James E. Funk, Ph.D.
Affiliations: | Mechanical Engineering | University of Kentucky, Lexington, KY |
Area:
Hydrogen energyWebsite:
https://www.legacy.com/obituaries/louisville/obituary.aspx?n=james-e-funk&pid=157643128Google:
"James Ellis Funk"Bio:
(1932 - 2012)
DOI: 10.1016/j.ijhydene.2012.07.116
https://www.nature.com/articles/188389a0
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Publications
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| Boyd GR, Wang H, Britton MD, et al. (2004) Intrusion within a Simulated Water Distribution System due to Hydraulic Transients. I: Description of Test Rig and Chemical Tracer Method Journal of Environmental Engineering. 130: 774-777 |
| Funk JE. (2001) Thermochemical hydrogen production: Past and present International Journal of Hydrogen Energy. 26: 185-190 |
| Funk JE, England C. (1985) Solar thermochemical hydrogen: The heat source-process interface International Journal of Hydrogen Energy. 10: 359-364 |
| Ohta T, Funk JE, Porter JD, et al. (1985) Hydrogen production from water: Summary of recent research and development presented at the Fifth WHEC International Journal of Hydrogen Energy. 10: 571-576 |
| England C, funk jE. (1980) Reduced product yield in chemical processes by second law effects Energy. 5: 941-947 |
| Knoche KF, Funk JE. (1977) Entropy production, efficiency, and economics in the thermochemical generation of synthetic fuels: II. The methanol water splitting cycle International Journal of Hydrogen Energy. 2: 387-393 |
| Knoche KF, Funk JE. (1977) Entropy production, efficiency, and economics in the thermochemical generation of synthetic fuels: I. The hybrid sulfuric acid process International Journal of Hydrogen Energy. 2: 377-385 |
| Carty RH, Cox KE, Funk JE, et al. (1976) Process sensitivity studies of the Westinghouse Sulfur Cycle for hydrogen generation. International Journal of Hydrogen Energy. 2: 17-22 |
| Carty RH, Cox KE, Funk JE, et al. (1976) Process sensitivity studies of the Westinghouse Sulfur Cycle for hydrogen generation International Journal of Hydrogen Energy. 2: 17-22 |
| Soliman MA, Conger WL, Carty RH, et al. (1976) Hydrogen production via thermochemical cycles based on sulfur chemistry. International Journal of Hydrogen Energy. 1: 265-270 |