葛铭纬
时间: 2022-04-13 来源:
葛铭纬,教授,博士生导师,华北电力大学太阳成集团tyc33455cc副院长。长期从事风力机和风电场空气动力学研究工作。担任2020年国家重点研发计划“可再生能源与氢能技术”重点专项指南专家、中国可再生能源学会青委会副秘书长、 IET RPG期刊编委等学术职务。
提出了大型风电叶片高效低载气动设计方法,设计了2.0MW、3.0MW、5.5/7.0MW等8款大型风电叶片气动外形,其中76.6米海上风电叶片获评 “2018全球最佳叶片,叶片应用于明阳MYSE5.5-155机型,入选国际权威杂志同类机型年度Top10,获评中国风能“2018年度最佳机型”等奖项。提出了高精度的尾流模型和风电场模型,发明了增效降载的风电场微观选址方法,提出了风电场智能运行控制方法,研究成果在三峡新能源、华能集团等多家大型企业应用。
主持国家自然科学基金项目青年基金,面上项目(2项),国家重点研发计划子课题等国家级项目,获北京市杰青资助。以第一或唯一通信作者在JFM,Applied Energy,Energy等国际权威期刊发表SCI论文34篇(SCI一区论文21篇),以第一发明人申请发明专利20项,授权10项,登记软件著作权1项,出版学术专著2部。获北京市教育教学成果一等奖,河北省科技进步一等奖等省部级奖励。
主要研究方向:风电叶片气动设计、风电场微观选址和风电场尾流调控等。
联系电话:010-61771725
E-mail:gemingwei@ncepu.edu.cn
教学奖励
[1] 北京市教育教学成果一等奖, 2022年;
[2] 北京市课程思政示范课、教学名师和团队(普通本科教育), 2022年;
[3] 北京市课程思政示范课、教学名师和团队(研究生教育), 2022年;
[4] 北京普通高校毕业设计(论文)优秀指导教师,2021年;
[5] 北京高校青年教师教学基本功比赛三等奖,2019年;
[6] 华北电力大学教育教学成果特等奖,2021年;
[7] 华北电力大学教育教学成果一等奖,2021年;
[8] 华北电力大学百篇优秀毕业设计指导教师,2021年;
[9] 华北电力大学优秀硕士论文指导教师, 2019,2020和2022年;
[10] 协和新能源育才奖,2020年;
[11] 华北电力大学教学名师培育计划, 2017年;
[12] 华北电力大学教学优秀奖, 2016年;
学术奖励和荣誉
[1] 北京市杰青,2022年;
[2] 首都前沿学术成果奖, 2022年;
[3] 河北省科学技术进步一等奖,2018年;
[4]北京地区广受关注学术论文奖,2020年;
[5] “创新中山”科技进步一等奖,2022年;
[6] 全国流体力学学术年会优秀青年论文奖,2020年。
近五年代表性论文(2017年至今):
[1] Li B, He J, Ge M W*, et al. Study of three wake control strategies for power maximization of offshore wind farms with different layouts[J]. Energy Conversion and Management , 2022, 268: 116059. (IF: 11.533, Q1)
[2] Cao L, Ge M W*, Gao X, et al. Wind farm layout optimization to minimize the wake induced turbulence effect on wind turbines[J]. Applied Energy , 2022, 323: 119599. (IF: 11.446, Q1)
[3] Du B, Ge M W*, Liu Y. A physical wind-turbine wake growth model under different stratified atmospheric conditions[J]. Wind Energy , 2022. (IF: 3.710, Q2,国际风能顶刊)
[4] Yang H, Ge M W*, Abkar M, et al. Large-eddy simulation study of wind turbine array above swell sea[J]. Energy , 2022: 124674. (IF: 8.857, Q1)
[5] Yang H, Ge M W*, Gu B, Du B, Liu Y. The effect of swell on marine atmospheric boundary layer and the operation of an offshore wind turbine[J]. Energy , 2022, 244(13): 123200. (IF: 8.857, Q1)
[6] Yang H, Lang B, Du B, JinZ, Li B, Ge M W*. Effects of the steepness on the evolution of turbine wakes above continuous hilly terrain[J]. IET Renewable Power Generation , 2022, 16(6): 1170-1179. (IF: 3.034, Q2)
[7] Zhang S, Du B, Ge M W*, Zuo Y. Study on the operation of small rooftop wind turbines and its effect on the wind environment in blocks[J]. Renewable Energy , 2022, 183: 708-718. (IF: 8.634, Q1)
[8] Ma H, Ge M W*, Wu G, Du B, Liu Y. Formulas of the optimized yaw angles for cooperative control of wind farms with aligned turbines to maximize the power production[J]. Applied Energy , 2021, 303(12): 117691.(IF: 11.446, Q1)
[9] Li L, Huang Z, Ge M W*, Zhang Q. A novel three-dimensional analytical model of the added streamwise turbulence intensity for wind-turbine wakes[J]. Energy , 2021, 238(1): 121806.(IF: 8.857, Q1)
[10] Gu B*, Meng H, Ge M W, Zhang H, Liu X. Cooperative Multiagent Optimization Method for Wind Farm Power Delivery Maximization[J]. Energy , 2021, 233(3): 121076. (IF: 8.857, Q1)
[11] Fan X, Ge M W, Tan W, Li Q*. Impacts of coexisting buildings and trees on the performance of rooftop wind turbines: An idealized numerical study[J]. Renewable Energy , 2021, 177: 164-180. (IF: 8.634, Q1)
[12] Du B, Ge M W*, Zeng C, Cui G, Liu Y. Influence of atmospheric stability on wind-turbine wakes with a certain hub-height turbulence intensity[J]. Physics of Fluids , 2021, 33(5): 055111.(IF: 4.980, Q1)
[13] Ge M W*, Yang H, Zhang H, Zuo Y. A prediction model for vertical turbulence momentum flux above infinite wind farms[J]. Physics of Fluids , 2021, 33(5): 055108.(IF: 4.980, Q1)
[14] Zhang H, Ge M W*, Liu Y, Yang X. A new coupled model for the equivalent roughness heights of wind farms[J]. Renewable Energy , 2021, 171: 34-46. (IF: 8.634, Q1)
[15] Yang X*, Ge M W. Revisiting Raupach’s Flow-Sheltering Paradigm[J]. Boundary-Layer Meteorology , 2021, 179: 313-323.(IF:3.471,Q3)
[16] Ge M W*, Gayme D, Meneveau C. Large-eddy simulation of wind turbines immersed in the wake of a cube-shaped building[J]. Renewable Energy , 2021, 163: 1063-1077. (IF: 8.634, Q1)
[17] Ge M W*, Zhang S, Meng H, Ma H. Study on interaction between the wind-turbine wake and the urban district model by large eddy simulation[J]. Renewable Energy , 2020, 157: 941-950. (IF: 8.634, Q1)
[18] Yang X, Xu H, Huang X, Ge M W*. Drag forces on sparsely packed cube arrays[J]. Journal of Fluid Mechanics , 2019, 880: 992-1019. (IF: 4.245, Q1, 国际流体力学顶刊)
[19] Ge M W*, Wu Y, Liu Y, Yang X. A two-dimensional Jensen model with a Gaussian-shaped velocity deficit[J]. Renewable Energy , 2019, 141: 46-56. (IF: 8.634, Q1)
[20] Ge M W*, Zhang H, Wu Y, Li Y. Effects of leading edge defects on aerodynamic performance of the S809 airfoil[J]. Energy Conversion and Management , 2019, 195: 466-479. (IF: 11.533, Q1)
[21] Wang C, Ge M W*. Applying resolved-scale linearly forced isotropic turbulence in rational subgrid-scale modeling[J]. Acta MechanicaSinica , 2019, 35(3): 486-494. (IF: 2.910, Q2)
[22] Ge M W*, Ke W, Chen H. Pitch control strategy before the rated power for variable speed wind turbines at high altitudes[J]. Journal of Hydrodynamics , 2019, 31(2): 379-388. (IF: 2.983, Q2)
[23] Ge M W, Yang X*, Marusic I. Velocity probability distribution scaling in wall-bounded flows at high Reynolds numbers[J]. Physical Review Fluids , 2019, 4(3): 034101. (IF: 2.895, Q2)
[24] Ge M W*, Wu Y, Liu Y*, Li Q. A two-dimensional model based on the expansion of physical wake boundary for wind-turbine wakes [J]. Applied Energy , 2019, 233-234: 975-984.(IF: 11.446, Q1)
[25] Ge M W*, Jin G. Response of turbulent enstrophy to sudden implementation of spanwise wall oscillation in channel flow[J]. Applied Mathematics and Mechanics , 2017, 38(8): 1159-1170. (IF: 3.918, Q1)
[26] Ge M W*, Fang L, Liu Y. Drag reduction of wall bounded incompressible turbulent flow based on active dimples/pimples[J]. Journal of Hydrodynamics , 2017, 29(2): 261-271. (IF: 2.983, Q2)
专著:
[1] 葛铭纬,李莉,孟航.海上风电机组技术[M].北京:电子工业出版社,2022. (国家出版基金项目)
[2] 葛铭纬.风电场多尺度流动模拟和数学模型[M].北京:科学出版社,2021.