史鸿博

发布日期:2023-03-09浏览次数:

史鸿博 教授/博士/硕士生导师

邮箱: hongbo1@ujs.edu.cn, hongbo1@ualberta.ca

电话: (+86) 18834191530

地址:江苏大学流体机械工程技术研究中心(海洋装备工程学院)602室

个人履历

史鸿博,男,山西太原人,中国民主同盟盟员。本硕博毕业于加拿大阿尔伯塔大学,分别获得石油工程学士、机械工程硕士和化学工程博士学位,毕业后留校任博士后研究员。入选江苏省双创团队核心人才,江苏省“双创博士”(世界名校类)引进人才,江苏省“科技副总”,江苏省水力发电工程学会水工结构专委会委员,国家自然科学基金评议专家。目前主持国家自然科学基金青年项目、中国博士后科学基金面上项目等国家和省部级项目4项,作为技术骨干参与国家自然科学基金面上项目、加拿大国家级科研基金项目(NSERC)等课题6项,另外主持/参与5项企业委托课题。迄今已在International Journal of Multiphase Flow、Ocean Engineering和Physics of Fluids等行业权威期刊上发表SCI论文20余篇,其中第一及通讯作者16篇,并担任多家SCI一、二区学术期刊的特约审稿人。拥有授权中国专利2项、英国专利1项。

本课题组依托国家级科研平台,深耕能源与动力工程、船舶与海洋工程装备领域的多相复杂流动系统研究,在气液两相动态传热传质特性、气液固三相时空分布与流动规律、多相反应流及物质传输等取得了一系列国际前沿研究成果,部分已实现产业化应用。

研究领域

[1].水力机械内部空化流动机理及设计理论

[2].水下装备流体动力学控制与减阻节能技术

[3].能源与动力工程领域中的多相流动与传热传质

科研项目

[1].国家自然科学基金青年项目, 52106043, 三相流空化反应器内疏水性微粒诱导空化的协同调控机理研究, 2022-2024, 主持

[2].中国博士后科学基金面上项目, 2022M711376, 三相旋流空化发生器内多孔微粒对空泡耦合影响机制与调控研究, 2022-2024, 主持

[3].江苏省双创博士项目, JSSCBS20210956, 多相流空化发生器内颗粒-空泡作用机理及优化研究, 2021-2024, 主持

[4].江苏省科技副总项目, FZ20221077, 石油钻采设备之节流管汇中稠油特性及输送技术的研究, 2022-2024, 主持

[5].江苏大学高级人才启动基金, 20JDG058, 三相流文丘里管内颗粒诱导空化初生机理研究, 2020-2023, 主持

[6].江苏省双创团队, JSSCTD202448, 深海油气混输核心装备及系统的设计和优化, 2025-01 至 2028-12, 300万元, 骨干成员

[7].国家自然科学基金面上项目, 52279086, 基于多维特征旋涡的超低比转速泵能量转化机理研究, 2023-2026, 参与

[8].镇江市重点研发项目, SCQ20220420029, 10MW级深海浮式风机支撑平台关键技术研发, 2022-2024, 校内第二

[9].企业横向课题, 新型10MW浮式风机支撑系统的研发, 2024-2025, 主持

[10].企业横向课题, 基于气液固三相流的调节阀内部流动特性研究, 2022-2024,主持

[11].企业横向课题, 动车存车库高大空间火灾烟气治理设计方案及验证, 2021-2022,主持

主要论文

[1].Hongbo Shi, Hang Zhang, Petr Nikrityuk, Sen Qu, Xikun Wang*. Turbulent cavitating flows under periodic inflow perturbations[J]. Physics of Fluids, 2025, 37(1)

[2].Ziya Saedi, Muzammil Kuddushi, Yawen Gao, Deepak Panchal, Binglin Zeng, Sina Esfandiar Pour, Hongbo Shi*, Xuehua Zhang*. Stable and efficient microbubble-enhanced cold plasma activation for treatment of flowing water[J]. Sustainable Materials and Technologies, 2024, 40:e00887.

[3].Hongbo Shi, Hang Zhang, Linlin Geng, Sen Qu, Xikun Wang, and Petr Nikrityuk*. Dynamic behaviors of cavitation bubbles near biomimetic surfaces: A numerical study[J]. Ocean Engineering, 2024, 292: 116628.

[4].曲森, 任慧龙, 王希坤, 史鸿博. 极限海浪环境下海洋平台立柱结构载荷及应力分析研究[J]. 船舶力学, 2024, 28(11):1700-1709.

[5].Yawen Gao, Ziya Saedi, Hongbo Shi, Binglin Zeng, Bo Zhang*, Xuehua Zhang*. Machine learning-assisted optimization of microbubble-enhanced cold plasma activation for water treatment[J]. ACS ES&T Water, 2024, 4(2): 735-750.

[6].Jiaqi Chen, Xikun Wang*, Hongbo Shi, Jinhua Si. Experimental investigation on flow characteristics of vertical and oblique circular impinging jet[J]. Physics of Fluids, 2023, 35(5):055139.

[7].Jiaqi Chen, Zhikui He, Zhiyang Hu, Hongbo Shi, Xikun Wang*. Numerical and experimental study on the hydraulic characteristics of a vertical axial pump under various clearances of flare tube[J]. Journal of Hydrodynamics, 2023, 35(1):125-144.

[8].Hongbo Shi*, Xikun Wang, Qingxia Liu, Petr Nikrityuk*. The Influence of Inflow Swirls on Phases Separation in a Venturi Tube[J]. Separation and Purification Technology, 2022, 281:119954.

[9].Hongbo Shi*, Xikun Wang, Qingjiang Xiang, Gonghe Zhang, and Lin Xue*. Experimental and Numerical Study of the Discharge Performance of Particle-Laden Turbulent Flow[J]. Journal of Marine Science and Engineering, 2022, 10(1): 85.

[10].Jiaqi Chen, Gonghe Zhang, Jin-Hua Si*, Hongbo Shi*, and Xikun Wang*. Experimental investigation of scour of sand beds by submerged circular vertical turbulent jets[J]. Ocean Engineering, 2022, 257:111625.

[11].Chao Ning, Yalin Li*, Ping Huang, Hongbo Shi*, Haichao Sun. Numerical analysis of single-particle motion using CFD-DEM in varying-curvature elbows[J]. Journal of Marine Science and Engineering. 2022, 10(1):62.

[12].Jiaqi Chen, Jieyun Mao, Hongbo Shi, Xikun Wang*. Experimental and numerical study on the hydraulic characteristics of an S-type bidirectional shaft tubular pump[J]. Journal of Marine Science and Engineering, 2022, 10(5):671.

[13].Hongbo Shi, Md Omar Reza, Petr Nikrityuk*. The impact of swirling on the dynamics of a spouted bed[J]. Powder Technology, 2021, 380:143-151.

[14].Hongbo Shi*, Jianping Yuan, Yalin Li*. The impact of swirls on slurry flows in horizontal pipelines[J]. Journal of Marine Science and Engineering, 2021, 9(11):1201.

[15].Hongbo Shi, Qingxia Liu, Petr Nikrityuk. Numerical study of mixing of cavitating flows in a venturi tube[J]. Canadian Journal of Chemical Engineering, 2021, 99(3):813-828.

[16].Morteza Davarpanh, Hongbo Shi, Petr Nikrityuk*, and Zaher Hashisho*. Verification of validation of semi-empirical relations for predicting fluidization in a fluidized bed using CFD[J]. Chemical Engineering Research and Design, 2021, 173:289-304.

[17].Hongbo Shi, Qingxia Liu, Petr Nikrityuk. Modeling of cavitating flows past a micro-sized particle[J]. International Journal of Multiphase Flow, 2020, 128:103276.

[18].Hongbo Shi, Mingda Li, Qingxia Liu, Petr Nikrityuk. Experimental and numerical study of cavitating particulate flows in a venturi tube[J]. Chemical Engineering Science, 2020, 219:115598.

[19].Hongbo Shi, Andrii Ruban, Sergey Timoshchenko, Petr Nikrityuk. Numerical investigation of the behavior of an oil-water mixture in a venturi tube[J]. Energy & Fuels, 2020, 34(11):15061-15067.

[20].Hongbo Shi, Petr Nikrityuk*. The influence of inflow swirl on cavitating and mixing processes in a venturi Tube[J]. Fluids, 2020, 5(4):170.

[21].Hongbo Shi, Alexandra Komrakova, Petr Nikrityuk. Fluidized bed modeling: Validation of 2D and 3D simulations against experiments[J]. Powder Technology, 2019, 343:479-494.

[22].Hongbo Shi, Mingda Li, Petr Nikrityuk, Qingxia Liu. Experimental and numerical study of cavitation flows in venturi tubes: From CFD to an empirical model[J]. Chemical Engineering Science, 2019, 207:672-687.

发明专利

[1].Hongbo Shi, Xikun Wang. Pressure testing machine for fluid in cavitation generator and testing method using same[P]. 2024-2-28, 欧洲, GB2610760

[2].史鸿博, 李亚林. 一种用于矿物浮选的文丘里管空化强化装置, 2024-05-14, 中国, ZL202111263726.0

[3].史鸿博, 张贡赫, 王希坤, 陈加琦, 李娅杰, 冒杰云, 胡志杨. 一种基于自动识别的移动式圆管射流 清淤试验系统, 2022-08-31, 中国, CN202211054291.3

[4].李亚林, 孙海超, 史鸿博, 黄萍, 袁寿其, 彭佳艺, 王希坤. 一种安装脉冲式喷淋臂的洗碗机, 2024-03-19, 中国, ZL202210046236.3

[5].曲森, 孟珣, 杨晓萌, 史鸿博, 王希坤. 可调控抛物线形波浪水池消波装置, 2024-01-22, 中国, CN202410085716.X

[6].孟珣, 曲森, 袁建平, 王希坤, 史鸿博. 非圆可变弧度水池消波装置, 2024-01-30, 中国, CN202410123369.5

[7].胡志杨, 王希坤, 李亚林, 史鸿博. 一种换热器及其换热管排布优化方法, 2022-09-08, 中国, CN202211096034.6

招生计划

本课题组每年招收3名硕士/博士研究生,专业背景包括动力工程及工程热物理、机械工程、海洋工程等相关方向。要求申请者具备扎实的数学基础和良好的英语读写能力。