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9 news articles found
Final design to be chosen in 2025, says agency
- Source: Nucnet
- Date: Tuesday, 06 February 2024
- Original article: nucnet.org/news/nasa-extends-contracts-for-lunar-reactor-development-in-preparation-for-next-project-phase-2-1-2024
Contracts also signed by companies in US
- Source: Nucnet
- Date: Saturday, 21 October 2023
- Original article: nucnet.org/news/framatome-launches-new-brand-in-bid-to-play-decisive-role-10-5-2023
US-based BWX Technologies (BWXT) has been contracted to develop the reactor and fuel for the US Defense Advanced Research Projects Agency’s (DARPA’s) Demonstration Rocket for Agile Cislunar Operations (DRACO), which will use nuclear thermal propulsion. As part of a team led by Lockheed Martin, BWXT Advanced Technologies is to complete final design of the nuclear reactor, manufacture the reactor’s hardware and fuel, assemble the components and deliver the fuelled reactor as a complete subsystem.
- Source: NEI Magazine
- Date: Wednesday, 16 August 2023
- Original article: neimagazine.com/news/newsbwxt-reactor-and-fuel-selected-for-darpa-space-project-11074621
The USA's Defense Advanced Research Projects Agency (DARPA) has finalised an agreement with Lockheed Martin to begin work on the fabrication and design of an experimental nuclear thermal rocket and its engine. BWX Technologies, one of Lockheed Martin's partners in the effort, will develop the nuclear reactor and fabricate the HALEU fuel.
- Source: World Nuclear News
- Date: Thursday, 27 July 2023
- Original article: world-nuclear-news.org/Articles/BWXT-to-begin-work-on-DRACO-engine-and-fuel
Nuclear In Space / Nasa Chooses Three Companies To Produce Concepts For Fission Surface Power System
The companies are Pennsylvania-based Westinghouse Electric Company; Maryland-based Lockheed Martin; and Texas-based X, a joint venture of Intuitive Machines and X-Energy.
The 12-month contracts are valued at $5m each and will fund the development of initial design concepts for a 40-kW class fission power system planned to last at least 10 years in the lunar environment.
Nasa said fission systems, which are relatively small and lightweight compared to other power systems, could enable continuous power regardless of location, available sunlight, and other natural environmental conditions. A demonstration of such systems on the Moon would pave the way for long-duration missions on the Moon and Mars.
- Source: Nucnet
- Date: Tuesday, 12 July 2022
- Original article: nucnet.org/news/nasa-chooses-three-companies-to-produce-concepts-for-fission-surface-power-system-7-1-2022
The US space agency NASA has selected three design concepts for a 40KW nuclear power system designed to last at least 10 years in the lunar environment to help "lay the groundwork for powering our long-term human presence on other worlds".
- Source: World Nuclear News
- Date: Thursday, 23 June 2022
- Original article: world-nuclear-news.org/Articles/Nuclear-power-on-the-Moon-NASA-selects-three-propo
The US National Aeronautics and Space Administration (NASA) said on 13 July it was leading an effort, working with the Department of Energy (DOE), to advance space nuclear technologies. The government team has selected three reactor design concept proposals for a nuclear thermal propulsion system. The reactor is a critical component of a nuclear thermal engine, which would utilise high-assay low-enriched uranium (HALEU) fuel.
- Source: NEI Magazine
- Date: Friday, 16 July 2021
- Original article: neimagazine.com/news/newsnasa-announces-funding-for-nuclear-thermal-propulsion-reactor-8898302
Each contract is worth approximately $5m and will last one year.
One contract will go to BWX Technologies, working with Lockheed Martin. A second contract will go to General Atomics Electromagnetic Systems, working with X-energy and Aerojet Rocketdyne. The third will go to Ultra Safe Nuclear Technologies, working with its parent company, Ultra Safe Nuclear Corporation, as well as Blue Origin, General Electric Hitachi Nuclear Energy, General Electric Research, Framatome and Materion.
All three studies are focused on developing a design for a reactor that would be part of a future NTP system. That reactor would heat up a propellant such as liquid hydrogen, generating thrust at far higher efficiencies than conventional propulsion systems and enabling shorter transit times for missions to Mars.
- Source: Nucnet
- Date: Friday, 16 July 2021
- Original article: nucnet.org/news/nasa-announces-funding-for-three-thermal-propulsion-reactors-7-4-2021
Three reactor design concept proposals for a nuclear thermal propulsion system for deep space missions have been selected by the US National Aeronautics and Space Administration (NASA) and the Department of Energy (DOE). The reactor will be a critical component of a nuclear thermal engine, which would utilise high-assay low-enriched uranium fuel.
- Source: World Nuclear News
- Date: Thursday, 15 July 2021
- Original article: world-nuclear-news.org/Articles/NASA-selects-reactor-concepts-for-deep-space-explo