李朝,男,博士,哈爾濱工業大學(深圳)土木與環境工程學院副教授,博士生導師。哈爾濱工業大學本碩博畢業,曾在香港城市大學和香港理工大學擔任訪問研究員。是深圳市海外和後備級高層次人才、南山區領航人才,中國振動工程學會結構抗震控制委員會和中國可再生能源學會會員。在國內外風工程、風能專業期刊、會議公開發表論文六十餘篇,其中SCI論文二十餘篇,第一/通訊作者十四篇,他引500餘次,單篇最高引用200餘次,H-INDEX為8。主持兩項國家自然科學基金項目,三項深圳市科創委基礎研究項目,一項企業委派國家863項目子課題。作為骨幹參與多項國家重點研發計畫、國家自然科學基金重點項目,深圳科創委學科布局項目等,承擔十餘項企業技術諮詢工程項目。
基本介紹
- 中文名:李朝
- 國籍:中國
- 畢業院校:哈爾濱工業大學
- 學位/學歷:博士
人物經歷,工作經歷,教育經歷,研究方向,課程講授,科研成果,科研項目,期刊論文,會議論文,專利,
人物經歷
工作經歷
2018/01-至今 副教授,哈爾濱工業大學(深圳),土木與環境工程學院
2017/08-2017/12 副研究員,哈爾濱工業大學深圳研究生院,土木與環境工程學院
2012/07-2017/07 助理教授,哈爾濱工業大學深圳研究生院,土木與環境工程學院
2010/11-2012/06 高級研究助理,香港理工大學,土木及結構工程學系
2007/07-2007/10 研究助理,香港城市大學,土木及建築工程系
教育經歷
2006/03-2010/07 獲工學博士學位(結構工程),哈爾濱工業大學,學位論文:近地湍流風場的CFD模擬研究
2003/09-2005/12 獲工學碩士學位(工程力學),哈爾濱工業大學,學位論文:建築物風荷載與山地風場的數值模擬
1999/09-2003/07 獲工學學士學位(土木工程(建築工程方向)),哈爾濱工業大學
研究方向
研究方向圍繞風與工程結構作用,包括工程結構風災,海上風電,城鎮風環境等領域,以基礎前沿問題為導向,結合工程實際,兼取數值模擬與物理試驗之長探尋未知世界客觀規律,推動行業進步、踐行科研價值。
結構風災:
(1) 大氣邊界層湍流結構的生成與大渦模擬;
(2) 建築結構風荷載計算流體動力學(CFD)模擬的不確定性及精度提升;
(3) 超高層建築結構風振分析、風荷載設計、氣動外形與結構最佳化。
(4) 光伏跟蹤支架系統的風致振動分析與荷載最佳化。
海上風電與支撐結構:
(1) 海上固底/浮式風機系統多體耦合的短期回響分析、長期性能評價及最佳化設計;
(2) 海上浮式風機半潛式基礎的等效靜力風浪設計荷載及結構設計最佳化;
(3) 垂直軸風機空氣動力學性能提升槳距控制與裝置。
城鎮風環境:
(1) 中尺度數值天氣預報(NWP)模型與微尺度計算流體動力學(CFD)模型的耦合計算;
(2) 基於webGIS的城鎮風環境、風災線上預警平台。
課程講授
風工程與結構抗風設計(wind engineering & wind resistance design for civil structures)
土木工程專業 研究生 專業基礎課,32學時,2014年-至今
工程流體力學(Engineering Fluid Mechanics)
土木工程專業 本科生 技術基礎課,32學時,2018年-至今
科研成果
科研項目
2018-2021 國家自然科學基金面上項目(51778200),數值大氣湍流邊界層生成方法的改進與驗證,主持
2018-2020 深圳市科技計畫基礎研究學科布局項目(JCYJ20170811160652645),浮式海上風機的平衡及振動控制系統研究,骨幹成員
2016-2018 深圳市技術創新資助項目(KQJSCX20160226201838),柱穩型海上浮式風機基礎的關鍵技術開發,主持
2014-2016 國家自然科學基金青年項目(51308167):基於粗糙壁面修正的平衡大氣邊界層紊流風場大渦模擬研究,主持
2014-2016 哈爾濱工業大學科研創新基金:三維自平衡紊流邊界層風場的大渦模擬研究,主持
2013-2015 深圳市基礎研究計畫:垂直軸風機的主/被動槳距控制策略最佳化研究,主持
2013-2015 哈爾濱工業大學深圳研究生院新教師科研啟動項目:大氣邊界層數值風洞中三維紊流風場的大渦模擬研究,主持
2014-2015 企業委託,基於鋼筯混凝土結構的海上風電機組局部浮力基礎的初步方案設計,主持
2016 企業委託,鋼筋混凝土半潛式浮力風機系統的風浪聯合模型試驗研究,骨幹
2016 企業委託,北京市通州區再生能源發電廠風洞試驗及風振分析,骨幹
2016-2018 企業委託,微地形下輸電線路微尺度颱風風場特性及模型研究,骨幹
期刊論文
公開發表論文40餘篇,第一/通訊作者SCI論文10篇,EI收錄論文5篇,影響因子總和超22,單篇最高7.128,SCI資料庫引用194次,單篇最高引用102次。
(28) Yang, J., Zhang, J., Li, C.*, 2022. Research on Equivalent Static Load of High-Rise/Towering Structures Based on Wind-Induced Responses. Applied Sciences 12, 3729. https://doi.org/10.3390/app12083729
(27) Zhang, W., Xiao, Y.*, Li, C.*, Zheng, Q., Tang, Y., 2022. Wind load investigation of self-supported lattice transmission tower based on wind tunnel tests. Engineering Structures 252, 113575. https://doi.org/10.1016/j.engstruct.2021.113575
(26) Li, C., Zhou, S.*, Shan, B., Hu, G., Song, X., Liu, Y., Hu, Y., Yiqing, X., 2021. Dynamics of a Y-shaped semi-submersible floating wind turbine: a comparison of concrete and steel support structures. Ships and Offshore Structures 0, 1–21. https://doi.org/10.1080/17445302.2021.1937801
(25) Lin, P., Hu, G.*, Li, C.*, Li, L., Xiao, Y., Tse, K.T., Kwok, K.C.S., 2021. Machine learning-based prediction of crosswind vibrations of rectangular cylinders. Journal of Wind Engineering and Industrial Aerodynamics 211, 104549. https://doi.org/10.1016/j.jweia.2021.104549
(24) Wang, Q., Jiang, Q., Hu, G., Chen, X., Li, C., Xiao, Y., 2021. Aerodynamic characteristics of a square cylinder with corner fins. Advances in Bridge Engineering 2, 20. https://doi.org/10.1186/s43251-021-00042-x
(23) Zhao, Z., Li, C.*, Xiao, Y., Wang, J., Hu, G., Xiao, K., 2021a. Multiscale modelling of planetary boundary layer flow over complex terrain: implementation under near-neutral conditions. Environ Fluid Mech. https://doi.org/10.1007/s10652-021-09796-4
(22) Zhao, Z., Xiao, Y., Li, C.*, Wang, J., Hu, G., 2021b. New consideration of lateral boundary treatment for meso- and micro-scale nested PBL simulations over complex terrain. Atmospheric Research 254, 105507. https://doi.org/10.1016/j.atmosres.2021.105507
(21) Zhou, S., Müller, K., Li, C.*, Xiao, Y., Cheng, P.W., 2021. Global sensitivity study on the semisubmersible substructure of a floating wind turbine: Manufacturing cost, structural properties and hydrodynamics. Ocean Engineering 221, 108585. https://doi.org/10.1016/j.oceaneng.2021.108585
(20)趙子涵, 李朝*, 肖儀清, 肖凱, 吳曉鵬, 宋曉萍, 2021. 基於NWP/CFD嵌套的複雜地形風場模擬研究. 太陽能學報 42, 205–210.
(19) C. Li, Wang J, Hu G, Li L, Xiao Y*. RANS simulation of horizontal homogeneous atmospheric boundary layer over rough terrains by an enriched canopy drag model[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2020, 206: 104281.
(18) Zhou S, Li C*, Xiao Y, Cheng P W. Importance of platform mounting orientation of Y-shaped semi-submersible floating wind turbines: A case study by using surrogate models[J]. Renewable Energy, 2020, 156: 260–278.
(17) Hu G, Liu F, Li L, Li C, Xiao Y, Kwok K C S. Wind energy harvesting performance of tandem circular cylinders with triangular protrusions[J]. Journal of Fluids and Structures, 2019, 91: 102780.
(16) Peng Y-X, Xu Y-L, Zhu S, Li C. High-solidity straight-bladed vertical axis wind turbine: Numerical simulation and validation[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2019, 193: 103960.
(15) Li L, Kareem A, Hunt J, Xing F, Chan P, Xiao Y, Li C. Observed sub-hectometer-scale low level jets in surface-layer velocity profiles of landfalling typhoons[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2019, 190: 151–165.
(14) Lin J, Xu Y-L, Xia Y, Li C. Multidisciplinary Digital Publishing Institute, 2019. Structural Analysis of Large-Scale Vertical-Axis Wind Turbines, Part I: Wind Load Simulation[J]. Energies, 2019, 12(13): 2573.
(13) 肖凱, 趙子涵, 羅嘯宇, 李朝*, 鐘繼, 肖儀清. 複雜地形下基於計算流體動力學的風速比計算[J]. 科學技術與工程, 2018, 18(33): 1–6.
(12) C. Li, Y. Xiao, Y. Xu, Y. Peng, G. Hu, and S. Zhu, Optimization of Blade Pitch in H-rotor Vertical Axis Wind Turbines through Computational Fluid Dynamics Simulations[J]. Applied Energy, 2018. 212(Supplement C): p. 1107-1125. IF:7.128, JCR 1區
(11) S. Zhou, B. Shan, Y. Xiao, C. Li*, G. Hu, X. Song, Y. Liu, and Y. Hu, Directionality Effects of Aligned Wind and Wave Loads on a Y-shape Semi-submersible Floating Wind Turbine under Rated Operational Conditions[J]. Energies, 2017. 10(12): p. 2097. IF:2.262, JCR 2區, 通訊作者
(10) G. Hu, C. Li*, K. T. Tse, and K. C. S. Kwok, Vortex induced vibration of an inclined finite-length square cylinder[J]. European Journal of Mechanics - B/Fluids, 2018. 68(Supplement C): p. 144-152. IF:1.969, JCR 2區, 2017, 通訊作者
(9) C. Li, S. Zhou, Y. Xiao, Q. Huang, L. Li, and P.W. Chan, Effects of inflow conditions on mountainous/urban wind environment simulation. Building Simulation, 2017. 10(4): p. 573–588. IF:1.352, JCR 3區
(8) C. Li, T. Zhuang, S. Zhou, Y. Xiao, and G. Hu, Passive Vibration Control of a Semi-Submersible Floating Offshore Wind Turbine. Applied Sciences-Basel, 2017. 7(5096): p. 509. IF:1.913, JCR 3區,
(7) C. Li, S. Zhu, Y. Xu, and Y. Xiao, 2.5D large eddy simulation of vertical axis wind turbine in consideration of high angle of attack flow. Renewable Energy, 2013. 51(0): p. 317-330. IF:4.825, JCR 1區, 他引57次
(6) H. Pei, C. Li*, H. Zhu, and Y. Wang, Slope Stability Analysis Based on Measured Strains along Soil Nails Using FBG Sensing Technology. Mathematical Problems in Engineering, 2013. 2013(561360): p. 1-5. IF:0.902, JCR 3區, 他引8次,通訊作者
(5) C. Li, Q.S. Li, Y.Q. Xiao, and J.P. Ou, A revised empirical model and CFD simulations for 3D axisymmetric steady-state flows of downbursts and impinging jets. Journal of Wind Engineering and Industrial Aerodynamics, 2012. 102: p. 48-60. IF:2.307, JCR 1區, 他引17次
(4) C. Li, Q.S. Li, S.H. Huang, J.Y. Fu, and Y.Q. Xiao, Large eddy simulation of wind loads on a long-span spatial lattice roof. Wind and Structures, 2010. 13(1): p. 57-82. IF:0.868, JCR 3區, 他引8次
(3) 李朝, 肖儀清, 滕軍, 歐進萍與陳宜言, 基於超越閾值機率的行人風環境數值評估. 工程力學, 2012. 29(12): 第15-21頁. EI收錄
(2) 滕軍, 李秀英, 李朝, 開口空間結構表面風壓分布規律研究. 工程抗震與加固改造, 2010(6): 第18-24頁.
(1) 肖儀清, 李朝, 歐進萍, 宋麗莉與李秋勝, 複雜地形風能評估的CFD方法. 華南理工大學學報, 2009. 37(9): 第30-35頁. EI收錄
會議論文
(1) S. Zhou, C. Li, Y. Xiao, X. Song, Y. Liu, and Y. Hu, Experimental Study for the Aligned Wind/Wave Direction Effects on the Dynamics of a Semi-submersible Floating Wind Turbine System, in The Twenty-seventh (2017) International Ocean and Polar Engineering Conference. 2017, International Society of Offshore and Polar Engineers: San Francisco, California, USA, June 25-30.
(2) 趙子涵, 范喜慶, 黎靜, 李朝與肖儀清, 複雜地形下基於NWP/CFD方法的長期風能評估和短期風速預報, in 第十八屆全國結構風工程學術會議2017: 長沙,中國.
(3) 李朝, 彭愛賢, 肖儀清, 周盛濤與宋曉萍, 三柱穩式半潛風機基礎的等效靜風浪荷載, in 第十八屆全國結構風工程學術會議2017: 長沙,中國.
(4) C. Li and J. Wang, Investigation the speed-up effects of wind flow over typical terrains covered by vegetation, in The 2016 International Conference on Civil, Transportation and Environment. 2016: Guangzhou, China.
(5) J. Zu, G. Yan and C. Li, Investigation of wind pressure of translating tornado on spherical dome structures, in 8th International Colloquium on Bluff Body Aerodynamics and Applications. 2016: Northeastern University, Boston, Massachusetts, USA, June 7 - 11.
(6) J. Zu, G. Yan and C. Li, Investigation of Wind Pressure on Spherical Dome Structures due to Translating Tornado Using CFD, in The Sixth US-Japan Workshop on Wind Engineering. 2016: Tokyo, Japan. May 12-14.
(7) C. Li, J. Wang and Y. Xiao, A New Recycling-Rescaling Method for Large Eddy Simulation of Turbulent Atmospheric Boundary Layer, in The 2016 World Congress on Advances in Civil, Environmental, and Materials Research. 2016: Jeju Island, Korea. Aug 28 - Sep 1.
(8) C. Li, J. Wang and Y. Xiao, LARGE EDDY SIMULATION OF TURBULENT ATMOSPHERIC BOUNDARY LAYER THROUGH RECYCLING-RESCALING-REVISING METHOD, in The 14th International Symposium on Structural Engineering. 2016: Beijing, China, Oct 13-15.
(9) C. Li, Y. Xiao and A. Liu, Revisiting the CFD modeling horizontally homogenous atmospheric boundary layer, in 14th International Conference on Wind Engineering. 2015: Porto Alegre, Brazil. p. 4.
(10) 周盛濤, 李朝, 肖儀清與陳栢緯, 香港九龍灣沿岸城區風環境CFD模擬, in 第十七屆全國結構風工程會議, 8月14-19日, 武漢2015.
(11) J. Lin, Y. XU and C. Li, A HYBRID IDENTIFICATION METHOD OF WIND PRESSURE ON STRAIGHT BLADE OF VERTICAL AXIS WIND TURBINE. 2013. p. 1.
(12) C. Li, Y. Xiao, W. Guo, and J. Ou, A wind tunnel study of vegetation influences on the turbulent boundary layer flow over escarpments and ridges, in 13th International Conference on Wind Engineering. 2011: Amsterdam, Netherlands.
(13) Y. Xiao, C. Li, J. Ou, and L. Song. CFD approach to the micrositing of wind turbines in complex terrain. in 12th International Conference on Engineering, Science, Construction, and Operations in Challenging Environments - Earth and Space 2010, March 14, 2010 - March 17, 2010. 2010. Honolulu, HI, United states: American Society of Civil Engineers.
(14) 李朝, 肖儀清, 李秋勝與歐進萍, 靜止型壁面射流的CFD模擬及在下擊暴流中的套用, in 第十四屆全國結構風工程學術會議2009: 北京.
(15) C. Li, Q. S. Li, Y. Q. Xiao, and J. P. Ou. Simulations of moving downbursts using CFD. in 7th Asia-Pacific Conference on Wind Engineering, APCWE-VII, November 8, 2009 - November 12, 2009. 2009. Taipei, Taiwan: Chinese Taiwan Association for Wind Engineering.
(16) C. Li, Q. S. Li, Y. Q. Xiao, S. H. Huang, and J. Y. Fu, Large eddy simulation of fluctuating pressure on the roof of a long-span spatial lattice structure, in The 6th International Conference on Vibration Engineering. 2008: Dalian, China. p. 1119-1126.
(17) Y. Q. Xiao, L. X. Li, C. Li, and Q. S. Li, Study on Longitudinal Wind Speed Spectrum Based on Field Measurement. PROCEEDINGS OF THE TENTH INTERNATIONAL SYMPOSIUM ON STRUCTURAL ENGINEERING FOR YOUNG EXPERTS, VOLS I AND II, 2008: p. 1593-1598.
(18) Y. Q. Xiao, C. Li, Q. S. Li, J. P. Ou, and L. L. Song, Numerical simulation of wind speed distributions over complex terrains, in The Twelfth International Conference on Wind Engineering. 2007: Cairns, Australia. p. 1119-1126.
(19) 李朝, 李秋勝, 黃生洪, 傅繼陽與肖儀清, 大跨度複雜屋蓋結構風荷載的大渦模擬, in 第十三屆全國結構風工程學術會議2007: 大連.
(20) 肖儀清, 李朝, 宋麗莉, 植石群, 黃皓輝與李秋勝, 複雜山地地形的三維風場數值模擬, in 第十二屆全國結構風工程學術會議論文集2005: 西安. 第 91-97頁.
專利
(4) 李朝, 韓喜雙, 周盛濤, 肖儀清, 劉海濤, 王曉璐. 一種三立柱半潛式海上風機基礎. CN201621266084.4, 發明專利, 實審階段
(3) 李朝, 肖儀清, 周盛濤, 韓喜雙, 劉海濤, 王曉璐. 一種浮式風機的移動壓載調平控制裝置. CN201611056252.1, 發明專利,實審階段
(2) 李朝, 肖儀清, 馬紅霞, 王曉璐. 一種直葉片垂直軸風力發電機的被動槳距控制裝置. CN 201610100308, 發明專利,授權
(1) 李朝, 肖儀清, 溫宇鵬, 韓喜雙, 劉海濤, 王曉璐. 一種Spar型裝配式預應力鋼筋混凝土浮式海上風機基礎. CN201621329828.2, 實用新型.
