基本资料
吴渴欣 男,1992.07生,辽宁大连人,中共党员;
科技处专聘副职(2025.06至今),副教授、硕士生导师、本科生导师,海归博士;曾挂职国家自然科学基金委员会高技术研究发展中心(基础研究管理中心)能源与交通项目处(2024-2025年);入选2022年“福布斯U30”(https://www.forbeschina.com/leadership/62323)。
2021.04至今,担任kaiyun开云官方网站能源与动力工程系专任教师(教学与科研并重型),研究方向:航空航天及深海采矿流体动力学;主持国家自然科学基金青C项目1项,参与国家自然科学基金面上项目1项、参与执行“十四五”国家重点研发计划项目2项、浙江省“尖兵、领雁”研发攻关计划项目2项。国家级重点实验室“流体传输系统技术国家地方联合工程实验室”及省部级重点实验室“全省(浙江省)复杂流动与流体工程重点实验室(浙江省机电设计研究院与蓝箭航天技术有限公司参与共建)”等高水平科研平台骨干成员,学科及团队负责人:朱祖超教授(“浙江省特级专家”、“2023年度国家科技进步二等奖”获得者、“2025年中国工程院机械与运载学部院士有效候选人”)。
2016.09-2021.02连续四年半在海外担任Research Assistant,师从国际知名机械运载领域专家Kim HeuyDong教授(曾担任国际理论与力学联合会IUTAM韩国分会主席、2025年亚洲流体力学大会ACFM联合主席、2024年第26届世界力学家大会ICTAM主席、2023年第34届国际激波学术会议ISSW主席、SCI期刊Journal of Mechanical Science and Technology主编),期间优秀地完成韩国国家研究基金项目1项、韩国先进科学研究项目1项(与韩国国立首尔大学合作完成),获2021年韩国机械工程师学会(KSME)优秀博士论文奖。近年来以第一作者、唯一通讯作者发表国内外期刊及会议论文70余篇,其中在JFM、AST、POF、IJHMT等高水平SCI期刊上发表论文33篇;具备突出的英语听、说、读、写、译能力,曾担任国际会议英文同声传译。现担任多个国际顶级学术会议的科学评价委员会委员及多个国际知名SCI期刊审稿人,是韩国机械工程师学会(KSME)、韩国推进工程师学会(KSPE)、韩国可视化学会(KSV)、中国力学学会(CSTAM)、中国汽车工程学会(CSAE)以及中国工程热物理学会会员(CSET)。
主要研究方向
● 方向1,航空航天流体动力学(Fluid Mechanics in Aeronautics and Astronautics)
● 方向2,深海采矿流体动力学(Fluid Mechanics in Deep-Sea Mining)
获奖情况
1. 福布斯中国30位30岁以下精英(福布斯U30);
2. 韩国机械工程师学会(KSME)优秀博士论文奖;
3. 大连市甘井子区优秀青年人才;
4. 海外硕、博全额奖学金;
5. 大连市青年领袖;
6. 重庆市大学生青年骨干;
7. “青春榜样”优秀共青团干部;
8. 优秀学生干部;
9. 青年志愿者先进个人;
10. 精神文明先进个人;
科研项目
1. 国家自然科学基金/青年项目,激波诱导推力矢量喷管射流非定常流动特性形成及演化机理研究,国家级,结题,主持;
2. 国家自然科学基金/面上项目,细丝线在高速间歇气流场中的运动特性及失稳机理研究,国家级,在研,参与;
3. 浙江省自然科学基金/探索青年项目,基于深度学习的双喉道推力矢量喷管非定常流动特性预测及机理研究,省部级,结题,主持;
4. 中华人民共和国科学技术部国家重点研发计划,深海多金属结核新型采矿模式及其原理样机研究,结题,参与;
5. 中华人民共和国科学技术部国家重点研发计划政府间科技创新合作,矿用混输泵低耗耐磨关键技术研究及应用,结题,参与;
6. 浙江省“尖兵、领雁”研发攻关计划项目,大型液化气接收站超低温LNG球阀关键技术及产业化,省部级,结题,参与;
7. 浙江省“尖兵、领雁”研发攻关计划项目,面向水泵行业区域集群的智能化协同生产平台研发及应用,省部级,结题,参与;
8. 韩国国家研究基金(NRF),Study on pseudo-shock wave phenomenon and its control method,国家级,结题,参与(海外期间);
9. 韩国先进科学研究项目(ERC),가변추력용초음속노즐설계및성능특성,国家级,结题,参与(海外期间);
发表论文
以第一作者发表SCI论文代表作(仅列20篇)
1. K.X Wu1,*, X.Y. Fan, A.K. S, S. Fu, H.D. Kim, and V.R.P. Sethuraman*. Study on shock train oscillations in a rectangular diverging isolator based on large eddy simulation,Journal of Fluid Mechanics, 1030: A1, 2026.(流体力学领域Top 1期刊)
2. X. Chen, V.R.P. Sethuraman, A.K. S, C. Ma,K.X. Wu*, X.Y. Ge, S. Fu, and H.D. Kim. Study on self-excited and forced oscillations of shock train in a scramjet isolator,Aerospace Science and Technology, 168: 111260, 2026.(一区Top期刊)
3. X. Chen, Z. Liu, H. Li, J.W. Ren, X.Y. Ge, H.B. Gao, K.H. Li, andK.X. Wu*. Three-dimensional oscillation characteristics in the bypass shock-induced thrust vector control,Aerospace Science and Technology, 169: 111435, 2026.(一区Top期刊)
4. X. Chen, W.J. Fang, Z. Liu,K.X. Wu*, H. Li, V.R.P. Sethuraman, A.K. S, and K.H. Li. Three-dimensional internal flow characteristics of bypass shock-induced thrust vector control,Aerospace Science and Technology, 168: 111260, 2026.(一区Top期刊)
5. X. Chen, V.R.P. Sethuraman, H. Li, andK.X. Wu*. Effect of heat transfer on shock train oscillations in a diverging isolator,Aerospace Science and Technology, 163: 110262, 2025.(一区Top期刊)
6. K.X. Wu1, A.Q. Zhu, V.R.P. Sethuraman, and X.H. Su*. Hysteretic behaviors in shock-induced thrust vector control,Physics of Fluids, 37: 036127, 2025.
7. K.X. Wu1, X.Y. Fan, S. Fu, A.K. S,V.R.P. Sethuraman*. Effect of self-excited oscillation of three-dimensional rectangular shock-induced thrust vector nozzle jet,Physics of Fluids, 36: 086111, 2024.
8. K.X. Wu1, S.K. Raman, V.R.P. Sethuraman, G. Zhang and H.D. Kim*. Effect of the wall temperature on Mach stem transformation in pseudo-steady shock wave reflections.International Journal of Heat and Mass Transfer, 147(118927), 2020.
9. K.X. Wu1, T.H. Kim and H.D. Kim*. Theoretical and numerical analyses of aerodynamic characteristics on shock vector control.Journal of Aerospace Engineering, 33(5): 04020050, 2021.
10. K.X. Wu1, T.H. Kim and H.D. Kim*. Sensitivity analysis on counter-flow thrust vector control with a three-dimensional rectangular nozzle.Journal of Aerospace Engineering, 34(1): 04020107, 2021.
11. K.X. Wu1, Y.Z. Jin and H.D. Kim*. Hysteretic behaviors in counter-flow thrust vector control.Journal of Aerospace Engineering, 32(4): 04019041, 2019.
12. K.X. Wu1,*. Study on aerodynamic features of rod thrust vector control for physical applications.Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 237(1): 156-176, 2023.
13. K.X. Wu1, G. Zhang, T.H. Kim and H.D. Kim*. Numerical parametric study on three-dimensional rectangular counter-flow thrust vectoring control.Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 234(16): 2221-2247, 2020.
14. K.X. Wu1and H.D. Kim*. Numerical study on the shock vector control in a rectangular supersonic nozzle.Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 233(13): 4943-4965, 2019.
15. K.X. Wu1, Y.Z. Jin and H.D. Kim*. Fluidic thrust vector control based on counter-flow concept.Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 233(4): 1412-1422, 2019.
16. K.X. Wu1, G. Zhang and H.D. Kim*. Study on the Mach and regular reflections of shock wave.Journal of Visualization, 22(2): 1-21, 2019.
17. K.X. Wu1, T.H. Kim and H.D. Kim*. Visualization and analysis on the thrust vectoring control in three-dimensional dual-throat nozzles.Journal of Visualization, 5(24): 891-915, 2021.
18. K.X. Wu1, Z. Liu, R.Y. Deng, G. Zhang, Z.C. Zhu,V.R.P. Sethuraman and X.H. Su*. Study on the aerodynamic performance of novel bypass shock-induced thrust vector nozzle.Journal of Applied Fluid Mechanics, 16(4): 765-777, 2023.
19. K.X. Wu1, T.H. Kim and H.D. Kim*. Numerical study of fluidic thrust vector control using dual throat nozzle.Journal of Applied Fluid Mechanics, 14(1): 73-87, 2021.
20. K.X. Wu1and H.D. Kim*. A fluidic thrust vector control using the bypass flow in a dual throat nozzle.Journal of Mechanical Science and Technology, 35(8): 1-9, 2021.
以第一作者/唯一通讯作者发表国际/国内会议论文列表(仅列15篇)
1. X.Y. Fan, V.R.P. Sethuraman, A.K. Rajagopa, S. Kumar, H.D. Kim, R.Y. Deng andK.X. Wu*. “Study on shock train oscillation in a rectangular diverging isolator using large eddy simulation”,26thInternational Congress of Theoretical and Applied Mechanics, Aug. 25th-30th, 2024, Daegu (Republic of Korea).
2. A.Q. Zhu, V.R.P. Sethuraman, A.K. Rajagopa, S. Kumar, H.D. Kim, R.Y. Deng andK.X. Wu*. “Study on internal flow characteristics of a three-dimensional axisymmetric dual-throat nozzle”,26thInternational Congress of Theoretical and Applied Mechanics, Aug. 25th-30th, 2024, Daegu (Republic of Korea).
3. K.X. Wu1, X.Y. Fan, A.K. Rajagopa, V.R.P. Sethuraman,H.D. Kim and R.Y. Deng*. “Study on self-excited oscillation of a rectangular shock-induced thrust vector nozzle jet”,34thInternational Symposium on Shock Waves,July. 16th-21st, 2023, Daegu (Republic of Korea).
4. K.X. Wu1, A.Q. Zhu, A.K. Rajagopa, V.R.P. Sethuraman,H.D. Kim and R.Y. Deng*. “Study on hysteresis phenomenon in a rectangular shock-induced thrust vector nozzle”,34thInternational Symposium on Shock Waves,July. 16th-21st, 2023, Daegu (Republic of Korea).
5. K.X. Wu1, Z. Liu, A.K.Rajagopal, H.D. Kim, A. Suryan, M. Yaga, W.J. Fang and R.Y. Deng*. “Study on three-dimensional rectangular shock-induced thrust vector nozzle utilizing a novel mass flow bypass”,9thAsian Joint Workshop on Thermophysics and Fluid Science,Nov. 27th-30th, 2022, Utsunomiya (Japan).
6. K.X. Wu1and H.D. Kim*. “Study on the side force prediction in shock vector control”,24thInternational Society for Air Breathing Engines, Sep. 22nd-27th, 2019, Canberra (Australia).
7. K.X. Wu1, J. Rajasekar and H.D. Kim*. “Influence of the ramp temperature on pseudo-steady shock wave reflections”,15thAsian Symposium on Visualization,Sep. 25th-28th, 2019, Busan (Republic of Korea).
8. K.X. Wu1and H.D. Kim*. “Study on effects of the wall temperature for shock reflections”,7thAsian Symposium on Computational Heat Transfer and Fluid Flow, Sep. 3rd-7th, 2019, Tokyo (Japan).
9. K.X. Wu1and H.D. Kim*. “Numerical studies on the performance of shock vector control”,Proceeding of the ASME-JSME-KSME 2019 Joint Fluids Engineering Conference, Jul. 28th-Aug. 1st, 2019, San Francisco (USA).
10. K.X. Wu1, A. Suryan andH.D. Kim*.“Numerical analysis of transitional criteria between Mach and regular reflections”,7thAsian Joint Workshop on Thermophysics and Fluid Science,Nov. 21st-24th, 2018, Trivandrum (India).
11. K.X. Wu1,A. Suryan andH.D. Kim*.“Assessment of aerodynamics on shock vector control”,7thAsian Joint Workshop on Thermophysics and Fluid Science,Nov. 21st-24th, 2018, Trivandrum (India).
12. K.X. Wu1andH.D. Kim*.“Study on fluidic thrust vector control based on dual-throat concept”,XI International Conference on Computational Heat, Mass and Momentum Transfer,May 21st-24th, 2018, Cracow (Poland).
13. K.X. Wu1,Y.Z. Jin andH.D. Kim*. “Study on the aerodynamic performance of a dual bell nozzle”,9thAsian Joint Conference on Propulsion and Power,Mar. 14th-17th, 2018, Xiamen (China).
14. K.X. Wu1, Y.Z. Jin andH.D. Kim*. “Thrust vector control using co- and counter-flows”,9thJSME-KSME Thermal and Fluids Engineering Conference,Oct. 28th-30th,2017, Okinawa (Japan).
15. K.X. Wu1, Y.Z. Jin and H.D. Kim*. “Thrust vector control using counter-flow”,14thAsian Symposium on Visualization,May.22nd-26th,2017, Beijing (China).
发明专利
1. 超燃冲压发动机实验台组分-压力场深度耦合监测方法;
2. 一种冷激波干粉灭火装置;
3. 一种医用超音速无针注射装置;
4. 一种利用隔板抑制圆形隔离段激波串振荡装置;
5. 一种利用二次流注入与燃烧的矩形隔离段激波串控制装置;
6. 一种利用角域气体抽吸与再注入控制激波串振荡的隔离段;
7. 一种用于抑制激波串自激振荡的矩形隔离段;
8. 一种深海采矿混输泵管循环标定系统及实验方法;
9. 一种深海采矿泵管混输性能测试系统及实验方法;
10. 一种深海采矿气力提升系统及实验方法。
联系方式
● 通讯地址:浙江省杭州市钱塘区下沙高教园区kaiyun开云官方网站1#434室(行政)、24#楼501室(科研)
● Email:kexin.wu@zstu.edu.cn
师资队伍