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袁超

Date:2024年08月03日

个人资料:

姓名:袁超

职称:副研究员

学科专业:bet365官网

通讯地址:bet365官网电气bet365官网与信息工程学院26教学楼E240

电子信箱:yuanchao@panqi.net

联系方式:13622106388

 

主要经历:

(1) 2021.09-至今 bet365官网电气bet365官网与信息工程学院,bet365官网系,副研究员

(2) 2021.03-2021.08 英国Surface Measurement Systems公司,高级研发工程师

(3) 2018.08-2021.03 英国帝国理工学院化学工程系,博士后

(4) 2016.09-2018.07 英国诺丁汉大学工程学院,博士后

(5) 2010.09-2016.01 bet365官网检测技术与bet365官网装置,博士

(6) 2006.09-2010.06 bet365官网bet365官网专业,本科 

主要研究方向:

(1) 管道中多相流流动参数在线检测技术

(2) 多传感器融合技术

(3) 多功能微传感器及工业仪表的研究与开发

主要科研项目:

1)国家自然科学基金青年项目:基于群模式微波谐振腔传感器的湿气两相流相含率检测机理研究,项目负责人。

2)企业横向课题:井下气体流量测试工具试制及性能测试服务,项目负责人。

3)博士后国际交流派出项目:深水海底多相流非放射性测量技术研究,项目负责人。

4ABB-Imperial College London合作项目:Multi-functional Micro Sensors for Process Control,项目参与人。

5)中石油规划总院:凝析气田凝析气带液计量研究(一期、二期),项目参与人。

6)工业和信息化部:水下两相湿气流量装置研制,项目参与人。

7)科技部863项目:基于多传感器数据融合的凝析天然气流量测量研究,项目参与人。

8)国家自然科学基金项目:基于旋进式长喉颈内文丘里的湿气流量测量方法研究,项目参与人。

9)天津市科委:基于多传感器数据融合的湿气流量测量研究,项目参与人。

代表性论著、学术著作:

学术论文:

(1) Xu Y, Zhang Y, Yuan C*, et al. Measurement method of wet gas two-phase flow rate based on the main frequency and the modulus of vector acceleration of swirl flowmeter[J]. Measurement, 2023, 221: 113539 (SCI).

(2) Xu Y, Zuo R, Yuan C*, et al. Research on the measurement method of gas-water two-phase flow based on dual-sensor system[J]. Flow Measurement and Instrumentation, 2023, 93: 102393 (SCI).

(3) Xu Y, Zhang Y, Yuan C*, et al. Wet gas two-phase flow measurement of swirl flowmeter based on Synchrosqueezed Wavelet Transform[J]. IEEE Transactions on Instrumentation and Measurement, 2023 (SCI).

(4) Xu Y, Zuo R, Yuan C*, et al. A Water Volume Fraction Measurement Method Based on Flow Regime Insensitivity-Microwave Resonant Cavity Sensor (FRI-MRCS)[J]. IEEE Sensors Journal, 2023 (SCI).

(5) Ma H, Xu Y, Yuan C*, et al. A water fraction measurement method of gas-water flow in a wide conductivity range[J]. Measurement, 2023, 216: 112895 (SCI).

(6) Xu Y, Cao L, Yuan C* et al. Study of the factors influencing the over-reading characteristics of the precession Venturi[J]. Flow Measurement and Instrumentation, 2023, 89: 102272 (SCI).

(7) Xu Y, Wei C, Yuan C*, et al. A detection method for vortex precession frequency based on MEMS three-axis acceleration sensor[J]. IEEE Transactions on Instrumentation and Measurement, 2022, 72: 1-11 (SCI).

(8) Huimin Ma, Ying Xu, Chao Yuan*, Yiguang Yang, Jinghan Wang, Tao Zhang, Tao Li, Measurement Characteristics of a Novel Microwave Sensor based on Orthogonal Electrodes Method, IEEE Sensors Journal, 2022 (SCI).

(9) Yiguang Yang, Ying Xu*, Chao Yuan*, Haitao Wu, Jinghan Wang, Tao Li, Tao Zhang, Hui Xia. Superficial Dielectric Constant(SDC) Model of Gas-Water Flow in Resonant Cavity Sensor(RCS) Based on Flow Regimes. Journal of Natural Gas Science & Engineering, 2021, 103849 (SCI).

(10) Yiguang Yang, Ying Xu*, Chao Yuan*, Jinghan Wang, Haitao Wu, Tao Zhang. Water holdup measurement of oil-water two-phase flow in the resonant cavity sensor based on analytical field solution method. Measurement, 2021, 109078 (SCI).

(11) A. S. Holmes, M. E. Kiziroglou*, S. K. E. Yang, C. Yuan, D. E. Boyle, D. M. Lincoln, J. D. J. McCabe, P. Szasz, S. C. Keeping, D. R. Williams and E. M. Yeatman. Minimally Invasive Online Water Monitor. IEEE Internet of Things Journal, Accepted (SCI).

(12) Chao Yuan, Alexander Bowler, Jonathan Gareth Davies, Buddhika Hewakandamby, Georgios Dimitrakis*. Optimised mode selection in electromagnetic sensors for real time, continuous and in-situ monitoring of water cut in multi-phase flow systems[J]. Sensors and Actuators B: Chemical, 2019: 126886 (SCI).

(13) Chao Yuan, Ying Xu*, Tao Zhang, Jiaojiao Wang, Huaxiang Wang, Zhixin Ding. Experimental investigation of the phase fraction of wet gas based on convective heat transfer[J]. Applied Thermal Engineering, 110, 2017, 102-110 (SCI).

(14) Ying Xu*, Peining Yu, Zicheng Zhu, Chao Yuan, Tao Zhang. Over-reading modeling of the ultrasonic flow meter in wet gas measurement[J]. Measurement, 98, 2017, 17-24 (SCI).

(15) Chao Yuan, Ying Xu*, Tao Zhang, Jing Wei, Huaxiang Wang. Experimental research on pressure drop of wet gas flow in Venturi[J]. Experimental Thermal and Fluid Science, 75, 2016, 183-188 (SCI).

(16)  Wuxiao Chen, Ying Xu*, Chao Yuan, Haitao Wu, Tao Zhang. An investigation of wet gas over-reading in orifice plates under ultra-low liquid fraction conditions using dimensional analysis[J]. Journal of Natural Gas Science and Engineering, 32, 2016, 390-394 (SCI).

(17)  Chao Yuan, Ying Xu*, Tao Zhang, Xili Ba, Huaxiang Wang. Dual-iterative model for gas condensate measurement based on void fraction[J]. Journal of Natural Gas Science and Engineering, 24, 2015, 330-336 (SCI).

(18)  Chao Yuan, Ying Xu*, Tao Zhang, Jing Li, Huaxiang Wang. Experimental investigation of wet gas over reading in Venturi[J]. Experimental Thermal and Fluid Science, 66, 2015, 63-71 (SCI).

(19)  Ying Xu*, Chao Yuan, Zhenghai Long, Qiang Zhang, Zhenlin Li, Tao Zhang. Research the wet gas flow measurement based on dual-throttle device[J]. Flow Measurement and Instrumentation, 2013, 34: 68-75 (SCI).

(20)  Xu Y*, Yuan C, Long Z H, et al. Experimental Investigation of the Wet Gas Measurement Based on Triple Differential Pressures Method [J]. Applied Mechanics and Materials, 2012, 220: 781-784 (EI).

(21)  徐英*, 袁超, 龙征海, . 基于双节流装置的湿气测量方法[J]. 机械工程学报, 2013, 48(22): 139-147 (EI).

 

专利:

(1)   一种基于旋进旋涡MEMS检测技术的湿气流量测量方法(CN115824324A

(2)   种油水两相流双参数测量方法(CN115201226A

(3)   利用微波谐振腔双模态谐振频率测量含水率的装置及方法(CN116359252A

(4)   双比值法湿气液相含率测量装置(CN106052775B

(5)   基于流动密度的长喉颈文丘里管湿气流量测量方法(CN105387895B

(6)   Minimally Invasive Multi-Parameter Sensor System (WO2021249731A1)

 

主要奖励及荣誉:

(1) 2020:帝国理工学院化工系教学铜奖

(2) 2015:第九届国际多相流测试技术会议最佳报告

(3) 2014:中国计量测试学会科学技术进步一等奖