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Hydrogen from renewable energy - Photovoltaic/water electrolysis as an exemplary approach (1984)

Sprafka, R. J. ; Tison, R. R. ; Escher, W. J. D.

In: Other Sources

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Publication Date: 2011-08-18

Description: A feasibility study has been conducted for a NASA Kennedy Space Center liquid hydrogen/liquid oxygen production facility using solar cell arrays as the power source for electrolysis. The 100 MW output of the facility would be split into 67.6 and 32 MW portions for electrolysis and liquefaction, respectively. The solar cell array would cover 1.65 sq miles, and would be made up of 249 modular 400-kW arrays. Hydrogen and oxygen are generated at either dispersed or centralized water electrolyzers. The yearly hydrogen output is projected to be 5.76 million lbs, with 8 times that much oxygen; these fuel volumes can support approximately 18 Space Shuttle launches/year.

Keywords: ENERGY PRODUCTION AND CONVERSION

Format: text

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Solar/hydrogen systems for the 1985-2000 time frame - A review and assessment (1982)

Hanson, J. A. ; Tison, R. R. ; Foster, R. W. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: A comprehensive state-of-the-art review of solar/hydrogen technologies has been conducted. From this, solar/hydrogen production systems which could be commercialized by the year 2000 have been characterized technically and economically. Incentives and disincentives for the early commercialization of four solar/hydrogen systems have been explored, conclusions drawn and recommendations made.

Keywords: ENERGY PRODUCTION AND CONVERSION

Type: International Journal of Hydrogen Energy; 7; 1, 19; 1982

Format: text

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Hydrogen fueled-hydrogen transport rail system - A NASA proposal (1984)

Tison, R. R. ; Bain, A. L. ; Spafka, R. J.

In: Other Sources

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Publication Date: 2011-08-19

Description: The technical possibility of fueling motive power equipment with hydrogen as an alternative to petroleum is studied, and the economics of operating hydrogen-fueled systems are evaluated. Technical considerations include the areas of fuel storage and distribution systems, engine design changes, and a test and evaluation program. A conversion methodology, which conforms to the scheme of high-pressure injection of hydrogen directly into the cylinder late in the compresssion stroke and injection of pilot diesel fuel for ignition, is illustrated with detailed diagrams.

Keywords: URBAN TECHNOLOGY AND TRANSPORTATION

Format: text

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Study of Systems and Technology for Liquid Hydrogen Production Independent of Fossil Fuels (1983)

Escher, W. J. D. ; Baker, C. R. ; Moore, J. S. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Based on Kennedy Space Center siting and logistics requirements and the nonfossil energy resources at the Center, a number of applicable technologies and system candidates for hydrogen production were identified and characterized. A two stage screening of these technologies in the light of specific criteria identified two leading candidates as nonfossil system approaches. Conceptual design and costing of two solar-operated, stand alone systems, one photovoltaic based on and the other involving the power tower approach reveals their technical feasibility as sited as KSC, and the potential for product cost competitiveness with conventional supply approaches in the 1990 to 1210 time period. Conventional water hydrolysis and hydrogen liquefaction subsystems are integrated with the solar subsystems.

Keywords: PROPELLANTS AND FUELS

Type: NASA-CR-173422 , NAS 1.26:173422

Format: application/pdf

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5

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Solar/hydrogen systems assessment. Volume 1: Solar/hydrogen systems for the 1985 - 2000 time frame (1980)

Escher, W. J. D. ; Hanson, J. A. ; Tison, R. R. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: Opportunities for commercialization of systems capable of producing hydrogen from solar energy were studied. The hydrogen product costs that might be achieved by the four selected candidate systems was compared with the pricing structure and practices of the commodity gas market. Subsequently, product cost and market price match was noted to exist in the small user sector of the hydrogen marketplace. Barriers to and historical time lags in, commercialization of new technologies are reviewed. Recommendations for development and demonstration programs designed to accelerate the commercialization of the candidate systems are presented.

Keywords: ENERGY PRODUCTION AND CONVERSION

Type: NASA-CR-163392 , JPL-9950-379

Format: application/pdf

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6

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A preliminary systems-engineering study of an advanced nuclear-electrolytic hydrogen-production facility (1975)

Escher, W. J. D. ; Donakowski, T. D. ; Tison, R. R.

In: CASI

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Publication Date: 2019-06-27

Description: An advanced nuclear-electrolytic hydrogen-production facility concept was synthesized at a conceptual level with the objective of minimizing estimated hydrogen-production costs. The concept is a closely-integrated, fully-dedicated (only hydrogen energy is produced) system whose components and subsystems are predicted on ''1985 technology.'' The principal components are: (1) a high-temperature gas-cooled reactor (HTGR) operating a helium-Brayton/ammonia-Rankine binary cycle with a helium reactor-core exit temperature of 980 C, (2) acyclic d-c generators, (3) high-pressure, high-current-density electrolyzers based on solid-polymer electrolyte technology. Based on an assumed 3,000 MWt HTGR the facility is capable of producing 8.7 million std cu m/day of hydrogen at pipeline conditions, 6,900 kPa. Coproduct oxygen is also available at pipeline conditions at one-half this volume. It has further been shown that the incorporation of advanced technology provides an overall efficiency of about 43 percent, as compared with 25 percent for a contemporary nuclear-electric plant powering close-coupled contemporary industrial electrolyzers.

Keywords: ENERGY PRODUCTION AND CONVERSION

Type: NASA-CR-144230

Format: application/pdf

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7

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High-temperature molten salt thermal energy storage systems (1980)

Marianowski, L. G. ; Tison, R. R. ; Petri, R. J. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The results of comparative screening studies of candidate molten carbonate salts as phase change materials (PCM) for advanced solar thermal energy storage applications at 540 to 870 C (1004 to 1600 F) and steam Rankine electric generation at 400 to 540 C (752 to 1004 F) are presented. Alkali carbonates are attractive as latent heat storage materials because of their relatively high storage capacity and thermal conductivity, low corrosivity, moderate cost, and safe and simple handling requirements. Salts were tested in 0.1 kWhr lab scale modules and evaluated on the basis of discharge heat flux, solidification temperature range, thermal cycling stability, and compatibility with containment materials. The feasibility of using a distributed network of high conductivity material to increase the heat flux through the layer of solidified salt was evaluated. The thermal performance of an 8 kWhr thermal energy storage (TES) module containing LiKCO3 remained very stable throughout 5650 hours and 130 charge/discharge cycles at 480 to 535 C (896 to 995 F). A TES utilization concept of an electrical generation peaking subsystem composed of a multistage condensing steam turbine and a TES subsystem with a separate power conversion loop was defined. Conceptual designs for a 100 MW sub e TES peaking system providing steam at 316 C, 427 C, and 454 C (600 F, 800 F, and 850 F) at 3.79 million Pa (550 psia) were developed and evaluated. Areas requiring further investigation have also been identified.

Keywords: ENERGY PRODUCTION AND CONVERSION

Type: NASA-CR-159663 , DOE/NASA/0806-79/1

Format: application/pdf

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