Carbon Capture and Storage.
Annotation
Saved in:
| Main Author: | |
|---|---|
| Format: | Electronic eBook |
| Language: | English |
| Published: |
Oxford :
Elsevier Science,
2017.
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| Edition: | 2nd ed. |
| Subjects: | |
| Online Access: |
Full text (Emmanuel users only) |
Table of Contents:
- Front Cover; Carbon Capture and Storage; Copyright Page; Dedication; Contents; Preface to the second edition; Preface to the first edition; Acknowledgments; I. Introduction and Overview; 1 Introduction; 1.1 The carbon cycle; 1.1.1 Carbon inventories; Carbon inventory of the atmosphere; Carbon inventory of the biosphere and soils; Carbon inventory of the oceans; Carbon inventory of the lithosphere; 1.1.2 Carbon fluxes; Atmosphere ₄!ocean fluxes; Atmosphere ₄!terrestrial biosphere and soil fluxes; Atmosphere ₄!lithosphere fluxes; 1.2 Mitigating growth of the atmospheric carbon inventory.
- 1.2.1 Anthropogenic emission scenarios1.2.2 CO2 stabilization scenarios; 1.3 The process of technology innovation; 1.3.1 Technology readiness level classification; 1.3.2 RDD & D timescale; 1.4 References and resources; 1.4.1 References; 1.4.2 Resources; 2 Overview of carbon capture and storage; 2.1 Carbon capture; 2.1.1 Capture from power generation; 2.1.2 Capture from other industrial processes; Cement production; Integrated steel mills; 2.1.3 Other capture options; Direct air capture; 2.2 Carbon storage; 2.2.1 Geological storage; 2.2.2 Ocean storage; 2.2.3 Storage in terrestrial ecosystems.
- 2.2.4 Storage by mineral carbonation2.2.5 Other storage and use options; 2.3 Life-cycle analysis of CCS technologies; 2.4 References and resources; 2.4.1 References; 2.4.2 Resources; 3 Power generation fundamentals; 3.1 Physical and chemical fundamentals; 3.1.1 Fossil fuel combustion; Partial oxidation; Heating value of a fuel; Oxyfueling; 3.1.2 Gasification of fossil and other fuels; 3.1.3 Syngas production from methane; 3.1.4 Thermodynamic cycles; Rankine steam cycle; Brayton gas turbine cycle; 3.1.5 Aspects of steel metallurgy for fossil-fueled power plants; Corrosion resistance.
- Carbides, creep, hardening, and embrittlement3.2 Fossil-fueled power plants; 3.2.1 Introduction; 3.2.2 Fuels and fuel handling; Coal firing; Natural gas firing; Gasification; Biomass co-firing; 3.2.3 Steam generation; Boiler technology; Feedwater processing; Evaporator design; Superheating, reheating, and steam temperature control; Condenser and heat recovery; Combustion technology; Combustion chambers and burners; Fluidized bed combustion; SC and USC steam operation; 3.2.4 Steam turbine technology; 3.2.5 Flue gas cleanup; Ash and particulate removal; Flue gas desulfurization systems.
- Wet scrubbing flue gas desulfurization processElectron beam FGD; NOx control and removal; NOx control during combustion; NOx removal by selective reduction; Electron beam flue gas NOx removal; 3.2.6 Thermal efficiency of conventional power plants; 3.3 Combined cycle power generation; 3.3.1 Heat recovery steam generation; 3.3.2 Combined cycle thermal efficiency; 3.3.3 Integrated gasification combined cycle power generation; 3.4 Future developments in power generation technology; 3.4.1 Materials development for SC and USC boilers; 3.5 References and resources; 3.5.1 References; 3.5.2 Resources.