WebApr 3, 2015 · The SNAP 10A reactor, built by North American Aviation’s Atomic International Division, had 37 fuel-moderator elements that used uranium-235 as the nuclear fuel and zirconium hydride as a moderator … WebThe reactor measured 39.62 cm (15.6 in) long, 22.4 cm (8.8 in) diameter and held 37 fuel rods containing 235U as uranium-zirconium-hydride fuel. The SNAP-10A reactor was designed for a thermal power output of 30 kW and unshielded weighed 650 lb (290 kg). The reactor can be identified at the top of the SNAP-10A unit.
SNAP 10A: First Nuclear Reactor In Space 1965 Atomic Energy ... - Vimeo
WebSNAP 8 was the first reactor designed with these space stations in mind in mind. While SNAP-10A was a low-power system (at 500 watts when flown, later upgraded to 1 kW), and SNAP-2 was significantly larger (3 kW), there was a potential need for far more power. Crewed space stations take a lot of power (the ISS uses close to 100 kWe, as an … WebDesign of the SNAP 10A reactor Full Record Related Research Publication Date: Wed Apr 15 00:00:00 EST 1964 Research Org.: Atomics International, Canoga Park, CA (United States) Sponsoring Org.: Sponsor not identified OSTI Identifier: 4882434 Report Number (s): CONF-505-5 NSA Number: NSA-18-024944 Resource Type: Conference Resource … dick\u0027s sporting goods dayton ohio
Systems for Nuclear Auxiliary Power National Aeronautics and …
WebSNAP 10A reactor design summary, revision 1 Full Record Related Research Authors: Davis, W W; Susnir, J + Show Author Affiliations Publication Date: Mon Oct 26 00:00:00 … WebSNAP-8, a 35-kWe mercury-based Rankine system for space applications and SNAP-10, a 300-We conductively cooled thermoelectric system. This technology base gave decision -makers the confidence to conduct the first flight of a nuclear reactor using SNAP-10A, a reactor that combined aspects of SNAP-2 technology and SNAP-10 technology. SNAP … WebMay 1, 2009 · These reactors include the former Soviet Union's “BUK” and TOPAZ and the US SNAP-10A. These power systems were designed for low electrical power and short missions (∼0.5 kW e and ∼1year for SNAP-10A, <3.0 kW e and <6 months for BUK, and ∼5.5 kW e and up to 1 year for TOPAZ). city bridge trust infrastructure funding