Integration of Radioisotope Heat Source with Stirling Engine and Cooler for Venus Internal-Structure Mission

Schock, Alfred

doi:10.2172/1033378

Integration of Radioisotope Heat Source with Stirling Engine and Cooler for Venus Internal-Structure Mission

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The primary mission goal is to perform long-term seismic measurements on Venus, to study its largely unknown internal structure. The principal problem is that most payload components cannot long survive Venus's harsh environment, 90 bars at 500 degrees C. To meet the mission life goal, such components must be protected by a refrigerated payload bay. JPL Investigators have proposed a mission concept employing a lander with a spherical payload bay cooled to 25 degrees C by a Stirling cooler powered by a radioisotope-heated Sitrling engine. To support JPL's mission study, NASA/Lewis and MTI have proposed a conceptual design for a … continued below

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Schock, Alfred October 1, 1993.

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This report is part of the collection entitled: Office of Scientific & Technical Information Technical Reports and was provided by the UNT Libraries Government Documents Department to the UNT Digital Library, a digital repository hosted by the UNT Libraries. It has been viewed 122 times. More information about this report can be viewed below.

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Schock, Alfred

United States. Office of the Assistant Secretary for Nuclear Energy. NE Office of Space and Defense Power Systems

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International Astronautical Federation; Graz, Austrai
Fairchild Space and Defense Corporation
Place of Publication: United States
International Astronautical Federation
Place of Publication: United States

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Description

The primary mission goal is to perform long-term seismic measurements on Venus, to study its largely unknown internal structure. The principal problem is that most payload components cannot long survive Venus's harsh environment, 90 bars at 500 degrees C. To meet the mission life goal, such components must be protected by a refrigerated payload bay. JPL Investigators have proposed a mission concept employing a lander with a spherical payload bay cooled to 25 degrees C by a Stirling cooler powered by a radioisotope-heated Sitrling engine. To support JPL's mission study, NASA/Lewis and MTI have proposed a conceptual design for a hydraulically coupled Stirling engine and cooler, and Fairchild Space - with support of the Department of Energy - has proposed a design and integration scheme for a suitable radioisotope heat source. The key integration problem is to devise a simple, light-weight, and reliable scheme for forcing the radioisotope decay heat to flow through the Stirling engine during operation on Venus, but to reject that heat to the external environment when the Stirling engine and cooler are not operating (e.g., during the cruise phase, when the landers are surrounded by heat shields needed for protection during subsequent entry into the Venusian atmosphere.) A design and integration scheme for achieving these goals, together with results of detailed thermal analyses, are described in this paper. There are 7 copies in the file.

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Report No.: IAF-93-R.1.426
Digital Object Identifier: https://doi.org/10.2172/1033378
Office of Scientific & Technical Information Report Number: 1033378
Archival Resource Key: ark:/67531/metadc835761

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October 1, 1993

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May 19, 2016, 3:16 p.m.

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Schock, Alfred. Integration of Radioisotope Heat Source with Stirling Engine and Cooler for Venus Internal-Structure Mission, report, October 1, 1993; (https://digital.library.unt.edu/ark:/67531/metadc835761/: accessed May 23, 2024), University of North Texas Libraries, UNT Digital Library, https://digital.library.unt.edu; crediting UNT Libraries Government Documents Department.

Integration of Radioisotope Heat Source with Stirling Engine and Cooler for Venus Internal-Structure Mission

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