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Floating Pressure Conversion and Equipment Upgrades of Two 3.5kw, 20k, Helium Refrigerators (2008)

Homan, Jonathan ; Howe, Don ; Vargas, Gerardo ; [et al.]

In: Other Sources

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Publication Date: 2019-07-19

Description: Two helium refrigerators, each rated for 3.5KW at 20K, are used at NASA s Johnson Space Center (JSC) in Building No. 32 to provide cryo-pumping within two large thermal-vacuum chambers. These refrigerators were originally commissioned in 1996. Equipment refurbishment and upgrades to the controls of these refrigerators were recently completed. This paper describes some of the mechanical and control issues that necessitated the equipment refurbishment and controls change-over. It will describe the modifications and the new process control which allows the refrigerators to take advantage of the Ganni Cycle "floating pressure" control technology. The upgrades -- the controls philosophy change-over to the floating pressure control technology and the newly refurbished equipment -- have greatly improved the performance, stability, and efficiency of these two refrigerators. The upgrades have also given the operators more information and details about the operational status of the main components (compressors, expanders etc.) of the refrigerators at all operating conditions (i.e.: at various loads in the vacuum chambers). Capabilities, configuration, and performance data pre, and post, upgrading will be presented.

Keywords: Engineering (General)

Type: 25th Space Simulation Conference. Environmental Testing: The Earth-Space Connection; 8; NASA/CP-2008-214164

Format: text

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NASA TECHNICAL REPORTS

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Affect of Air Leakage into a Thermal-Vacuum Chamber on Helium Refrigeration Heat Load (2008)

Lauterbach, John ; Linza, Robert ; Saheli, Fariborz ; [et al.]

In: Other Sources

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Publication Date: 2019-07-19

Description: NASA s Johnson Space Center (JSC) Building 32 houses two large thermal-vacuum chambers (Chamber A and Chamber B). Within these chambers are liquid nitrogen shrouds to provide a thermal environment and helium panels which operate at 20K to provide cryopumping. Some amount of air leakage into the chambers during tests is inevitable. This causes "air fouling" of the helium panel surfaces due to the components of the air that adhere to the panels. The air fouling causes the emittance of the helium panels to increase during tests. The increase in helium panel emittance increases the heat load on the helium refrigerator that supplies the 20K helium for those panels. Planning for thermal-vacuum tests should account for this increase to make sure that the helium refrigerator capacity will not be exceeded over the duration of a test. During a recent test conducted in Chamber B a known-size air leak was introduced to the chamber. Emittance change of the helium panels and the affect on the helium refrigerator was characterized. A description of the test and the results will be presented.

Keywords: Engineering (General)

Type: 25th Space Simulation Conference. Environmental Testing: The Earth-Space Connection; 9; NASA/CP-2008-214164

Format: text

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	Location	Call Number	Expected	Availability

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NASA TECHNICAL REPORTS

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