Multi-objective topology optimization of heat pipe cooled reactor core subjected to thermo-mechanical loadings
The Heat Pipe Cooled Reactor (HPR) is a critical component for mobile energy supply in extreme environments, such as deep space exploration, deep-sea submersion, and remote engineering operations, where lightweight design is a key performance indicator. Existing studies primarily focus on the layout and sizing of the heat pipes, while the matrix, which serves as both the primary heat transfer medium and the load-bearing structure, constitutes a significant portion of the mass but has not been adequately explored.