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一种基于光谱自适应调控和月壤储热的月夜发电系统
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作者 孙文淦 赵斌 +3 位作者 石凌峰 胡茂彬 李木军 裴刚 《南京航空航天大学学报》 CAS CSCD 北大核心 2022年第S01期61-67,共7页
针对月球基地的能量储存及月夜期间能量供应问题,提出了一种基于光谱自适应吸收/发射平板和月壤储热的月夜发电系统。该系统通过使用加工后的月球土壤以实现月昼期间储存太阳辐射能量、月夜期间放热发电的功能。此外,该系统通过使用一... 针对月球基地的能量储存及月夜期间能量供应问题,提出了一种基于光谱自适应吸收/发射平板和月壤储热的月夜发电系统。该系统通过使用加工后的月球土壤以实现月昼期间储存太阳辐射能量、月夜期间放热发电的功能。此外,该系统通过使用一种光谱自适应吸收/发射平板,在月昼期间实现太阳辐射波段(0.3~2.5μm)高吸收和红外波段(3~30μm)低发射特性、在月夜期间实现红外波段(3~30μm)高发射特性,将太阳能集热平板与辐射散热平板合二为一,极大地减少了地月运输的有效载荷,降低了发射成本。模拟结果显示,该系统的比功率约为5.12 W/kg,而光伏-锂电池系统的比功率约为0.83 W/kg。此外,与储能总量相同的光伏-锂电池系统相比,该系统的发射总质量降低了约83%。 展开更多
关键词 月壤储热 太阳能热发电 光谱自适应调控
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Performance analysis of a photovoltaic/thermal system with lunar regolith-based thermal storage for the lunar base 被引量:1
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作者 SUN WenGan ZHAO Bin +5 位作者 PEI Yu SHI LingFeng hu maobin LI MuJun REN Xiao PEI Gang 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2024年第4期1113-1123,共11页
Powering a moon base,especially keeping it warm during the long lunar night,is a big challenge.This paper introduces a photovoltaic/thermal(PV/T)system incorporating regolith thermal storage to solve the challenge of ... Powering a moon base,especially keeping it warm during the long lunar night,is a big challenge.This paper introduces a photovoltaic/thermal(PV/T)system incorporating regolith thermal storage to solve the challenge of power and heat provision for the lunar base simultaneously.The vacuum of space around the moon helps this system by reducing heat loss.During the moon's daytime,the system not only generates electricity but also captures heat.This stored heat in the regolith is then used at night,reducing the amount of equipment we need to send from Earth.The spectrally selective PV/T panels are designed to absorb a wide range of sunlight(0.3–2.5μm)while minimizing heat loss in the infrared range(3–30μm).Simulation results of the hybrid solar energy system indicate the average value of the overall efficiency is 45.9%,which relatively elevates 56.1%compared to the PV system.The launch mass of the proposed PV/T system is only 8.4%of a traditional photovoltaic-lithium battery system with the same amount of energy storage.And the total specific energy of the proposed system is 7.3 kWh kg^(-1),while that of the photovoltaic-lithium battery system is about 0.3 kWh kg^(-1).In summary,this study proposes an alternative combined heat and electricity supply system for the lunar base,which can greatly reduce the launch mass and free up load for other scientific research equipment. 展开更多
关键词 in-situ resource utilization(IRSU) regolith thermal storage photovoltaic/thermal(PV/T) spectral selectivity
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