Add to ORKGThe performance of Nuclear Electric Propulsion (NEP) in transporting cargo and propellant from Low Earth Orbit (LEO) to the first Earth-Moon Lagrange point (EML1) is examined. The baseline NEP vehicle utilizes a fission reactor system with Brayton power conversion for electric power generation to power multiple liquid hydrogen magnetoplasmadynamic (MPD) thrusters. Vehicle characteristics and performance levels are based on technology availability in a fifteen to twenty year timeframe. Results of numerical trajectory analyses are also provided
The application of a nuclear electric propulsion (NEP) stage in the exploration of near-earth, comet...
NASA has initiated a technology program to establish the readiness of nuclear propulsion technology ...
Nuclear thermal and nuclear electric propulsion systems will enable and/or enhance important space e...
Nuclear electric propulsion (NEP) offers significant benefits to missions for outer planet explorati...
Nuclear Electric Propulsion (NEP) can offer multiple advantages in regards to space exploration. Sig...
Abstract. NASA has placed new emphasis on the development of advanced propulsion technologies includ...
This documents the results of a one-year multi-center NASA study on the prospect of sending humans t...
Nuclear Electric Propulsion (NEP) mission performance is strongly affected by system performance. Po...
Several recent studies by ASAO/NPO staff members at LeRC and by other organizations have highlighted...
There is a renewed interest in the development of nuclear fission power sources for space applicatio...
Results of a mission engineering analysis of nuclear-thermionic electric propulsion spacecraft for u...
An overview is given of the plans for a program in nuclear electric propulsion (NEP) technology for ...
Summarized are the findings and recommendations of a triagency (NASA/DOE/DOD) panel on Nuclear Elect...
Abstract. Over the last year, a large effort that involved several NASA agencies and DOE was initiat...
Electric propulsion (EP) is an attractive option for unmanned orbital transfer vehicles (OTV's). Veh...
The application of a nuclear electric propulsion (NEP) stage in the exploration of near-earth, comet...
NASA has initiated a technology program to establish the readiness of nuclear propulsion technology ...
Nuclear thermal and nuclear electric propulsion systems will enable and/or enhance important space e...
Nuclear electric propulsion (NEP) offers significant benefits to missions for outer planet explorati...
Nuclear Electric Propulsion (NEP) can offer multiple advantages in regards to space exploration. Sig...
Abstract. NASA has placed new emphasis on the development of advanced propulsion technologies includ...
This documents the results of a one-year multi-center NASA study on the prospect of sending humans t...
Nuclear Electric Propulsion (NEP) mission performance is strongly affected by system performance. Po...
Several recent studies by ASAO/NPO staff members at LeRC and by other organizations have highlighted...
There is a renewed interest in the development of nuclear fission power sources for space applicatio...
Results of a mission engineering analysis of nuclear-thermionic electric propulsion spacecraft for u...
An overview is given of the plans for a program in nuclear electric propulsion (NEP) technology for ...
Summarized are the findings and recommendations of a triagency (NASA/DOE/DOD) panel on Nuclear Elect...
Abstract. Over the last year, a large effort that involved several NASA agencies and DOE was initiat...
Electric propulsion (EP) is an attractive option for unmanned orbital transfer vehicles (OTV's). Veh...
The application of a nuclear electric propulsion (NEP) stage in the exploration of near-earth, comet...
NASA has initiated a technology program to establish the readiness of nuclear propulsion technology ...
Nuclear thermal and nuclear electric propulsion systems will enable and/or enhance important space e...