Add to ORKGRadiator panels utilizing titanium-water heat pipes are being considered for lunar applications. A traditional sandwich structure is envisioned where heat pipes are embedded between two high thermal conductivity face sheets. The heat pipe evaporators are to be thermally connected to the heat source through one or more manifolds containing coolant. Initial radiator operation on the lunar surface would likely follow a cold soak where the water in the heat pipes is purposely frozen. To achieve heat pipe operation, it will be necessary to thaw the heat pipes. One option is to allow the sunlight impinging on the surface at sunrise to achieve this goal. Testing was conducted in a thermal vacuum chamber to simulate the lunar sunrise and additional...
Polymer matrix composites offer the promise of reducing the mass and increasing the performance of f...
This work presents the fundamental ice collection experiments conducted under rarefied flow regime t...
Thermal wadis, engineered sources of heat, can be used to extend the life of lunar rovers by keeping...
Abstract. Nuclear power systems for long-term Lunar and Martian missions present many challenges to ...
Water may be used as radiation shielding for Solar Particle Events (SPE) to protect crewmembers in t...
Future lunar landers and rovers will require variable thermal links that allow for heat rejection du...
Titanium-water heat pipes are being investigated for use in heat rejection systems for lunar and Mar...
This report discusses application of a new lightweight carbon-carbon (C-C) space radiator technology...
The optimum radiator configuration in hot lunar thermal environments is one in which the radiator is...
Titanium heat pipes are being developed to provide light weight, reliable heat rejection devices as ...
One of the important issues in the lunar base architecture is the design of a Thermal Control System...
NASA Glenn Research Center (GRC) is developing fission power system technology for future Lunar surf...
In this study, a radiative thermal model is developed which can be used to predict the heat transfe...
A grooved water heat pipe was tested to study its characteristics during the cool-down and start-up ...
This work presents the fundamental ice collection experiments conducted under rarefied flow regime t...
Polymer matrix composites offer the promise of reducing the mass and increasing the performance of f...
This work presents the fundamental ice collection experiments conducted under rarefied flow regime t...
Thermal wadis, engineered sources of heat, can be used to extend the life of lunar rovers by keeping...
Abstract. Nuclear power systems for long-term Lunar and Martian missions present many challenges to ...
Water may be used as radiation shielding for Solar Particle Events (SPE) to protect crewmembers in t...
Future lunar landers and rovers will require variable thermal links that allow for heat rejection du...
Titanium-water heat pipes are being investigated for use in heat rejection systems for lunar and Mar...
This report discusses application of a new lightweight carbon-carbon (C-C) space radiator technology...
The optimum radiator configuration in hot lunar thermal environments is one in which the radiator is...
Titanium heat pipes are being developed to provide light weight, reliable heat rejection devices as ...
One of the important issues in the lunar base architecture is the design of a Thermal Control System...
NASA Glenn Research Center (GRC) is developing fission power system technology for future Lunar surf...
In this study, a radiative thermal model is developed which can be used to predict the heat transfe...
A grooved water heat pipe was tested to study its characteristics during the cool-down and start-up ...
This work presents the fundamental ice collection experiments conducted under rarefied flow regime t...
Polymer matrix composites offer the promise of reducing the mass and increasing the performance of f...
This work presents the fundamental ice collection experiments conducted under rarefied flow regime t...
Thermal wadis, engineered sources of heat, can be used to extend the life of lunar rovers by keeping...