羅永要

1998.9-2002.7 清華大學熱能工程系熱能動力工程 學士

2002.9-2005.7 清華大學熱能工程系動力工程及工程熱物理 碩士

2007.9-2010.12 清華大學熱能工程系動力工程及工程熱物理 博士

2005.7-2007.8 清華大學熱能工程系助理工程師

2011.1-2013.2 清華大學水利水電工程系 博士後

2011.6-2012.6 澳大利亞伍倫貢大學博士後

2013.3-2019.12 清華大學能源與動力工程系 助理研究員

2019.12-至今 清華大學能源與動力工程系 副研究員

流體機械結構強度最佳化設計

流體機械多體系統流固耦合動力學特性研究

波浪能發電裝置與來流波浪的流固耦合機理

（1）提高現代水力發電系統運行穩定性關鍵技術研究，教育部科學技術進步獎二等獎，2011年，排名第10；

（2）燈泡貫流式水輪機瞬態過程水力特性與疲勞壽命關鍵技術研究，水利部大禹水利科學技術獎二等獎，2012年，排名第3；

（3）水輪發電機組教學平台，清華大學優秀教學軟體一等獎，2012年，排名第3；

（4）水力機械轉輪流固耦合動力特性研究，水利部大禹水利科學技術獎二等獎，2014年，排名第2。

（5）三葉片新型潮汐發電機組設計、製造及工程示範建設研究，海洋工程科學技術獎二等獎，2019年，排名第7。

作為項目負責人主持國家自然科學基金面上、青年項目各1項；完成中國博士後科學基金面上項目1項。作為學術骨幹參與國家自然科學基金重點項目1項，面上項目3項。

發表的主要學術論文如下：

[1]Yongyao Luo, Xin Liu, ZhengweiWang, Yexiang Xiao, Chenglian He, Yiyang Zhang. Optimization of the Runner for Extremely Low HeadBidirectional Tidal Bulb Turbine. Energies, 2017, 10:787.SCI: EZ0HT

[2]Liming Zhai,Yongyao Luo,Xin Liu,Funan Chen,Yexiang Xiao,Zhengwei Wang. Numerical simulations for the fluid-thermal-structural interaction lubrication in a tilting pad thrust bearing. Engineering Computations, 2017, 34(4):1149-1165. SCI.

[3]Xin Liu, Lingjiu Zhou, Xavier Escaler, Zhengwei Wang, Yongyao Luo. Numerical Simulation of Added Mass Effects on a Hydrofoil in CavitatingFlow Using Acoustic Fluid–Structure Interaction. Journal of Fluids Engineering, 2017, 139:041301. SCI: EM2BD.

[4]Zhai Liming, Luo Yongyao, Wang Zhengwei, Liu Xin, Xiao Yexiang. A review on the large tilting pad thrust bearings in the hydropower units. Renewable and Sustainable Energy Reviews, 2017, 69:1182-1198. SCI: EJ2BX.

[5]Xin Liu, Yongyao Luo, Zhengwei Wang. A review on fatigue damage mechanism in hydro turbines.Renewable and Sustainable Energy Reviews, 2016, 54:1-14. SCI：DA4GM.

[6]Zhai Liming, Luo Yongyao, Wang Zhengwei. 3D Two-way Coupled TEHD Analysis on the Lubricating Characteristics of Thrust Bearings in Pump-turbine Units by Combining CFD and FEA. CHINESE JOURNAL OF MECHANICAL ENGINEERING, 2016,29:112-123. SCI: DA5UM.

[7]ZHAI Liming, LUO Yongyao, WANG Zhengwei,KITAUCHI Seishiro, MIYAGAWA Kazuyoshi. Nonlinear Vibration Induced by the Water-film Whirl and Whipin a Sliding Bearing Rotor System. CHINESE JOURNAL OF MECHANICAL ENGINEERING, 2016, 29:260-270. SCI: DG5SL.

[8]Xin Liu, Yongyao Luo, BryanW. Karney, Zhengwei Wang. A selected literature review of efficiency improvements in hydraulic turbines.Renewable and Sustainable Energy Reviews, 2015, 51:18-28. SCI: DF0AL.

[9]Yongyao Luo, Zhengwei Wang, Xin Liu, Yexiang Xiao, Changkun Chen,Haoping Wang, Jianhua Yan.Numerical prediction of pressure pulsation for a low headbidirectional tidal bulb turbine. Energy, 2015,89:730-738.SCI：CR3SD.

[10]Xin Liu, Yongyao Luo, Bryan W. Karney, Zhengwei Wang, Liming Zhai. Virtual testing for modal and damping ratio identification of submerged structures using the PolyMAX algorithm with two-way fluid–structure interactions. Journal of Fluids and Structures, 2015,54:548-565. SCI: CH0SF.

[11]Yongyao Luo, Zhengwei Wang, Guangjie Peng, Yexiang Xiao, Liming Zhai, Xin Liu, Qi Zhang. Numerical simulation of a heave-only floating OWC (oscillating water column) device, Energy, 2014, 799-806. SCI: AS7OH.

[12]Yongyao Luo, Jean-Roch Nader, Paul Cooper, Song-Ping Zhu. Nonlinear 2D Analysis of the Efficiency of Fixed Oscillating Water Column Wave Energy Converters, Renewable Energy, 2014, 64:255-265. SCI: AA0XS.

[13]Liming Zhai, Yongyao Luo, Zhengwei Wang, Xin Liu. Failure Analysis and Optimization of the Rotor System in a Diesel Turbocharger for Rotor Speed-Up Test, Advances in Mechanical Engineering, 2014, Article ID 476023. SCI: AM3RA.

[14]Yongyao Luo, Zhengwei Wang, Jing Zhang, Jidi Zeng, Jiayang Lin, Guangqian Wang. Vibration and fatigue caused by pressure pulsations originating in the vaneless space for a Kaplan turbine with high head, Engineering computations, 2013, 30(3):448-463. SCI:133HT.

[15]Yongyao Luo, Zhengwei Wang, Liangnian Chen, Jinshui Wu. Finite element analysis design of a split rotor bracket for a bulb turbine generator. Advances in Mechanical Engineering, 2013, Article ID 428416. SCI: 162CF.

[16]Luo Yongyao, Wang Zhengwei, Zeng Jidi, Lin Jiayang. Fatigue of piston rod caused by unsteady, unbalanced, unsynchronized blade torques in a Kaplan turbine. Engineering Failure Analysis, 2010, 17(1):192-199. SCI:528FU.

[17]Yongyao Luo, Zhengwei Wang, Guodong Chen, Zujian Lin. Elimination of upper bracket resonance in extremely high head Francis hydro-generators. Engineering Failure Analysis, 2009, 16(1):119-127. SCI: 377ON.

[18]Z.W. Wang, Y.Y. Luo, L.J. Zhou, R.F. Xiao, G.J. Peng. Computation of dynamic stresses in piston rods caused by unsteady hydraulic loads. Engineering Failure Analysis, 2008, 15(1-2):28-37. SCI: 222KN.

[19]Xiao Yexiang,Zhu Wei,Wang Zhengwei,Zhang Jin,Luo Yongyao,Zeng Chongji,Yao Yangyang.Analysis of the internal flow behavior on S-shaped region of a Francis pump turbine on turbine mode. Engineering Computations.2016.33(2).

[20]Xiao Yexiang, Yao Yangyang,Wang Zhengwei,Zhang Jin,Luo Yongyao,Zeng Chongji,Zhu Wei. Hydrodynamic Mechanism Analysis of the Pump Hump District for a Pump-turbine.Engineering Computations. 2016.33(4).

[21]XIAO Ye-xiang, WANG Zheng-wei, ZHANG Jin, LUO Yong-yao. Numerical predictions of pressure pulses in a Francis pump turbine with misaligned guide vanes. Journal of hydrodynamics, 2014, 26(2):250-256, SCI: AG4CI.

[22]Peng Guangjie, Wang Zhengwei, Xiao Yexiang, Luo Yongyao. Abrasion predictions for Francis turbines based on liquid–solid two-phase fluid simulations. Engineering Failure Analysis, 2013, 33:327-335. SCI: 213TI.

[23]Yang Jing, Meng Long, Zhou Lingjiu, Luo Yongyao, Wang Zhengwei. Unsteady Internal Flow Field Simulations in a Double Suction Centrifugal Fan. Engineering Computations, 2013, 30(3): 345–356. SCI: 133HT.

[24]WANG Zhengwei, QIN Liang, ZENG Jidi, LIN Jiayang, YANG Jinyi, CHEN Weijiang, LUO Yongyao, YAN Zongguo. Hydroturbine operating region partitioning based on analyses of unsteady flow field and dynamic response. Science in China Series E: Technological Sciences, 2010, 53(2): 519-528. SCI:585EM.

[25]Lingjiu Zhou, Zhengwei Wang, Ruofu Xiao, Yongyao Luo. Analysis of dynamic stresses in Kaplan turbine blades. Engineering Computations, 2007, 24(8):753-762. SCI: 232IV.

[26]X Liu, Y Y Luo, Z W Wang. Fatigue Analysis of the Piston Rod in a Kaplan Turbine Based on Crack Propagation under Unsteady Hydraulic Loads. Symposium on Hydraulic Machinery and Systems. Sep. 22-26, 2014, Montreal, Canada. EI：20145200367978.

[27]ZHAI Liming, LUO Yongyao, Wang Zhengwei. Study about the influence of cavitation on the dynamic characteristics for the sliding bearing. ISCM2014. Oct. 20-21, 2014, Beijing. EI：20151100628511.

[28]Guangjie Peng, Yongyao Luo, Zhengwei Wang. Research on Wear Properties of centrifugal dredge pump based on liquid–solid two-phase fluid simulations. ISCM2014. Oct. 20-21, 2014, Beijing. EI：20151100628501.

[29]L Y He, Y He, Y Y Luo,Z W Wang. Investigation onfluid added mass effect in the modal response of a pump-turbine runner, 6th International Conference on Pumps and Fans with Compressors and Wind Turbines. 2013.09.19-22, Beijing. EI：20140717330727.

[30]Y Y Luo, Y X Xiao, Z W Wang. The internal flow pattern analysis of a tidal power turbine operating on bidirectional generation-pumping. 6th ICPF, Beijing, 2013.9.19-22. EIP:20140717330802

[31]Peng Guangjie, Luo Yongyao, Fang Hongwei, Zhai Liming, Wang Zhengwei. Study on the Wearing Law of the Runner and Guide Vanes for a Francis Turbine, 26th IAHR Symposium on Hydraulic Machinery and Systems , Beijing，2012.08.19-23. EIP: 20130916053242.

[32]何慶慶，羅永要，王正偉，吳金水，陳梁年.水輪發電機轉子疲勞壽命預測分析，水力發電學報，第29卷，第6期， 223-228頁，2010. EIP: 20110213569051.

[33]Yongyao Luo, Zhengwei Wang, Lingjiu Zhou, et al. Computation of static and dynamic stresses of a bulb tubular turbine. 2008 Proceedings of the ASME Fluids Engineering Division Summer Conference, FEDSM2008, P1187-1191. EIP:20093912329524.

[34]Lingjiu Zhou, Zhengwei Wang, Yongyao Luo, et al. Numerical simulation of cavitating flow in a Francis turbine. 2008 Proceedings of the ASME Fluids Engineering Division Summer Conference, FEDSM2008, P1193-1197. EIP:20093912329525.

[35]XIAO Ruofu, WANG Zhengwei, LUO Yongyao. Dynamic Stresses in a Francis Turbine Runner Based on Fluid-Structure Interaction Analysis. Tsinghua Science and Technology, 2008, 13(5):587-592. EIP: 20090511886926.

[36]閻宗國, 周凌九, 何軍兵, 彭光傑, 羅永要, 張靜, 羅斌, 王正偉. 水輪發電機組轉子動平衡試驗. 水力發電學報, 2012, 31(2):235-239. EIP: 20122515137715.

[37]何慶慶, 羅永要, 王正偉, 吳金水, 陳梁年. 水輪發電機轉子疲勞壽命預測分析. 水力發電學報, 2010, 29(6): 223-228. EIP:20110213569051.

[38]羅永要, 王正偉. 燈泡貫流機組轉子支架最佳化設計研究. 第17次中國水電設備學術討論會論文集, P290-294. 2009年10月, 浙江淳安.

[39]肖若富, 王正偉, 羅永要. 渦帶工況下混流式水輪機轉輪動應力特性分析. 水力發電學報, 2007, 26(4):130-134. EIP: 20073710811036

[40]彭光傑, 王正偉, 羅永要, 閻宗國. 大型斜軸伸泵站近零揚程流場仿真. 清華大學學報(自然科學版), 2007, 47(11):2006-2009. EIP: 20080111005102.

[41]肖若富, 王正偉, 羅永要. 軸流轉槳式水輪機槳葉的動應力特性. 清華大學學報(自然科學版), 2007, 47(11):2014-2017. EIP: 20080111005104.

[42]羅永要, 王正偉, 梁權偉. 混流式水輪機轉輪動載荷作用下的應力特性. 清華大學學報(自然科學版), 2005, 45(2): 235-237.EIP: 2005229136334.

[43]王正偉, 羅永要, 方源, 溫曉軍. 負荷調節過程中的混流式轉輪流固耦合計算. 水力發電學報, 2005, 24(4): 58-61. EIP: 2005389375692.

[44]王正偉, 喻疆, 羅永要, 周凌九. 轉輪-導葉不同匹配下的內部流動特性分析. 水力發電學報, 2005, 24(3): 44-47. EIP: 2005299226128.

[45]羅永要, 王正偉, 梁權偉, 林貴海. AGC調節對大型軸流轉槳式機組的影響分析. 第15次中國水電設備學術討論會論文集, 2004, 青海西寧, 246-250.