康林林北京大学,博士 西湖大学,副研究员 邮箱:kanglinlin@westlake.edu.cn 地址:杭州市西湖区墩余路600号 |
工作经历
- 2024.1-至今,副研究员,工学院,西湖大学
- 2022.1-2024.1,助理研究员,工学院,西湖大学
- 2020.1-2022.1,博士后,工学院,西湖大学
教育背景
- 2014.9-2020.1, 博士,流体力学,北京大学
- 2018.1-2018.5, 访问博士,工业工程系,意大利那不勒斯费德里克二世大学
- 2010.9-2014.6, 学士,近代力学系,中国科学技术大学
科研项目
- 国家自然科学基金委员会, 青年科学基金,“柔性体涡动力学理论研究及其在集群运动分析中的应用”,主持,在研,2022.1-2024.12
- 中国博士后科学基金会,第69批面上资助,“仿生柔性体集群运动特性和动力学机理研究”,主持,在研,2020.1-2021.12
- 中华人民共和国科学技术部,重点研发计划,“自主俘能多模态仿蝠鲼潜水器”,参与,在研,2022.11-2026.10
- 广东省海洋六大产业专项重点研发项目,“深海仿生型潜水器研发及产业化应用”,参与,在研,2021.4-2023.3
- 国家自然科学基金委员会,重大研究计划, “带水平剪切的双扩散对流流动结构及输运特性”,参与,在研,2019.1-2021.12
- 国家自然科学基金委员会, 面上项目,“粘性可压缩复杂外流的局部动力学诊断理论”,参与,结题,2015.1-2019.12
人才项目
- 浙江省科学技术协会,青年人才托举项目,主持,在研,2024.1-2026.1
荣誉/奖励
- 西湖大学工学院2021年度优秀职工(2021)
- 北京大学校长奖学金(2018)
- 北京大学专项奖学金(2016)
- 中国科学技术大学优秀毕业论文(2/74)、优秀毕业生(2014)
- 大学生创新研究计划二等奖、优秀学生奖学金(银奖)、励志奖学金、杨亚奖学金(2011-2013)
- 数学竞赛全国二等奖(2009)
论文发表
期刊论文
- Xinyu Tong, Linlin Kang *, Dixia Fan *. “Flow sensing of a solid plate in the wake vortex street”, Physics of Fluids, 2024, 36 (Editor’s pick).
- Shixian Gong, Linlin Kang *, Dixia Fan, Weicheng Cui, Xi-Yun Lu. “Hydrodynamic interactions between two self-propelled flapping plates swimming towards each other”, Acta Mechanica Sinica, 2024.
- Linlin Kang, Ankang Gao*, Fei Han, Weicheng Cui, Xi-Yun Lu. “Propulsive performance and vortex dynamics of jellyfish-like propulsion with burst-and-coast strategy”, Physics of Fluids, 2023, 35, 091904 (Featured article, SciLight Report).
- Linlin Kang, Shiying Xiong, Buchen Wu, Chao Li, Mingming Ge, Dehan Yuan, Fei Han, Weicheng Cui. “Force Decomposition on flapping flexible plate via impulse theory and dynamic mode decomposition”, Physics of Fluids, 2023, 35, 101914 (Editor’s pick).
- Linlin Kang, Shixian Gong, Xi-Yun Lu, Weicheng Cui, Dixia Fan*. “Scaling laws for the intermittent swimming performance of a flexible plate at low Reynolds number”, Journal of Hydrodynamics, 2023, 35(4):803-810.
- 毛峰,康林林,刘罗勤,吴介之. 三维气体流动与纵波的理论表述——兼议气动声学,气动研究与试验, 2023, 1(3).
- 刘罗勤,邹舒帆,朱金阳,康林林,高安康,吴介之. 定常升阻力:理论基础的主流演化,气动研究与试验,2023,1(5).
- 毛峰,刘罗勤,邹舒帆,康林林,吴介之. 固体边界:复杂粘性流动之源,气动研究与试验,2023, 1(4).
- Linlin Kang, Weicheng Cui, Xi-Yun Lu, Haibo Huang*. Hydrodynamic force induced by vortex-body interactions in orderly formations of flapping tandem flexible plates, Physics of Fluids, 2022, 34(2).
- Linlin Kang, Xi-Yun Lu, Weicheng Cui*. Intermittent swimming of two self-propelled flappi ng plates in tandem configuration, Physics of Fluids, 2022, 34(1)(Editor’s pick).
- 康林林,毛峰,吴介之. 一维纵波, 气动研究与试验, 2022, 34(5):1-18.
- Feng Mao, Linlin Kang, Luoqin Liu*, Jiezhi Wu. A unified theory for gas dynamics and aeroacoustics in viscous compressible flows. Part I. Unbounded fluid, Acta Mechanica Sinica, 2022, 38(7): 321492.
- Feng Mao, Luoqin Liu*, Linlin Kang, Jiezhi Wu, Pengjunyi Zhang, Zhenhua Wan. A unified theory for gas dynamics and aeroacoustics in viscous compressible flows. Part II. Sources on solid boundary, Acta Mechanica Sinica, 2022, 38(12): 321583.
- Linlin Kang; Zerui Peng; Haibo Huang; Xi-Yun Lu; Weicheng Cui*; Active external control effect on the collective locomotion of two tandem self-propelled flapping plates, Physics of Fluids, 2021, 33: 101901.
- Feng Mao, Linlin Kang, Jiezhi Wu, Jialong Yu, Ankang Gao, Weidong Su, Xi-Yun Lu*. A study of longitudinal processes and interactions in compressible viscous flows, Journal of Fluid Mechanics, 2020, 893: 0-A23.
- Weicheng Cui*, Linlin Kang. On the construction of a theory of everything based on Buddhist cosmological model. Trends in Technical & Scientific Research, 2020, 3: 98-109.
- Linlin Kang, Lorenzo Russo, Renato Tognaccini*, Jiezhi Wu, Weidong Su. Aerodynamic force breakdown in reversible and irreversible components by vortex force theory, AIAA Journal, 2019, 57: 4623-4638.
- Shufan Zou, Jiezhi Wu*, Ankang Gao, Luoqin Liu, Linlin Kang, Yipeng Shi. On the concept and theory of induced drag for viscous and incompressible steady flow, Physics of Fluids, 2019, 31: 065106.
- Linlin Kang, Luoqin Liu, Weidong Su, Jiezhi Wu*. Minimum-domain impulse theory for unsteady aerodynamic force, Physics of Fluids, 2018, 30: 016107(Editor’s pick).
- Linlin Kang, Luoqin Liu, Weidong Su, Jiezhi Wu*. A minimum-domain impulse theory for unsteady aerodynamic force with discrete wake, Theoretical and Applied Mechanics Letters, 2017, 7: 306-310.
- Luoqin Liu, Linlin Kang, Jiezhi Wu*. Zonal structure of unbounded external-flow and aerodynamics, Fluid Dynamics Research, 2017, 49: 045508.
- Luoqin Liu, Jiezhi Wu*, Weidong Su, Linlin Kang. Lift and drag in three-dimensional steady viscous and compressible flow, Physics of Fluids, 2017, 29: 116105.
会议论文
- Linlin Kang, Lorenzo Russo, Renato Tognaccini*, Jiezhi Wu, Weidong Su. Aerodynamic Force Breakdown Based on Vortex Force Theory, AIAA Scitech 2019 Forum, San Diego, California, 2019.
专题报道
- Highly efficient jellyfish jet propulsion, Maura Shapiro, 6 September 2023, Scilight.
专利
- 发明专利:一种外骨骼机器人远程多机控制方法,王景泽,康林林,杨平,崔维成,ZL202210214212.4。
- 实用新型专利:一种可翻转的仿生扇贝推进装置,康林林,罗兵,何衢,崔维成,ZL202320364210.3。
学术报告
- 涡-磁相互作用对磁管分裂的影响机制,第十三届全国流体力学大会,哈尔滨,2024
- Vortex interactions shape the evolution of force, acoustics and magnetic field, 国际涡动力学大会,中国杭州,2023(邀请报告)
- 仿生柔性体运动的流固耦合数值模拟研究,第八届全国船舶与海洋工程CFD会议,哈尔滨,2023(邀请报告)
- 基于动力学模态分解和冲量理论的柔性拍动板受力分析,第十九届全国分离流、旋涡和流动控制会议,西安,2023
- 旋涡动力学理论及其应用,第48期流体力学青年学术沙龙,线上,2023(邀请报告)
- 可压缩流动基本过程分解耦合理论及其应用,第八届国际流体物理研讨会,西安,2019
- Aerodynamic Force Breakdown Based on Vortex Force Theory,AIAA SciTech 2019 Forum,美国洛杉矶,2019
- The relation between vorticity-based and thermodynamic-based drag breakdown,欧洲流体力学大会,奥地利维也纳,2018
- Vortex Force Theory for aerodynamic force decomposition,第一届中国空气动力学大会,绵阳,2018
- A compressible finite-domain impulse theory for unsteady aerodynamic force,国际理论与应用力学大会,涡动力学分会,法国马赛,2016
学术服务
- 国际期刊Biomimetics和Journal of Hydrodynamics期刊客座主编
- 国际会议2024 SES Annual Technical Meeting分会“生物流体和仿生流体力学”负责人
- 流体领域权威期刊 Physics of Fluids,AIAA Journal, Ocean Engineering, Journal of Hydrodynamics等期刊审稿专家
- 《中国大百科全书》第三版《涡动力学》学科词条编辑工作
- Co-organizor of IBiM Seminar,联合创办《智能与仿生力学》公众号
助教经历
- 《流体运动基本过程》(吴介之教授),研究生课程,北京大学,2019
- 《高等空气动力学》(吴介之教授),研究生课程,北京大学,2016
- 《数学分析》(史一蓬教授),本科生课程,北京大学,2014