapter 7 Hydrogen and Solid Carbon Products from Natural Gas: A Review of Process Requirements, Current Technologies, Market Analysis, and Preliminary Techno Economic Assessment

Chapter 8 Methane Conversion on Single-Atom Catalysts

Chapter 9 Active Sites in Mo/HZSM-5 Catalysts for Nonoxidative Methane Dehydroaromatization

Chapter 10 Natural Gas Dehydroaromatization

Chapter 11 Multifunctional Reactors for Direct Nonoxidative Methane Conversion

Chapter 12 Homogeneous Methane Functionalization

Chapter 13 3D Printed Immobilized Biocatalysts for Conversion of Methane

Chapter 14 Biological Conversion of Natural Gas

Chapter 15 System Integration Approaches in Natural Gas Conversion

Chapter 16 Techno-Economic Analysis of Microwave-Assisted Conversion Processes: Application to a Direct Natural Gas-to-Aromatics Process

Index

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Methane Conversion;Membrane Reactor;Biological Conversion of Natural Gas;Methane Activation;Dft Modeling on Dehydroaromatization;Microwave Reactor;Conversion to Oxygenates;MC;Ethylene Conversion;American Chemical Society;Natural Gas Pyrolysis;Benzene Formation;reaction engineering;Transition Metal;catalyst deactivation;MoC;Non-Thermal Plasma Conversion;Coke Formation;NG Conversion;Direct natural gas conversion;CH Activation;Microwave-assisted conversion;Direct Partial Oxidation;Nonthermal plasma conversion;Benzene Selectivity;Value-added chemicals;Methane Oxidation;Electrochemical conversion;Methane Environment;DFT Calculation;Light Olefin;Steam Cracking;Light Olefin Production;Nonthermal Plasma;Chemical Looping;Carbide Species;Carbide Clusters;Redox Catalyst