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    姓名: 

    个人简介

    出生年月:19787

    任职年月:20157

    职称: 教授

    党政职务: 院党委书记

    技术职务:

    所在学科:动力工程及工程热物理

    导师:博导/硕导

    最高学位:博士

    学术任职: 中国机械工业离心泵重点实验室主任;能源与动力工程国家级实验教学示范中心副主任;中国机械工业教育协会动力机械工程学科教学委员会副主任委员;山东省泵类产品标准化技术委员会副主任委员;中国职业安全健康协会水射流技术专业委员会常务委员;江苏省水力发电工程学会水力机械与系统专委会委员;江苏省能源研究会水能专委会委员;中国机械工程学会高级会员;中国力学学会高级会员; ASME会员;IAHR会员;《Journal of Hydrodynamics》编委;《排灌机械工程学报》编委.

    研究领域

    1.          空化与空蚀

    2.          叶片泵内的复杂多相流动

    3.          大尺寸固体颗粒提升机理与方法

    4.          应用于海洋能发电的水力转轮

    5.          化工流体中的气泡动力学特性

    6.          高压与超高压水射流

    7.          高温泵内的流动与传热

    8.          特种泵与流体工程(冲压泵、预制泵站、矿用多级泵、泵闸等)

    在研项目

    1.        粗颗粒矿物混输泵管系统陆上试验装置配套数据采集装置,研究所委托

    2.        管道内气液流型实时识别技术开发,企业委托

    3.        升阻匹配型水动力转轮组合的流场特性研究及性能优化 (外专项目)

    4.        通过侧向注气方法增强高压淹没射流空化效应的机制研究 (NSFC-NRF)

    5.        基于一体布放的深海多金属结核悬浮采矿新模式研究, 国家重点研发计划项目

    6.        大颗粒高浓度固液两相流体输送装备试验系统与测试规范研究, 国家市场监督管理总局科技计划项目

    7.        混合型海洋水动能转轮关键技术与设计方法研究,省科技计划项目

    8.        高精度金属带材表面处理技术及工艺的研发, 无锡市产业前瞻与关键技术研发项目

    9.        上游气泡作用下凝水泵内部空化的复杂表征现象与机理研究, 国家自然科学基金

    10.     熔盐输送泵及系统的关键技术研究,江苏省六大人才高峰(A)项目

    11.     高效大型排水一体化泵闸研究与设计,企业委托

    12.     高效节能自平衡型矿用耐磨卧式多级泵的研发,企业委托

    13.     高效冲压泵设计理论与设计方法研究,企业委托

    14.     高压容器阀及减压阀的设计,企业委托

    15.     叶片泵流动控制及大流量离心泵水力激控制特性计算分析,研究所委托

    16.     气动无针注射器药液驱动及皮内、皮下和肌肉扩散机理研究,企业委托

    17.     高扬程大颗粒矿浆输送泵计算分析及水力优化,研究所委托

    18.     铜带材热处理气垫炉内热交换机理与喷嘴优化,企业委托

    19.     混砂泵内部高浓度固液两相流动模拟与设计方法研究,企业委托

    20.     大深度泵管系统特性计算分析及隔膜泵结构优化,研究所委托

    21.     水位调节器空化性能分析与优化,研究所委托

    22.     大流量立式多级冲压离心泵研发,企业委托

    主要论文

    1.          Chen Gong, Dongyang Li, Shifeng Yan, Can Kang*, Kejin Ding. Relation between bubble behaviors in spray sheet and bubbly flow inside an air-induction fan nozzle: A visualization study. Physics of Fluids, 2024, 36(10): 103362.

    2.          吴里程,康灿,刘海霞,刘栋. 交叉学科背景下学生实验方案设计能力培养以双狭缝喷嘴射流冲击平板实验平台设计为例. 实验技术与管理,2024, 41(07): 148–153.

    3.          Kang Can, Li Minghui, Teng Shuang, Lyu Weiling. Effects of particle size and reciprocating frequency of the plunger on performance and flow characteristics of a diaphragm pump. Journal of Chinese Institute of Engineers, 2024, 47(7): 853–867.

    4.          Gong Chen, Jia Feng, Kang Can. Deposition of water and emulsion hollow droplets on hydrophilic and hydrophobic surfaces. Agriculture-Basel, 2024, 14(6): 960.

    5.          Waqas Hassan, Hasan Md. Jahid, Ji Chenhui, Liu Dong, Kang Can, Muhammad Taseer. Melting performance of PCM with MoS2 and Fe3O4 nanoparticles using leaf-based fins with different orientations in a shell and tube-based TES. International Communications in Heat and Mass Transfer, 2024, 158: 107944.

    6.          Ji Chenhui, Waqas Hassan, Liu Dong, Kang Can, Muhammad Taseer. Melting performance improvement of phase change materials with thermal energy storage unit using nanoparticles. Case Studies in Thermal Engineering, 2024, 61: 104892.

    7.          Taj Munir, Hussan Zeb, Can Kang, Muhammad Usman Farid, Jun Ren. Chemically reactive flow of mircopolar Eyring–Powell Ferrofluid passes through stretching surface. Alexandria Engineering Journal, 2024, 108: 177–187.

    8.          Munir Taj, Kang Can, Zeb Hussan, Alkarni Shalan. Computational study of micropolar Eyrling-Powell ferrofluid flow. Numerical Heat Transfer Part A-Application. 2024, DOI: 10.1080/10407782.2024.2365425

    9.          Kang Can, Li Minghui, Teng Shuang, Liu Haixia, Chen Zurui, Li Changjiang. Erosive wear caused by large solid particles carried by a flowing liquid: A comprehensive review. Processes, 2024, 12(6): 1150.

    10.       Chenhui Ji, Hassan Waqas, Dong Liua, Can Kang, Taseer Muhammad. Melting performance improvement of phase change materials with thermal energy storage unit using nanoparticles. Case Studies in Thermal Engineering, 2024, 61: 104892.

    11.       Christian Mulbah, Can Kang*, Kejin Ding, Shuang Teng, Licheng Wu. Water entry of hollow cylinders with fronts of different fillet radii: A visualization study. Applied Ocean Research, 2024, 149: 104060.

    12.       Christian Mulbah, Can Kang*, Huanfeng Song, Shuang Teng, Licheng Wu. Characteristics of entrapped jet and cavity instability following the water entry of a superhydrophobic sphere. Chemical Physics, 2024, 583: 112318.

    13.       Hassan Waqas, Md. Jahid Hasan, Syed Muhammad Raza Shah Naqvi, Dong Liu*, Taseer Muhammad, Sayed M. Eldin, Can Kang. Enhancing the performance of thermal energy storage by adding nano-particles with paraffin phase change materials. Nanotechnology Reviews, 2024, 13: 20230180.

    14.       Shuang Teng, Yuehan Tian, Bing Li, Can Kang*. Optimization of impeller blades of an electric water pump via computational fluid dynamics. Journal of Mechanical Science and Technology, 2024, 38(3): 1281–1291.

    15.       Christian Mulbah, Can Kang*, Huanfeng Song, Jin Yin. Droplet-jet collision following the monodispersedly dripping of coaxial binary droplets above a pool surface. Physics of Fluids, 2024, 36:022111.

    16.       徐生玮,宋龙波,康灿*. 液体介质对上升气泡几何形态和运动特征的影响. 化工学报, 2023, 74(10): 4140–4152.

    17.       王枫月,朱洋,宋龙波,康灿. 基于遗传算法的离心泵并联优化及试验. 水泵技术, 2023, (6):1–10.

    18.       Can Kang, Jin Yin, Licheng Wu, Kangbing Wang. Effect of flow on heat transfer between a translating plate and gas discharged from multiple inclined slot nozzles. Journal of Mechanical Engineering Science, 2024, 238(11): 5315–5330.

    19.       Can Kang, Zhiyuan Wang, Hyoung-Bum Kim, Chunbing Shao. Effects of solidity on startup performance and flow characteristics of a vertical-axis hydrokinetic rotor with three helical blades. Renewable Energy, 2023, 218:119273.

    20.       Kang Can*, Yin Jin, Wang Kangbing, Wu Licheng. Effects of Reynolds number and translation speed on flow and heat transfer for aluminum sheet processed in an air-cushion furnace. Case Studies in Thermal Engineering, 2023, 49: 103271.

    21.       Can Kang*, Qian Cao, Shuang Teng, Haixia Liu, Kejin Ding. Wear characteristics of a centrifugal pump transporting solid-liquid mixture: An experimental and numerical study. Ain Shams Engineering Journal, 2024, 15(1): 102277.

    22.       Chen Gong*, Fujun Chen, Can Kang*. Theoretical and experimental studies on the oil-based emulsion spray. Frontiers in Plant Science, 2023, 14:1164200.

    23.       赵会宾, 曹骞, 康灿*, 毛宁, 甄卫卫, 任立斌, 丁可金. 结构形式对渣浆泵前腔密封面磨损特性的影响. 排灌机械工程学报, 2023,41( 3): 247–252

    24.       Shuang Teng, Can Kang*, Minghui Li, Jinyu Qiao, Kejin Ding. Blockage of the deep-sea mining pump transporting large particles with different sphericity. China Ocean Engineering, 2023, 37(2): 343–352.

    25.       Zhiyuan Wang, Can Kang*, Yongchao Zhang, Hyoung-Bum Kim, Feng Jin. Effect of blade chord length on startup performance of H-type tidal current turbine rotor. AIP Advances, 2023, 13:035131.

    26.       Kang Can*, Teng Shuang, Hu Jiang, Ding Kejin, Zhang Wenbin. Mitigation of pressure fluctuation through an impeller with splitter blades for a double-volute centrifugal pump. Journal of the Chinese Institute of Engineers, 2023, doi: 10.1080/02533839.2023.2170920

    27.       Christian Mulbah, Can Kang*, Ning Mao, Wei Zhang, Ali Raza Shaikh, Shuang Teng. A review of VOF methods for simulating bubble dynamics. Progress in Nuclear Energy, 2022, 154: 104478.

    28.       Yang Zhu, Can Kang*, Wei Cai, Chao Huang. Drug injection and dispersion characteristics of an air-powered needle-free injector. Medical Engineering and Physics, 2022, 109: 103906.

    29.       Chen Gong, Dongyang Li, Can Kang*. Effect of oil-based emulsion on air bubbles in the spray sheet produced through the air-induction nozzle. Pest Management Science, 2022, 78(12): 5347–5357.

    30.       Li Qing, Zhang Rui, Kang Can. Transient characteristics during start-up of dual pumps in the prefabricated pumping station. Aqua-Water Infrastructure Ecosystems and Society, 2022, 71(10): 1229–1240.

    31.       Shuang Teng, Can Kang, Kejin Ding, Changjiang Li, Sheng Zhang. CFD-DEM simulation of the transport of manganese nodules in a vertical pipe. Applied Sciences, 2022, 12(9): 4383.

    32.       康灿, 汪志远, 叶卫明, 丁可金. 翼型弦长和方位角对垂直轴水动力转轮启动性能的影响, 江苏大学学报(自然科学版), 2022, 43(5): 554–561.

    33.       Yang Zhu, Can Kang*, Wei Cai, Jing Liu, Chao Huang. Effects of operational parameters on performance of the air-powered needle-free injector. Journal of Mechanical Science and Technology, 2022, 36(8):4327–4334.

    34.       Can Kang*, Chongyuan Lu, Kor Ghee Seah, Wenbin Zhang. Cavitation characteristics during startup process of a condensate pump with splitter blades. Journal of Applied Fluid Mechanics, 2022, 15(4): 1099–1109.

    35.       尹瑾, 康灿*, 吴里程, 赵晓宇. 铜带材气悬浮退火过程中的流动与传热特征. 中南大学学报(自然科学版), 2023, 54(4): 1252–1262.

    36.       康灿*, 高可可, 张永超. 基于剪切效应的气动雾化喷嘴试验研究. 排灌机械工程学报, 2022, 40(3): 270–275.

    37.       Chen Gong, Can Kang*, Dongyang Li. Visualisation of the evolution of bubbles in the spray sheet discharged from the air-induction nozzle. Pest Management Science, 2022, 78(5):1850–1860.

    38.       曹骞, 康灿*, 滕爽, 焦侬, 丁可金. 非球形固体颗粒对弯管内壁的磨损机制. 摩擦学学报, 2022, 42(6): 1094–1104.

    39.       Can Kang*, Ning Mao, Kejin Ding, Changjiang Li. Characteristic gas cavity patterns formed with gas injection into horizontally co-flowing water. Journal of Applied Physics, 2021, 130(20):204701. (Featured Article)

    40.       Teng S., Liu H. X., Kang C., Zhang W. B. Vorticity-Based flow structures and cavitation evolution in high-pressure submerged waterjet. Journal of Applied Fluid Mechanics, 2021, 14(4): 1257–1267.

    41.       Haixia Liu*, Zhuo Deng, Jie Chen, Can Kang, Bing Li. Synergetic effect of corrosion and ultrasonic cavitation erosion on leaded brass. Journal of Materials Engineering and Performance, 2021, 31(4): 3174–3184.

    42.       Ning Mao, Amirah Nabilah Azman, Guangxin Ding, Yubo Jin, Can Kang, Hyoung-Bum Kim. Black-box real-time identification of sub-regime of gas-liquid flow using Ultrasound Doppler Velocimetry with deep learning. Energy, 2022, 239:122319.

    43.       Zhang Yongchao, Kang Can*, Zhao Hexiang, Kim Hyoung Bum. Effects of the deflector plate on performance and flow characteristics of a drag-type hydrokinetic rotor. Ocean Engineering, 2021, 238:109760.

    44.       Christian Mulbah, Can Kang*, Wenbin Zhang, Changjiang Li. Dynamic behaviors of anisodiametric bubbles under effects of horizontal attraction and vertical wake. Physics of Fluids, 2021, 33:092112.

    45.       Kang Can*, Zhao Hexiang, Li Bing, Gong Weifeng, Zhu Yang. Improvement of startup performance of the drag-type hydrokinetic rotor through two-stage configuration. Ocean Engineering, 2021, 238:109677.

    46.       Chen Gong, Dongyang Li, Can Kang*, Yuli Wang. Visualisation of the evolution of perforations in oil-based emulsion sheets formed by flat-fan spray nozzles. Biosystems Engineering, 2021, 207:68–80.

    47.       Yongchao Zhang, Can Kang*, Yang Zhu, Hyoung-Bum Kim. Investigation on the performance and flow characteristics of a liquid lead-bismuth pump. Journal of Mechanical Science and Technology, 2021, 35(7):2939–2947.

    48.       张伟, 康灿*, 刘梦瑶, 张丽丽. 气泡在横流中的生长与脱离特性实验研究. 工程热物理学报,2021, 42(3):633–640.

    49.       Haixia Liu, Jie Chen, Xiao Wei, Can Kang, Kejin Ding. Effects of cavitation on grain structure and phase transformation of CuZnAl shape memory alloy. Journal of Applied Science and Engineering, 2021, 24(1):111–121.

    50.       Can Kang*, Hexiang Zhao, Yongchao Zhang, Kejin Ding. Effects of upstream deflector on flow characteristics and startup performance of a drag-type hydrokinetic rotor. Renewable Energy, 2021, 172:290–303.

    51.       Ning Mao, Can Kang*, Kejin Ding, Qian Cao. Gas-liquid two-phase flow patterns in the wake of a submerged nozzle under co-flow condition. International Journal of Multiphase Flow, 2021, 138:103640.

    52.       康灿*, 曹骞, 胡江, 李长江, 滕爽. 基于壁面磨损的渣浆泵内固液两相流动分析. 工程热物理学报, 2021, 42(09):2292–2297.

    53.       宋龙波, 滕爽, 曹骞, 康灿*, 丁可金, 李长江. 大尺寸固体颗粒提升过程中管道内的固液两相流动特征. 排灌机械工程学报, 2021, 39(11):1111–1117.

    54.       宋龙波, 滕爽, 曹骞, 康灿*, 丁可金, 李长江. 大尺寸固体颗粒对固液两相流输送泵叶轮的磨损. 排灌机械工程学报, 2021, 39(10):987–993+1000.

    55.       张胜, 曹骞, 康灿*, 丁可金, 李长江. 固体颗粒粒径对输送泵叶轮磨损特性的影响. 矿冶工程, 2021, 41(4):19–23.

    56.       Zhao Hexiang, Kang Can*, Ding Kejing, Zhang Yongchao, Li Bing. Transient startup characteristics of a drag-type hydrokinetic turbine rotor. Energy Conversion and Management, 2020, 223:113287.

    57.       Chen Gong, Can Kang*, Weidong Jia, Wanting Yang, Yuli Wang. The effect of spray structure of oil-based emulsion spray on the droplet characteristics. Biosystems Engineering, 2020, 198:78–90.

    58.       Can Kang*, Yang Zhu, Qing Li. Effects of hydraulic loads and structure on operational stability of the rotor of a molten-salt pump. Engineering Failure Analysis, 2020, 117:104821.

    59.       Can Kang*, Qing Li, Mingyi Li, Shuang Teng. Deposition of solid particles exposed to the suction of dual pumps in the tank of a pumping station. Powder Technology, 2020, 361:727–738.

    60.       Zhang Yongchao, Kang Can*, Gao Keke, Zhao Hexiang. Flow and atomization characteristics of a twin-fluid nozzle with internal swirling and self-priming effects. International Journal of Heat and Fluid Flow, 2020, 85:108632.

    61.       Zhang Yongchao, Azman Amirah Nabilah, Xu Ke-Wei, Kang Can, Kim Hyoung-Bum. Two-phase flow regime identification based on the liquid-phase velocity information and machine learning. Experiments in Fluids, 2020, 61(10):212.

    62.       Yongchao Zhang, Can Kang*, Hexiang Zhao, Shuang Teng. Effects of in-line configuration of drag-type hydrokinetic rotors on inter-rotor flow pattern and rotor performance. Energy Conversion and Management, 2019, 196: 44–55.

    63.       Ning Mao, Can Kang*, Shuang Teng, Christian Mulbah. Formation and detachment of the enclosing water film as a bubble passes through the water-oil interface. Colloids and Surfaces A, 2020, 586:124236.

    64.       Wisdom Opare, Can Kang*, Xiao Wei, Haixia Liu, Hualu Wang. Comparative investigation of ultrasonic cavitation erosion for three materials in deionized water. Journal of Engineering Tribology, 2020, 234(9):1425-1435.

    65.       Mingming Zhou, Haixia Liu, Can Kang, Xiao Wei. Resistance of curved surfaces to the cavitation erosion produced through high-pressure submerged waterjet. Wear, 2019, 440–441:203091.

    66.       Can Kang, Haixia Liu. Pressure fluctuation and surface morphology induced by the high-pressure submerged waterjet confined in a square duct. International Journal of Heat and Fluid Flow, 2019, 77: 134–143.

    67.       Can Kang*, Wei Zhang, Ning Mao, Yongchao Zhang. Effects of the wake flow on bubble patterns downstream of a cylindrical nozzle. Chemical Engineering Research and Design, 2019, 145: 128–140.

    68.       Can Kang*, Wei Zhang, Zi-wen Zou, Chun-bo Pang. Effects of initial bubble size on geometric and motion characteristics of bubble released in water. Journal of Central South University, 2019, 25(12), 3021–3032.

    69.       Qing Li, Can Kang*, Shuang Teng, Mingyi Li. Optimization of tank bottom shape for improving the anti-deposition performance of a prefabricated pumping station. Water, 2019,11:602.

    70.       Can Kang, Haixia Liu, Tao Zhang, Qing Li. Investigation of submerged waterjet cavitation through surface property and flow information in ambient water. Applied Surface Science, 2017, 425:915–922.

    71.       Can Kang*, Ning Mao, Wenbing Zhang, Yiping Gu. The influence of blade configuration on cavitation performance of a condensate pump. Annals of Nuclear Energy, 2017, 110:787–797.

    72.       Ning Mao, Can Kang*, Wisdom Opare, Yang Zhu. Hydrodynamics features of dispersed bubbles in the ventilated wake flow of a cylinder. Chinese Journal of Chemical Engineering. 2018, 26(9):1803–1813.

    73.       Haixia Liu, Can Kang, Wei Zhang, Tao Zhang. Flow structures and cavitation in submerged waterjet at high jet pressure. Experimental Thermal and Fluid Science, 2017, 88:504–512.

    74.       Can Kang*, Wei Zhang, Yiping Gu, Ning Mao. Bubble size and flow characteristics of bubbly flow downstream of a ventilated cylinder. Chemical Engineering Research and Design, 2019, 122: 263–272.

    75.       Can Kang*, Ning Mao, Chen Pan, Yang Zhu, Bin Li. Effects of short blades on performance and inner flow characteristics of a low-specific-speed centrifugal pump. Proceedings of the Institution of Mechanical Engineers Part A-Journal of Power and Energy, 2017, 231(4): 290–302.

    76.       Yongchao Zhang, Can Kang*, Yanguang Ji, Qing Li. Experimental and numerical investigation of flow patterns and performance of a modified Savonius hydrokinetic rotor. Renewable Energy. 2019, 141:1067–1079.

    77.       Can Kang, Haixia Liu, Hitoshi Soyama. Estimation of aggressive intensity of a cavitating jet with multiple experimental methods. Wear, 2018, 394:176–186.

    78.       Haixia Liu, Can Kang*, Hitoshi Soyama. Experimental study of the influence of test chamber dimensions on aggressive intensity of the cavitating jet. Journal of Testing and Evaluation, 2020, 48(5):3588-3601.

    79.       Can Kang*, Yongchao Zhang, Yilin Xiong, Qing Li. Effects of the pump base on the resonance of a horizontal condensate pump unit: A case study. Journal of Applied Science and Engineering, 2018, 21(4): 633–644.

    80.       毛宁, 康灿*, 周明明. 淹没射流流场结构的POD分析及空化云演化. 工程热物理学报,201940(9):2036–2042. (工程热物理年会优秀论文)

    81.       刘梦瑶, 康灿*, 丁可金, 李兵. 某核电阀门开启过程中的瞬态流动与结构特征. 核动力工程, 2020, 41(3):45-51.

    82.       顾逸平, 康灿*, 周明明, 张丽丽. 不同空化条件下凝水泵内压力脉动特征. 工程热物理学报, 2019, 40(11): 2559–2566.

    83.       季言广, 康灿*, 张永超. 基于时间解析PIV的串列水力转轮尾流特性研究. 实验流体力学, 2019, 33(3): 97–105.

    84.       潘宸, 康灿*, 张伟. 垂直轴螺旋形风力叶轮组合与干扰的数值研究. 太阳能学报, 2018, 39(8):2118–2124.

    85.       李清, 康灿*, 孟祥岩, 李明义. 大流量工况下预制泵站内部流动特征. 水利水电技术,201849(3): 83–88.

    86.       张桃, 刘海霞*, 康灿, 李秀阁. 铅黄铜合金在不同液体介质中的超声空蚀行为及机理. 表面技术, 2018, 47(1):109–115.

    87.       周明明, 康灿*, 刘海霞, 陈金豪. ASTM_G134装置的射流空化模拟与空蚀机理分析. 中国表面工程, 2018, 31(6): 133–142.

    88.       梅冠华, 康灿*, 张家忠. 二维壁板颤振的本征正交分解降阶模型研究.振动与冲击. 2017, 36(23):144–151.

    89.       朱洋, 康灿*, 李清. 基于流热固耦合的熔盐泵转子动力特性分析. 过程工程学报, 2018, 18(5):957–964.

    90.       张伟, 康灿*, 潘宸, 朱洋. 淹没水射流流场的DES模拟与实验研究. 工程热物理学报, 2017, 38(3):522–528.

    91.       康灿*, 毛宁, 张贵峰. 液力涡轮内部的强约束流动与空化现象. 工程热物理学报, 2017, 38(10): 2151–2158.

    92.       Kang Can, Liu Haixia, Yang Xin. Review of fluid dynamics aspects of Savonius-rotor-based vertical-axis wind rotors. Renewable and Sustainable Energy Reviews, 2014, 33:499-508.

    93.       Li Qing, Kang Can*, Li Mingyi. Flow features of a prefabricated pumping station operating under high flow rate conditions. International Journal of Fluid Machinery and Systems, 2018, 11(2):171–180.

    编著及参编主要著作

    1. Introduction to Energy and Power Engineering. 机械工业出版社, 2021

    2. Cavitation Erosion. Science Press, 2020.

    3. Methods for Solving Complex Problems in Fluids Engineering. Springer/Science Press, 2019.

    4. 《能源与动力工程测试技术》. 科学出版社,2016.

    5. 《能源与流体机械》. 江苏大学出版社,2012.

    6. 《高压水射流技术基础及应用》. 机械工业出版社,2016.

    7. 《叶片泵的计算机辅助设计与分析》. 机械工业出版社,2013.

    8. 《预制泵站技术基础》. 江苏大学出版社,2019.

    9. 《冲压泵设计基础与分析方法》. 江苏大学出版社,2019.

    10. 《流体机械内部流动测量技术》. 机械工业出版社,2011.

    11. 《流体力学》. 机械工业出版社,2017.

    主要学术及科研成果

    1.          江苏省青蓝工程优秀教学团队,2024

    2.          中国产学研合作创新奖,2024

    3.          《上海交通大学学报》有突出贡献审稿专家,2023

    4.          《中国电机工程学报》优秀审稿专家,2022

    5.          《上海交通大学学报》有突出贡献审稿专家,2022

    6.          《中国电机工程学报》优秀审稿专家,2021

    7.          《过程工程学报》优秀审稿人,2021

    8.          浙江省科学技术进步二等奖,2021.

    9.          全国流体装备技术创新奖二等奖,2021.

    10.       中国石油和化学工业联合会科技进步二等奖,2020.

    11.       中国石油和化工自动化应用协会科技进步二等奖,2020.

    12.       中国商业联合会科学技术二等奖,2020.

    13.       中国机械工业科学技术奖二等奖,2019.

    14.       中国轻工业联合会科技进步二等奖,2019.

    15.       “十二五”机械工业先进科技工作者,2016.

    16.       高等学校科学研究优秀成果二等奖,2015.

    17.       江苏省科技进步二等奖,2012.

    18.       中国机械工业科学技术奖一等奖,2011.

    19.       中国石油和化学工业协会科技进步二等奖,2010.

    20.       中国机械工业科学技术奖三等奖,2010.

    21.       中国机械工业科学技术奖三等奖,2009.

    22.       中国石油和化学工业协会科技进步二等奖,2007.

    23.       《上海交通大学学报》“有突出贡献”审稿专家,2020.

    24.       《工程热物理学报》优秀审稿人,2019, 2018.

    25.       《中国电机工程学报》优秀审稿专家,2020, 2019.

    26.       《实验流体力学》优秀审稿人,2018.

    27.       中国工程热物理年会优秀论文指导教师,2018.

    部分荣誉与获奖情况

    1.          江苏省教学名师,2023

    2.          江苏大学优秀学业导师,2022

    3.          全国能源动力类专业百篇优秀毕业论文指导教师,2022.

    4.          江苏省优秀教学成果一等奖,2022.

    5.          江苏大学优秀博士学位论文指导教师,2021.

    6.          江苏大学优秀硕士学位论文指导教师,2021.

    7.          江苏大学优秀学业导师,2021.

    8.          江苏大学教学成果一等奖,2021.

    9.          能源与动力工程测试技术,江苏省课程思政示范课程,2021.

    10.       能源与动力工程测试技术,国家一流本科课程,2020.

    11.       空化现象可视化与控制,国家一流本科课程,2020.

    12.       江苏大学教学名师,2020.

    13.       江苏大学优秀硕士学位论文指导教师,2020.

    14.       江苏大学优秀学业导师,2020.

    15.       镇江市师德先进个人,2019.

    16.       江苏大学师德先进个人,2019.

    17.       空化现象可视化与控制,国家虚拟仿真实验教学项目,2018.

    18.       国家级优秀教学成果二等奖,2018.

    19.       国家级优秀教学成果二等奖,2009.

    20.       江苏省优秀教学成果一等奖,2017.

    21.       江苏大学优秀学业导师,2017.

    22.       全国能源动力类教委教学研讨会示范授课,2019,镇江

    23.       全国高校混合式教学设计创新大赛三等奖,2019.

    24.       江苏省精品在线课程,能源与动力工程测试技术,2018.

    25.       江苏省十二五重点教材,能源与动力工程测试技术,2016.

    26.       江苏省微课竞赛二等奖,2017.

    27.       全国能源动力类教指委优秀论文奖,2014,镇江

    28.       全国能源动力类教指委优秀论文奖,2016,沈阳

    29.       国家级实验教学示范中心联席会优秀论文奖,2016,昆明

    30.       江苏大学优秀硕士学位论文指导教师,2019.

    31.       江苏大学优秀硕士学位论文指导教师,2018.

    部分授权专利

    1.          一种固液两相流体的输送管道用磨损检测装置及检测方法. 发明专利, 专利号: ZL202210271029.8

    2.          一种扇形吸气喷头和用来观测气液混合流场的喷雾系统及测试方法. 发明专利, 专利号: ZL 202210395963.0

    3.          一种防堵塞装置及污水泵. 发明专利, 专利号: ZL 202010325600.0.

    4.          一种转壳式泵的叶轮结构. 发明专利, 专利号: ZL 200910235069.1.

    5.          一种高温泵的轴承风冷却装置. 发明专利, 专利号: ZL 200710190069.5.

    6.          一种高效空化灭菌装置. 发明专利, 专利号: ZL 201610751588.3.

    7.          一种高效垂直轴Savonius风力机. 发明专利, 专利号: ZL 201810473320.7.

    8.          固液两相流体输送装置. 实用新型专利, 专利号: ZL 202220528725.8.

    9.          带分流叶片的离心叶轮. 实用新型专利, 专利号: ZL 201920850590.5.

    10.       双层交错叶片式叶轮. 实用新型专利, 专利号: ZL 201920858214.0.

    11.       一种垂直轴水力转轮性能测试装置. 实用新型专利, 专利号: ZL201821973539.5.

    12.       一种文丘里式微气泡发生装置. 实用新型专利, 专利号: ZL 201821671315.9.

    13.       一种基于球体剪切效应的微气泡发生装置. 实用新型专利, 专利号: ZL 201821672765.X.

    14.       一种基于圆柱扰流剪切效应的微小气泡发生装置. 实用新型专利, 专利号: ZL 201821671316.3.

    15.       一种离心混流式叶轮组件及离心混流式叶片泵. 实用新型专利, 专利号: ZL 202020711943.6.

    软件著作权

    1.          大颗粒固液两相流测试系统 V1.0. 登记号: 2022SR0637372.

    2.          大颗粒固液两相流特征研究测试系统 V1.0. 登记号: 2022SR0637373.

    3.          大颗粒固液两相流远程测试自动生成报表系统 V1.0. 登记号: 2022SR0641069.

    4.          大颗粒固液两相流有效数据检测系统 V1.0. 登记号: 2022SR0637194.

    5.          深海采矿平台水力参数计算系统 V1.0. 登记号:2021SR2069622.

    6.          空化现象可视化与控制虚拟仿真实验教学平台 V1.0. 登记号:2018SR857135.

    7.          Matlab气泡群形态学分析与统计程序系统V1.0. 登记号: 2016SR221906

     

    Email: kangcan@ujs.edu.cn

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