Personal profile
Guangtai SHI,postdoctor,Master's Supervisor;Research direction:flow mechanism and efficient design method within fluid machinery, wind turbine aerodynamics;Preside over and take part in 20 scientific research projects, where 4 state projects; Published 80 academic papers, where 38 is included by SCI, 8is included by EI;Apply for a patent for invention 23 item; Writed 2 textbooks and 3 academic monograph;At the same time, part-time job reviewer of《Renewable Energy》,《Part E: Journal of Process Mechanical Engineering》,《Advances in Mechanical Engineering》and《Journal of drainage and irrigation machinery engineering》. |
Work experience
Education experience
2016/05-2018/05 Tsinghua university Power engineering and engineering thermophysicspostdoctor 2012/09-2015/06 Lanzhou University of TechnologyFluid machinery and engineeringDoctor2010/09-2013/06 Lanzhou University of TechnologyFluid machinery and engineeringMaster2006/09-2010/06 Lanzhou University of TechnologyFluid machinery and engineeringBachelor |
Research Direction
1. Study on internal flow mechanism of fluid machinery 2. Fault diagnosis and analysis of hydropower station 3. Pumped storage power generation and energy storage technology 4. Oil and gas mixed transport equipment and industrial application 5. Design and application of residual pressure energy recovery turbine 6. Multiphase flow theory and application under complex working conditions |
Academic Achievements
Preside over and take part in project ·China Postdoctord Science Foundation(2016M600090),Subjects name:Research of various running conditions operational mechanism of oil-gas multiphase pump based on the compressibility of gas,Funding level:1. ·Scientific research project of Sichuan Provincial Department of Education, Subjects name:Research of flow characteristic of helico-axial oil-gas multiphase pump. ·Key scientific research fund of Xihua University(Z1510417),Subjects name:Research of unsteady flow characteristic of hydraulic turbine under the condition of gas liquid two phase. ·Open Research Subject of Key Laboratory of Fluid and Power Machinery, Ministry of Education of Xihua University(szjj2016-004),Subjects name:Transient the hydraulic vibration mechanism and control of hydraulic turbine. ·National Sci-Tech Support Plan(2012BAA08B00),Subjects name:Liquid pressure energy recovery hydraulic turbine. ·Natural Science Foundation of China(51169010),Subjects name:Research of unsteady flow characteristic and hydraulic characteristics of hydraulic turbine under the condition of gas liquid two phase. Published academic papers SCI: [1] Shi Guangtai, Yang Junhu, Miao Senchun, et al. Theoretical research of hydraulic turbine performance based on slip factor within centripetal impeller[J]. Advances in Mechanical Engineering, 2015, 7(7):1-12. (SCI, IDS:CO0SN) [2] Guangtai SHI, Xiaobing LIU, Zhengwei WANG, et al. Conversion relation of centrifugal pumps as hydraulic turbines based on the amplification coefficient[J]. Advances in Mechanical Engineering, 2017, 9(3):1-8. (SCI, IDS: ET6LL) [3] Guangtai SHI, Zhiwen WANG, Zhengwei WANG, Zhenggui LI, Xiaobing Liu. Research on the Pressurization Performance of an Impeller in a Multi-phase Pump under Different Working Conditions[J]. Advances in Mechanical Engineering, 2019, 11(3):1-11. (SCI, IDS: HP9PT) [4] Shi Guangtai, Liu Zongku,Xiao Yexiang, Li Helin, Liu Xiaobing. Tip leakage vortex trajectory and dynamics in a multiphase pump at off-design condition[J]. Renewable Energy ,150(2020):703-711.(SCI一区,WOS:000518874500059,IDS 号: KT2VU,EI:20200308032765,Impact factor:8.001) [5] Shi Guangtai, Liu Zongku,Xiao Yexiang, Yang Hong, Li Helin, Liu Xiaobing. Effect of the inlet gas void fraction on the tip leakage vortex in a multiphase pump[J]. Renewable Energy,150(2020):46-57.(SCI一区,WOS:000518874500005,IDS 号:KT2VU,EI:20200107979726,Impact factor:8.001) [6]Guangtai SHI, Zongku LIU, Yexiang XIAO, Zhengwei WANG, Yongyao LUO, Kun LUO . Energy conversion characteristics of multiphase pump impeller analyzed based on blade load spectra [J]. Renewable Energy, 157(2020):9-23.(SCI一区,WOS:000541747100002,IDS 号: MA2LB,EI:20202008642423,Impact factor:8.001) [7]Guangtai SHI, Zongku LIU,Yexiang XIAO,Helin LI,Xiaobing LIU. Velocity characteristics in a multiphase pump under different tip clearances [J].Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2021,235(3):454-475.(SCI三区,WOS: 000554530800001,IDS 号: RS6RL,EI:20203109003812) [8] Guangtai Shi, Zongku Liu, Xiaobing Liu, Yexiang Xiao, Xuelin Tang. Phase Distribution in the Tip Clearance of a Multiphase Pump at Multiple Operating Points and Its Effect on the Pressure Fluctuation Intensity[J]. Processes, 2021,9(3):1-15.JCR2, Impact factor : 2.847. WOS:000634212900001, IDS 号: RE5SF [9] Guangtai Shi, Dandan Yan, Xiaobing Liu, Yexiang Xiao, Zekui Shu. Effect of the Gas Volume Fraction on the Pressure Load of the Multiphase Pump Blade[J]. Processes, 2021, 9(4):1-15. JCR2, Impact factor: 2.847. WOS:000643634200001, IDS 号: RS2TL [10] Shi Guangtai, Tao Sijia, Liu Xiaobing, Wen Haigang, Shu Zekui. Effect of gas volume fraction on the gas-phase distribution in the passage and blade surface of the axial flow screw-type oil-gas multiphase pump [J]. Processes, 2021,9(5):1-15.JCR2, Impact factor:2.847. WOS: 000654490000001, IDS 号: SI0AD [11] Guangtai Shi, Yue Dan, Yexiang Xiao, Zekui Shu,Xiaobing Liu. Effect of the inlet gas volume fraction on the turbulent dissipation characteristics in the multiphase pump[J]. Proceedings of the Institution of Mechanical Engineers, Part C Journal of Mechanical Engineering Science,2021 [12] Guangtai Shi, Yue Dan, Xiaobing Liu, Zekui Shu. Effect of the Inlet Gas Void Fraction on the Work Performance of the Multiphase Pump at Different Cavitation Stages [J]. Processes, 2021,9(6):1-18.JCR2, Impact factor:2.847. WOS: 000666958500001 , IDS号:TA0PX [13] Guangtai SHI, Shan WANG,Yexiang XIAO, Zongku LIU, Helin LI,Xiaobing LIU. Effect of cavitation on energy conversion characteristics of a multiphase pump[J]. Renewable Energy, 177(2021):1308-1320. WOS:000683553600006, IDS号:TY1OE,Impact factor:8.001 [14] Guangtai Shi, Helin Li, Xiaobing Liu*, Zongku Liu*, Binxin Wang. Transport Performance Improvement of a Multiphase Pump for Gas-Liquid Mixture Based on the Orthogonal Test Method [J]. Processes, 2021,9(8):1-18.JCR2, Impact factor 2.847. WOS: 000690170000001, IDS 号: UH8JO [15]Guangtai Shi, Zongku Liu, Yexiang Xiao, Zekui Shu,Xiaobing Liu. Pressure fluctuation characteristics in the pressurization unit of a multiphase pump[J].Journal of Hydrodynamics,2021 [16] Huang Zongliu, Shi Guangtai*, Liu Xiaobing*, Wen Haigang. Effect of flow rate on turbulence dissipation rate distribution in a multiphase pump[J]. Processes, 2021,9(5):1-19.JCR2, Impact factor:2.847. WOS: 000654698000001, IDS 号: SI3AM [17] Zhu JIANG, Haiying LI*,Guangtai SHI*, Xiaobing LIU. Flow Characteristics and Energy Loss within the Static Impeller of Multiphase Pump [J]. Processes, 2021,9(6):1-18.JCR2, Impact factor: 2.847. WOS: 000666661100001, IDS 号: SZ6GK [18]Jianwei Shi,Sijia Tao*,Guangtai Shi*,Wenwu Song. Effect of Gas Volume Fraction on the Energy Loss Characteristics of Multiphase Pumps at Each Cavitation Stage [J].Water, 2021, 13(16):1-13.JCR1, Impact factor:3.103, WOS: 000690056300001, IDS号: UH6RV [19] Nengqi Kan, Zongku Liu*, Guangtai shi *, Xiaobing Liu. Effect of Tip Clearance on Helico-Axial Flow Pump Performance at Off-Design Case [J]. Processes, 2021,9(9):1-16.JCR2, Impact factor: 2.847. WOS: 000701889100001, IDS 号: UZ0FQ EI: [1]Shi Guangtai, Yang Junhu, Miao Senchun. Analytical methods and verification for determining slip factor at impeller outlet of centrifugal pumps as turbines [J]. Transactions of the CSAE,2015, 31(11):66-73. (EI:20152701006226) [2]SHI Guang-tai, YANG Jun-hu, MIAO Sen-chun, et al.Calculation of pressure fluctuation within volute of hydraulic turbine under different guide vane numbers[J].Journal of Aerospace Power,2015, 30(5): 1228-1235. (EI:20152801022785) [3]Shi Guangtai, Yang Junhu. Calculation method of slip factor for impeller outlet of centrifugal pump as hydraulic [4]SHI Guang-tai, YANG Jun-hu, MIAO Sen-chun, et al.Unsteady calculation of pressure pulsations within hydraulic turbine under different entrance sections[J].Journal of Aerospace Power,2016, 31(3):659-668. (EI:20161602269721) [5]SHI Guang-tai,YANG Jun-hu, LIU Xiao-bing, et al.Effect of guide vane on the stability of a set of hydraulic turbine runs[J].Journal of Vibration Engineering,2016,29(4):609-615. (EI:20163802821791) [6] Yang Junhu, Miao Senchun,Shi Guangtai, et al. Numerical study of the effect of splitter blade’s main geometric parameters on the performance of pump as turbine[J]. Energy Education Science and Technology Part A: Energy Science and Research, 2014, 32(2): 1005-1015. (EI:20142317785721) Apply for a patent: ·Yang Junhu,Shi Guangtai. The hydraulic turbine generating set is put in sewage conduit,China,patent for invention,201310436062.2. ·Shi Guangtai,Liu Ynag,Zhang Weibin,Hua Hong,Lv Wenjuan,Ji Lei,Liu Zhong. A kind of adjustable paddle vertical axis wind turbine rotor,China,patent for invention,2016104056749. ·Shi Guangtai,Liu Ynag,Zhang Weibin,Hua Hong,Lv Wenjuan,Ji Lei,Liu Zhong.A kind of adjustable paddle vertical axis wind turbine rotor,China,Utility Model,ZL201620560470.8. ·Shi Guangtai,Liu Xiaobing,Zhang Weibin,Hua Hong,Luo Kun,Wang Zhiwen. A turbine governor control system based on computer control,China,patent for invention. ·Shi Guangtai,Liu Xiaobing,Zhang Weibin,Hua Hong,Wang Zhiwen,Luo Kun. Based on the remote control of double vane impeller fan control system,China,patent for invention. ·Shi Guangtai,Liu Xiaobing,Zhang Weibin, Hua Hong,Luo Kun,Wang Zhiwen. A vertical axis wind turbines to the control system,China,patent for invention. Monograph ·Shi Guangtai,Miao Senchun.《Theory Design and Optimization of Hydraulic Turbine》,China Machine Press,2017. Textbook ·Chief editor:Zhao Qin,subeditor:Lv Wenjuan,Hua Hong,Shi Guangtai.《Fluid mechanics and fluid machinery》,China WaterPower Press,2016,Beijing. ·Chief editor:Zhang Fengyu,subeditor:Chen Xiaorui,Wang Xiuyong,Nan Junhu.《Fluid mechanics 》,China WaterPower Press,2013,Beijing.(participant) |