Synopses & Reviews
This book approaches the energy science sub-field carbon capture with an interdisciplinary discussion based upon fundamental chemical concepts ranging from thermodynamics, combustion, kinetics, mass transfer, material properties, and the relationship between the chemistry and process of carbon capture technologies. Energy science itself is a broad field that spans many disciplines -- policy, mathematics, physical chemistry, chemical engineering, geology, materials science and mineralogy -- and the author has selected the material, as well as end-of-chapter problems and policy discussions, that provide the necessary tools to interested students.
Review
From the reviews: "This work by Wilcox (Stanford Univ.) is the first engineering book focusing on carbon capture; it includes example problems, tables with industrial data ... and a glossary of key terminology. It can be used by students and educators as a textbook for engineering classes as well as by professionals who must develop carbon capture processes and install carbon capture technologies. ... it will have value in many countries where carbon capture is included in industrial processes. Summing Up: Highly recommended. Upper-division undergraduates through professionals." (L. E. Erickson, Choice, Vol. 50 (3), November, 2012)
Synopsis
This book on the fundamental aspects of carbon capture covers a plethora of issues such as thermodynamics, kinetics, mass transfer, and material properties, and features Policy maker-friendly summaries at the end of each chapter as well as practice problems.
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Carbon Capture
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Carbon Capture
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Table of Contents
Power Systems (PCC, IGCC, NGCC, Oxycombustion).-Capture Systems (Postcombustion, precombustion, direct air capture).- CO2 Chemistry (carbonate vs. carbomate); thermodynamics; kinetics.- Mass Transfer (gas and liquid diffusion).- Material Science - solvent properties; packing materials (absorption) - sorbent properties (MOFs, Resins, activated carbon; adsorption).- Process Design (absorption towers; adsorption systems - packed-bed vs fluidized-bed reactors) - catalytic membranes - primarily for postcombustion.- Precombustion capture methods - membranes (polymer and dense); zeolites.