个人简介

博士后阶段在西澳大学（The University of Western Australia）程亮院士团队从事科研工作。主要研究方向包括计算流体力学（CFD）模拟、流体与结构物相互作用、流动稳定性、海洋管缆的水动力特性及其失效机理等。目前已在SCI期刊发表论文10余篇，其中7篇发表于国际流体力学顶级期刊《Journal of Fluid Mechanics》，其中以第一作者身份发表4篇。曾参与澳大利亚科研基金项目4项，参与编写教材1部，获授权国家发明专利7项。现担任《Journal of Fluid Mechanics》、《Journal of Fluidsand Structures》、《Physics of Fluids》、《Ocean Engineering》、《Journal of Marine Science and Application》等多个SCI期刊的审稿人。

研究方向

研究方向聚焦海洋环境中的复杂流固耦合科学问题，包括但不限于以下方面：

(1) 流体-结构物相互作用

(2) 流动稳定性与流动控制

(3) 高精度计算流体力学CFD模拟

(4) 智能流体力学

(5) 海洋管缆水动力及失效机理

具体研究工作与论文参见：https://www.researchgate.net/profile/Chengjiao-Ren-2或https://orcid.org/0000-0001-8342-6522

招生及招聘信息

• 科研助理：欢迎具有水利工程、海洋工程或土木工程背景的本科或硕士毕业生申请。薪酬参照华南理工大学合同工相关规定执行，提供年终奖，缴纳五险一金；根据工作业绩不定期发放额外补贴；面试通过后可立即入职。

• 硕士生：招收具有海洋工程、港口海岸及近海工程、风工程、力学或土木工程背景或研究兴趣的本科毕业生。

• 博士生：欢迎具备海洋工程、港口海岸及近海工程、风工程、力学、土木工程、人工智能或计算机等相关背景的硕士毕业生报考，需具备较好的英文沟通与写作能力。

• 博士后：面向具有海洋工程、港口海岸及近海工程、风工程或流体力学背景的博士毕业生。年薪最高可达57万元，另提供年终奖及科研成果奖励；学校另缴单位社保；配套提供20万元自主科研经费；校内提供博士后人才公寓或住房补贴；出站后可按校内相关政策申请教研、教学或专职科研岗位，学校将择优选聘留校。留在广东省工作的博士后，可申请20万至50万元的安家补贴（按当地政策执行）。

欢迎有意向者发送简历至邮箱chengjiaoren@scut.edu.cn。

教育和工作经历

教育经历：

· 2015.09-2021.09，大连理工大学，结构工程，博士

· 2011.09-2015.06，大连理工大学，土木工程，本科

工作经历：

· 2025.04– 至今，华南理工大学，海洋科学与工程学院，副教授

· 2021.12-2024.12，澳大利亚西澳大学，工程学院，博士后

科研项目经历

1. 2021.12-2024.12，澳大利亚自然科学基金委（Australian Research Council），Wake dynamics of oscillating cylinder in steadycurrent（约195万人民币），参与

2. 2025.01-2025.12，Western Australian Government & Pawsey Supercomputer Centre,Advanced Numerical Modelling for Developing Safer and More Efficient OceanInfrastructure（约1287万人民币），参与

3. 2024.01-2024.12，Western Australian Government & Pawsey Supercomputer Centre,Advanced Numerical Modelling for Developing Safer and More Efficient OceanInfrastructure（约2088万人民币），参与

4. 2023.01-2023.12，Western Australian Government & Pawsey Supercomputer Centre,Advanced Numerical Modelling for Developing Safer and More Efficient OceanInfrastructure（约1224万人民币），参与

代表作论文

期刊论文：

1.Ren, C., Liu,Z., Cheng, L.*, Tong,F.* &Xiong, C. (2023). Three-dimensional wake transitions of steady flow past twoside-by-side cylinders. Journal of FluidMechanics 972, A17. DOI: 10.1017/jfm.2023.699

2.Ren, C., Cheng, L.*, Xiong,C., Tong, F. & Chen, T. (2021). Bistabilities in two parallel Kármán wakes.Journal of Fluid Mechanics 929, A5.DOI: 10.1017/jfm.2021.832

3. Ren, C., Lu, L.*, Cheng,L.* &Chen, T. (2021). Hydrodynamic damping of an oscillating cylinder at smallKeulegan-Carpenter numbers. Journal ofFluid Mechanics 913, A36. DOI: 10.1017/jfm.2020.1159

4.Ren, C., Cheng,L.*, Tong, F, Xiong, C. & Chen, T. (2019). Oscillatory flow regimes aroundfour cylinders in a diamond arrangement. Journalof Fluid Mechanics 877, 955-1006. DOI: 10.1017/jfm.2019.609

5.Tong, F., Cheng,L., An, H., Griffiths, T. & Ren, C. (2025) Coherent flow structures upstream a circularcylinder near a plane wall. Physics of Fluids, 37 (1), 014126.DOI: 10.1063/5.0244473

6.Zhu, D., Chen, T.*, Wang, K. & Ren, C. (2024) Dot-array porous model for windscreen and its simulation accuracyanalysis, Journal of Wind Engineering and Industrial Aerodynamics, 254,105921. DOI: 10.1016/j.jweia.2024.105921

7.He, F.,An, H.*,Ghisalberti, M., Draper, S., Ren, C., Branson, P. &Cheng, L. (2024). Obstacle arrangement can control flows throughporous obstructions, Journal of Fluid Mechanics, 992, A3. DOI:10.1017/jfm.2024.510

8.He, F.,Ghisalberti, M.*, An,H., Draper, S., Branson, P., Ren, C. & Cheng, L. (2024).Wake structure of an array of cylinders in shallow flow, Journal of FluidMechanics, 986, A30. DOI: 10.1017/jfm.2024.338

9.Qi, X.,Dai, S., Ren, C., Dong, Q. & Xiong, C.* (2023). Numericalsimulation of flow-induced vibration of a circular cylinder close to a freesurface at low Reynolds number, Physics of Fluids 35(4),043108. DOI: 10.1063/5.0132674

10.Dong,G., Chen, T.*, Ren,C. & Wang, K. (2023). Wind tunnel investigation of wind reductioneffect under porous fences protection. Journal of Wind Engineering andIndustrial Aerodynamics 232, 105250. DOI: 10.1016/j.jweia.2022.105250

11.张洪操, 张橙, 唐国强, 吕林. (2023). 不同排列方式下双方柱绕流的同步现象及相位特征研究.水动力学研究与进展A辑,38(05):692-702. DOI: 10.16076/j.cnki.cjhd.2023.05.006

12.Xiong,C., Qi, X., Gao, A., Xu, H., Ren, C.& Cheng, L.* (2020). The bypass transition mechanism of the Stokes boundarylayer in the intermittently turbulent regime. Journal of Fluid Mechanics 896, A4. DOI: 10.1017/jfm.2020.313

会议论文：

1.Ren, C.*,Tong, F., Zhao, J., He, F. & Cheng, L. Vortex-induced inline vibration of acircular cylinder at intermediate Reynolds numbers. Proceedings of 24thAustralasian Fluid Mechanics Conference, Canberra, Australia. DOI: 10.5281/zenodo.14213573

2.Ren, C.*, Cheng, L., & Tong, F. (2024).Hydrodynamic force of an obliquely oscillating cylinder in steady flow. InProceedings of the 43rd International Conference on Ocean, Offshore and ArcticEngineering. Singapore EXPO, Singapore. DOI: 10.1115/OMAE2024-126997

3.Ren, C.*, Cheng, L., & Tong, F. (2023).Hydrodynamic damping of an in-line oscillating cylinder in steady flow. InProceedings of the 42nd International Conference on Ocean, Offshore and ArcticEngineering, Melbourne, Australia. DOI: 10.1115/OMAE2023-101340

4.Ren, C.*, Cheng, L., Tong,F., & Hu, X. (2022). Wake dynamics of steady flow past an obliquelyoscillating cylinder at different Reynolds numbers. In Proceedings of the 23rd Australasian Fluid Mechanics Conference, Sydney, Australia. Paper link

5.Ren, C.*, Cheng, L., &Chen, T. (2020). The upper-bound limit of Stokes-Wang solution for oscillatoryflow around a circular cylinder. In Proceedingsof the 22nd Australasian Fluid Mechanics Conference, Brisbane, Australia.DOI: 10.14264/02e892a

6.He, F.*,An, H., Cheng, L. & Ren, C. Three dimensionality of flow past a lineof cylinders. Proceedings of 24th Australasian Fluid MechanicsConference, Canberra, Australia. DOI: 10.5281/zenodo.14213628 (8pages full paper)

7.Liu,Z.*, Cheng, L., Ren, C. & Tong, F. (2024). Impacts of small gaps andembedment depths on forces of a circular cylinder near a plane wall. InProceedings of the 43rd International Conference on Ocean, Offshore and ArcticEngineering. Singapore EXPO, Singapore. DOI: 10.1115/OMAE2024-124959

8.Dong,G.*, Cheng, L., Ren, C. & Tong, F. (2024). Experimental study onhydrodynamic damping of an oscillating cylinder under small Keulegan-Carpenternumbers. In Proceedings of the 43rd International Conference on Ocean,Offshore and Arctic Engineering. Singapore EXPO, Singapore. DOI:10.1115/OMAE2024-126665

9.Liu,Z.*, Cheng, L., Ren, C., Griffiths, T., & Tong, F. (2023).Hydrodynamic Forces of Subsea Small-Diameter Pipeline in a Deep/Wide Trench. InProceedings of the 42nd International Conference on Ocean, Offshore and ArcticEngineering, Melbourne, Australia. DOI: 10.1115/OMAE2023-103310

10.He, F.*, Draper, S., Ghisalberti, M., An, H., Branson, P., Cheng, L. & Ren, C. (2022). The Wake structurebehind porous obstruction in a steady current. In Proceedings of the 23rdAustralasian Fluid Mechanics Conference, Sydney, Australia. Paper link