Description |
1 online resource |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
Note |
Includes index. |
Bibliography |
Includes bibliographical references and index. |
Contents |
Intro -- Advances in Carbon Capture: Methods, Technologies and Applications -- Copyright -- Contents -- Contributors -- Editors biography -- Section I: Introduction to CO2 capture -- Chapter 1: CO2 emission sources, greenhouse gases, and the global warming effect -- 1.1. Introduction -- 1.2. Major greenhouse gases and their forms of emission -- 1.2.1. CH4 emission -- 1.2.2. N2O emission -- 1.2.3. CO2 emission -- 1.2.4. SO2 emission -- 1.3. Greenhouse gases and the greenhouse effect -- 1.4. CO2 as a major contributor to global warming and climate change -- 1.5. Current CO2 emission trends |
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1.6. Mitigation of CO2 emission in the industries -- 1.6.1. Power generation -- 1.6.2. Cement industry -- 1.6.3. Petrochemical plants -- 1.6.4. Iron and steel industry -- 1.7. International treaties and limitations on the reduction of CO2 emission -- 1.8. Future prospects of heat and mass integration during CO2 separation -- 1.9. Conclusions and future outlook -- References -- Chapter 2: Challenges on CO2 capture, utilization, and conversion -- 2.1. Introduction -- 2.2. The CO2 economy and the environmental effect of CCS technologies -- 2.2.1. Current scenario |
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2.2.2. The advantages and challenges of carbon utilization -- 2.3. CCS: Carbon dioxide capture technology (CCS), an overview -- 2.3.1. Absorption -- 2.3.2. Adsorption -- 2.3.3. Membrane separation: Membranes are relatively novel -- 2.3.4. Chemical looping cycle -- 2.3.5. Microalgae -- 2.3.6. Cryogenic CO2 capture -- 2.3.7. Cryogenic packed beds -- 2.3.8. External cooling loop cryogenic carbon capture -- 2.3.9. Antisublimation process -- 2.3.10. Cryogenic distillation -- 2.3.11. CryoCell process -- 2.3.12. Stirling cooler system -- 2.4. Carbon dioxide utilization technology (CCU) |
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2.4.1. Physical CO2 utilization -- 2.4.2. Chemical CO2 utilization -- 2.4.3. Polymers and fine chemicals from carbon dioxide -- 2.4.4. Biochemical carbon dioxide utilization -- 2.4.5. Electrochemical utilization of CO2 -- 2.4.6. New paradigms in CO2 utilization processes -- 2.5. CCS versus carbon capture and utilization (CCU) -- 2.6. Conclusions and future outlook -- References -- Section II: Absorption techniques and methods for CO2 capture -- Chapter 3: CO2 absorption by common solvents -- 3.1. Introduction -- 3.2. Carbon capture technologies -- 3.2.1. Postcombustion capture |
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3.2.2. Precombustion capture -- 3.2.3. Oxy-fuel combustion -- 3.3. Industrial applications of CO2 capture -- 3.4. Different solvent for CO2 capture -- 3.4.1. Chemical solvents -- 3.4.2. Physical solvents -- 3.4.3. Hybrid solvents -- 3.5. Analysis of CO2 solubility data -- 3.5.1. Effect of pressure on the solubility of CO2 -- 3.5.2. Effect of temperature on the solubility of CO2 -- 3.5.3. Effect of hybrid solvent on the solubility of CO2 -- 3.6. CO2 absorption reaction kinetics -- 3.6.1. Zwitterion mechanism -- 3.6.2. Termolecular mechanism -- 3.6.3. Base-catalyzed hydration mechanism |
Subject |
Carbon sequestration.
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Piégeage du carbone.
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Carbon sequestration
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Carbon dioxide -- Environmental aspects
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Added Author |
Rahimpour, Mohammad Reza, 1961-
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Faris, Mohammad.
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Makarem, Mohammad Amin.
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Other Form: |
Print version: 9780128227589 |
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Print version: 0128196572 9780128196571 (OCoLC)1138677102 |
ISBN |
9780128227589 (electronic bk.) |
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0128227583 (electronic bk.) |
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0128196572 |
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9780128196571 |
Standard No. |
AU@ 000067628825 |
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UKMGB 019835953 |
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