Design of an advanced two-phase capillary cold plateThe functional principles and implementation of capillary pumped loop (CPL) two phase heat transport system for various elements of the Space Station program are described. Circulation of the working fluid by the surface-tension forces in a fine-pore capillary wick is the core principle of CPL systems. The liquid, usually NH3 at the moment, is changed into a vapor by heat absorption at one end of the loop, and the vapor is carrried back along the wick by the surface tension within the wick. NASA specifications and the results of mechanical and thermal tests for prototype cold plate and the capillary pump designs are outlined. The CPL is targeted for installation on free-flying platforms, attached payloads, and power subsystem thermal control systems.
Document ID
19870045389
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Chalmers, D. R. (RCA, Astro-Electronics Div., Princeton NJ, United States)
Kroliczek, E. J. (RCA Astro-Electronics Div. Princeton, NJ, United States)