Open AccessPerformance Characterization of a Microchannel Liquid/Liquid Heat Exchanger Throughout an Extended Duration Life Test
Author(s) -
Rubik Sheth,
Ryan Stephan,
P. Humble,
Robert Wegeng
Publication year - 2011
Publication title -
41st international conference on environmental systems
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2011-5205
Subject(s) - microchannel , heat exchanger , computer cooling , duration (music) , materials science , characterization (materials science) , test (biology) , nuclear engineering , mechanical engineering , engineering , physics , thermal management of electronic devices and systems , nanotechnology , acoustics , paleontology , biology
Liquid/Liquid Heat Exchangers (L/L HX) are an integral portion of any spacecraft active thermal control system. For this study the X-38 L/L HX was used as a baseline. As detailed in a previous ICES manuscript, NASA paired with Pacific Northwest National Laboratory to develop a Microchannel L/L HX (MHX). This microchannel HX was designed to meet the same performance characteristics as the aforementioned X-38 HX. The as designed Microchannel HX has a 26% and 60% reduction in mass and volume, respectively. Due to the inherently smaller flow passages the design team was concerned about fouling affecting performance during extended missions. To address this concern, NASA has developed a test stand and is currently performing an 18 month life test on the MHX. This report will detail the up-to-date performance of the MHX during life testing.
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