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个人简介
My education background is as follows:
- 2015–2020, Doctor of Philosophy, The Australian National University (ANU), Australia
- 2012–2014, Master of Science, Karlsruhe Institute of Technology (KIT), Germany & Uppsala University (UU), Sweden
- 2008–2012, Bachelor of Engineering, Zhejiang University (ZJU), China
My research interests are in optics, transport phenomena and chemical reaction engineering applied to solar-related systems. Fascinated by the fundamental aspects of solar-driven processes, I am devoted to advancing the understanding of multi-physics processes involving multi-phase/multi-component media at multiple scales using experimental and numerical approaches. The development of solar-driven chemical systems relies on advances in optics, materials, reactions and reactor design, as well as in multi-physics numerical modelling of complex thermochemical systems.
I am currently a research fellow at National University of Singapore (NUS), Singapore. My current research focuses on numerical and experimental investigations on photobioreactors for microalgae cultivation. The biochemical process inside a photobioreactor involves multi-physics, i.e. radiative transfer, fluid dynamics (gas-liquid flow), and cell growth kinetics. The objective is to achieve high-yield, low-cost, commercial-scale photobioreactor systems.
My doctoral study on Design, Modelling and Optimisation of Optical Systems for High-Temperature Concentrating Solar Applications (2015–2020) was aligned with the R&D project of High-Temperature Solar Thermal Energy Storage via Manganese-Oxide Redox Cycling sponsored by the Australian Renewable Energy Agency (ARENA).
In 2021, I performed postdoctoral research focused on the development of a packed-bed solar thermochemical reactor technology for solar energy storage and carbon dioxide (CO2) capture using calcination–carbonation chemical-looping cycling of calcium carbonate (CaCO3). A reactor prototype has been developed and is evaluated experimentally under simulated high-flux solar irradiation provided by the ANU high-flux solar simulator and numerically using advanced multiphase reactive flow models.
研究兴趣
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CHEMICAL ENGINEERING JOURNAL (2023): 143543-143543
CHEMICAL ENGINEERING JOURNAL (2023): 141342-141342
OSA Advanced Photonics Congress 2021 (2021)
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