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Analysis of condensing pressure control for SNAP-8 system (1966)

Packe, D. R. ; Tew, R. C. ; Jefferies, K. S. ; [et al.]

In: CASI

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Publication Date: 2019-05-30

Description: Analysis of condensing pressure control for SNAP-8 system

Keywords: NUCLEAR ENGINEERING

Type: NASA-TM-X-1292

Format: application/pdf

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2

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Optical measurements pertaining to Space Station solar dynamic power systems (1987)

Holly, S. ; Jefferies, K. S. ; Springer, T.

In: Other Sources

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Publication Date: 2019-06-28

Description: The Space Station solar dynamic power system is a hybrid of solar photovoltaic and solar dynamic systems, the latter of which uses a parabolic reflector to collect solar energy. This paper describes analytical results of an off-axis solar illumination on the intensity distribution in arbitrary target planes perpendicular to the axis of a parabolic reflector. Such computational capability would make it possible to predict optical intensity distributions resulting from off-axis angles of incident radiation on such target planes. To validate the computer code, experimental optical measurements were performed on the multifaceted paraboloidal collecor at the Solar Dynamic Test Facility at Rockedyne's Santa Susana Field Laboratory. The experimental data compared reasonably well with the calculated values.

Keywords: GROUND SUPPORT SYSTEMS AND FACILITIES (SPACE)

Type: IAF PAPER 87-229

Format: text

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3

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Advanced secondary power system for transport aircraft (1985)

Plencner, R. M. ; Hansen, I. G. ; Dengler, R. P. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A concept for an advanced aircraft power system was identified that uses 20-kHz, 440-V, sin-wave power distribution. This system was integrated with an electrically powered flight control system and with other aircraft systems requiring secondary power. The resulting all-electric secondary power configuration reduced the empty weight of a modern 200-passenger, twin-engine transport by 10 percent and the mission fuel by 9 percent.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA-TP-2463 , E-2434 , NAS 1.60:2463

Format: application/pdf

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4

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Analysis of costs of gallium arsenide and silicon solar arrays for space power applications (1981)

Jefferies, K. S.

In: CASI

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Publication Date: 2019-06-28

Description: A parametric analysis was performed to compare the costs of silicon and gallium arsenide arrays for Earth orbital missions. The missions included electric power in low Earth orbit (LEO), electric power in geosynchronous Earth orbit (GEO), and power for electric propulsion of a LEO to GEO orbit transfer mission. Inputs to the analysis for all missions included launch and purchase costs of the array. For the orbit transfer mission, the launch and purchase costs of the electric propulsion system were added. Radiation flux as a function of altitude and rediation tolerance as a function of cell type were used to determine power degradation for each mission. Curves were generated that show the sensitivity of launch-array cost and total mission cost to a variety of input parameters for each mission. These parameters included mission duration, cover glass thickness, array specific cost, array specific mass, and solar cell efficiency. Solar concentration was considered and the sensitivities of cost to concentration ratio, concentrator costs, and concentrator mass were also evaluated. Results indicate that solar cell development should give a high priority to reducing array costs and that the development of low cost, lightweight, solar concentrators should be pursued.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: NASA-TP-1811 , E-536

Format: application/pdf

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5

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Optical analysis of parabolic dish concentrators for solar dynamic power systems in space (1985)

Jefferies, K. S.

In: CASI

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Publication Date: 2019-06-28

Description: An optical analysis of a parabolic solar collection system operating in Earth orbit was performed using ray tracing techniques. The analysis included the effects of: (1) solar limb darkening, (2) parametric variation of mirror surface error, (3) parametric variation of mirror rim angle, and (4) parametric variation of alignment and pointing error. This ray tracing technique used numerical integration to combine the effects of rays emanating from different parts of the sun at different intensities with the effects of normally distributed mirror-surface errors to compute the angular intensity distribution of rays leaving the mirror surface. A second numerical integration was then performed over the surface of the parabolic mirror to compute the radial distribution of brightness at the mirror focus. Major results of the analysis included: (1) solar energy can be collected at high temperatures with high efficiency, (2) higher absorber temperatures can be achieved at lower efficiencies, or higher efficiencies can be achieved at lower temperatures, and (3) collection efficiency is near its maximum level across a broad plateau of rim angles from 40 deg to 70 deg.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: NASA-TM-87080 , E-2659 , NAS 1.15:87080

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6

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Analysis of GaAs and Si solar cell arrays for earth orbital and orbit transfer missions (1980)

Jefferies, K. S.

In: Other Sources

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Publication Date: 2019-07-13

Description: Solar array systems have been studied and compared for earth orbital and orbit transfer missions with the principal objective of quantifying the cost tradeoffs between gallium arsenide and silicon array for specific classes of missions and system characteristics. For the missions considered, it is found that the purchase cost advantage of Si arrays is not overcome by the greater radiation resistance of GaAs arrays. The use of reflectors for concentration may significantly reduce the power system cost. However, GaAs arrays benefit considerably more from solar concentration than Si arrays in terms of mission cost because of their higher allowable temperature. In the case of orbit transfer missions, a cover glass thickness of at least 0.05 cm is recommended to reduce total mission cost.

Keywords: ENERGY PRODUCTION AND CONVERSION

Type: Photovoltaic Specialists Conference; Jan 07, 1980 - Jan 10, 1980; San Diego, CA

Format: text

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H2-O2 auxiliary power unit for Space Shuttle vehicles - A progress report. (1973)

Jefferies, K. S. ; Beremand, D. G. ; Cameron, H. M. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Description of a program to establish technology readiness of hydrogen-oxygen (H2-O2) auxiliary power units for use on board the Space Shuttle orbiter vehicle. Fundamental objectives include experimentally establishing an acceptable propellant flow control method, verification of combustor stability, and adequate thermal management. An initial auxiliary power unit (APU) configuration with recycled hydrogen flow has been studied and revised toward greater simplicity and scaling ease. The selected APU is a recuperated open-cycle, turbine-driven unit. Series flow of cryogenic hydrogen removes internally-generated heat and heat from the hydraulic system. The revised configuration schematic and its calculated performance are reviewed. A weight comparison is made between the shuttle baseline hydrazine and H2-O2 APU systems, showing that hydrogen-oxygen APUs have the potential of increasing the payload of the Space Shuttle.

Keywords: AUXILIARY SYSTEMS

Type: IECEC PAPER 739028 , Intersociety Energy Conversion Engineering Conference; Aug 13, 1973 - Aug 16, 1973; Philadelphia, PA; US

Format: text

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