现主持国家自然科学基金项目1项，浙江省自然科学基金项目1项，横向项目2项。已在Journal of Fluid Mechanics, International Journal of Mechanical Sciences, Journal of Fluids and Structures, International Communications in Heat and Mass Transfer, Applied Thermal Engineering, Physics of Fluids等领域内的权威期刊发表SCI论文30余篇，其中一作或通讯论文21篇（一区4篇，二区11篇），授权发明专利3件。Journal of Biomechanics、Physics of Fluid、Frontiers in Bioengineering等SCI期刊审稿人。

本研究方向主要通过数值模拟方法研究流体与柔性结构之间的相互作用，旨在揭示其耦合机制和动力学特性。通过分析流-固耦合现象，不仅可以深入理解自然界中生物体运动的力学原理，还能为流动控制和能量采集提供理论支持。目前课题组在纤维和细丝等柔性体的运动仿真领域处于国内领先地位，所构建的基于GPU加速的浸入边界-格子玻尔兹曼方法能够处理任意大变形结构的流固耦合。

● 流动强化换热

主要聚焦于开发和优化新型换热技术，如涡流发生器和散热翅片等，目标是提高流体流动过程中热量传递的效率。特别关注柔性结构在强化换热领域中的潜在应用，通过数值模拟和实验研究，探索柔性材料在不同流动条件下的强化换热效果。研究成果可广泛应用于电子设备散热、化工过程及能源系统等领域。

课题组提出的一种基于柔性结构弹跳的柔性涡发生器用于双通道强化换热

● 生物流体力学

主要研究动物和人体内循环、呼吸系统的生理流体（如血液、气体、尿液、淋巴液和其他体液等）的流体力学问题，特别关注柔性颗粒（如循环肿瘤细胞）在微血管中的迁移和粘附机制，相关研究对癌症转移的防治具有重要意义。

循环肿瘤细胞的在弯曲和平直微血管中的转移和粘附对比

● 气动型纺织装备改造优化

主要通过数值模拟结合实验手段来研究纱线、纤维等柔性结构在旋转气流场和高速叠加射流场中的运动规律和失稳机理，优化转杯纺纱器和喷气织机关键部件的结构和性能，从而提高装备的产品生产质量和运行效率，降低其能耗。

喷气织机

⟡ 指导的多位研究生获国家奖学金、流体实验室特等奖学金等荣誉。

2. 浙江省自然科学基金探索公益项目，基于IB-LBM的肿瘤细胞在分叉微血管内的粘附机制和预测模型研究，10万元，2023/01-2025/12，排名1；

3. 浙江理工大学科研启动项目，脉动血流中初级纤毛动力学行为及其信号传导功能研究，8万元，2022/01-2024/12，排名1；

4. 横向项目，漩涡泵水力性能优化和能效提升研究，24万，2024.09-2026.09，排名1；

5. 横向项目，标准型磁力传动石油化工流程泵技术开发，15万，2024.06-2026.12，排名1。

1. Cui, J., Zhu, X., Li, M., et al., Comparative analysis of thermo-hydraulic performance on three different finned tube designs,International Communications in Heat and Mass Transfer, 162: 108579.

2. Cui, J., Zhu, X., Xiao, L., et al., Dynamics of a long flexible filament conveyed in the near field of a turbulent jet,Journal of Fluids and Structures, 133: 104261.

2024

1. Cui, J.*, Wang, Z., Ren F., et al., Buckled Elastic Sheet as a Vortex Generator in Dual Channels,Journal of Fluid Mechanics, 985: A39.

2. Cui J., Wang, H., Wang, Z., et al., Inertial focusing of small particles in oscillatory channel flows,International Journal of Mechanical Sciences, 278: 109471.

3. Jin, Y.*, Chen, J. &Cui, J.*, Fast flow field prediction based on E(2)-equivariant steerable convolutional neural networks,Physics of Fluids, 36: 097157.

4. Jin, Y., Leng, C., Wang, Z., Zhang, X. &Cui, J.*, Enhancing heat transfer in laminar channel flow by tuning the mass distribution of a flexible reed,Physics of Fluids, 36: 023624.

5. Wang, Z.,Cui, J., Zhao, F., et al. Dynamics and energy harvesting of a flow-induced snapping sheet with nonuniform stiffness distribution,International Journal of Fluid Engineering, 1: 043502

2023

1. Cui, J., Li, M., Xu, W., et al., A numerical analysis of ash fouling characteristics in elliptical tube bundles,Applied Thermal Engineering, 235: 121436.

2. Cui, J., Jin, Y.*, Liu, Y., et al., Fluid-structure interaction and flow sensing of primary cilia in oscillating fluid flows,Physics of Fluids, 35: 031905.

3. Cui, J., Liu, Y., Leng, C. & Jin, Y.*, Radial migration and motion characteristics of elastic fibers in cylindrical Couette flow: a numerical simulation study,Acta Mechanica, 234: 6439-6450.

4. Wang, Z., Zhao, F., Fu, Y., Deng, F., Zeng, L. &Cui, J.*, Towards energy-harvesting through flow-induced snap-through oscillations,International Journal of Mechanical Sciences, 254: 108428.

5. Jin, Y., Li, Y., Feng, M. &Cui, J.*, Research on the characteristics of flue gas purification reaction in spouted bed,Chemical Engineering Science, 282: 119329.

6. Jin, Y., Liu, Y. &Cui, J.*, Numerical study on the motion characteristics of an elastic fiber migrating in a cylindrical Couette flow with centrifugal effect,Acta Mechanica Sinica, 39: 322423.

7. Cui, J., Xiong, H., Jia, H. & Jin, Y.*, Dynamics and morphological evolution of a fiber conveyed in a three-dimensional rotor spinning unit: a numerical study,The Journal of The Textile Institute, 115(3): 442-452.

2022

1. Cui, J., Wang, Z., Liu, Y., et al., Three-dimensional simulation of lateral migration of fiber in a laminar channel flow,International Journal of Mechanical Sciences, 236: 107766.

2. Cui, J., Wu, T., Liu, Y., et al., A three-dimensional simulation of the dynamics of primary cilia in an oscillating flow,Applied Mathematical Modelling, 108: 825-839.

3. Jin, Y., Li, Q. &Cui, J.*, Vortex characteristics in rotating rotor cup of rotor spinning based on large eddy simulation,The Journal of The Textile Institute, 114(8): 1188-1198.

4. Jin, Y., Wang, Z.,Cui, J.*& Zhu, Z., Research on wear characteristics induced by flowing microparticles in rotor cup,The Journal of The Textile Institute, 114(9): 1269-1281.

2022以前

1. Cui, J., Liu, Y.*& Jin, Y., (2021) Impact of initial fiber states on different fiber dynamic patterns in the laminar channel flow,International Journal of Mechanical Sciences, 198: 106359.

2. Cui, J., Liu, Y.*, Xiao, L., et al., (2021) Numerical study on the adhesion of a circulating tumor cell in a curved microvessel,Biomechanics and Modeling in Mechanobiology, 20: 243-254.

3. Cui, J., Liu, Y.*& Fu, B. M., (2019) Numerical study on the dynamics of primary cilium in pulsatile flows by the immersed boundary-lattice Boltzmann method,Biomechanics and Modeling in Mechanobiology, 19: 21-35.

4. Cui, J., Lin, Z. & Jin, Y.*,(2019) Numerical simulation of fiber conveyance in a confined channel by the immersed boundary-lattice Boltzmann method,European Journal of Mechanics / B Fluids, 76: 422-433.

5. Jin, Y.*,Cui, J., Zhu, L., et al., (2017) An investigation of some parameter effects on the internal flow characteristics in the main nozzle,Textile Research Journal,87(1): 91–101.

6. Jin, Y.*,Cui, J., Li, X., et al., (2017) An investigation on the distribution of massive fiber granules in rotor spinning units,Textile Research Journal, 87(7): 865–877.

2. 一种径向间隙自动修正的隔舌装置，2023，发明专利（实审中），CN202311617566.4

3. 一种回流可控低损失的旋涡自吸泵，2023，发明专利（实审中），CN202311534880.6

4. 一种血管血液脉动流模拟装置，2023，发明专利（实审中），CN202310729901.3

5. 一种管路装置，2023，发明（实审中），CN202310723695.5

6. 一种均匀来流中柔性体运动可视化研究装置，2016，发明专利授权，CN201610326169.5

7. 纺织机，2016，发明专利授权，CN201510023809.0

8. 减噪装置，2017，发明专利授权，CN201510023341

● Email: jingyucui@zstu.edu.cn

● QQ: 331307352（本课题组科研氛围浓厚，师生关系融洽，欢迎各位同学咨询和报考）