Optimization and Simulation of Startup Control for Space Nuclear Power Systems with Closed Brayton Cycle Based on Nuhexsys

Li, Chengyuan; Guo, Leran; Huang, Shanfang; Deng, Jian

doi:10.2139/ssrn.4998988

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Optimization and Simulation of Startup Control for Space Nuclear Power Systems with Closed Brayton Cycle Based on Nuhexsys

37 Pages Posted: 25 Oct 2024

See all articles by Chengyuan Li

Highlights1. Developed NuHeXSys analysis code to simulate transients of CBC.2. NSGA-II optimized startup control, reducing time by 1260 seconds.3. Reduced total external energy by 17.2% and peak power by 27.9% during startup.

Keywords: Helium-xenon cooling, Closed Brayton Cycle, Startup control optimization, NSGA-II

Suggested Citation: Suggested Citation

Li, Chengyuan and Guo, Leran and Huang, Shanfang and Deng, Jian, Optimization and Simulation of Startup Control for Space Nuclear Power Systems with Closed Brayton Cycle Based on Nuhexsys. Available at SSRN: https://ssrn.com/abstract=4998988 or http://dx.doi.org/10.2139/ssrn.4998988