| Development of a Ship Service Fuel Cell |
OCT 2000 |
7 pages |
| Authors:
S. Abens; H. Ghezel-Ayagh; G. Steinfeld; R. Sanderson; M. Cervi; FUELCELL ENERGY INC DANBURY CT
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 | Under a three-phase program sponsored by the Office of Naval Research (ONR), FuelCell Energy, Inc. is developing a 2.5 MW fuel cell power plant for ship service power generation aboard surface combatants. During the first phase, the conceptual design of the ship service fuel cell (SSFC) module was developed and critical component tests were performed. The second phase which was initiated in June 2000, will provide detailed design, construction, and ... |
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| Distillate Fuel Processing for Marine Fuel Cell Applications |
17 JAN 2000 |
8 pages |
| Authors:
G. Steinfield; R. Sanderson; H. Ghezel-Ayagh; S. Abens; Mark C. Cervi; FUELCELL ENERGY INC DANBURY CT
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| FuelCell Energy, Inc. (FCE) is developing a 625 kW fuel cell power plant for marine applications based on its Direct Carbonate Fuel Cell (DFC(Trademark)) technology. The power plant is designed for operation on Mil-F-16884J Naval distillate fuel designated as NATO F-76. This fuel is characterized as a 385 deg C (max) end boiling point diesel fuel with up to 1% sulfur by weight. The development is part of the U.S. ... |
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| Epidemic of Febrile Disease in Berbera, Somalia |
OCT 1993 |
9 pages |
| Authors:
Richard G. Hibbs; A. Corwin; S. Thornton; M. Lluberas; R. Sanderson; NAVAL MEDICAL RESEARCH UNIT NO 3 CAIRO (EGYPT) DEPT OF MEDICAL ZOOLOGY
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| In April 1989 an epidemic of febrile illness occurred in Berbera, northern Somalia, several weeks after heavy rainfall, flooding and increase in mosquito populations. A malaria epidemic was ongoing in nearby Djibouti. Malnutrition and diarrhoea were endemic. Symptoms were influenza-like, lasted approximately 1 month and progressed to shock and death in about 700 persons between April 4- June 20, 1989. A WHO team detected falciparum malaria among 16/ 25 patients, ... |
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| Systematic Mustard Gas Scavengers. |
17 APR 1991 |
27 pages |
| Authors:
R. Harris III; R. Sanderson; SRI INTERNATIONAL MENLO PARK CA
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| The synthesis methodology for preparing four types of novel nucleophilic scavengers for experimental treatment of HD intoxication is described. The four types include 3-alkoxyquinuclidines, 4-(dialkyl)aminopyridines, N-alkylpyridine-4-thiones, and imidazoline-2-thiones. A total of 4 compounds representing three of the classes were prepared, characterized, and submitted to WRAIR for biological evaluation. In addition, a convenient kinetic screen to rank target compounds in order of relative reactivity was established. |
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