Add to ORKGTitanium heat pipes are being developed to provide light weight, reliable heat rejection devices as an alternate radiator design for the Space Reactor Power System (SP-100). The radiator design includes 360 heat pipes, each of which is 5.2 m long and dissipates 3 kW of power at 775 K. The radiator heat pipes use potassium as the working fluid, have two screen arteries for fluid return, a roughened surface distributive wicking system, and a D-shaped cross-section container configuration. A prototype titanium heat pipe, 5.5-m long, has been fabricated and tested in space-simulating conditions. Results from startup and isothermal operation tests are presented. These results are also compared to theoretical performance predictions that were use...
This paper describes the development of high-temperature heat pipes and their operating performance ...
Heat pipes are among the most promising technologies for space radiator systems. Water heat pipes ar...
The research with devices that operates passively by means of capillary forces has resulted in exten...
Titanium heat pipes are being developed to provide light weight, reliable heat rejection devices as ...
Performance tests of a high-temperature, deployable, membrane heat pipe have been conducted. This sy...
Titanium-water heat pipes are being investigated for use in heat rejection systems for lunar and Mar...
High-temperature liquid-metal heat pipes are being developed as part of the SP-100 space power syste...
A 4-meter long, high temperature, high power, molybdenum-lithium heat pipe has been fabricated and t...
Thermacore, Inc. of Lancaster, Pennsylvania has completed a Phase I SBIR program to investigate the ...
Heat pipe play an important role in high temperature energy transfer system and storage system. It c...
This report discusses development and proof-of-concept testing of a new lightweight carbon-carbon (C...
[[abstract]]Heat pipe play an important role in high temperature energy transfer system and storage ...
The activities presented in this paper focus on a new approach to provide passive regulation of the ...
This report discusses the design implications for spacecraft radiators made possible by the successf...
This report discusses development and proof-of-concept testing of a new lightweight carbon-carbon (C...
This paper describes the development of high-temperature heat pipes and their operating performance ...
Heat pipes are among the most promising technologies for space radiator systems. Water heat pipes ar...
The research with devices that operates passively by means of capillary forces has resulted in exten...
Titanium heat pipes are being developed to provide light weight, reliable heat rejection devices as ...
Performance tests of a high-temperature, deployable, membrane heat pipe have been conducted. This sy...
Titanium-water heat pipes are being investigated for use in heat rejection systems for lunar and Mar...
High-temperature liquid-metal heat pipes are being developed as part of the SP-100 space power syste...
A 4-meter long, high temperature, high power, molybdenum-lithium heat pipe has been fabricated and t...
Thermacore, Inc. of Lancaster, Pennsylvania has completed a Phase I SBIR program to investigate the ...
Heat pipe play an important role in high temperature energy transfer system and storage system. It c...
This report discusses development and proof-of-concept testing of a new lightweight carbon-carbon (C...
[[abstract]]Heat pipe play an important role in high temperature energy transfer system and storage ...
The activities presented in this paper focus on a new approach to provide passive regulation of the ...
This report discusses the design implications for spacecraft radiators made possible by the successf...
This report discusses development and proof-of-concept testing of a new lightweight carbon-carbon (C...
This paper describes the development of high-temperature heat pipes and their operating performance ...
Heat pipes are among the most promising technologies for space radiator systems. Water heat pipes ar...
The research with devices that operates passively by means of capillary forces has resulted in exten...