27 Papers
1 Citations
Ke Gao is an academic researcher from Nanjing University of Aeronautics and Astronautics. The author has contributed to research in topics: Chemistry & Thermal energy storage. The author has an hindex of 2, co-authored 5 publications.
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Papers
Bionic topology optimization of fins for rapid latent heat thermal energy storage
Yang Tian,Xianglei Liu,Qiao Xu,Qingyang Luo,Hangbin Zheng,Chao Song,Zhonghui Zhu,Ke Gao,Chunzhuo Dang,Haolei Wang,Yimin Xuan +10 more
TL;DR: In this article, a bionic topology optimization method is proposed to enhance thermal storage/release performances considering different objective functions and heat transfer mechanisms, and the optimized fin structure can reduce the melting and solidification time by 93% and 80%, respectively.
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Bamboo derived SiC ceramics-phase change composites for efficient, rapid, and compact solar thermal energy storage
Xianglei Liu,Meng Chen,Qiao Xu,Ke Gao,Chunzhuo Dang,Ping Li,Qingyang Luo,Hangbin Zheng,Chao Song,Yang Tian,Haichen Yao,Yi Jin,Yimin Xuan,Yulong Ding +13 more
TL;DR: In this article , a high performance solar thermal energy storage benefits from continuous thermal conductive channels and excellent solar absorptance of BSiC/PCMs composites is presented.
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Thermochemical heat storage performances of fluidized black CaCO3 pellets under direct concentrated solar irradiation
Hangbin Zheng,Xianglei Liu,Yimin Xuan,Chao Song,Dachuan Liu,Qibin Zhu,Zhonghui Zhu,Ke Gao,Yongliang Li,Yulong Ding +9 more
TL;DR: In this article, a different solar thermochemical heat storage system based on direct solar illumination on fluidized black CaCO3 pellets is proposed, and the peak solar-chemical efficiency reaches a value higher than 43% benefiting from enhanced solar absorptance, higher gas velocity and irradiative flux.
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Sr-doped SmMnO3 perovskites for high-performance near-isothermal solar thermochemical CO2-to-fuel conversion
Ke Gao,Xianglei Liu,Tong Wang,Zhonghui Zhu,Ping Li,Hangbin Zheng,Chao Song,Yimin Xuan,Yongliang Li,Yulong Ding +9 more
TL;DR: In this article, the Sr-doped SmMnO3 was proposed for moderate-temperature near-isothermal CO2-to-fuel conversion and achieved a record-high isothermal cycle CO yield (376.1 μmol g−1) at no more than 1300 °C, which is 5.6 times as high as that of CeO2 under the same cycling conditions between 1300 and 1000 °C.
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