J
Jin Yi
Researcher at Chinese Academy of Sciences
Publications - 59
Citations - 1772
Jin Yi is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Energy storage & Thermal energy storage. The author has an hindex of 11, co-authored 59 publications receiving 1512 citations. Previous affiliations of Jin Yi include State Grid Corporation of China & University of Leeds.
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Heat transfer and flow behaviour of aqueous suspensions of TiO2 nanoparticles (nanofluids) flowing upward through a vertical pipe
TL;DR: In this paper, stable aqueous TiO2 nanofluids with different particle sizes and concentrations were formulated and measured for their static thermal conductivity and rheological behaviour.
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Predicting thermal conductivity of liquid suspensions of nanoparticles (nanofluids) based on rheology
TL;DR: In this article, a methodology is proposed for predicting the effective thermal conductivity of dilute suspensions of nanoparticles (nanofluids) based on rheology, which uses the rheological data to infer microstructures of nanarticles quantitatively, which is then incorporated into the conventional Hamilton-Crosser equation to predict the effective TCE of nanofluid.
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Load shifting of nuclear power plants using cryogenic energy storage technology
TL;DR: In this paper, the authors proposed a novel solution by integrating nuclear power generation with cryogenic energy storage (CES) technology to achieve an effective time shift of the electrical power output.
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Thermal energy storage: Challenges and the role of particle technology ☆
Zhiwei Ge,Yongliang Li,Dacheng Li,Ze Sun,Jin Yi,Chuanping Liu,Chuan Li,Guanghui Leng,Yulong Ding,Yulong Ding +9 more
TL;DR: In this article, the authors provide a perspective of TES technology with a focus on TES materials challenges using molten salts based phase change materials for medium and high temperature applications, and propose a hierarchical structure that is able to encapsulate the molten salt and give a substantial enhancement in the thermal conductivity.
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A one-step method for producing microencapsulated phase change materials
TL;DR: In this article, the synthesis and characterisation of microcapsules of phase change materials using silica as the shell material through a one-step method was reported, where no surfactants or dispersants were used for stabilizing the capsules.