SBIR-STTR Award

Cycle Optimization for Mass of Advanced Heat Exchangers Used in Nuclear Space Propulsion
Award last edited on: 3/22/2023

Sponsored Program
SBIR
Awarding Agency
NASA : GRC
Total Award Amount
$124,898
Award Phase
1
Solicitation Topic Code
Z1.07
Principal Investigator
Chad Everbeck

Company Information

Brayton Energy LLC

75B Lafayette Road
Hampton, NH 03842
   (603) 601-0450
   info@braytonenergy.com
   www.braytonenergy.com
Location: Multiple
Congr. District: 01
County: Rockingham

Phase I

Contract Number: 80NSSC21C0132
Start Date: 4/30/2021    Completed: 11/19/2021
Phase I year
2021
Phase I Amount
$124,898
Trade studies to recommend a novel, nuclear-fueled, recuperated, Closed Brayton Cycle (CBC) power system optimized for use in space are proposed. A CBC with nuclear heat source will need to incorporate at least three critical heat exchangers: Primary Heat Exchanger (PHX): transfers thermal power from the nuclear source, or secondary loop, to the engine’s working fluid at turbine inlet temperature Recuperator: exchanges heat from turbine exhaust to PHX inlet to improve cycle efficiency Radiator (or Pre-cooler): rejects heat from the cycle upstream of compressor inlet This program will include the preliminary design of the above components to arrive at defensible system-level mass estimates. The optimization of these critical heat exchanger components must be done collectively and in tandem with cycle and engine design efforts to appropriately capture the competing effects controlling total system mass. While architecture selection will favor production-ready heat exchanger concepts based on decades of related research, manufacture, and testing, the end result is predicted to be a novel blend of demonstrated fundamentals combined in new ways to achieve long, reliable life at extreme operating temperature and pressure with minimal mass. The special end use case of this system will likely require some deviation from established heat exchanger design methods, in which case preliminary design, analysis, fabrication, and lab demonstration of key innovations will be accelerated to fall within Phase I of the program. Potential NASA Applications (Limit 1500 characters, approximately 150 words): A robust thermal-to-electric power convertor directly supports long duration manned missions, such as exploration of Mars. Power conversion unit may also serve as stationary power bridge during critical power infrastructure buildout for lunar or planetary bases. Potential Non-NASA Applications (Limit 1500 characters, approximately 150 words): Supports power generation needs for the burgeoning private space travel sector. Additionally, this effort will support ongoing commercial nuclear gas turbine projects for terrestrial power generation progressing toward reduced system cost, mass, and complexity. Advancement of high pressure, temperature, & effectiveness heat exchangers has application in emerging non-fossil power generation. Duration: 6

Phase II

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Start Date: 00/00/00    Completed: 00/00/00
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