Illustration of a conceptual fission surface power system on the Moon
The new fission surface power project falls under STMD's space nuclear technologies portfolio within the Technology Demonstration Missions program based at Marshall. The project is led by Glenn. Kilopower Archives News release: Kilopower results (May 2, 2018) Kilopower Media Event (May 2, 2018)
PPT A Lunar Fission Surface Power (FSP) System Presented to Nuclear
Fusion power plants don't have the meltdown risks that have caused problems with fission reactors like the Fukushima and Chernobyl sites. When a fusion reaction goes awry, it just fizzles out.
Nuclear Fission Power System On The Moon Photograph by Mikkel Juul
Three teams comprising some of the most prominent engineering and technology firms in the U.S. will provide initial designs for a fission surface power (FSP) system as part of a federal project.
Nuclear Fission Energy A Solution to Climate Change? (Part 2
Fission Surface Power System Study to evaluate the potential for an affordable FSP development approach. With a cost-effective FSP strategy identified, the FSP team evaluated design options and selected a Preliminary Reference Concept to guide technology development. Since then, the FSP
(PDF) Fission Surface Power System Power Control Strategies
Houston, TX - The Department of Energy and NASA awarded IX, a joint venture between Intuitive Machines and X-energy, a contract to conduct a one-year study to mature the design of a Fission Surface Power (FSP) solution that will deliver at least 40 kWe power flight system to the Moon by 2028. Intuitive Machines' deep understanding of the Moon, lunar environments, and the company's.
Nuclear fission power system on the Moon, illustration Stock Image
#1: Design a fission power source that supports Lunar and Mars surface exploration requirements #2: Leverage Industry design capability and terrestrial power technology investments #3: Build and ground test a flight-qualified, fully-integrated power system for a lunar demonstration Key Performance Points 40 kWe output at 120 Vdc
Lunar Fission Surface Power System construction complete
The Fission Surface Power (FSP) Technology Demonstration Unit (TDU) is a system-level demonstration of fission power technology intended for use on manned missions to Mars. The Baseline FSP systems consists of a 190 kWt UO2 fast-spectrum reactor cooled by a primary pumped liquid metal loop.
NASA Looks at Fission Reactors for Power on the Moon
NASA's fission surface power project expands on the efforts of the agency's Kilopower project, which ended in 2018. Currently, NASA is working with the Department of Energy (DOE) and industry to design a fission power system that would provide at least 40 kilowatts of power - enough to continuously run 30 households for ten years.
PPT A Lunar Fission Surface Power (FSP) System Presented to Nuclear
August 23rd - 25th, 2022 Christopher Barth, PhD (Presenter), David Pike, Steve Oleson, NASA Glenn Fission Surface Power and COMPASS Teams NASA Glenn Research Center, Cleveland, OH , 44135 Outline Project Overview Project goal Scope, implementation, and team structure System Studies Goals and history Review of 40 kW mobile reactor concept
Intuitive Machines and Xenergyled Team Awarded 5 Million to Provide
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Fission Surface Power Project NASA and DOE are collaborating on the development of a 10 kWe-class fission power system for a demonstration on the Moon by 2027, with extensibility to human Mars missions. Provides a near-term testing, and flight of a Will serve as a pathfinder operating other space
PPT A Lunar Fission Surface Power (FSP) System Presented to Nuclear
A Fission Surface Power System meets an identified need of the agency 2 FSP Scope and Implementation The project's scope includes the fission power system flight hardware, cable to transmit power, user I/F voltage converter, all development hardware and a one-year demonstration
FSPFission
FISSION SURFACE POWER Energy for Sustained Exploration ABOUT Returning to the Moon's surface for human and robotic missions is within reach with the assistance of the Fission Surface Power (FSP) project. This project works toward providing a power-rich environment supporting lunar exploration.
PPT A Lunar Fission Surface Power (FSP) System Presented to Nuclear
A fission surface power system works by splitting uranium atoms inside a reactor to generate heat that is then converted to electricity. This is the same physical process used by terrestrial reactors to generate power for use in homes, businesses, and industrial applications.
Fission Surface Power System_HD720p YouTube
Fission surface power - in conjunction with solar cells, batteries, and fuel cells - can provide the power to operate rovers, conduct experiments, and use the Moon's resources to produce water, propellant, and other supplies for life support.
NASA Kilopower nuclear reactor to fuel future moon and Mars missions
Fission surface power technologies also will help NASA mature nuclear propulsion systems that rely on reactors to generate power. These systems could be used for deep space exploration missions. NASA's fission surface power project is managed by the agency's Glenn Research Center in Cleveland.
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By NASA June 21, 2022 Fission surface power systems - depicted in this conceptual illustration - could provide reliable power for human exploration of the Moon under Artemis. Credit: NASA NASA and the U.S. Department of Energy (DOE) are working together to advance space nuclear technologies.