Bench Scale Heat Pipe and Vapor Chamber Testing for Space Applications
NASA’s space missions demand better and more efficient carbon dioxide removal systems. wo challenges present themselves in improving the state of the art pellet adsorption beds: power minimization and uniform heating for carbon dioxide desorption. Titanium heat pipes and vapor chambers were found to...
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| creator | Pombo, Jorge Cazalet, George Pham, Allan Ruiz, Daniel Elli Velavan, Tharun Richardson, Tra-My Justine |
| description | NASA’s space missions demand better and more efficient
carbon dioxide removal systems. wo challenges present themselves in improving the state
of the art pellet adsorption beds: power minimization and
uniform heating for carbon dioxide desorption. Titanium heat pipes and vapor chambers were found to be excellent candidates in solving these problems because of
their passive heating nature, tolerance to high
temperatures, and capability of direct implementation into
these adsorbent beds.This research work compares these different titanium heat
pipes (HPs) and vapor chambers (VPs). |
| format | Image |
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carbon dioxide removal systems. wo challenges present themselves in improving the state
of the art pellet adsorption beds: power minimization and
uniform heating for carbon dioxide desorption. Titanium heat pipes and vapor chambers were found to be excellent candidates in solving these problems because of
their passive heating nature, tolerance to high
temperatures, and capability of direct implementation into
these adsorbent beds.This research work compares these different titanium heat
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carbon dioxide removal systems. wo challenges present themselves in improving the state
of the art pellet adsorption beds: power minimization and
uniform heating for carbon dioxide desorption. Titanium heat pipes and vapor chambers were found to be excellent candidates in solving these problems because of
their passive heating nature, tolerance to high
temperatures, and capability of direct implementation into
these adsorbent beds.This research work compares these different titanium heat
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carbon dioxide removal systems. wo challenges present themselves in improving the state
of the art pellet adsorption beds: power minimization and
uniform heating for carbon dioxide desorption. Titanium heat pipes and vapor chambers were found to be excellent candidates in solving these problems because of
their passive heating nature, tolerance to high
temperatures, and capability of direct implementation into
these adsorbent beds.This research work compares these different titanium heat
pipes (HPs) and vapor chambers (VPs).</abstract><cop>Ames Research Center</cop><oa>free_for_read</oa></addata></record> |
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| source | NASA Technical Reports Server |
| subjects | Engineering (General) Fluid Mechanics and Thermodynamics |
| title | Bench Scale Heat Pipe and Vapor Chamber Testing for Space Applications |
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