The invention relates to a cooling architecture for low-temperature and superconducting power systems using on-board liquid hydrogen and a method for managing the cooling temperature of power system components. The cooling architecture includes at least one heat exchanger configured to transfer heat from the first fluid to the second fluid. The first fluid of each heat exchanger may be liquid hydrogen (H2), and the second fluid of each heat exchanger may be gaseous helium (He), liquid neon, or liquid nitrogen (N2).
本发明涉及用于使用机载液态氢的低温和超导动力系统的冷却架构和用于管理动力系统部件的冷却温度的方法。冷却架构包括至少一个热交换器,热交换器被配置成将热从第一流体传递至第二流体。每个热交换器的第一流体可以是液态氢(H2),并且每个热交换器的第二流体可以是气态氦(He)、液态氖或液态氮(N2)。
Cooling architecture for low-temperature and superconducting power systems using on-board liquid hydrogen and method of managing cooling temperature of power system components
使用机载液态氢的低温和超导动力系统的冷却架构和管理动力系统部件的冷却温度的方法
2024-09-27
Patent
Electronic Resource
Chinese
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