| Description |
1 online resource : illustrations (black and white, and colour) |
| Contents |
Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Preface -- List of Editors -- List of Contributors -- Chapter 1 Recent Developments in CO[sub(2)]-Capture and Conversion Technologies -- 1.1 Introduction -- 1.2 CO[sub(2)] Capture in Nature -- 1.2.1 CO[sub(2)] Capture by Plants -- 1.2.2 CO[sub(2)] Capture by Algae -- 1.2.3 CO[sub(2)] Capture Using Microbial Enzymes -- 1.3 CO[sub(2)] Capture by Synthetic Materials -- 1.3.1 CO[sub(2)] Capture by Nanoporous Materials -- 1.3.2 CO[sub(2)] Capture by Graphene Oxides -- 1.3.3 CO[sub(2)] by Chemicals |
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1.4 Synthesis of Industrial Products by CO[sub(2)] Conversion -- 1.4.1 Methanol -- 1.4.2 Carbon Monoxide -- 1.4.3 Methane (CH[sub(4)]) -- 1.4.4 Formic Acid -- 1.5 Conclusion -- Acknowledgement -- References -- Chapter 2 Heterogeneous Catalytic Hydrogenation of CO[sub(2)] to Basic Chemicals and Fuels -- 2.1 Introduction -- 2.2 Chemistry of Carbon Dioxide -- 2.3 CO[sub(2)] Hydrogenation Reactions -- 2.3.1 Thermodynamic Considerations -- 2.3.2 CO[sub(2)] to Formic Acid and Derivatives -- 2.3.3 Reverse Water-Gas Shift Reaction -- 2.3.4 Methanol and Dimethyl Ether Syntheses |
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2.3.5 Synthesis of Higher Alcohols -- 2.3.6 Methanation -- 2.3.7 Conversion to Higher Hydrocarbons -- 2.4 Issues and Challenges -- 2.4.1 CO[sub(2)] Capture -- 2.4.2 Hydrogen Source -- 2.4.3 Selection Criteria -- 2.5 Recent Advances -- 2.6 Conclusions -- List of Abbreviations -- References -- Chapter 3 Recent Advances in CO[sub(2)] Bi-Reforming of Methane for Hydrogen and Syngas Productions -- 3.1 Introduction -- 3.2 Methane Bi-Reforming Reaction (MBR) -- 3.2.1 Methane Bi-Reforming Reaction Mechanism -- 3.2.2 Effect of Process Variables -- 3.2.2.1 Effects of Feed Composition |
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3.2.2.2 Effects of Reaction Temperature -- 3.2.2.3 Gas Hourly Space Velocity effects -- 3.3 Catalyst for Methane Bi-Reforming Reaction -- 3.4 Deactivation of Catalyst During Methane Bi-Reforming Reaction -- 3.4.1 Changing or Modifying the Support Used in Methane Bi-Reforming -- 3.4.2 Introducing Promoters to Catalyst for Methane Bi-Reforming Reaction -- 3.4.3 Employing Diverse Catalyst Preparation Methods for Methane Bi-Reforming Reaction -- Acknowledgement -- References |
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Chapter 4 Carbonic Anhydrase: An Ancient Metalloenzyme for Solving the Modern Increase in the Atmospheric CO[sub(2)] Caused by the Anthropogenic Activities -- 4.1 Bacterial Carbonic Anhydrases -- 4.2 Extremophiles as Source of Stable Biocatalysts -- 4.3 Extreme SspCA and SazCA -- 4.4 SspCA as a Good Candidate in the Post-Combustion Carbon Dioxide Capture -- 4.4.1 Immobilization on Polyurethane Foam -- 4.4.2 Immobilization on Membranes -- 4.4.3 Binding on Magnetic Particles -- 4.4.4 Immobilization on the Bacterial Cell Surface -- 4.5 Conclusion -- References |
| Summary |
"This book will give emphasis on the energy generation in the form of biofuels, bioelectricity or biogas using chemicals, nanomaterial, microbial, enzymatic and chemo-enzymatic integrated systems from CO2. This book has been divided into four sections. The first section is comprised of four chapters which will describe the importance and utilization of CO2 in the living system, various fundamental methods, policies and techniques of CO2 conversion. The second section will focus on the absorption and fixation of CO2 using various ionic liquids, organic solvents, amine based solutions, electro catalytic reduction, nanomaterial, porphyrins, ceramics MOFs and activated carbons and biological material particularly. This section will be covered with 5-6 chapters which will draw the insight of various chemical engineers, researchers working across the globe for CO2 conversion. After this third section will give emphasis on the production of value added products using CO2. It will contain 4-5 chapters which mainly focused on the production of bio-methanol, industrial carbonates lime, liquid and gaseous fuels, industrially useful precursors etc. In the last section this book will discusses potential of microbial system, enzymes in the sequestration of CO2 and its utilization. The combined chemo-enzymatic system for utilization of CO2 will be discussed in the respective chapters of this book. This reliable information from various active researchers and groups will be helpful to find out the alternatives for clean energy and mitigating the climatic change. This book will help the researchers and industrialists to better understand the correlation between microbial, biological and chemical products for their further use to convert the increased level of CO2 into energy based system. The final chapter will present the chemo-enzymatic system for decarbonization of automobile and industrial smoke to direct the clean emission"-- |
| Notes |
Includes index |
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<P>Chapter 1 Recent Developments in CO2-Capture and Conversion Technologies Chapter 2 Heterogeneous Catalytic Hydrogenation of CO2 to Basic Chemicals and Fuels Chapter 3 Recent Advances in CO2 Bi-Reforming of Methane for Hydrogen and Syngas Productions Chapter 4 Carbonic Anhydrase: An Ancient Metalloenzyme for Solving the Modern Increase in the Atmospheric CO2 Caused by the Anthropogenic Activities Chapter 5 Engineering of Microbial Carbonic Anhydrase for Enhanced Carbon Sequestration Chapter 6 Electrochemical CO2 Reduction Reaction on Nitrogen-Doped Carbon Catalysts Chapter 7 Role of Nanotechnology in Conversion of CO2 into Industrial Products Chapter 8 Application of Nanomaterials in CO2 Sequestration Chapter 9 Porous Materials for CO2 Fixation: Activated Carbon, MOFs, Nanomaterials Chapter 10 Novel Composite Materials for CO2 Fixation Chapter 11 Microalgae-Based Biorefinery for Utilization of Carbon Dioxide for Production of Valuable Bioproducts Chapter 12 Mechanisms for Carbon Assimilation and Utilization in Microalgae and Their Metabolites for Value-Added Products Chapter 13 Soil Microbial Dynamics in Carbon Farming of Agro-Ecosystems: In the Era of Climate Change </P> |
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Description based on CIP data; resource not viewed |
| Subject |
Carbon dioxide -- Industrial applications
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Carbon dioxide mitigation.
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Carbon dioxide -- Industrial applications
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Carbon dioxide mitigation
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| Form |
Electronic book
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| Author |
Kumar, Ashok, 1949- editor.
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Sharma, Swati, editor
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| LC no. |
2020012059 |
| ISBN |
9781000174908 (ePub ebook) |
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1000174905 (ePub ebook) |
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9781000174823 (PDF ebook) |
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1000174824 (PDF ebook) |
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9781000174861 (Mobipocket ebook) |
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1000174867 (Mobipocket ebook) |
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9780429317187 (ebook) |
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0429317182 (ebook) |
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