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丁林
(重慶大學能源與動力工程學院教授)
鎖定
丁林,男,工學博士,重慶大學能源與動力工程學院教授,博士生導師。主要從事流固耦合動力學、流體誘發振動、計算流體力學、新能源及可再生能源高效利用等方面的研究與教學工作。重慶大學/美國密歇根大學安娜堡分校(University of Michigan-Ann Arbor)聯合培養博士,2013年6月獲工學博士學位。作為項目負責人主持國家自然科學基金2項、重慶市自然科學基金項目2項、重慶市研究生教育教學改革研究項目2項、重慶市博士後科研基金項目1項和重慶大學中央高校科研項目2項等,參與教育部博士點重點基金、重慶市科委重點項目等。在本領域國內外知名期刊及國際學術會議發表學術論文50餘篇,申請發明專利12項,其中授權8項。2017年被評為重慶大學2015-2016年度優秀博士後,獲四川省科技進步獎三等獎一項。
[1]
- 中文名
- 丁林
- 畢業院校
- 重慶大學
- 學位/學歷
- 博士
- 職 務
- 重慶大學能源與動力工程學院博士生導師
- 職 稱
- 教授
丁林人物經歷
2021.9至今,重慶大學,能源與動力工程學院,教授
2015-2021,重慶大學,能源與動力工程學院,
2013-2015,重慶大學,博士後/講師
2008-2013,重慶大學/美國University of Michigan-Ann Arbor,聯合培養博士
丁林研究方向
流固耦合動力學;
流體誘發振動;
微風/河流/海洋能源收集系統;
鈍體繞流及熱量傳遞;
系統能源優化及節能;
丁林主講課程
丁林科研項目
國家自然科學基金面上項目:柔性水翼流致彎曲-扭轉振動響應特性及耦合物理機制,負責人
國家自然科學基金青年基金:被動控制下鈍體渦致振動強化機制與馳振產生機理研究,負責人
重慶市基礎與前沿研究專項:多鈍體微風能量收集系統流致振動機理及其能量高效轉換,負責人
重慶市研究生教改項目:項目式與研討式相結合的多物理場工程模擬技術教學研究,負責人
中央高校科研業務費(創新人才專項):微型風振壓電能量轉換裝置設計及風洞實驗研究,負責人
中央高校基本科研業務費:氣固兩相流誘發結構振動機理及其影響因素,負責人
丁林代表性論文
[1] L Ding*, Y Han, Z Yang, L Zhang, H He. Influence of upstream cylinder on flow-induced vibration and heat transfer of downstream cylinder. International Journal of Thermal Sciences, 2022, 107519.
[2] L Ding*, X Mao, L Yang, B Yan, J Wang, L Zhang. Effects of installation position of fin-shaped rods on wind-induced vibration and energy harvesting of aeroelastic energy converter. Smart Materials and Structures, 2021, 30(2): 025026.
[3] Q Zou, L Ding*, R Zou, H Kong, H Wang, L Zhang. Two-degree-of-freedom flow-induced vibration of two circular cylinders with constraint for different arrangements. Ocean Engineering, 2021, 225:108806.
[4] Q Zou, L Ding*, T Song, L Yang, L Zhang. Influence of coverage of fin-shaped rods on flow-induced vibration and power extraction of cylinder-based wind energy harvester. Smart Materials and Structures, 2021, 30(6): 065004.
[5] Z Yang, L Ding*, L Zhang, L Yang, H He. Two degrees of freedom flow-induced vibration and heat transfer of an isothermal cylinder. International Journal of Heat and Mass Transfer, 2020, 154: 119766.
[6] J Wang, L Geng, L Ding*, H Zhu, D Yurchenko. The state-of-the-art review on energy harvesting from flow-induced vibrations. Applied Energy, 2020, 267: 114902.
[7] L Ding*, L Yang, Z Yang, L Zhang, C Wu, B Yan. Performance improvement of aeroelastic energy harvesters with two symmetrical fin-shaped rods. Journal of Wind Engineering & Industrial Aerodynamic, 2020, 196: 104051.
[8] H Wang, L Ding*, L Zhang, Q Zou, R N Sharma. Control of two-degree-of-freedom vortex induced vibrations of a circular cylinder using synthetic Jets: Effect of synthetic jet orientation angle and phase difference. Ocean Engineering, 2020, 217: 107906.
[9] H Wang, L Ding*, L Zhang, R N Sharma, L Yang. Numerical study on two-degree-of-freedom vortex induced vibrations suppression of a circular cylinder via synthetic jets at different excitation frequencies. International Journal of Heat and Fluid Flow, 2020, 84: 108593.
[10]Q Zou, L Ding*, H Wang, J Wang, L Zhang. Two-degree-of-freedom flow-induced vibration of a rotating circular cylinder. Ocean Engineering, 2019, 191: 106505.
[11] L Ding*, L Zhang, C Wu, E S Kim, M M Bernitsas. Numerical Study on the Effect of Tandem Spacing on Flow-Induced Motions of Two Cylinders With Passive Turbulence Control. Journal of Offshore Mechanics and Arctic Engineering, 2017, 139: 021801.
[12] L Ding*, L Zhang, E S Kim, M M Bernitsas., C C Chang. Numerical simulation and experimental validation for energy harvesting of single-cylinder VIVACE converter with passive turbulence control. Renewable Energy, 2016, 85: 1246-1259.
[13] L Ding*, L Zhang, E S Kim, M M Bernitsas. URANS vs. Experiments of Flow Induced Motions of Multiple Circular Cylinders with Passive Turbulence Control. Journal of Fluids and Structures, 2015, 54: 612-628
[14] L Ding*, L Zhang, C Wu, X Mao, D Jiang. Flow Induced Motion and Energy Harvesting of Bluff Bodies with Different Cross Sections. Energy Conversion and Management, 2015, 91: 416-426
[15] L Ding*, M M Bernitsas, E S Kim. 2-d URANS vs. experiments of flow induced motions of two circular cylinders in tandem with passive turbulence control for 30,000<Re<105,000. Ocean Engineering, 2013,72:429-40
- 參考資料
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- 1. 丁林 .重慶大學[引用日期2022-02-16]