王海刚,男,1971年生,研究员,博士生导师。1996年获哈尔滨工程大学学士,1999年获大连理工大学硕士,2003年获中国科学院工程热物理研究所博士,2000年-2001年,受英国文化委员会资助,赴UMIST大学作访问学者,2005年-2009年受英国EPSRC资助,在英国曼切斯特大学任助理研究员。2010年1月回国工作。系《工程热物理学报》编委,中国工程热物理学会多相流专业委员会、中国计量测试学会多相流专业委员会和中国化工学会过程模拟及仿真专业委员会委员,美国AIChE和IEEE会员,英国皇家学会牛顿高级学者基金(RS - Newton Advanced Fellowship)获得者(2017年)。
多年从事数值计算、实验测量和软件开发工作,主要研究方向为:多相流反应过程(气-固、气-液)数值计算和测量;流化床干燥过程系统模拟、优化和控制;过程层析成像和三维图形软件开发;药品混合加湿、包衣和干燥过程测量和监控。主持或参加过多项国家自然科学基金、英国EPSRC 和TSB资助项目,研究项目主要涉及到能源、石油、化工和药品等工业过程。研究成果2003年获中国科学院院长优秀奖,2009年获英国电气工程师(IET)学会创新奖提名,2016年获中国颗粒学会科技进步二等奖。
发表SCI收录国际期刊论文50多篇(包括AIChE, Chemical Engineering Science, Powder Technology 等本领域重要期刊),国际会议论文50多篇,论文他引800多次,SCI他引超过400次。2008年获过程层析成像国际会议最佳论文奖,培养研究生2015年和2016年连续两次获得中国工程热物理学会多相流会议“青年学者陈学俊优秀论文奖”、2017年IEEE IST优秀论文奖。获中国发明专利5项,国际发明专利1项,并在英国和瑞士GEA-Aeromatic、瑞典AstraZeneca和 美国DuPont等公司示范或应用。系AIChE、Chemical Engineering Science, Powder Technology, Measurement Science and Technology, IEEE Sensor Journal,IEEE Transaction on Instrumentation & Measurement等30多个国际期刊审稿人,国家自然科学基金和国家自然科学奖通讯评审人。 多个国际学术会议分会主席,包括CFB11、WCPT7、WCIPT7、APT2015、ICMF2016、IEEE IST系列会议。应邀在英国剑桥大学、爱丁堡大学、肯特大学、克莱菲尔德大学、赫尔瓦特大学、马来西亚石油大学多次进行学术交流和学术报告。
代表性国际期刊文章:
1. H.G. Wang*, W.Q. Yang, T. Dyakowski and S. Liu, Study of bubbling and slugging fluidised beds by simulation and electrical capacitance tomography, AIChE J., 52 (2006) 3078-3087.
2. H.G. Wang*, T. Dyakowski, P. Senior, R.S. Raghavan and W.Q. Yang, Modelling of batch fluidised bed drying of pharmaceutical granules, Chem. Eng. Sci., 62 (2007) 1524-1535.
3. H.G. Wang*, W.Q. Yang, P. Senior, R.S. Raghavan and R.S. Duncan, Investigation of batch fluidised bed drying by mathematical modelling, CFD simulation and ECT measurement, AIChE J., 54 (2008) 427-444.
4. H.G. Wang*, P. Senior, R. Mann and W.Q. Yang, Online solids moisture measurement and optimum control of fluidised bed dryer, Chem. Eng. Sci., 64(2009) 2893-2902.
5. H.G. Wang* and W.Q. Yang, Measurement of fluidised bed dryer by different frequency and different normalisation methods with electrical capacitance tomography, Powder Technol., 199 (2010) 60-69.
6. H.G. Wang*, W.Q. Yang, Scale up of an electrical capacitance tomography sensor for imaging pharmaceutical fluidized beds and validation by computational fluid dynamics, Meas. Sci. Technol., 22 (2011) no.104015.
7. Y. Jiang, G.Z. Qiu and H.G. Wang*, Modelling and experimental investigation of the full-loop gas-solid flow in a circulating fluidized bed with six cyclone separators, Chem. Eng. Sci., 109 (2014) 85-97.
8. G.Z. Qiu, J.M. Ye, H.G. Wang* and W.Q. yang, Investigation of flow hydrodynamics and regime transition in a gas-solids fluidized bed with different riser diameters, Chem. Eng. Sci., 116 (2014) 195-207
9. H.G. Wang*, Y. Li, G.Z. Qiu, G.L. Song and W.Q. Yang, Measurement of gas-solids flow in loop seal and external heat exchanger in a circulating fluidized bed, Powder Technol., 266 (2014), pp 249-261.
10. R.H. Ge, J.M. Ye, H.G. Wang* and W.Q. Yang, Measurement of particle concentration in a Wurster fluidized bed by electrical capacitance tomography sensors, AIChE J., 60(2014) 4051-4064.
11. G.Z. Qiu, J.M. Ye and H.G. Wang*, Investigation of gas-solids flow characteristics in a circulating fluidized bed with annular combustion chamber by pressure measurements and CPFD simulation, Chem. Eng. Sci., 134 (2015) 433-447.
12. R.H. Ge, J.M. Ye, H.G. Wang* and W.Q. Yang, Investigation of gas-solids flow characteristics in a conical fluidised bed dryer by pressure fluctuation and electrical capacitance tomography, Drying Technol., 2016, 34 (11), pp. 1359-1372.
13. H.G. Wang*, G.Z. Qiu and W.Q. Yang, Experimental study and modelling on gas-solids flows in a lab-scale fluidized bed with Wurster tube, Powder Technol., Powder Technology, 2016, 300, pp 14-27.
14. H.G. Wang*, J.L. Zhang, M.F. Ramli, M.X. Mao, J.M. Ye, W.Q. Yang and Z.P. Wu, Imaging wet granules with different flow patterns by electrical capacitance tomography and microwave tomography, Meas. Sci. Technol, 2016, 27, 114007.
15. J.M. Ye, H.G. Wang and W.Q. Yang, Characterization of multi-plane electrical capacitance tomography sensor with different number of electrodes, Meas. Sci. Technol., 2016, 27 (7), 074003.
16. J.L Zhang, M.X. Mao, J.M. Ye, H G Wang* and Yang W.Q., Investigation of wetting and drying process in a gas-solid fluidized bed by electrical capacitance tomography and pressure measurement, Powder Technology, 2016, 301, pp. 1148-1158.
17.Z.P. Wu and H.G. Wang, Microwave Tomography for Industrial Process Imaging IEEE Antennas Magnetize, IEEE Antennas and Propagation Magazine, 2017, 59, pp 61-71
18. Ye J.M., Wang H.G. and Yang W.Q., Image recovery for electrical capacitance tomography based on low-rank decomposition, IEEE Transactions on Instrumentation and Measurement, 2017,66 (7), 7867067, pp. 1751-1759.
19. H.Q. Che, M. Wu, J.M. Ye, W.Q. Yang and H.G. Wang*, Monitoring a Lab-scale Wurster Type Fluidized Bed Process by Electrical Capacitance Tomography, Flow Measurement and Instrumentation, Accepted, 2017.
20. Q.Y. Tu, H.G. Wang*, Study of a full-loop three-dimensional pilot-scale circulating fluidized bed based on CPFD simulation, Powder Technology, Accepted, 2017.
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