龙 云
一、个人概况
龙云,男,工学博士,副教授,博导。2018年9月毕业于上海交通大学核科学与技术专业,获上海交通大学优秀博士学位论文提名论文、优秀毕业生。2019年获江苏省“双创博士”,2020年获批中德博士后交流项目。2021年获第一届全国博士后创新创业大赛优胜奖,2022年获江苏大学十佳青年教师-新长征突击手,入选江苏大学青年英才培育计划,入选江苏省企业科技副总项目。2023年获第二届全国博士后创新创业大赛铜奖,全国优秀博士后荣誉。
主持和参研省部级以上科研项目10余项,主持横向课题30余项。其中,主持国家自然科学基金青年基金1项、中国博士后科学基金面上资助项目2项、国家重点实验室基金2项、江苏省“双创博士”项目1项、浙江省博士后基金项目1项、教育部项目1项、中德博士后交流项目1项;参与完成国家自然科学基金联合基金重点项目1项和国际合作重点项目1项、参与完成国家重大专项预研和立项1项、参与完成国家自然科学基金面上基金1项。出版专著2部,发表学术论文110余篇,授权知识产权20余件。
二、主要研究方向
1、流体机械内部流动与优化设计;
2、舰船推进器空化与水动力噪声;
3、泵及系统可靠性与整机协同设计;
4、能源动力装备传质传热与优化;
5、流体机械智能运维与诊断。
三、工作经历
2025.12—至今 江苏大学 国家水泵及系统工程技术研究中心,副研究员/博导;
2023.3—2025.3 中国核电工程有限公司-江苏大学,博士后,合作导师:邢继、袁寿其;
2021.7—2025.12 江苏大学 国家水泵及系统工程技术研究中心,副研究员/硕导;
2020.11—2022.11 德国卡尔斯鲁厄理工学院(Karlsruhe Institute of Technology),中德博士后;
2019.5—2020.5 科技部中国农村技术开发中心,流动专员;
2018.11—2021.6 江苏大学 国家水泵及系统工程技术研究中心,助理研究员,博士后。
四、科研项目
1、主持纵向课题
[1] 航天液体动力全国重点实验室开放基金项目,2024.12-2026.12,在研,主持;
[2] 中国博士后科学基金面上基金(第73批),2023.6--2024.12,结题,主持;
[3] 教育部“春晖计划”合作科研项目,2023.5-2024.12,结题,主持;
[4] 山东省海上航天装备技术创新中心开放基金项目,2022.10-2024.10,结题,主持;
[5] 机械系统与振动国家重点实验室开放基金项目,2022 .1 -2023 .12,结题,主持;
[6] 国家自然科学基金联合基金重点项目,260万元,2021.1--2024.12,结题,第2完成人;
[7] 国家自然科学基金青年基金,2020.1--2022.12,26万元,结题,主持;
[8] 浙江省博士后基金,2019.06—2021.6,结题,主持;
[9] 中国博士后科学基金面上基金(第65批),2019.6--2021.11,结题,主持;
[10] 江苏省“双创博士”,15万元,2019.9--2022.8,结题,主持;
......
2、主持横向课题(项目名称、立项日期、结题情况)
[1] 先进发动机及涡轮泵关键技术研发,2026.5,在研,主持;
[2] 百万千瓦级核主泵水力部件匹配性关键技术研发,2026.4,在研,主持;
[3] 车载高速泵创新型水力布局与水力设计研发,2026.2,在研,主持;
[4] 模型泵内部流场数据同化重构与预报技术,2025.12,在研,主持;
[5] 智能化轻量化应急移动泵站及系统研发,2025.1,在研,主持;
[6] 轴封主泵机组叶轮及轴系可靠性分析技术研究,2024.4,结题,主持;
[7] 推进泵叶轮空化性能试验验证,2023.11,结题,主持;
[8] 高压循环泵组试验装置研发及验证,2023.10,结题,主持;
[9] 高功率密度电泵性能提升研发,2023.9,结题,主持;
[10] 百万千瓦级核主泵水力模型研发,2022.9,结题,主持;
[11] 喷水推进泵模型台架试验,2021.5,结题,主持;
[12] 喷水推进流场影响参数数值模拟,2019.12,结题,主持。
3、参与项目
[1] 大型先进压水堆及高温气冷堆核电站科技重大专项,4000万,2018-2019,预研和立项;
[2] 国家自然科学基金面上基金,2016-2019,参与;
[3] 国家自然科学基金国际合作基金重点项目,250万元,2022.1-2025.12,参与;
[4] 核电厂立式蜗壳泵水力模型开发与CFD优化,2020.12,结题,参与;
[5] 小型堆核主泵水力模型开发 2020.11,结题,参与;
[6] 重要厂用水泵智能诊断运维系统研究 2022.3,结题,参与;
[7] 高速泵水力性能CFD优化与高效水力模型研制 2022.1,结题,参与;
[8] RPG-China水泵试验台系统技术开发,2025.2,结题,参与。
五、科研成果
1、论文代表作:发表论文110余篇,其中一作或通讯SCI论文50余篇,一作或通讯EI和中文核心20余篇)
[1]Yun Long, Zhenguo Wu, Mingyu Zhang, Xi'an Guo,Yuan Xu, Chenbiao Tian & Xiangrong Luo. (2026). Research on the influence mechanism of non-uniform inflow on the pressure pulsation of the Reactor Coolant Pump. Progress in Nuclear Energy, 193, 106208-106208. (SCI)
[2]Yuan Xu, Yun Long*, Long Cai & Zhe Jiao. (2026). Unsteady hydrodynamics of an RCP impeller across clearances and hot conditions pressure pulsation, spectral shift, and radial force. Annals of Nuclear Energy, 229, 112113-112113. (SCI)
[3]Xu Yuan & Long Yun*. (2026). Review of numerical simulation and experimental studies on gas-liquid two-phase flow in reactor coolant pump under non-uniform inlet flow.Progress in Nuclear Energy,192,106151-106151. (SCI)
[4]Chenbiao Tian, Yun Long* & Mingyu Zhang. (2026). Research on internal flow characteristics of gas-liquid two-phase flow in reactor coolant pump. Progress in Nuclear Energy, 191, 106018-106018. (SCI)
[5] Long Cai, Zhe Jiao, Dongbo Qi, Xuezhi Ding, Yuan Xu & Yun Long*. (2026). Reliability analysis of impeller and shaft system in shaft-sealed reactor coolant pump. Annals of Nuclear Energy, 226,111884-111884. (SCI)
[6]Yingying Zheng, Yun Long, Min Liu, Hanqiao Han, Kai Wang, Jinqing Zhong & Yun Long*. (2025). Study on Cavitation Flow Structure Evolution in the Hump Region of Water-Jet Pumps Under the Valley Condition. Journal of Marine Science and Engineering, 13(8), 1598-1598. (SCI)
[7]Min Liu, Yun Long*, Hong Yin, Chenbiao Tian & Jinqing Zhong. (2025). Research on Energy Dissipation Mechanism of Hump Characteristics Based on Entropy Generation and Coupling Excitation Mechanism of Internal Vortex Structure of Waterjet Pump at Hump Region. Journal of Marine Science and Engineering, 13(3), 442-442. (SCI)
[8]Yingying Zheng, Yun Long*, Churui Wan, Jianping Chen, Youlin Cai & Jinqing Zhong. (2025). Effects of Airfoil Parameters on the Cavitation Performance of Water Jet Propulsion Pumps. Fluids,10(9), 227-227. (SCI)
[9]Ji Xing,Rongyong Zhang,Yingying Zheng & Yun Long*.(2025). Research Progress on Key Technologies to Prevent and Control Floating Bodies That May Impair Cooling in Nuclear-Power-Plant Thermal Traps. Energies, 18(7), 1663-1663. (SCI)
[10] Yingying Zheng, Rongyong Zhang,Yun Long*, Xinshu Jiang,Rongsheng Zhu & Ji Xing.(2025).Review on development status of comprehensive prevention and control technology for disaster-causing floating bodies at water intake of nuclear power plants. Annals of Nuclear Energy, 212, 111087-111087. (SCI)
[11] Yingying Zheng, Yun Long*, Rongsheng Zhu, Xi'an Guo,Yuan Xu & Chenbiao Tian. (2025). Research on pressure pulsation characteristics of reactor coolant pump under non-uniform inflow based on wavelet transform. Progress in Nuclear Energy, 185, 105784-105784. (SCI)
[12] Xu Yuan & Long Yun*. (2025). A cavitation performance prediction method for pumps PART4—Sensitivity and accuracy validation for axial-flow reactor coolant pump. Nuclear Engineering and Design, 442, 114224-114224. (SCI)
[13] Yun Long*, Chenbiao Tian, Mingyu Zhang, and Xi’an Guo. (2025). Research on flow characteristics of reactor coolant pumps under non-uniform inflow[J]. Annals of Nuclear Energy, 2025, 213: 111109. (SCI)
[14] Yun Long*, Yuan Xu, Xi’an Guo, and Mingyu Zhang. (2025). Study on internal flow characteristics of reactor coolant pump under non-uniform inflow[J]. Progress in Nuclear Energy, 2025, 180: 105628. (SCI)
[15] Yun Long*, Yuan Xu, Xi’an Guo, and Mingyu Zhang. (2025). Analysis of internal flow excitation characteristics of reactor coolant pump based on POD[J]. Annals of Nuclear Energy, 2025, 216: 111286. (SCI)
[16] Haoshu Wang, Xinshu Jiang, Wenjie Zhang, Yifan Zhi, and Yun Long*. (2025). Study on the difference of internal flow in reactor coolant pump under high-temperature and high-pressure environment and normal temperature and pressure[J]. Annals of Nuclear Energy, 2025, 214: 111198. (SCI)
[17] Yun Long*, Yuan Xu, Xi’an Guo, and Mingyu Zhang. (2025). Analysis of internal flow excitation characteristics of reactor coolant pump based on DMD. Annals of Nuclear Energy 211 (2025) 111011(SCI)
[18] Yingying Zheng, Rongyong Zhang, Yun Long*, Xinshu Jiang, Rongsheng Zhu, and Ji Xing. (2024). Review on development status of comprehensive prevention and control technology for disaster-causing floating bodies at water intake of nuclear power plants, Annals of Nuclear Energy, Volume 212, 2025, 111087.2024. (SCI)
[19] Yun Long*, Chenbiao Tian, Rongsheng Zhu, Junlian Yin, and Dezhong Wang. (2024). Optimization of water-jet pump based on the coupling of multi-parameter and multi-objective genetic algorithms[J]. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2024, 46(12): 719. (SCI)
[20] Yun Long*, Yuan Xu, Zhen Zhou, Rui Wang, Rongsheng Zhu, and Qiang Fu. (2024). Study on cavitation flow and high-speed vortex interference mechanism of high-speed inducer centrifugal pump based on full flow channel. J Braz. Soc. Mech. Sci. Eng. 46, 683 (2024). (SCI)
[21] Yun Long*, Zhen Zhou, Jinqing Zhong, and Hanqiao Han. (2024). Experimental Study on Evolution of Cavitation Flow Structure in Hump Region of Waterjet Pump. Journal of Applied Fluid Mechanics, Vol. 17, No. 12, pp. 2734-2744 2024. (SCI)
[22] Yun Long*, and Mingyu Zhang. (2024). Research progress and prospects on the hydrodynamic characteristics of two-phase flow in reactor coolant pumps under non-uniform inflow. Nuclear Engineering and Design, 428, 113504. (SCI))
[23] Yun Long*, Haoshu Wang, Rui Wang, Bo He, Qiang Fu, and Rongsheng Zhu. (2024). Effect of Induced Wheel and Impeller Inlet Diameter on the Hydrodynamic Performance of High-speed Centrifugal Pumps. Journal of Applied Fluid Mechanics, 17(11), 2424-2447. (SCI)
[24] Yun Long*, Zhen Zhou, Shouqi Yuan, and Ji Xing. (2024). Research on influence of wear ring clearance on energy loss of reactor coolant pump. Annals of Nuclear Energy, 209, 110819. (SCI)
[25] Yun Long*, Xi’an Guo, Rrongyong Zhang, Qian Huang, Yifan Zhi, Shouqi Yuan, and Ji Xing. (2024). Effect of non-uniform inflow on vortex structure of a small modular reactor coolant pump. Annals of Nuclear Energy, 206, 110655. (SCI)
[26] Yun Long*, Yingying Zheng, Hanqiao Han, Jinqing Zhong, and Rongsheng Zhu. (2024). Research on hydraulic optimization design method of water-jet propulsion pump considering hump index. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 46(6), 377. (SCI)
[27] Yun Long*, and Yuan Xu. (2024). A cavitation performance prediction method for pumps PART3- feasible for axial-flow reactor coolant pump. Nuclear Engineering and Design, 426, 113348. (SCI)
[28] Yun Long*, Zhou Zhen, Li Ning, Mingyu Zhang, Ce An, Yiming Chen, and Rongsheng Zhu. (2024). Experimental and Numerical Investigation of Tip333333 Leakage Vortex Cavitation in Water-jet Pump. Journal of Applied Fluid Mechanics, 17(6), 1191-1203. (SCI)
[29] Hanqiao Han., Yun Long*, and Jinqing Zhong (2024). Research on the internal flow difference between peak and valley conditions of water jet propulsion pump during working at hump region. Journal of Marine Science and Engineering, 12(2), 258. (SCI)
[30] Yun Long*, Xi’an Guo, and Tianbai Xiao. (2024). Research, Application and Future Prospect of Mode Decomposition in Fluid Mechanics. Symmetry, 16(2), 155. (SCI)
[31]Huahuang Lai, Haoshu Wang, Zhen Zhou, Rongsheng Zhu, and Yun Long*. (2023). Research on Cavitation Performance of Bidirectional Integrated Pump Gate. Energies 2023, 16, 6784. (SCI)
[32] Yun Long*, Zecan Tu, Daniela Piccioni Koch, Frank M, and Rongsheng Zhu. (2023). Improvement of temperature uniformity by using novel guide vanes in solar external receiver tubes. Applied Thermal Engineering, 233, 121182. (SCI)
[33] Yun Long*, Mingyu Zhang, Zhuang Qiang, and Rongsheng Zhu. (2023). Effect of non-uniform inflow on the internal flow and hydrodynamic characteristics of a small modular reactor coolant pump. Annals of Nuclear Energy, 192, 109984. (SCI)
[34] Yun Long*, Mingyu Zhang, Zhen Zhou, Jinqing Zhong, Ce An, Yong Chen, Churui Wan, and Rongsheng Zhu. (2023). Research on cavitation wake vortex structures near the impeller tip of a water-jet pump. Energies 2023, 16, 1576. (SCI)
[35] Mahfuja A Khuda, Javad Khalesi, Zecan Tu, Yun Long, Daniela Piccioni Koch, and Nenad Sarunac. (2022). Numerical analysis of a developing turbulent flow and conjugate heat transfer for molten salt and liquid sodium in a solar receiver. Applied Thermal Engineering 217 (2022) 119156. (SCI)
[36] Rongsheng Zhu, Zhuang Qiang, Zhenwei Wang, Qiang Fu and Yun Long*. (2022). Influence of cutter head on cavitation of non-jammed submerged grinder pump. Appl. Sci. 2022, 12, 6112. (SCI)
[37] Yonggang Lu, Zhengwei Wang, Rongsheng Zhu, Xiuli Wang, and Yun Long*. (2022). Study on flow characteristics in LBE-cooled main coolant pump under positive rotating condition. Nuclear Engineering and Technology, 54, 2022, 2720-2727. (SCI)
[38] Yuchen Song, Rui Xu, Yu Song, Yun Long, Junlian Yin, and Dezhong Wang (2022). Hydrodynamics characteristics of non-uniform inflow in reactor coolant pump based on time-resolved tomographic particle image velocimetry, Physics of Fluids (Vol.34, Issue 12), 2022 (SCI)
[39] Yun Long, Jinqing Zhong, Jianping Chen, Yan Zhang, and Rongsheng Zhu. (2022) Numerical simulation of flow characteristics of water-jet assembly under reverse state, International Workshop on Water-Jet Propulsion (IWWP2022) 30th June-1st July Online.
[40] Zecan Tu, Daniela Piccioni Koch, Yun Long, Nenad Sarunac, Martin Frank, and Junkui Mao. (2021). Thermal performances of panel models in solar power tower receivers. ATE-HEFAT, 2021, Conference.
[41] Ning Qiu, Han Zhu, Yun Long*, Jinqing Zhong, Rongsheng Zhu, and Suhan Wu. (2021). Assessment of Cavitation Erosion in a Water‐Jet Pump Based on the Erosive Power Method. Scanning, 2021(1), 5394782. (SCI)
[42] Yun Long*, Yan Zhang, Jianping Chen, Rongsheng Zhu, and Dezhong Wang. (2021). A cavitation performance prediction method for pumps: Part2-sensitivity and accuracy. Nuclear Engineering and Technology, 53(11), 3612-3624. (SCI)
[43] Yun Long*, Ce An, Rongsheng Zhu, and Jianping Chen. (2021) Research on hydrodynamics of high velocity regions in a water-jet pump based on experimental and numerical calculations at different cavitation conditions, Physics of Fluids 33, 045124. (SCI)
[44] Yun Long*, Yan Zhang, Jianping Chen, Rongsheng Zhu, and Dezhong Wang. (2021). A Cavitation Performance Prediction Method for Pumps PART2-Sensitivity and Accuracy. Nuclear Engineering and Technology, 2021. (SCI)
[45] Qiu Ning, Han Zhu, Yun Long*, Jinqing Zhong, Rongsheng Zhu, and Suhuan Wu. (2021) Assessment of cavitation erosion in a water-jet pump based on the erosive power method. Scanning, 2021. (SCI)
[46] Yun Long*, Rongsheng Zhu, and Dezhong Wang. (2020) A Cavitation Performance Prediction Method for Pumps PART1-Proposal and Feasibility[J]. Nuclear Engineering and Technology, 2020. (SCI)
[47] Yun Long*, Bin Lin, Jie Fang, Jie Ge, Longbo Xu, Qiang Fu, and Rongsheng Zhu. (2020). Research on the pump shaft stability analysis of multistage centrifugal pump during closed-valve start-up process. Frontiers in Energy Research, 8(2020). (SCI)
[48] Yun, Long*, Lin Bin, Jie Fang, Rongsheng Zhu, and Qiang Fu. (2020). Research on the transient hydraulic characteristics of multistage centrifugal pump during start-up process. Frontiers in Energy Research 8 (2020): 76. (SCI)
[49] Li, Yajie, and Yun Long*. (2020). Numerical study on wave radiation by a barge with large amplitudes and frequencies. Journal of Marine Science and Engineering 8.12 (2020): 1034. (SCI)
[50] Rui Xu, Yun Long, Yaoyu Hu, Junlian Yin, and Dezhong Wang. (2019). Numerical and experimental research on the fluid-induced forces of clearance flow in canned motor reactor coolant pump. ASME. Journal of Engineering for Gas Turbines and Power. 2019;141(6):061021-061021-7. (SCI)
[51] Rui Xu, Yun Long*, Dezhong Wang*. (2018). Effects of rotating speed on the unsteady pressure pulsation of reactor coolant pumps with steam-generator simulator[J]. Nuclear Engineering and Design, 2018, 333: 25-44. (SCI)
[52] Yun Long, Dezhong Wang, Junlian Yin, Yaoyu Hu, and Hongjuan Ran. (2017). Numerical investigation on the unsteady characteristics of reactor coolant pumps with non-uniform inflow[J]. Nuclear Engineering and Design, 2017, 320: 65-76. (SCI)
[53] Yun Long, Dezhong Wang, Junlian Yin, and Yaoyu Hu. (2017). Experimental investigation on the unsteady pressure pulsation of reactor coolant pumps with non-uniform inflow[J]. Annals of Nuclear Energy, 2017, 110: 501-510. (SCI)
[54] Yun Long, Rongsheng Zhu, Dezhong Wang, Junlian Yin, and Tianbin Li. (2016). Numerical and experimental investigation on the diffuser optimization of a reactor coolant pump with orthogonal test approach[J]. Journal of Mechanical Science and Technology, 2016, 30(11):4941-4948. (SCI)
[55] 刘奕新, 焦峰, 张志军*, 袁寿其, 朱荣生, 龙云*. (2024). 核主泵电动机屏蔽套磁-热联合仿真[J].排灌机械工程学报,2024,42(12):1196-1202. (中文核心)
[56] 蔡龙, 徐源, 龙云*, 周震, 朱荣生, 袁寿其. (2024). 轴流式核主泵内部流动特性数值计算与试验[J].排灌机械工程学报,2024,42(12):1189-1195+1210. (中文核心)
[57] 龙云, 胡波, 朱荣生, 付强, 孙琪, 杨雨, 袁寿其. (2024). 三代压水堆核主泵关键部件制造及工艺研究进展[J].排灌机械工程学报,2024,42(10):973-982. (中文核心)
[58] 龙云,陈华铮,朱荣生,袁寿其 & 付强.(2025).核主泵水力优化设计研究现状与技术发展综述.排灌机械工程学报,43(09),865-872.(中文核心)
[59] 李天斌, 郭喜安, 龙云*. (2024). 小型堆核主泵内部流动特性数值计算. 排灌机械工程学报 (05), 433-439+455.(中文核心)
[60] 郑凯旋, 龙云*, 汪彬, 巩庆涛, 吕高焕. (2024). 海上垂直回收运载火箭发展现状与关键技术分析. 上海航天(中英文) (02), 36-53. doi:10.19328/j.cnki.2096-8655.2024.02.006.(中文核心)
[61] 张洪涛, 田晨彪, 龙云*. (2024). 离心泵入口来流对泵内部流动影响. 排灌机械工程学报 1-7. (中文核心)
[62] 李天斌, 张明玉, 郭喜安, 强壮, 朱荣生, 龙云*. (2023). 小型堆核主泵水力优化设计及试验研究. 水泵技术 (03), 21-28+48.(中文核心)
[63] 龙云*, 钟锦情, 谌勇, 张岩, 万初瑞, 朱荣生. (2023). 喷水推进组合体组合舵在不同航态下的内部流动数值模拟. 舰船科学技术 (07), 111-117.(中文核心)
[64] 赖华煌, 周震, 王昊书, 朱荣生, 龙云*. (2023). 一体化闸门泵双向运行内部流动及水动力特性研究. 水泵技术 (06), 11-17+21.
[65] 龙云*, 田晨彪, 李娅杰, 钟锦情. (2023). 喷水推进泵驼峰区波峰与波谷内流作用机制.船舶(06),56-64.doi:10.19423/j.cnki.31-1561/u.2023.06.056. (中文核心)
[66] 张岩, 王路逸, 钟锦情, 龙云*.(2021). 多参数优化设计对喷水推进组合体水力性能的影响[J].排灌机械工程学报, 2021, 39(7): 655-662.(中文核心)
[67] 龙云*, 袁寿其, 朱荣生, 付强, 李天斌. (2020). 核主泵内部流动研究现状与技术发展综述[J]. 排灌机械工程学报, 2020, 38(11): 1081-1097.(中文核心)
[68] 龙云, 冯超, 王路逸, 王德忠, 蔡佑林, 朱荣生. 喷水推进泵临界空化工况空化流态试验[J]. 北京航空航天大学学报, 2019(8). (EI收录)
[69] 朱荣生, 龙云, 林鹏, 蒋旭松, 贺博. 螺旋轴流泵内部流场与压力脉动研究[J]. 农业机械学报, 2014, 45(7):103-110. (EI收录)
[70] 朱荣生, 龙云, 付强, 袁寿其, 王秀礼. 核主泵小流量工况压力脉动特性[J]. 振动与冲击, 2014, 33(17):143-149.(EI收录)
[71] 付强, 龙云, 朱荣生, 袁寿其, 习毅. 失水事故工况下主泵全特性数值分析[J]. 核动力工程, 2014, 35(2). (EI收录)
[72] 龙云, 朱荣生, 付强, 袁寿其, 习毅. 核主泵小流量工况下不稳定流动数值模拟[J]. 排灌机械工程学报, 2014, 32(4): 290-295. (中文核心)
[73] Mingyu Zhang, Zhang Wenjie, Zhang Rongyong, Xi’an Guo, Rongsheng Zhu, Shouqi Yuan, Yun Long*. (2024). Study on unsteady characteristics of the reactor coolant pump under non-uniform inflow. In Journal of Physics: Conference Series (Vol. 2707, No. 1, p. 012052). IOP Publishing. (EI)
[74] Xi’an Guo, Yifan Zhi, Yun Long*, Mingyu Zhang, Zhuang Qiang, and Rongsheng Zhu. (2024). Research on the internal pressure pulsation characteristics of reactor coolant pump under non-uniform inflow. In Journal of Physics: Conference Series (Vol. 2707, No. 1, p. 012051). IOP Publishing. (EI)
[75] Kaixuan Zheng, Yun Long*, Qingjiang Xiang, Changjian Xu, Jianping Chen, and Dezhong Wang. (2024). Study on the experiment and numerical simulation of cavitation flow mechanisms at different flow rates in water-jet propulsion pumps. In Journal of Physics: Conference Series (Vol. 2707, No. 1, p. 012050). IOP Publishing. (EI)
[76] Yun Long, Dezhong Wang, Junlian Yin, Youlin Cai, Chao Feng. (2017). The effect of different inflows on the unsteady hydrodynamic characteristics of a mixed flow pump[J]. International Journal of Fluid Machinery and Systems, 2017, 10(2): 138-145.(EI)
[77] Yun Long, Junlian Yin, Dezhong Wang, and Tianbin Li. (2016). Study on the effect of the impeller and diffuser blade number on reactor coolant pump performances[C]. IOP Conference Series: Materials Science and Engineering, 2016, 129(1): 012041. (EI)
[78] Yun Long, Junlian Yin, Dezhong Wang, and Yaoyu Hu. (2016). The effect of the channel head on the unsteady pressure pulsation characteristics at the inlet and outlet of reactor coolant pumps[C]. IOP Conference Series: Earth and Environmental Science, 2016, 49(3): 032011. (EI)
2、发明专利(授权)
[1] 龙云,周震,朱荣生,袁寿其,付强,卢永刚,王昊书,罗祥荣. 一种屏蔽式核主泵流动与转子动力学特性整机协同验证实验平台. 202510109851.8(发明专利)授权;
[2] 龙云,钟锦情,朱荣生,付强. 一种抗失速双层泵进口结构. 202110683571.X(发明专利)授权;
[3] 龙云,强壮,朱荣生. 一种核主泵连接管道非均匀来流抑制结构. 202110038311.7(发明专利)授权;
[4] 龙云,安策,朱荣生,陈一鸣,付强,王秀礼. 一种空化抑制翼型装置. 202010610736.6(发明专利)授权;
[5] 龙云,陈一鸣,朱荣生,李怀瑞,王秀礼. 一种胃型吸入管非均匀来流主动控制装置及泵. 202011071555.7(发明专利)授权;
[6] 龙云,陈一鸣,朱荣生,李怀瑞,王秀礼. 一种泵用吸入管非均匀来流主动控制装置及泵. 202011071542.X(发明专利)授权;
[7] 龙云,强壮,朱荣生. 一种泵入口翼板非均匀来流抑制装置. 202010886022.8(发明专利)授权;
[8] 龙云,安策,朱荣生,钟锦情. 一种电机内置式多级低温离心泵. 202010935009.7(发明专利)授权;
[9] 龙云,强壮,朱荣生. 一种泵入口非均匀来流抑制装置. 202011328762.6(发明专利)授权;
[10] 龙云,陈一鸣,朱荣生,安策,付强,王秀礼. 一种对旋结构多级高温泵. 201910900514.5(发明专利)授权;
[11] 龙云,陈一鸣,朱荣生,安策,王秀礼,付强. 一种双吸式吸入管非均匀来流主动控制的轴流泵. 201910890246.3(发明专利)授权;
[12] 朱荣生,郑莹莹,龙云. 一种用于明渠的堵塞物拦截及抽吸的装置. 202510056763.6(发明专利)授权;
[13] 付强,赵芸,袁寿其,卢永刚,朱荣生,王秀礼,龙云,王眈眈. 一种基于核主泵冷态试验关联热态性能的计算方法,2023114795770. (发明专利)授权;
[14] 陈华铮,朱荣生,付强,龙云. 一种轴流泵叶轮水力设计方法及轴流泵,2023111027492.(发明专利)授权。
3、著作
[1] 龙云,袁寿其,朱荣生. 核主泵间隙流动与多学科优化设计,2024.12,ISBN:978-7-5684-2428-8, 25万字, 江苏大学出版社;
[2] 袁寿其,朱荣生,龙云,付强,王秀礼. 核主泵内部流动基础理论与技术,2021.5,ISBN:978-7-5684-1471-5, 69万字,江苏大学出版社。
六、研究生培养
[1] 2023届毕业生(第一届):钟锦情,荣誉:研究生一等奖学金,毕业去向:美的集团楼宇科技事业部;
[2] 2024届毕业生(第二届):张明玉,荣誉:研究生一等奖学金(2次)、研究生二等奖学金、校优秀毕业生,毕业去向:中国农业银行股份有限公司盐城分行;
[3] 2024届毕业生(第二届):郭喜安,荣誉:研究生奖学金,毕业去向:事业单位;
[4] 2025届毕业生(第三届):周震,荣誉:国家奖学金、研究生一等奖学金、院优秀研究生,毕业去向:湖州工业控制技术研究院;
[5] 2025届毕业生(第三届):王昊书,荣誉:研究生奖学金,毕业去向:卡特彼勒(中国)投资有限公司(无锡珀金斯);
[6] 2025届毕业生(第三届):郑凯旋,荣誉:研究生奖学金,毕业去向:南京六合新城建设(集团)有限公司;
[7] 2026届毕业生(第四届):徐源,荣誉:国家奖学金、校优秀研究生标兵、校优秀研究生、江苏大学“十佳青年学生”提名、研究生一等奖学金、研究生二等奖学金等。毕业去向:浙江大学(攻读博士学位);
[8] 2026届毕业生(第四届):田晨彪,荣誉:国家奖学金、校优秀研究生、研究生一等奖学金、研究生二等奖学金,毕业去向:西安交通大学(攻读博士学位);
[9] 2026届毕业生(第四届):郑莹莹,荣誉:国家奖学金、校优秀研究生标兵、校优秀研究生、研究生一等奖学金(2次)等,毕业去向:东南大学(攻读博士学位);
七、联系方式
E-mail:longyun@ujs.edu.cn
办公地点:江苏大学流体中心207室。
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