教育背景

1998.9-2002.7 清华大学热能工程系热能动力工程 学士

2002.9-2005.7 清华大学热能工程系动力工程及工程热物理 硕士

2007.9-2010.12 清华大学热能工程系动力工程及工程热物理 博士

工作履历

2005.7-2007.8 清华大学热能工程系 助理工程师

2011.1-2013.3 清华大学水利水电工程系 博士后

2011.6-2012.6 澳大利亚伍伦贡大学 博士后

2013.3-2019.12 清华大学能源与动力工程系 助理研究员

2019.12-至今 清华大学能源与动力工程系 副研究员

研究领域

流体机械流固耦合动力学特性研究

研究概况

作为项目负责人主持国家自然科学基金面上、青年项目各1项；完成中国博士后科学基金面上项目1项。作为学术骨干参与国家自然科学基金重点项目1项，面上项目3项。

研究项目

[1] 2025.7-2028.6，依托抽水蓄能资源的兆瓦级抽水压缩空气技术及装备，国家科技重大专项子课题

[2] 2025.6-2025.12，水泵流固耦合CFD分析专题研究项目优化设计，东方电气集团东方电机有限公司

[3] 2024.10-2025.10，盐穴输气管挟渣、挟液对压缩空气储能系统稳定性影响分析，中电建新能源集团股份有限公司

[4] 2024.4-2024.12，水泵流固耦合计算流体动力学分析专题研究，东方电气集团东方电机有限公司

[5] 2024.1-2025.12，大型抽水蓄能电站厂房振动调控基础研究-水泵水轮机脉动压力计算分析科研服务，中国长江电力股份有限公司

[6] 2022.5-2024.12，基于抽水蓄能电站顶盖连接安全的螺栓强度及预紧研究，国网新源控股有限公司抽水蓄能技术经济研究院

[7] 2022.5-2022.9，轴流定桨水轮机压力脉动现场测试及数值计算，中国华能集团清洁能源技术研究院有限公司

[8] 2021.9-2023.8，水泵水轮机启停机暂态过程动应力特性计算研究，水力发电设备全国重点实验室开放基金

[9] 2021.8-2022.4，雅砻江桐子林水电站水轮机水力特性及关键部件动应力特性研究项目，雅砻江水电攀枝花桐子林有限公司

[10] 2020.10-2023.9，超低水头双向全贯流式潮汐机组稳定高效转换机理研究，山西省产业发展基础性研究创新种子基金

[11] 2020.9-2021.8，基于内螺纹应力计算的水泵水轮机顶盖、座环和联接螺栓强度特性研究，中国水利水电科学研究院

[12] 2019.12-2020.12，抽水蓄能电站正常运行工况流道脉动压力测试分析，中国水利水电科学研究院

[13] 2019.6-2019.10，多工况水轮机过流部件流场应力计算，国网湖南省电力有限公司电力科学研究院

[14] 2019.4-2020.4，泵站机组振动监测数据治理及存储模型效力测试，中国水利水电科学研究院

[15] 2018.7-2021.6，大功率低损耗高速电机及控制系统研究（MW级先进飞轮储能关键技术），重点研发计划子课题

[16] 2018.3-2018.12，水电站厂房结构动力特性计算分析，中国水利水电科学研究院

[17] 2018.1-2021.12，空化演变对水轮机转轮固有特性迁移和动应力特性的影响机理研究，国家自然科学基金委员会面上基金项目

[18] 2017.12-2018.12，水泵水轮机顶盖、座环和联接螺栓整体模态和刚强度特性研究，中国水利水电科学研究院

[19] 2017.7-2018.12，广东阳江抽水蓄能电站机组转轮流固耦合动力特性研究，中国南方电网有限责任公司调峰调频发电公司

[20] 2017.6-2018.6，深海流体机械水力及结构性能研究，强大泵业集团行唐泵业有限公司

[21] 2016.11-2016.12，模型太阳能板风荷载数值模拟与试验测量，中清能绿洲科技股份有限公司

[22] 2016.9-2016.12，兰溪光伏电站阵列风荷载数值模拟研究，中清能绿洲科技股份有限公司

[23] 2016.6-2016.9，离心风机性能预测及优化，大同市赛诚机车设备有限责任公司

[24] 2016.4-2018.3，离心泵动静干涉机理及其控制，流体及动力机械教育部重点实验室开放基金

[25] 2016.3-2023.12，新疆木扎提河三级水电站10MW机组转轮研发及制造，新疆新华木扎提河水电开发有限公司

[26] 2015.10-2018.9，振荡水柱波能发电装置能量转换系统水气耦合机理研究，清华大学自主科研项目

[27] 2015.6-2015.12，水电站厂房结构动力特性计算程序开发，中国水利水电科学研究院

[28] 2015.1-2017.12，空化动水对水轮机转轮附加质量和振动特性的影响机理研究，国家自然科学基金委员会青年基金项目

奖励与荣誉

[1] 潮汐动势能高效利用关键技术与核心装备创新，中国发明协会发明创业奖成果奖，一等奖，2024（6/6）

[2] 高水力稳定性混流式水轮机水力设计关键技术及应用，水力发电科学技术奖，一等奖，2024（13/15）

[3] 双向潮汐机组水力开发关键技术及工程应用，中国可再生能源学会科学技术进步奖，一等奖，2023（4/10）

[4] 水轮发电机组轴系多场耦合动力特性关键技术及应用，电力科技创新奖，一等奖，2022（9/15）

[5] 抽水蓄能机组非稳态流固系统安全关键技术及应用，水力发电科学技术奖，二等奖，2021（7/10）

[6] 三叶片新型潮汐发电机组设计、制造及工程示范建设研究，海洋工程科学技术奖，二等奖，2019（7/13）

[7] 水力机械转轮流固耦合动力特性研究，水利部大禹水利科学技术奖，二等奖，2014（2/10）

[8] 灯泡贯流式水轮机瞬态过程水力特性与疲劳寿命关键技术研究，水利部大禹水利科学技术奖，二等奖，2012（3/10）

[9] 提高现代水力发电系统运行稳定性关键技术研究，教育部科学技术进步奖，二等奖，2012（10/21）

[10] 水轮发电机组教学平台，清华大学优秀教学软件一等奖，2012（3/3）

学术成果

[1] Jin F, Luo Y, Wang Z. Research on the Starting-up Process of a Prototype Reversible Pump Turbine with Misaligned Guide Vanes: An Energy Loss Analysis[J]. Energy, 2024, 304: 132219.

[2] Jin F, Luo Y. Research on Pressure Propagation in Long-Distance Water Pipelines for Fault Conditions by VMD and Wavelet Transform[J]. Engineering Failure Analysis, 2024, 165: 108748.

[3] Zhao Q, Luo Y, Cao J, et al. Numerical Simulation on the Dynamic Behavior of the Bolt Connecting the Head-Cover and Stay Ring in Pumped Storage Unit[J]. Journal of Energy Storage, 2024, 80: 110210.

[4] Wu H, Jin F, Luo Y, et al. Suppressing the Vortex Rope Oscillation and Pressure Fluctuations by the Air Admission in Propeller Hydro-Turbine Draft Tube[J]. JOURNAL OF APPLIED FLUID MECHANICS, 2024, 17(1): 219–232.

[5] Song X, Luo Y, Wang Z. Mechanism of the Influence of Sand on the Energy Dissipation inside the Hydraulic Turbine under Sediment Erosion Condition[J]. Energy, 2024, 294: 130794.

[6] Cao J, Luo Y, Liu X, et al. Numerical Theory and Method on the Modal Behavior of a Pump-Turbine Rotor System Considering Gyro-Effect and Added Mass Effect[J]. Journal of Energy Storage, 2024, 85: 111064.

[7] Cao J, Luo Y, Deng L, et al. Thermo-Hydrodynamic Lubrication and Energy Dissipation Mechanism of a Pump-Turbine Thrust Bearing in Load-Rejection Process[J]. Physics of Fluids, 2024, 36(3): 037138.

[8] Zhao Q, Luo Y, Zhai L, et al. Failure Analysis on the Bolt Connecting the Head-Cover and Stay Ring in Pumped Storage Unit: Part Ⅰ-Experimental Study[J]. Engineering Failure Analysis, 2023, 153: 107557.

[9] Song X, Luo Y, Chao L, et al. Numerical Simulation and Experimental Study on an Innovative Vortex Eliminator Using a Modified SST Turbulence Model for Gas-Liquid Two-Phase Flow[J]. Ocean Engineering, 2023, 268: 113383.

[10] Luo Y, Yang G, Cao J, et al. Multibody Dynamics Analysis of a Kaplan Turbine Runner in Full Operating Conditions[J]. Journal of Energy Storage, 2023, 72: 108269.

[11] Luo Y, Cao J, Zhai L, et al. Pressure Pulsation and Dynamic Behavior Analysis of an Ultra-Low Head Bidirectional Rim-Generator Turbine with Special Emphasis on the Gravity Effect[J]. Ocean Engineering, 2023, 286: 115524.

[12] Jin F, Wang H, Luo Y, et al. Visualization Research of Energy Dissipation in a Pump Turbine Unit during Turbine Mode’s Starting Up[J]. Renewable Energy, 2023, 217: 119172.

[13] Jin F, Luo Y, Zhao Q, et al. Energy Loss Analysis of Transition Simulation for a Prototype Reversible Pump Turbine during Load Rejection Process[J]. Energy, 2023, 284: 129216.

[14] Jin F, Luo Y, Wang H, et al. Dynamic Response of a Pump-Turbine Runner during Turbine’s Mode Starting Up[J]. Journal of Energy Storage, 2023, 74: 109339.

[15] Jin F, Luo Y, Bi H, et al. Transient Simulation of Reversible Pump Turbine during Pump Mode’s Starting Up[J]. Journal of Energy Storage, 2023, 68: 107678.

[16] Song X, Luo Y, Wang Z. Numerical Prediction of the Influence of Free Surface Vortex Air-Entrainment on Pump Unit Performance[J]. Ocean Engineering, 2022, 256: 111503.

[17] Luo Y, Tao R, Peng G. Comparative Numerical Study of the Dynamic Motion of OWC Impulse Turbine in the Starting Process[J]. Ocean Engineering, 2022, 245: 110429.

[18] Luo Y, Cao J, Wang Z. Design and Optimization of a Bidirectional Rim-Generator Turbine Runner: Hydraulic Performance Optimization and Structure Strength Evaluation[J]. Ocean Engineering, 2022, 257: 111639.

[19] Cao J, Yang G, Luo Y, et al. Failure Investigation of a Kaplan Turbine Blade Lever[J]. Engineering Failure Analysis, 2022, 142: 106840.

[20] Cao J, Luo Y, Zhuang J, et al. Effect of the Pressure Balance Device on the Flow Characteristics of a Pump-Turbine[J]. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2022, 236(8): 1533–1543.

[21] Cao J, Luo Y, Presas A, et al. Numerical Analysis on the Modal Characteristics of a Pumped Storage Unit Runner in Cavitating Flow[J]. Journal of Energy Storage, 2022, 56: 105998.

[22] Cao J, Luo Y, Presas A, et al. Influence of Rotation on the Modal Characteristics of a Bulb Turbine Unit Rotor[J]. Renewable Energy, 2022, 187: 887–895.

[23] Cao J, Luo Y, Mirza Umar B, et al. Influence of Structural Parameters on the Modal Characteristics of a Francis Runner[J]. Engineering Failure Analysis, 2022, 131: 105853.

[24] Cao J, Luo Y, Mao Z, et al. Dynamic Behavior Analysis of a Cracked Bulb Turbine Rotor Based on Acoustic Fluid-Structural Coupling Method[J]. Engineering Failure Analysis, 2022, 140: 106555.

[25] Luo Y, Presas A, Wang Z, et al. Operating Conditions Leading to Crack Propagation in Turbine Blades of Tidal Barrages. Influence of Head and Operating Mode[J]. Engineering Failure Analysis, 2020, 108: 104254.

[26] Presas A, Luo Y, Wang Z, et al. Fatigue Life Estimation of Francis Turbines Based on Experimental Strain Measurements: Review of the Actual Data and Future Trends[J]. Renewable and Sustainable Energy Reviews, 2019, 102: 96–110.

[27] Zhai L, Luo Y, Liu X, et al. Numerical Simulations for the Fluid-Thermal-Structural Interaction Lubrication in a Tilting Pad Thrust Bearing[J]. Engineering Computations, 2017, 34(4): 1149–1165.

[28] Liming Z, Yongyao L, Zhengwei W, et al. A Review on the Large Tilting Pad Thrust Bearings in the Hydropower Units[J]. Renewable and Sustainable Energy Reviews, 2017, 69: 1182–1198.

[29] Zhai L, Luo Y, Wang Z, et al. Nonlinear Vibration Induced by the Water-Film Whirl and Whip in a Sliding Bearing Rotor System[J]. Chinese Journal of Mechanical Engineering, 2016, 29(2): 260–270.

[30] Liu X, Luo Y, Wang Z. A Review on Fatigue Damage Mechanism in Hydro Turbines[J]. Renewable and Sustainable Energy Reviews, 2016, 54: 1–14.

[31] Liming Z, Yongyao L, Zhengwei W, et al. 3D Two-way Coupled TEHD Analysis on the Lubricating Characteristics of Thrust Bearings in Pump-turbine Units by Combining CFD and FEA[J]. Chinese Journal of Mechanical Engineering, 2016, 29(1): 112–123.

[32] Luo Y, Wang Z, Liu X, et al. Numerical Prediction of Pressure Pulsation for a Low Head Bidirectional Tidal Bulb Turbine[J]. Energy, 2015, 89: 730–738.

[33] Liu X, Luo Y, Karney B W, et al. Virtual Testing for Modal and Damping Ratio Identification of Submerged Structures Using the PolyMAX Algorithm with Two-Way Fluid–Structure Interactions[J]. Journal of Fluids and Structures, 2015, 54: 548–565.

[34] Liu X, Luo Y, Karney B W, et al. A Selected Literature Review of Efficiency Improvements in Hydraulic Turbines[J]. Renewable and Sustainable Energy Reviews, 2015, 51: 18–28.

[35] Luo Y, Wang Z, Peng G, et al. Numerical Simulation of a Heave-Only Floating OWC (Oscillating Water Column) Device[J]. Energy, 2014, 76: 799–806.

[36] Luo Y, Nader J-R, Cooper P, et al. Nonlinear 2D Analysis of the Efficiency of Fixed Oscillating Water Column Wave Energy Converters[J]. Renewable Energy, 2014, 64: 255–265.

[37] Luo Y, Wang Z, Zhang J, et al. Vibration and Fatigue Caused by Pressure Pulsations Originating in the Vaneless Space for a Kaplan Turbine with High Head[J]. Engineering Computations, 2013, 30(3): 448–463.

[38] Luo Y, Wang Z, Zeng J, et al. Fatigue of Piston Rod Caused by Unsteady, Unbalanced, Unsynchronized Blade Torques in a Kaplan Turbine[J]. Engineering Failure Analysis, 2010, 17(1): 192–199.

[39] Luo Y, Wang Z, Chen G, et al. Elimination of Upper Bracket Resonance in Extremely High Head Francis Hydro-Generators[J]. Engineering Failure Analysis, 2009, 16(1): 119–127.

[40] 罗永要, 王正伟, 梁权伟. 混流式水轮机转轮动载荷作用下的应力特性[J]. 清华大学学报(自然科学版), 2005(2): 235-237+257.