Chemical utilization of sequestered carbon dioxide as a booster of hydrogen economy

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Publication Type Journal Article
School or College College of Mines & Earth Sciences
Department Metallurgical Engineering
Creator Miller, Jan D.
Other Author Moats, Michael S.; Zmierczak, Wlodzimierz W.
Title Chemical utilization of sequestered carbon dioxide as a booster of hydrogen economy
Date 2008-01-01
Description For many, hydrogen in a pure hydrogen economy would be like natural gas in today's energy economy. Unfortunately, hydrogen's physical properties are unsuited to the energy market's requirements in terms of packaging, storage, transfer, and delivery. In this paper, a hybrid energy economy that packages hydrogen chemically on carbon atoms from various sources including recycled carbon dioxide is introduced and discussed. For this new hybrid energy economy to become a sustainable reality, the ability to recycle carbon dioxide and use hydrogen to create an appropriate energy product, such as dimethyl ether (DME), is needed. DME is recognized as a potential next generation, "beyond-petroleum", environmentally benign commodity for energy storage and distribution. It is expected that to maximize the sustainability of the proposed hybrid energy economy, "green" hydrogen will be utilized. The "green" hydrogen would be created by the electrolysis of water powered by renewable energy sources, such as solar, wind or geothermal heat.
Type Text
Publisher TMS (The Minerals, Metals & Materials Society)
First Page 19
Last Page 23
Dissertation Institution University of Utah
Language eng
Bibliographic Citation Moats, M. S., Miller, J. D., & Zmierczak, W. W. (2008). Chemical utilization of sequestered carbon dioxide as a booster of hydrogen economy. TMS Annual Meeting, 19-23.
Rights Management (c) 2008 TMS (The Minerals, Metals & Materials Society) Reprinted by permission from Moats, M. S., Miller, J. D., & Zmierczak, W. W. (2008). Chemical utilization of sequestered carbon dioxide as a booster of hydrogen economy. TMS Annual Meeting, 19-23.
Format Medium application/pdf
Format Extent 287,237 bytes
Identifier uspace,7693
ARK ark:/87278/s6183r8d
Setname ir_uspace
ID 707917
Reference URL https://collections.lib.utah.edu/ark:/87278/s6183r8d
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