个人资料：

姓名：丁红兵
职称：副教授/博士生导师
学科专业：控制科学与工程/检测技术与自动化装置学科
通讯地址：天津大学电气自动化与信息工程学院26教学楼E区515室
电子信箱：hbding@tju.edu.cn
电话/传真：
主要经历：
(1) 2018.07-至今 天津大学电气自动化与信息工程学院 副教授，博士生导师
(2) 2017.07-2018.07 The University of Sheffield，访问****（国家公派）
(3) 2015.02-2018.06 天津大学电气自动化与信息工程学院 讲师，硕士生导师
(4) 2011.09-2015.01 天津大学电气与自动化工程学院控制科学与工程 博士
(5) 2009.09-2011.07 天津大学电气与自动化工程学院控制科学与工程 硕士
(6) 2005.09-2009.07 天津大学电气与自动化工程学院 自动化专业 本科
主要研究方向：
(1) 单相与多相流动测试技术（Single & multi-phase flows）
(2) 传感器技术与测试仪器（Sensors & Instrumentation）
(3) 超音速分离技术（Supersonic Separator）
(4) 碳捕获和封存技术（Carbon Capture and Storage, CCS）
主要科研项目：
主持项目：
(1) 国家自然科学基金面上项目“基于凝结旋流运动映射的超音速分离器多维性能优化研究”(2019-2022)
(2) 国家自然科学基金青年项目“基于边界层流动特性的音速喷嘴测量机理研究”（2016-2018）
(3) 天津市自然科学基金项目“音速喷嘴转捩过程中的流量特性研究”（2016-2019）
(4) 中国空间技术研究院某所外协项目：真空环境泄露的流场与声场联合分析（2020）
(5) 天津大学“北洋****·青年骨干教师”人才项目（2017-2018）
(6) 天津市过程检测与控制重点实验室开放基金（2016-2017）
参与项目：
(1) 国家自然科学基金面上项目“雾环状绕流涡街稳定性与测量机理研究”（2019-2022）
(2) 国家自然科学基金重大科研仪器研制项目“基于电/磁双模层析成像的高固含率气液固三相流态化实验装置”（2017-2021）
(3) 国家自然科学基金面上项目“基于转移和感应电荷信号分解与融合的气固两相流测量机理研究”（2017-2020）
(4) 天津市自然科学基金项目“基于TMR传感器的EMT系统关键技术研究”（2019-2022）
(5) 天津市自然科学基金项目“基于电导率法与激光散射法结合的雾霾流动参数测量系统研究”（2018-2021）
(6) 天津市自然科学基金项目“音速喷嘴凝结作用机理与校正方法研究”（2015-2018）
代表性论著、学术著作：
第一/通讯作者论文：
(1) Hongbing Ding, Chunqian Sun, Chao Wang, Chuang Wen, Yuhe Tian. Prediction of dehydration performance of supersonic separator based on a multi-fluid model with heterogeneous condensation.Applied Thermal Engineering, 171: 115074, 2020. (SCI, IF: 4.026)
(2) Hongbing Ding, Yiming Li, Chao Wang, Chuang Wen, Yuhe Tian. Feature extraction of oscillating flow with vapor condensation of moist air in a sonic nozzle. IEEETransactions on Instrumentation and Measurement, doi: 10.1109/TIM.2020.**, 2020.(SCI, IF: 3.067)
(3) Hongbing Ding, Yiming Li, Esmail Lakzian, Chuang Wen, Chao Wang.Entropy generation and exergy destruction in condensing steam flow through turbine blade with surface roughness.Energy Conversion and Management, 196: 1089-1104, 2019.(SCI, IF: 7.181)
(4) Chao Wang, Peijuan Cao, Chunhui Li, Hongbing Ding (通讯), Lishui Cui. Influence of wall roughness on boundary layer transition position of the sonic nozzles.Measurement, 139: 196-204, 2019.(SCI, IF: 2.791)
(5) Chao Wang, Peijuan Cao, Hongbing Ding (通讯), Xiaotong Wang, Daxuan Lin.Signal analysis of supersonic vapor condensation in nozzle sensor using distributed transient pressure probes.IEEETransactions on Instrumentation and Measurement, 68(4): 1053-1061, 2019.(SCI, IF: 3.067)
(6) Chao Wang, Jinxia Li, Hongbing Ding (通讯), Hongjun Sun, Xiaoliang Li. Vortex flowmeter with enhanced turndown ratio based on high-frequency pressure sensors and improved convection velocity estimation.Flow Measurement and Instrumentation, 69: 101626, 2019.(SCI, IF: 1.977)
(7) Hongbing Ding, Peng Xie, Ingham Derek, Lin Ma, Mohamed Pourkashanian.Flow behaviour of drop and jet modes of a laminar falling film on horizontal tubes. International Journal of Heat and Mass Transfer, 124: 929-942, 2018. (SCI, IF: 4.346)
(8) Chao Wang, Xiaotong Wang, Hongbing Ding (通讯). Boundary layer of non-equilibrium condensing steam flow in a supersonic nozzle. Applied Thermal Engineering, 129: 389-402, 2018. (SCI, IF:4.026)
(9) Hongbing Ding, Chao Wang, Gang Wang. Thermal effect on mass flow-rate of sonic nozzle. Thermal Science, 22(1): 247-262, 2018. (SCI, IF: 1.541)
(10) Hongbing Ding, Chao Wang, Gang Wang. Self-excited oscillation of non-equilibrium condensation in critical flow nozzle. Applied Thermal Engineering, 122: 515-527, 2017. (SCI, IF:4.026)
(11) Hongbing Ding, Chao Wang, Gang Wang. Transient conjugate heat transfer in critical flow nozzles. International Journal of Heat and Mass Transfer, 104: 930-942, 2017. (SCI, IF:4.346)
(12) Hongbing Ding, Chao Wang. Approximate solution for discharge coefficient of the sonic nozzle with surface roughness. Flow Measurement and Instrumentation, 52: 227-232, 2016. (SCI,IF:1.977)
(13) Chao Wang, Gang Wang, Hongbing Ding (通讯). Thermal effect on body temperature distribution of the critical flow Venturi nozzle. Experimental Thermal and Fluid Science, 79: 187-194, 2016. (SCI, IF: 3.493)
(14) Hongbing Ding, Chao Wang, Gang Wang, Chao Chen. Analytic equations for the Wilson point in high-pressure steam flow through a nozzle. International Journal of Heat and Mass Transfer, 91: 961-968, 2015. (SCI, IF:4.346)
(15) Hongbing Ding, Chao Wang, Chao Chen. Experimental and numerical studies on self-excited periodic oscillation of vapor condensation in a sonic nozzle. Experimental Thermal and Fluid Science, 68: 288-299, 2015. (SCI, IF: 3.493)
(16) Hongbing Ding, Chao Wang, Yakun Zhao. Surface roughness effect on flow measurement of real gas in a critical nozzle. Measurement, 68: 82-91, 2015. (SCI, IF:2.791)
(17) Hongbing Ding, Chao Wang, Chao Chen. Effect of carrier gas pressure on vapor condensation and mass flow-rate in a sonic nozzle. Journal of Central South University, 22(12): 4864-4871, 2015. (SCI, IF: 0.973)
(18) Hongbing Ding, Chao Wang, Yakun Zhao. Flow characteristics of hydrogen gas through a critical nozzle. International Journal of Hydrogen Energy, 39(8): 3947-3955, 2014. (SCI, IF: 4.084)
(19) Hongbing Ding, Chao Wang, Yakun Zhao. An analytical method for Wilson point in nozzle flow with homogeneous nucleating. International Journal of Heat and Mass Transfer,73: 586-594, 2014. (SCI, IF:4.346)
(20) Hongbing Ding, Chao Wang, Chao Chen. Non-equilibrium condensation of water vapor in sonic nozzle. Applied Thermal Engineering, 71(1): 324-334, 2014. (SCI, IF:4.026)
(21) Hongbing Ding, Chao Wang, Yakun Zhao. Influence of divergent section on flow fields and discharge coefficient of ISO toroidal-throat sonic nozzle.Flow Measurement and Instrumentation, 40: 19-27, 2014. (SCI, IF: 1.977)
(22) Hongbing Ding, Chao Wang, Chao Chen. Non-equilibrium condensation process of water vapor in moist air expansion through a sonic nozzle.Flow Measurement and Instrumentation, 40: 238-246, 2014. (SCI, IF: 1.977)
(23) Hongbing Ding, Chao Wang, Yakun Zhao.Analytical calculation and evolutionary regression method for isentropic exponent of hydrogen gas at the throat of critical nozzle.Acta Physica Sinica, 63(16): 164701, 2014. (SCI, IF: 0.644)
(24) Wang, Chao, Hongbing Ding, Yakun Zhao. Influence of wall roughness on discharge coefficient of sonic nozzles. Flow Measurement and Instrumentation, 35: 55-62, 2014. (SCI, IF: 1.977)
合作期刊论文：
(25) Chuang Wen, Hongbing Ding, Yan Yang. Performance of steam ejector with nonequilibrium condensation for multi-effect distillation with thermal vapour compression (MED-TVC) seawater desalination system. Desalination, 489: 114531, 2020.(SCI, IF: 6.035)
(26) Peng Xie,Hongbing Ding, Ingham Derek,Lin Ma,Mohamed Pourkashanian.Analysis and prediction of the gas-liquid interfacial area for droplets impact on solid surfaces. Applied Thermal Engineering, 115583, 2020. (SCI, IF: 4.026)
(27) Chuang Wen, Nikolas Karvounis, Jens Honore Walther, Hongbing Ding, Yan Yang. Non-equilibrium condensation of water vapour in supersonic flows with shock waves. International Journal of Heat and Mass Transfer, 149: 119109, 2020. (SCI, IF:4.346)
(28) Jinxia Li, Chao Wang, Hongbing Ding, Hongjun Sun. A new overreading model for wet gas vortex metering based on vorticity transport mechanism. Measurement, 162: 107884, 2020. (SCI, IF: 2.791)
(29) Jinxia Li, Chao Wang, Hongbing Ding, Hongjun Sun.Online measurement of wet gas by modelling frequency and amplitude characteristics of a vortex flowmeter. IEEE Transactions on Instrumentation and Measurement, 69(6): 3666-3678, 2020. (SCI, IF: 3.067)
(30) Yan Yang, Xiaowei Zhu, Yuying Yan, Hongbing Ding, Chuang Wen. Performance of supersonic steam ejectors considering the nonequilibrium condensation phenomenon for efficient energy utilisation. Applied Energy, 242, 157-167, 2019. (SCI, IF: 8.426)
(31) Peng Xie, Xuesong Lu, Hongbing Ding, Xin Yang,Ingham Derek, Lin Ma, Mohamed Pourkashanian. A mesoscale 3D CFD analysis of the liquid flow in a rotating packed bed.Chemical Engineering Science, 199, 528-545, 2019. (SCI, IF: 3.372)
(32) Jinxia Li, Chao Wang, Hongbing Ding, Zhexiao Zhang, Hongjun Sun. EMD and spectrum-centrobaric-correction-based analysis of vortex street characteristics in mist annular flow of wet gas. IEEE Transactions on Instrumentation and Measurement, 67(5): 1150-1160, 2018. (SCI, IF: 3.067)
(33) Chao Wang, Jingyu Zhang, Wenbin Gao, Hongbing Ding, Weiping Wu. Cross-correlation focus method with an electrostatic sensor array for local particle velocity measurement in dilute gas-solid two-phase flow. Measurement Science and Technology, 26(11): 115301, 2015. (SCI, IF: 1.861)
(34) Chao Wang, Hongbing Ding, Huaxiang Wang. Thermodynamic model and dynamic temperature compensation in positive-pressure-based sonic nozzle gas flow standard. IEEE Transactions on Instrumentation and Measurement, 62(5): 1154-1165, 2013. (SCI, IF: 3.067)
学术论著：
(1) 计算机控制技术（第二作者）.机械工业出版社, 2020,ISBN: 24.
授权发明专利：
(1) 王超、张哲晓、丁红兵、李金霞、李一鸣，一种环状流液膜收集与计量装置，专利号：4.9
(2) 丁红兵、王超、林大烜，基于模糊PID的微雾发生装置控制方法，专利号：5.0.
(3) 王超、林大烜、丁红兵，一种加湿量自动调节的微雾发生装置，专利号：2.7.
(4) 丁红兵、王刚、王超，管壁内部动态温度分布实时监测方法，专利号：6.5.
(5) 王超、王孝通、丁红兵，凝结实验平台湿度控制系统，专利号：9.0.
(6) 王超、王刚、丁红兵，一种温度、湿度、流量、压力可控的音速喷嘴气体实验装置，专利号：5.3.
主要讲授课程：
(1) 计算机控制技术基础（本科生）
(2) 智能装置与设计（本科生）
(3) 智能装置课程设计（本科生）
(4) 预测控制（硕士生）
主要学术成就、奖励及荣誉：
(1) 中国计量测试学会科学技术进步奖，一等奖，2018
(2) 中国仪器仪表学会“测量控制与仪器仪表领域”全国优秀博士论文（共2人），2017
(3) 教育部·高等学校虚拟仿真实验教学资源建设成果奖，一等奖，2016
(4) 天津市“131”创新型人才培养工程第三层次
(5) 天津大学“北洋****·青年骨干教师”人才支持计划
(6) 天津大学沈志康奖教金
(7) 天津大学毕业设计优秀指导教师
其他（社会兼职等）：
(1) International Journal of Aerospace Engineering (SCI)期刊编委
(2) PLOS ONE (SCI)期刊编委
(3) Bentham科学出版社大使, Bentham Ambassador
(4) 国际多相流测试技术会议分会主席
(5) 国家自然科学基金评议专家，入选天津市科技专家库等
(6) 天津市企业科技特派员