Title
Prospective Assistant Professor
√ Master Guide
Colleges and Majors
Department of Energy and Power Engineering, School of Mechanical and Vehicle Engineering
Office Address
Beijing Institute of Technology Zhongguancun Campus Booster Building 325
post 100081
Office Phone
010-68912395
By mail
liutaotao@bit.edu.cn

I have long been engaged in research in the direction of multiphase fluid dynamics across media. In the basic research fields of gas-liquid multiphase flow and cavitation dynamics, I have conducted in-depth research on the evolution law of turbulent structure of unsteady cavitation and aerated gas-liquid multiphase flow. He presided over 4 projects such as Natural Science Foundation and Beijing Natural Science Foundation, and 2 equipment pre-research projects. With the support of the above projects, the observation and measurement technology and numerical calculation method of complex cavitation flow field and gas-liquid multiphase flow field have been formed, and they have been applied to the study of complex multiphase turbulence geometry, characteristic scale, spatio-temporal evolution and unsteady mechanism, and the mechanism and application of load characteristics and inhibition of underwater vehicles. In recent years, he has published more than 20 SCI/EI search papers in international and domestic authoritative journals such as Phys. Review Fluids, Phys. Fluids, Ocean Engineering and Orography, and so on. He has authorized 8 invention patents and 2 software Copyrights.
Taotao Liu, Biao Huang, Guoyu Wang, etc. Experimental investigation of the flow pattern for ventilated partial cavitating flows with effect of Froude number and gas entrainment. Ocean Engineering 2017, 129: 343-351.
Taotao Liu, Biao Huang, Guoyu Wang, etc. Experimental investigation of ventilated partial cavitating flows with special emphasis on flow pattern regime and unsteady shedding behavior around an axisymmetric body at different angles of attack. Ocean Engineering 2018, 147: 289-303.
Guoyu Wang, Decai Kong, Qin Wu, Taotao Liu*, et al. Physical and numerical study on unsteady shedding behaviors of ventilated partial cavitating flow around an axisymmetric body. Ocean Engineering, 2020, 197: 106884.
Yafei Lv, Mengjie Zhang, Taotao Liu*, et al. Physical and numerical study on the transition of gas leakage regime of ventilated cavitating rule-ow. Ocean Engineering, 2021: 109861.
Yafei Lv, Deicai Kong, Taotao Liu*, et al. Unsteady behavior of ventilated cavitating thoroughly ows around an axisymmetric body. Ocean Engineering, 2021: 109308.
Jie Chen, Biao Huang, Taotao Liu*, et al. Numerical investigation of cavitation-vortex interaction with special emphasis on the multistage shedding process. Applied Mathematical Modelling, 2021, 96: 111-130.
Yafei Lv, Haipeng Wei, Taotao Liu*, et al. Numerical investigation of the round jet in crossflow at high velocity ratios with special emphasis on the evolution of vortex structures. Physics of Fluids, 2022, 34: 034116.
Mengjie Zhang, Meijing Wang, Taotao Liu*, et al. Hydrodynamic characteristics of a pitching hydrofoil in unsteady uniform inflow with special emphasis on the hysteresis effect. Ocean Engineering, 2023, 269: 113596.
Liu Ying, Duan Zhongping, Liu Taotao, et al. Experimental study on flow characteristics of cavitation around a cavitating body. Journal of Harbin Engineering University, 2021, 42(1): 74-81.
Tian Beichen, Liu Taotao, Wu Qin, et al. Numerical simulation of motion characteristics of transmedium aircraft touching water. Acta Ordnance Engineering Sinica, 2022, 43(3): 586-598. (br>) Invention patent
Liu Taotao, Wu Qin, Zhang Mengjie, Huang Biao, Wang Guoyu, Ma Biao. Visual observation system of underwater thruster jet flow field based on circulating water tunnel. CN201910431619.0. < br > Liu Taotao, Wu Qin, Zhang Mengjie, Huang Biao, Wang Guoyu, Ma Biao. The utility model relates to a submerged gas-liquid two-phase jet unsteady flow field measurement system. CN201910430890.2. < br > Liu Taotao, Hao Liang, Lv Yafei, Huang Biao, Wang Guoyu. The invention relates to an experimental method and device for intelligent ventilation control based on self-adaptation. CN202111125968.3. < br > Liu Taotao, Tian Beichen, Chen Jie, Liu Xinran, Wang Kai, Wu Qin, Huang Biao. The invention relates to a multi-mode water entry experimental launching device. CN202110886044.9. < br >

(1) Fluid dynamics of transdielectric vehicles;
(2) Complex gas-liquid multiphase flow.

(1) Fluid dynamics of transdielectric vehicles;
(2) Complex gas-liquid multiphase flow.

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