High thermal capacity cold plate/hot plate
Abstract
The results of an analytical study to determine the feasibility of a novel two-phase cold plate/hot plate (CPHP) are presented. A key feature of the CPHP is the use of capillary forces to separate the liquid and vapor phases and distribute the liquid over the evaporating/condensing surface. The liquid phase is held by capillary forces in a reservoir and is carried to the evaporating surface by a wick. The reservoir is replenished at intervals from a valved external liquid supply line. In the hot plate mode, liquid accumulates in the reservoir and is removed by an external condensate line. Performance requirements for the device were capability of handling a power density of 4 watts/sq cm, an outlet quality (percentage of vapor flow to total flow) greater than 90 percent, and operation in a 0-g environment. An analytical model of CPHP operation was developed which concentrated on the liquid and vapor flows. It was found that the liquid carrying capillary grooves of rectangular cross-section gave significantly better predicted performance than V-shaped grooves. Using the analytical model, capillary groove width and length, vapor channel dimensions, and other parameters were selected to meet the performance requirements with a 100-percent margin.
- Publication:
-
AIAA, 20th Thermophysics Conference
- Pub Date:
- June 1985
- Bibcode:
- 1985thph.confR....H
- Keywords:
-
- Cold Surfaces;
- Flat Plates;
- Fluid Flow;
- Heat Exchangers;
- Hot Surfaces;
- Two Phase Flow;
- Capillary Flow;
- Laminar Flow;
- Liquid Phases;
- Mass Flow;
- Reynolds Number;
- Vapor Phases;
- Fluid Mechanics and Heat Transfer