Carbon dioxide emission management in power generation

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Title:

Author:

Nord, Lars O.

ISBN:

9783527826667

9783527826643

Publication Information:

Weinheim : Wiley-VCH, 2020.

Physical Description:

1 online resource (347 pages)

General Note:

5.4.3 Dew Point of Flue Gas - Possible Corrosion

Contents:

Cover -- Title Page -- Copyright -- Contents -- Preface -- Acknowledgements -- Nomenclature -- Organisation and Use of Book -- Chapter 1 Introduction -- 1.1 Greenhouse Effect -- 1.2 Atmospheric CO2 -- 1.3 Natural Accumulations and Emissions of CO2 -- 1.4 Man-made Emissions of CO2 -- 1.5 Climate Change -- 1.6 Fossil Fuel Resources -- 1.7 Definition and Rationale of CO2 Capture and Storage (CCS) -- 1.8 Magnitude of CCS -- 1.9 Public Acceptance of CCS -- 1.10 Show-stoppers for CCS Deployment? -- 1.11 History of CCS -- Chapter 2 Long-Term Storage of CO2 -- 2.1 Storage Time and Volume

2.2 Underground Storage -- 2.2.1 Aquifer -- 2.2.2 Enhanced Oil Recovery (EOR) with CO2 -- 2.2.3 Enhanced Gas Recovery (EGR) -- 2.2.4 Enhanced Coal Bed Methane Recovery (ECBM) -- 2.3 Ocean Storage -- 2.4 Mineral Carbonation -- 2.5 Industrial Use -- Products -- 2.6 Requirements for CO2 Purity and Transportation -- 2.7 CO2 Compression and Conditioning -- 2.8 Transportation Hazards of CO2 -- 2.9 Monitoring of CO2 Storage -- Chapter 3 Fuels -- 3.1 Coal -- 3.2 Liquid Fuels -- 3.2.1 Diesel -- 3.2.2 Methanol -- 3.2.3 Ethanol -- 3.2.4 Kerosene -- 3.2.5 Ammonia -- 3.3 Gaseous Fuels -- 3.4 Fuel Usage

Chapter 4 CO2 Generation, Usage, and Properties -- 4.1 Short on CO2 -- 4.2 CO2 Chemistry and Energy Conversion -- 4.3 Combustion -- 4.4 Analogy Between CO2 Capture and Desulfurisation -- 4.5 Industrial Processes -- 4.5.1 Ammonia Production -- 4.5.2 Cement Production -- 4.5.3 Aluminium Production -- 4.6 How Do We Use CO2? -- 4.6.1 Chemicals and Petroleum -- 4.6.2 Metals -- 4.6.3 Manufacturing and Construction -- 4.6.4 Food and Beverages -- 4.6.5 Greenhouses -- 4.6.6 Health Care -- 4.6.7 Environmental -- 4.6.8 Electronics -- 4.6.9 Refrigerant -- 4.6.10 CO2 Laser -- 4.6.11 Miscellaneous

4.7 CO2 and Humans -- 4.8 Properties of CO2 -- 4.8.1 Density and Compressibility -- 4.8.2 Specific Heat Capacity -- 4.8.3 Ratio of Specific Heats -- 4.8.4 Thermal Conductivity -- 4.8.5 Viscosity -- 4.8.6 Solubility in Water -- Chapter 5 Power Plant Technologies -- 5.1 Coal-Fired Power Plants -- 5.1.1 Steam Cycle in a Coal Power Plant -- 5.1.2 Pulverised Coal Combustion (PCC) -- 5.1.3 Circulating Fluidised Bed Combustion (CFBC) -- 5.1.4 Pressurised Fluidised Bed Combustion (PFBC) -- 5.1.5 Integrated Gasification Combined Cycle (IGCC) -- 5.1.5.1 Process Design -- 5.1.5.2 IGCC Availability

5.1.5.3 IGCC Efficiency -- 5.2 Gas Turbine Power Plants -- 5.2.1 Gas Turbines -- 5.2.2 Classification of Gas Turbines -- 5.2.3 Gas Turbines and Fuel Quality -- 5.2.4 Gas Turbine Performance Model -- 5.2.4.1 Compressor -- 5.2.4.2 Air Filter -- 5.2.4.3 Turbine -- 5.2.5 Part-load Performance of a Gas Turbine in a Combined Cycle -- 5.2.6 Diluted Hydrogen as Gas Turbine Fuel -- 5.3 Combined Cycles -- 5.3.1 Combined Gas Turbine and Steam Turbine Cycles -- 5.3.2 Cycle Configurations -- 5.4 Heat Recovery Steam Generators -- 5.4.1 Introduction -- 5.4.2 Properties of Water/Steam

Abstract:

Provides an engaging and clearly structured source of information on the capture and storage of CO2 Designed to bridge the gap between the many disciplines involved in carbon dioxide emission management, this book provides a comprehensive yet easy-to-understand introduction to the subject of CO2 capture. Fit for graduate students, practicing process engineers, and others interested in the subject, it offers a clear understanding and overview of thermal power plants in particular and of carbon dioxide capture and storage (CCS) in general. Carbon Dioxide Emission Management in Power Generation starts with a discussion of the greenhouse effect, climate change, and CO2 emissions as the rationale for the concept of CCS. It then looks at the long-term storage of CO2. A chapter covering different fossil fuels, their usage, and properties comes next, followed by sections on: CO2 generation, usage and properties; power plant technologies; theory of gas separation; power plant efficiency calculations; and classification of CO2 capture methods. Other chapters examine: CO2 capture by gas absorption and other gas separation methods; removing carbon from the fuel; pre- and post-combustion CO2 capture in power cycles; and oxy-combustion CO2 capture in power cycles.-Discusses both CO2 capture technologies as well as power generation technologies -Bridges the gap between many different disciplines'from scientists, geologists and engineers, to economists -One of the few books that covers all the different sciences involved in the capture and storage of CO2 -Introduces the topic and provides useful information to the academic as well as professional reader Carbon Dioxide Emission Management in Power Generation is an excellent book for students who are interested in CO2 capture and storage, as well as for chemists in industry, environmental chemists, chemical engineers, geochemists, and geologists.

Local Note:

John Wiley and Sons

Subject Term:

Carbon dioxide mitigation.

Carbon dioxide -- Absorption and adsorption.

Gaz carbonique -- Réduction.

Gaz carbonique -- Absorption et adsorption.

TECHNOLOGY & ENGINEERING -- Chemical & Biochemical.

Carbon dioxide -- Absorption and adsorption

Carbon dioxide mitigation

Chemical & Biochemical.

TECHNOLOGY & ENGINEERING.