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Solar photochemical process engineering for production of fuels and chemicalsThe engineering costs and performance of a nominal 25,000 scmd (883,000 scfd) photochemical plant to produce dihydrogen from water were studied. Two systems were considered, one based on flat-plate collector/reactors and the other on linear parabolic troughs. Engineering subsystems were specified including the collector/reactor, support hardware, field transport piping, gas compression equipment, and balance-of-plant (BOP) items. Overall plant efficiencies of 10.3 and 11.6 percent are estimated for the flat-plate and trough systems, respectively, based on assumed solar photochemical efficiencies of 12.9 and 14.6 percent. Because of the opposing effects of concentration ratio and operating temperature on efficiency, it was concluded that reactor cooling would be necessary with the trough system. Both active and passive cooling methods were considered. Capital costs and energy costs, for both concentrating and non-concentrating systems, were determined and their sensitivity to efficiency and economic parameters were analyzed. The overall plant efficiency is the single most important factor in determining the cost of the fuel.
Document ID
19860053210
Acquisition Source
Legacy CDMS
Document Type
Reprint (Version printed in journal)
Authors
Biddle, J. R.
(California State Polytechnic University Pomona, United States)
Peterson, D. B.
(San Diego, University CA, United States)
Fujita, T.
(California Institute of Technology Jet Propulsion Laboratory, Pasadena, United States)
Date Acquired
August 12, 2013
Publication Date
January 1, 1985
Publication Information
Publication: International Journal of Hydrogen Energy
Volume: 10
Issue: 10, 1
ISSN: 0360-3199
Subject Category
Energy Production And Conversion
Accession Number
86A37948
Distribution Limits
Public
Copyright
Other

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