Faculty

Information
Name:Diangui HUANG
Email:dghuang@usst.edu.cn
Research Interests:Turbomachinery Aero-Thermal Division, Wind energy absorption mechanism, computational fluid dynamics
Education Background & Work Experience
Research Achievements
Teaching Courses
Academic Activities
Honors

Education Background & Work Experience

Education Background

Sept. 1982-Jun. 1987     Tsinghua University of thermal engineering Bachelor's degree of Gas Turbine

Sept. 1987-Dec. 1989    Tsinghua University of thermal engineering Master's degree of Gas Turbine

Sept. 1992-Oct. 1994     Tsinghua University of thermal engineering doctorate of Gas Turbine

Work Experience

Mar. 2013-now, University of Shanghai for Science and Technology, School of Energy and Power Engineering, Professor 

Dec. 2003-Mar. 2013, Shanghai University, Shanghai Institute of Applied Mathematics and Mechanics, Researcher

Oct. 1994-Dec. 2003, Southeast University, Department of Dynamics, Lecturer and Associate Researcher

Dec. 2002-Dec. 2003, Miami University, Visiting Scholar

Dec. 1989-Aug. 1992, Hai 'an Equipment Installation Company, Assistant engineer and engineer


Research Achievements

Project

There are 10 National Natural Science Foundation projects, including 3 key projects, 6 other national provincial and ministerial projects, and more than 20 projects entrusted by large state-owned enterprises. 

[1] Key Project of National Natural Science Foundation of China, Study on the mechanism of traveling wave wind energy/water flow energy absorption, Jan. 2021-Dec. 2015, Project leader.

[2] Major Project of Basic Science Center of China and China, Principle Configuration of gas-supercritical carbon dioxide combined cycle with fuel reforming, September 2021 -- December 2022.12, Project leader.

[3] Key Project of National Natural Science Foundation of China, Study on the physical mechanism of a new flow control method, 2016/01-2020/12, Conclusion, Presided over.

[4] National Natural Science Foundation of China (NSFC), Numerical and experimental study on the mechanism of local cooling inhibiting cavitation formation, 2013/01-2017/12, Conclusion, Presided over.

[5] Basic Algorithms and Computable Modeling for High Performance Scientific Computing, Research on three-dimensional unsteady supercavitation flow Mechanism, 2016/01-2016/12, Conclusion, Presided over.

[6] National Natural Science Foundation of China (NSFC) Major Research Project Basic Algorithms and Computable Modeling for High Performance Scientific Computing, Numerical calculation method of two-phase flow field with phase transition, 2012/01-2014/12, Conclusion, Presided over.

[7]  National Natural Science Foundation of China (NSFC), Theoretical and experimental research on the mechanism of heating enhanced cavitation process, 2009/01-2011/12, Conclusion, Presided over.

[8] Key Project of National Natural Science Foundation of China, Research on the mechanism of wind energy Absorption and aeroelastic stability of large wind turbine blades, 2009/01-2012/12, Conclusion, Presided over.

[9] Research on three-dimensional unsteady cavitation mechanism and energy conversion characteristics in Turbopoups, National Natural Science Foundation of China, 2006/01-2008/12, Conclusion, Presided over.

[10] National Natural Science Foundation of China, Research on Stability of Several Important Components of large Rotating Machinery, 1997/01-1999/12, Conclusion, Presided over.

Published Paper

[1] Ma Q, Ding L, Huang D. A study on the influence of schooling patterns on the energy harvest of double undulatory airfoils[J]. Renewable Energy, 2021, 174: 674-687.

[2] Shi X, Sun J, Zhong S, et al. Flow control of a stalled S809 airfoil using an oscillating micro-cylinder at different angles of attack[J]. Renewable Energy, 2021, 175: 405-414.

[3] Xu B, Ma Q, Huang D. Research on energy harvesting properties of a diffuser-augmented flapping wing[J]. Renewable Energy, 2021, 180: 271-280.

[4] Sun J, Sun X, Huang D. Aerodynamics of vertical-axis wind turbine with boundary layer suction–Effects of suction momentum[J]. Energy, 2020, 209: 118446.

[5] Luo D, Huang D. Thermodynamic and exergoeconomic investigation of various SCO2 Brayton cycles for next generation nuclear reactors[J]. Energy Conversion and Management, 2020, 209: 112649.

[6] Luo D, Sun X, Huang D. Design of 1+ 1/2 counter rotating centrifugal turbine and performance comparison with two-stage centrifugal turbine[J]. Energy, 2020, 211: 118628.

[7] Sun X, Ji F, Zhong S, et al. Numerical study of an Undulatory Airfoil with different leading edge shape in power-extraction regime and propulsive regime[J]. Renewable Energy, 2020, 146: 986-996.

[8] Liu Y, Wang Y, Huang D. Supercritical CO2 Brayton cycle: A state-of-the-art review[J]. Energy, 2019, 189: 115900.

[9] Qi Y, Xu S, Huang D. Investigation on aerodynamic performance of horizontal axis wind turbine by setting micro-plate in front of the blade leading edge[J]. Renewable Energy, 2021, 179: 2309-2321.


Teaching Courses

【Undergraduate course】 Steam turbine principle, professional innovation practice training


Academic Activities


Honors