2006 IEEE Aerospace Conference
DOI: 10.1109/aero.2006.1656163
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Experiences in Managing the Prometheus Project

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“…Although the project was led by the US Jet Propulsion Laboratory, the reactor work was led from 2004 onwards by Naval Reactors, but involved in total a few dozen US entities and 500 full-time equivalent staff when it was discontinued in 2005 based on a life-cycle cost estimate (including the launch vehicle) or more than $10B [37]. Technically, the design centred on a high-temperature gas-cooled reactor directly coupled with redundant Brayton turbo alternators for power conversion with the capability of producing approximately 200 kW of electrical power for a 15-20-year nuclear electric propulsion mission [37]. It was foreseen that the reactor would power a very ambitious spacecraft to be launched first in 2015 with a wet mass of more than 36 tons, including 12 tons of xenon propellant, a total length of 58 m, and a radiator area of 422 m 2 [37,38].…”
Section: Us Fission Reactorsmentioning
confidence: 99%
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“…Although the project was led by the US Jet Propulsion Laboratory, the reactor work was led from 2004 onwards by Naval Reactors, but involved in total a few dozen US entities and 500 full-time equivalent staff when it was discontinued in 2005 based on a life-cycle cost estimate (including the launch vehicle) or more than $10B [37]. Technically, the design centred on a high-temperature gas-cooled reactor directly coupled with redundant Brayton turbo alternators for power conversion with the capability of producing approximately 200 kW of electrical power for a 15-20-year nuclear electric propulsion mission [37]. It was foreseen that the reactor would power a very ambitious spacecraft to be launched first in 2015 with a wet mass of more than 36 tons, including 12 tons of xenon propellant, a total length of 58 m, and a radiator area of 422 m 2 [37,38].…”
Section: Us Fission Reactorsmentioning
confidence: 99%
“…Technically, the design centred on a high-temperature gas-cooled reactor directly coupled with redundant Brayton turbo alternators for power conversion with the capability of producing approximately 200 kW of electrical power for a 15-20-year nuclear electric propulsion mission [37]. It was foreseen that the reactor would power a very ambitious spacecraft to be launched first in 2015 with a wet mass of more than 36 tons, including 12 tons of xenon propellant, a total length of 58 m, and a radiator area of 422 m 2 [37,38].…”
Section: Us Fission Reactorsmentioning
confidence: 99%