Novel Materials for Carbon Dioxide Mitigation Technology (e-bog) af -
Shi, Fan (redaktør)

Novel Materials for Carbon Dioxide Mitigation Technology e-bog

1313,81 DKK (inkl. moms 1642,26 DKK)
Materials for Carbon Dioxide Mitigation Technology offers expert insight and experience from recognized authorities in advanced material development in carbon mitigation technology and constitutes a comprehensive guide to the selection and design of a wide range of solvent/sorbent/catalyst used by scientists globally. It appeals to chemical scientists, material scientists and engineers, energy ...
E-bog 1313,81 DKK
Forfattere Shi, Fan (redaktør)
Forlag Elsevier
Udgivet 1 juni 2015
Længde 414 sider
Genrer Pollution and threats to the environment
Sprog English
Format pdf
Beskyttelse LCP
ISBN 9780444632616
Materials for Carbon Dioxide Mitigation Technology offers expert insight and experience from recognized authorities in advanced material development in carbon mitigation technology and constitutes a comprehensive guide to the selection and design of a wide range of solvent/sorbent/catalyst used by scientists globally. It appeals to chemical scientists, material scientists and engineers, energy researchers, and environmental scientists from academia, industry, and government in their research directed toward greener, more efficient carbon mitigation processes. Emphasizes material development for carbon mitigation technologies rather than regulations Provides a fundamental understanding of the underpinning science as well as technological approaches to implement carbon capture, utilization and storage technologies Introduces the driving force behind novel materials, their performance and applications for carbon dioxide mitigation Contains figures, tables and an abundance of examples clearly explaining the development, characterization and evaluation of novel carbon mitigation materials Includes hundreds of citations drawing on the most recent published works on the subject Provides a wealth of real-world examples, illustrating how to bridge nano-scale materials to bulk carbon mitigation properties