一、 个人基本信息
出生日期: 1988年11 月
籍贯: 山东省潍坊市
性 别: 女
民 族: 汉
职称: 讲师
最高学历: 博士研究生
工作单位:taptap下载安装安卓电子信息与自动化学院
通信地址:天津市taptap下载安装安卓南院机械材料大楼309室
邮政编码:300300
电子邮箱:jx_li@cauc.edu.cn
二、 学习和工作经历简介
●2020.10-现在: taptap下载安装安卓,电子信息与自动化学院,航空电气系,讲师
●2015.9-2020.6: 天津大学,电气自动化与信息工程学院,控制科学与工程,博士
●2012.9-2015.9: 天津大学,电气与自动化工程学院,控制科学与工程,硕士
●2008.09-2012.7: 华北电力大学(保定),自动化系,测控技术与仪器,本科
三、 学术兼职
●中国仪器仪表学会青年委员会委员
●国内外多个期刊杂志审稿人,包括:Measurement, Smart Material and Structure, International Communications in Heat and Mass Transfer, Journal of Physics D: Applied Physics, Engineering Research Express, PLOS ONE等
四、 主要研究方向和科研业绩
主要研究方向包括:
● 机载传感器测试与故障诊断
故障检测、识别与估计,性能退化评估与剩余寿命预测
● 流体能源俘获与自供电技术
风能捕获与收集,振动强化技术,自供电无线监测与智能感知
● 多相流体测量与数值模拟
电学、光学传感技术,多相流CFD仿真技术,先进信号处理技术,两相流量测量
科研业绩:
●天津市自然科学基金青年项目:面向智慧机场环境监控的无线传感网络自主供电系统关键技术研究,主持,2024-2026年
●天津市教委科研计划项目:基于涡振-驰振耦合强化的压电俘能自供电系统关键技术研究,主持,2023-2025年
●中央高校基本科研业务费项目:基于物理引导神经网络的电导-涡街双模湿气分相流量测量,主持,2024-2026年
●中央高校基本科研业务费项目:环雾状流涡街测量特性与校正方法研究,主持,2021-2023年(已结题)
●国家自然科学基金面上项目:宽液含率气液两相流动态调控的强制环状流测量方法研究,第二参与人,2024-2027年
●国家自然科学基金面上项目:基于电/磁多模式复合的CFRP层压板损伤定量检测方法研究,参与,2024-2027年
教研业绩:
●中国交通教育研究会教育科学研究课题:面向民航电子信息与自动化类专业的多视域工程伦理教育研究与实践,主持,2022-2024年
●taptap下载安装安卓研究生教改项目:民航特色本土化《工程伦理》案例教学资源建设,主持,2024-2025年
●taptap下载安装安卓本科生教改项目(重点项目):融合课程思政和工程教育专业认证的多视域工程伦理教育研究与实践,第二参与人,2022-2024年
●taptap下载安装安卓第三届课程思政竞赛,二等奖,2024.06月
五、 论著目录
发表SCI/EI检索论文30余篇,其中一作/通讯论文13篇,申请发明专利17项,其中已授权12项。主要成果如下:
第一作者/通讯作者:
[1]. Jinxia Li(兼通讯作者), Hongbing Ding, Hongjun Sun and Teng Li. Wet gas flow metering by combining a vortex flowmeter with disturbance wave frequency. Measurement Science and Technology, 35 (2024) 025301(SCI)
[2]. Jinxia Li, Chao Wang, Hongbing Ding, Hongjun, Dynamics of particle-laden wake flow in a karman vortex street considering the droplet-vortex interactions. Journal of Applied Fluid Mechanics, 2022, 15(3): 857-872. (SCI)
[3]. 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, 2020, 69(6): 3666-3678. (SCI)
[4]. Jinxia Li, Chao Wang, Hongbing Ding, Hongjun Sun. A new overreading model for wet gas vortex metering based on vorticity transport mechanism. Measurement, 2020, 162:107884. (SCI)
[5]. Jinxia Li, Chao Wang, Hongbing Ding, Hongjun Sun, Xiaoliang Li. Wet gas metering using a vortex cross-correlation meter based on fluctuating pressure measurement. Journal of Petroleum Science and Engineering. 2020, 195: 107855 (SCI)
[6]. 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, 2018, 67(5): 1150-1160. (SCI)
[7]. 李金霞,丁红兵, 王超,孙红军. 基于液滴参数检测的涡街湿气过读预测模型. 北京航空航天大学学报,2023, 49(4): 815-824.(EI)
[8]. 李金霞,丁红兵,孙宏军,王超. 基于三轴加速度探头的涡街湿气分相流量测量, 仪器仪表学报,2023,4417-27(EI)
[9]. 李金霞, 王超, 丁红兵. 低含气率气液两相流涡街特性研究. 机械工程学报, 2017, 53(20):161-168. (EI: 20174604393481)
[10]. Jinxia Li, Hongjun Sun, Yi Huang, Teng Li. Gas and liquid flow measurement of wet gas based on vortex meter-liquid film sensor and neural network. IEEE International Instrumentation and Measurement Technology Conference (I2MTC2024) (EI)
[11]. Jinxia Li, Chao Wang, Hongbing Ding. Characteristics of vortex flowmeter in vapor-liquid mist flow. IEEE International Instrumentation and Measurement Technology Conference (I2MTC), Houston, USA, 2018. (EI: 20183105640716)
[12]. Jinxia Li, Chao Wang, Hongbing Ding, Hongjun Sun. Mass flowrate measurement of wet steam using combined V-cone and vortex flowmeters. IEEE International Instrumentation and Measurement Technology Conference (I2MTC), Torino, Italy, 2017. (EI: 20173204025530)
[13]. Sun Hongjun, Yi Huang, Jinxia Li(通讯作者), Teng Li. Disturbance Wave Velocity Model based on Physics-Guided Backpropagation Neural Network, IEEE International Instrumentation and Measurement Technology Conference (I2MTC2024) (EI)
合作作者:
[1]. Chao Wang(博导), Jinxia Li, Hongbing Ding, Hongjun Sun, Xiaolaing Li. Vortex flowmeter with enhanced turndown ratio based on high-frequency pressure sensors and improved convection velocity estimation. Flow Measurement and Instrumentation, 2019, 69: 101626. (SCI)
[2]. Hongjun Sun(硕导), Jinxia Li, Chao Wang et al. Numerical simulation and experimental study of the vortex flow around a bluff body in horizontal gas-liquid two-phase flow. IEEE International Instrumentation and Measurement Technology Conference (I2MTC), Montevideo, Uruguay, 2014. (EI: 20143318066655)
[3]. Sun H, Yang Z, Jinxia Li, et al. Performance evaluation and optimal design for passive turbulence control-based hydrokinetic energy harvester using EWM-based TOPSIS[J]. Energy, 2024, 298: 131377.(SCI)
[4]. Hongbing Ding, Xinyu Song, Jinxia Li, Chuang Wen et al. Experimental investigation on droplet evolutions in co-flow around the bluff body, Experimental Thermal and Fluid Science, 151(2024) 111106(SCI)
[5]. Sun H, Li T, Jinxia Li, et al. Generalization of disturbance wave velocity of vertical annular flow considering entrained droplets effect[J]. Experimental Thermal and Fluid Science, 2024, 151: 111102(SCI)
[6]. Sun Hongjun, Yang Tianyu, Ding Hongbing, Li Jinxia, et al. Online measurement of gas and liquid flow rates in wet gas using vortex flowmeter coupled with conductance ring sensor[J]. IEEE Transactions on Instrumentation and Measurement, 2022, 71: 7500414.(SCI)
[7]. Sun Hongjun, Luo Yikun, Ding Hongbing, Li Jinxia, et al. Experimental investigation on atomization properties of impaction-pin nozzle using imaging method analysis[J]. Experimental Thermal and Fluid Science, 122(2021) 110322.(SCI)
[8]. 孙宏军,李腾,李金霞,丁红兵. 基于Kelvin-Helmholtz不稳定性和界面剪切作用的扰动波高预测模型,化工进展,2023(EI)
[9]. 丁红兵, 刘茜茜, 李金霞,等. 基于图像法的环雾状流液滴参数测量与分析[J]. 化工进展, 2021, 040(012):6460-6468.(EI)
[10]. 丁红兵,李一鸣,李金霞,王超. 微型探头-传感系统高频响应特性模型适应性. 北京航空航天大学学报,2019,45(8):1519-1528. (EI: 20193707418309)
[11]. 孙宏军,汪波,李金霞,丁红兵. 低含液率气液两相钝体绕流实验与机理[J]. 天津大学学报, 2016, 049(005):491-497.(EI)
[12]. Hongbing Ding, Yiming Li, Jinxia Li, et al. Feature extraction based on optimal Morlet wavelet for the pressure oscillation induced by vapor condensation in a sonic nozzle. IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2019. (EI: 20194107499199)
[13]. 孙宏军,吕鹏飞,丁红兵,李金霞,宋晨睿. 带状附加物放置角度对流致振动与振子俘能特性影响研究[J]. 振动与冲击, 2023, 42(6): 98-105. (EI)
[14]. Hongjun Sun, Yuhang Liu, Hongbing Ding, Jinxia Li, Jiamin Ye.Wet Gas Vortex Metering Based on Tri-axis Acceleration Measurement. IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2021. (EI)
[15]. Hongjun Sun, Wenqiang Zhang, Hongbing Ding, Jinxia Li. Measurement of vortex flowmeter using tri-axis acceleration probe based on multi-parameter adjustable mist flow loop. IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2020. (EI)
[16]. Hongjun Sun, Yilun Luo, Hongbing Ding, Jinxia Li. Research on Droplet Properties in Atomization using Optical Imaging Measurements. IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2020. (EI)
[17]. Hongjun Sun, Xiaoliang Li, Hongbing Ding, Jinxia Li. Signal analysis of vortex flow field in mist flow using transient pressure sensor. IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2019. (EI: 20194107499473)
[18]. Hongjun Sun, Wei Wang, Hongbing Ding, Jinxia Li. Natural frequency measurement of pipe vibration for vortex flowmeter. IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2019. (EI: 20194107499467)
[19]. 王超,张哲晓,丁红兵,李金霞. 湿空气超音速凝结实验平台设计. 仪器仪表学报,2018,39(6):173-181. (EI: 20183905860798)
[20]. Chao Wang, Zhexiao, Zhang, Hongbing Ding, Jinxia Li. Measurement property of vortex flowmeter in wet gas flow using mist flow apparat. IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2018. (EI: 2018310564076)
[21]. Chao Wang; Tianyi Li, Hongbing Ding, Jinxia Li. Flow Characteristics of V-Cone Flowmeter in Wet Steam. IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2017. (EI: 20173204025672)
[22]. 孙宏军, 何星, 徐冠群, 李金霞等. 水平管气液两相流涡街的动力学特性分析[J]. 测控技术, 2015(4):120-123.
专利:
[1]. 李金霞,吴逸蒙,朱震豪,陈文政,于越,宋佳旭,张昱昊. 一种基于压电俘能的自主供电流量计量装置及方法, 202410398283.3 (受理)
[2]. 李金霞,林纪,张秋佳. 一种融合涡街频率和涡街互相关测速的湿气流量测量方法,202410222728.2 (实质审查)
[3]. 李金霞,肖志利. 一种基于流致振动俘能的自供电涡街流量计量装置及方法,CN202310241577.0(实质审查)
[4]. 李金霞,肖志利. 结合扰动波频特性的涡街频率提取及湿气分相流测量方法,CN202310242114.6(实质审查)
[5]. 李金霞,肖志利. 基于加速度幅值建模的涡街湿气流量测量方法,ZL202210319304.9(授权)
[6]. 李金霞,肖志利. 基于加速度检测的涡街湿气分相流量测量方法,ZL202210161689.0(授权)
[7]. 李金霞,丁红兵,孙宏军,刘雨航,吕鹏飞. 基于液膜厚度建模的涡街湿气分相流量测量方法,CN202110129896.3 (授权)
[8]. 王超,李金霞,丁红兵,孙宏军. 结合涡街幅值特性的湿气过读补偿与流量测量方法, ZL 201910474178.2(授权)
[9]. 王超, 李金霞,丁红兵,孙宏军. 基于小波脊特征提取的涡街湿气过读补偿与流量测量方法, ZL 201910469779.4(授权)
[10]. 王超,李金霞,丁红兵,张哲晓. 一种湿蒸汽干度流量双参数测量方法,ZL 201710090592.4 (授权)
[11]. 孙宏军,吕鹏飞,李金霞,丁红兵,刘雨航. 基于液膜厚度测量和涡街流量计的湿气分相流量测量方法, ZL 202110129883.6(授权)
[12]. 孙宏军,刘雨航,李金霞,丁红兵,吕鹏飞. 基于牛顿迭代的涡街湿气分相流量测量方法,ZL 202110129932.6(授权)
[13]. 孙宏军,宋晨睿, 李金霞. 一种融合涡街频率和对流特性的湿气流量测量方法,ZL 202010300026.3 (授权)
[14]. 王超,张琳,丁红兵,李金霞, 孙宏军. 基于微型瞬态压力传感器的涡街互相关流量计, ZL 201910356127.X(授权)
[15]. 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,ZL 201810226454.9(授权)
[16]. 丁红兵, 李一鸣, 王超, 李金霞,张哲晓. 一种多参数可调的雾状流实验系统,ZL 201810644726.7(授权)
[17]. 孙宏军,李腾,杨天宇,李金霞. 基于液膜流动参数建模的涡街湿气分相流量测量方法,CN 202210169157.1(实质审查)
指导学生竞赛
●天津市大学生创新创业项目:基于流致振动的压电俘能自供电无线传感系统设计,2023年,结题
其他
●第十四届中国多相流测试学会会议专题邀请报告(2024年8月,广州)
●第十九届全国模态分析与试验学术会议优秀论文(2024年年5月,浙江舟山)
●第十三届中国多相流测试学术会议优秀论文(2023年4月,杭州)
●第三届国际振动与俘获应用会议优秀论文(2021年7月,西安)
