刘报
姓名 | 刘报 | 出生年月 | 1991年2月 | ||
性别 | 男 | 职称 | 讲师 | ||
邮箱 | baoliu@whut.edu.cn | 硕/博导 | 硕导、博导 | ||
研究领域 | 船舶推进系统设计与测试技术:轮缘推进器、无轴泵;构型、建模、仿真和优化;测试技术 | ||||
教育经历 | 1)2018.10-2022.12荷语鲁汶大学,机械工程,博士 2)2015.09-2018.06武汉理工大学能源与动力工程学院,硕士 3)2011.09-2015.06武汉理工大学能源与动力工程学院,学士 | ||||
工作经历 | 1)2023.05-至今,武汉理工大学,交通与物流工程学院,博士后 2)2023.09-2024.12,武汉理工大学,交通与物流工程学院,助理研究员 3)2025.01-至今,武汉理工大学,交通与物流工程学院,讲师 | ||||
代表性科研项目 | [1]国家自然科学基金委,青年科学基金项目(C类),基于超疏水仿生微结构的轮缘推进器间隙流域减阻机理和气膜稳定性调控,52501396,2026.01-2028.12,在研,主持。 [2]湖北省科学技术厅,湖北省自然科学基金面上类项目青年B类,JCZRQN202500002,座头鲸仿生结构对轮缘推进器水动力特性影响及其流场控制机理,2025.03-2027.03,在研,主持。 [3]中央高校基本科研业务费专项资金资助,非均匀伴流场下轮缘推进器水动力特性与仿生结构对流场控制机理,104972025RSCbs0055,2025.03-2025.12,在研,主持。 [4]国家级科研基地建设与培育项目,基于仿生原理的高效低噪船舶轮缘推进器设计方法研究,104972024KFYd0015,2024.05-2026.04,在研,主持。 [5]中央高校基本科研业务费专项资金资助,船舶轮缘推进器水动力特性优化及试验测试方法研究,2023IVA084,2023.06-2023.12,结题,主持。 [6]国家重点研发计划项目子课题,基于多物理场耦合的船舶高效推进装置运行能效提升技术研究,2022YFB4300802,2022.12-2025.11,在研,参与。 | ||||
代表性论文及著作 | [1] Ouyang, W.; Zhang, Z.; Nie, Y.; Liu, B.*; Vanierschot, M. Parametric modeling and collaborative optimization of a rim-driven thruster considering propeller-duct interactions[J]. Ocean Engineering, 337 (2025), Art.No.121746. [2]Liu, B., Yan Xinping, Ouyang Wu, Vanierschot, M. Numerical investigation of hydrodynamic characteristics of arim-driven thruster coupled with an underwater vehicle[J]. Journal of Marine Science and Engineering, 12 (2024), Art.No.1838. [3]Liu, B., Yan Xinping, Ouyang Wu, Vanierschot, M. Comparison study of the vortical structures in the wake of a rim-driventhruster and a ducted propeller in bollard conditions[J]. Ocean Engineering, 306(2024), Art.No. 118064. [4]Liu, B., Vanierschot, M., and Buysschaert, F. Comparison study of the k-kL-ω and γ-Reθtransition model in the open-water performance prediction of a rim-driven thruster[J]. International Journal of Turbomachinery, Propulsion and Power, 9 (2024), Art.No.2. [5]Liu, B.,Dai Mingcheng, Liang Xingxin. Influence of bearings on the open waterperformance of a rim-driven thruster[J]. Physics of Fluids, 35(2023), Art.No. 085139. [6]Liu, B., Vanierschot, M., and Buysschaert, F. Numerical study of scale effects on the open water performance of a rim-driven thruster [J]. Applied Ocean Research, 138 (2023), Art.No. 103667. [7]Liu, B., Vanierschot, M., and Buysschaert, F. Optimization design of the duct of a rim-driven thruster using the adjoint approach[J]. Ocean Engineering, 278 (2023), Art.No. 114293. [8]Liu, B., Vanierschot, M., and F., B. Effects of transition turbulence modeling on the hydrodynamic performance prediction of a rim-driven thruster under different duct designs[J]. Ocean Engineering, 256 (2022), Art.No. 111142. [9]Liu, B., and Vanierschot, M. Numerical study of the hydrodynamic characteristics comparison between a ducted propeller and a rim-driven thruster[J]. Applied Sciences-Basel, 11 (2021), Art.No. 4919. [10] Lan, J. F., Zheng, M.*, Chu, X. M., Liu, B.* Comparative analysis of hull force models at low speeds[J]. Physics of Fluids, 37 (2025), Art.No.075172. [11]Liu B., Yan X. P., Ouyang W., Lan J. F. and Liang X. X. Research on regular pattern of gap flow in Shaftless Rim-driven thruster[C]. International Conference on Transportation Information and Safety. 2017:134-138. [12]Liu, B., Vanierschot, M., and Buysschaert, F. Comparison study of the k−kL−ω and γ − Reθ transition models in the open water performance prediction of a rim-driven thruster[C]. In Conference on Modeling Fluid Flow proceedings (2022). [13]Liu, B., Vanierschot, M., and Buysschaert, F. Study of wake dynamics of a rim-driven thruster based on numerical methods[C]. In IRC 2022 XVI. International research conference. [14]刘报,严新平,欧阳武.无轴轮缘推进器的间隙流动功耗与散热[J].船舶工程, 2017, 39(12): 6. [15]欧阳武,张琢,刘报,刘湘明,邱湘瑶,严新平.船舶轮缘推进器关键技术研究现状和发展趋势[J].船舶工程, 2024, 46 (09): 14 - 32. | ||||
代表性专利 | [1]严新平,刘报,欧阳武,兰佳芬.基于无轴对转轮缘驱动推进与发电一体化装置[P]. 2019-01-25, 中国, CN107499487B. [2]欧阳武,汪盛通,李锋,刘报,严新平,贾宏杰.基于轮缘驱动的推进与能量收集一体化装置[P]. 2019-05-24, 中国, CN107352007B. [3]严新平,兰加芬,欧阳武,赵泽,梁兴鑫,刘报,白秀琴,袁成清.水润滑轴承综合性能实验台[P]. 2020-01-14, 中国, CN108709743B. [4]欧阳武;乔法;刘报;张琢;聂远哲;董小伟.一种基于切面柱面坐标变化的变切面轮缘推进器优化设计方法, 2024-06-04, 中国, CN202410714485.4 | ||||
所获奖励和学术兼职 | 1.国家高层次青年其他人才; 2. ICCFDCE 2022: Best Presentation Award; 3. IJTPP 2024: Editor’s Choice Article; 4. ICTIS 2025: Best Paper Award, Best Reviewer Award; 5. Ocean Engineering、Physics of Fluids、Applied Ocean Research、Journal of Ocean Engineering and Science等期刊同行评审专家。 | ||||
国际交流与合作 | 与比利时荷语鲁汶大学等高校有着紧密的国际合作。 | ||||
招生专业 | 硕士招生专业 | 交通运输(工程),机械(工程) | |||
博士招生专业 | 交通运输(工程),机械(工程) | ||||
毕业生主要去向 | 高校、船级社、研究所、企业研发中心等单位 |
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