一、基本信息:
姓 名:杨道业
出生年月:1980年7月
职 称:教授
通信地址:南京市江北新区浦珠南路30号 南京工业大学 电气工程与控制科学学院(78信箱)
邮 编:211816
E-mail:dyyang@njtech.edu.cn
二、教育背景
2005/03 - 2008/04,东南大学,测试计量技术及仪器,博士
2002/09 - 2005/02,合肥工业大学,制冷与低温工程,硕士
1998/09 - 2002/07,河海大学,热能工程,学士
三、工作履历
2008/04 - 至今,南京工业大学,电气工程与控制科学学院,讲师/副教授/教授
四、主要研究方向
[1]多相流检测
气/固相、液/固相等两相流的成像和速度、浓度、流量等参数的测量,流化床的三维成像和流动特性研究。
[2]电容层析成像技术(ECT)
提出并研发的分布式电容层析成像技术可以实现超复杂空间内的三维成像,成像速度最高可达910帧/秒,处于国际先进水平,被中科院大连化物所、中科院过程工程研究所、华东理工大学、太原理工大学、万华化学、东方电气集团等知名研究机构和企业用于两相流的过程检测中。
[3]电阻层析成像技术(ERT)
研发的16电极电阻层析成像仪器可以实现二维的在线成像,目前已经应用于多个液固两相流动场合的检测中。
[4]传感器技术
[5]嵌入式系统
五、近年来承担的科研项目
[1]国家自然科学基金项目:双阵列电容传感器气固两相流多参数在线测量方法研究(51106070),2012.1~2014.12,主持
[2]江苏省高校自然科学基金面上项目:基于三维ECT的挡板式内循环流化床流动特性研究, 2015.7~2016.7,主持
[3]技术开发项目: ****大学三维电容层析成像系统采购, 2025.08~2025.12,主持
[4]技术开发项目: 电容层析成像系统(ECT), 2025.06~2025.11,主持
[5]技术开发项目:MF8电容层析成像系统, 2024.11~2025.10,主持
[6]技术开发项目:电容层析成像仪, 2024.6~2025.5,主持
[7]技术开发项目:高精度润滑油品质监测传感器, 2023.12~2024.12,主持
[8]技术开发项目:32电极高速三维电容层析成像系统, 2019.6~2020.6,主持
[9]技术开发项目:16电极电阻层析成像系统, 2020.11~2021.10,主持
[10]技术开发项目:**公司两相流固相**颗粒电容层析在线计量系统, 2017.5~2018.5,主持
六、获奖情况
1.《梯检家-电梯运维检测行业标准定义者》,第五届中国“互联网+”大学生创新创业大赛铜奖
2.《传感器技术》,2021年国家级课程思政示范课程,课程思政教学名师
3.《自动化类专业嵌入式核心课程体系与应用型人才培养的一体化模式探索与实践》,2013年南京工业大学教学成果一等奖
七、论文论著及专利
发表论文:
[1]Daoye Yang*, Zhangyou Wu, Guihuan Yao, et al. Three-dimensional axial dispersion of gas-solid fluidized beds using 8-plane electrical capacitance volume tomography[J]. Chemical Engineering Journal, 425 (2021) 131422. (SCI一区 IF=16.744)
[2] Shuxian Zhang, Daoye Yang*, Mengtao Zhang, et al. Axial behavior of Geldart B particles in an ultra-complex 3D structure using distributed ECVT with 96 electrodes[J]. Chemical Engineering Journal, 525 (2025) 170404. (SCI一区 IF=13.3)
[3]Aofang Guo, Daoye Yang*, Xichen Gu, et al. Axial behavior of slugging flow in a gas-solid CFB riser using distributed ECVT with 64 electrodes[J]. Chemical Engineering Journal, 488 (2024) 151009. (SCI一区 IF=13.3)
[4] Daoye Yang*, Mengtao Zhang, Shuxian Zhang, et al. 3D imaging of water ingress in wood using electrical capacitance volume tomography[J]. Computers and Electronics in Agriculture, 237(2025)110592. (SCI一区 IF=8.9)
[5] Yewei Xiao, Daoye Yang*, Weidong Lu. Variable-diameter ECT clamp-on sensor[J]. Measurement, 256(2025)118268. (SCI二区 IF=5.6)
[6] Bo Li, Junmei Liu, Shuxian Zhang, Changwei Xu, Daoye Yang*. Effect of baffle on slugging flow in a gas-solid CFB riser using 32-electrode ECVT[J]. Chemical Engineering Science, 322 (2026) 123150(SCI二区 IF=4.3)
[7] Daoye Yang*, Shuxian Zhang, Mengtao Zhang, et al. 3D moisture distribution measurement of wood with a novel electrical capacitance tomography (ECT) calibration method of medium substitution[J]. Wood Material Science & Engineering, (2025) 2535503.(SCI二区 IF=2.2)
[8]Xichen Gu, Daoye Yang*, Aofang Guo, et al. ECVT imaging and CFD simulation of particle flow in a 90° bend[J]. Powder Technology, 451(2025)120476. (SCI二区IF=4.5)
[9] Aofang Guo, Daoye Yang*, Shuxian Zhang. Structure optimization of 3D ECT sensor with a high height-to-diameter ratio[J]. IEEE Sensors Journal 25(2025) 6511-6521. (SCI三区IF=4.3)
[10]Daoye Yang*, Junnan Zhang, Baocun Liu, et al. Experimental investigation of three-dimensional gas-solid flow in CFB cyclone separator using electrical capacitance volume tomography[J]. Powder Technology, 431(2024)119110. (SCI二区 IF=4.5)
[11]Bo Li, Daoye Yang*. ERT image reconstruction using marker region segmentation method[J]. Measurement Science and Technology, 35(2024)105414. (SCI三区 IF=2.7)
[12]Baocun Liu, Daoye Yang*, Junnan Zhang, et al. Investigation of flow characteristics in a rectangular spouted fluidized bed using electrical capacitance volume tomography[J]. Flow Measurement and Instrumentation, 96(2024)102558.(SCI三区 IF=2.3)
[13]Weijian Yan, Daoye Yang*, Yurong Zhang, et al. Twin-array capacitance sensor for multi-parameter measurement of gas-solid particle flow based on BP-Adaboost[J]. Flow Measurement and Instrumentation,94(2023)102445.(SCI三区 IF=2.3)
[14] Qitao Bian, Daoye Yang*, Zhangyou Wu, et al. Investigation of particle flow characteristics in a CFB recirculation system using electrical capacitance volume tomography[J]. Powder Technology, 408 (2022) 117765. (SCI二区 IF=5.2)
[15] Zhangyou Wu, Daoye Yang*, Qitao Bian, et al. ECVT study of 3D flow characteristics at L-shaped exit of CFB riser[J]. Chemical Engineering Science, 259 (2022) 117839. (SCI二区 IF=4.7)
[16] Daoye Yang*, Han Pu, Hao Han, Lijun Liu, Chen Yan. Huge-scale capacitance mass flowmeter in gas/solid two-phase flow with rectangular vertical pipeline[J]. Measurement, 151(2020)107235. (SCI二区 IF=3.927)
[17] Daoye Yang*, Lijun Liu, Wenxuan Feng. Experimental investigation of an internally circulating fluidized bed with 32-electrode electrical capacitance volume tomography[J]. Measurement, 127(2018) 227-237. (SCI二区 IF=2.791)
[18]Daoye Yang*, Xinfeng Xu.Twin-array capacitance sensor for multi-parameter measurement in multiphase flow[J]. Particuology, 22(2015)163-176. (SCI二区 IF=2.28)
[19] Daoye Yang*, Bin Zhou, Chuanlong Xu, Shimin Wang. Dense-phase pneumatic conveying under pressure in horizontal pipeline[J]. Particuology, 9(2011) 432-440. (SCI二区 IF=1.423)
[20] D. Y. Yang, B. Zhou, C. L. Xu, and S.M. Wang. Thick-wall electrical capacitance tomography and its application in dense-phase pneumatic conveying under high pressure[J]. IET Image Process, 5(2011) 513-522. (SCI四区 IF=0.639)
[21]吴章友,杨道业*,刘大震. 三维电容层析成像传感器优化及循环流化床提升管轴向流动成像[J]. 化工学报,12(2021),6532-6539. (EI)
[22]孙阳,杨道业*,刘大震. 矩形喷动床三维电容层析成像[J]. 化工学报,69(2018)3383-3389. (EI)
[23]杨道业*,施源,徐锌锋.基于双截面ECT的气固两相流参数检测系统[J].仪器仪表学报, 34(2013)1968-1974.(EI)
[24]杨道业*,郭瑞,王晓荣,等.电容层析成像在滑动轴承润滑油膜测量中的应用[J].中国电机工程学报,32(2012)99-104.(EI)
[25]李虎,杨道业*,程明霄. 螺旋表面极板电容式传感器的灵敏场分析[J].化工学报, 62(2011)2292-2297.(EI)
授权发明专利:
[1] 双阵列式电容传感器及其气固两相流检测方法,201210258938.4
[2] 一种复杂空间分布式电容层析成像系统的控制方法,CN202210946620.9
[3] 一种可拆卸式变直径电容层析成像传感器及成像系统,CN202310301455.6
[4] 一种回转干燥机在线湿度ECT测量与控制装置及方法,CN202310550102.X
[5]一种镍粉变尺寸电极电容层析成像传感器,202510209121.5
[6] 基于电流互感的输电线路检修用的升降式传感器装置,ZL201910132419.5
[7] 一种基于电磁信号的半环钩载式对称分导传感器,ZL201910132884.9
八、开设的主要课程:
[1]工业过程检测(本科生)
[2]传感器技术(本科生)
[3]嵌入式系统及应用(本科生)
[4]仪器科学与技术概论(本科生)
[5]检测技术与自动化(研究生)
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