Experimental evaluation of conductive flow imaging using magnetic induction tomography
作者: L Ma , A Hunt , M Soleimani
DOI: 10.1016/J.IJMULTIPHASEFLOW.2015.02.013
关键词:
摘要: Abstract Multi-phase flow imaging is a challenging topic in industrial process tomography. In this paper, we present non-invasive technique for the electrically conductive phase of multi-phase problem. Magnetic induction tomography (MIT) sensitive to conductivity target, and as such has potential be used an visualise components application. A 16 channel MIT system study, among which eight excitation coils are supplied with 15 V peak, 13 MHz sinusoidal signal sequence from generator, while remaining floated receivers. The region inner outer diameter 190 mm 200 mm respectively. Static fluid distribution patterns produced using several fluids different conductivities placed inside form contrasts. Experimental results show within our hardware software capability, contrast 0.06 S/m inclusion that occupies 8.69% can imaged. An in-depth experimental evaluation response towards various measurements shown first time, quasi-static experiments showing non-homogenous gas bubbles imaged backgrounds. sum, analyses presented investigate feasibility capability application, also reporting some rig tests field.
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sci-hub.se 参考文章(32)
S. LU, S.V. PEREVERZEV, U. TAUTENHAHN, Dual Regularized Total Least Squares And Multi-Parameter Regularization Computational Methods in Applied Mathematics Comput. ,vol. 8, pp. 253- 262 ,(2008) , 10.2478/CMAM-2008-0018
H. GRIFFITHS, W. R. STEWART, W. GOUGH, Magnetic induction tomography. A measuring system for biological tissues. Annals of the New York Academy of Sciences. ,vol. 873, pp. 335- 345 ,(1999) , 10.1111/J.1749-6632.1999.TB09481.X
Li Hu, Huaxiang Wang, Bo Zhao, Wuqiang Yang, A hybrid reconstruction algorithm for electrical impedance tomography Measurement Science and Technology. ,vol. 18, pp. 813- 818 ,(2007) , 10.1088/0957-0233/18/3/033
Hsin-Yu Wei, Manuchehr Soleimani, Two-phase low conductivity flow imaging using magnetic induction tomography Progress in Electromagnetics Research-pier. ,vol. 131, pp. 99- 115 ,(2012) , 10.2528/PIER12070615
S Watson, R J Williams, W Gough, H Griffiths, A magnetic induction tomography system for samples with conductivities below 10 S m-1 Measurement Science and Technology. ,vol. 19, pp. 045501- ,(2008) , 10.1088/0957-0233/19/4/045501
Jiangtao Sun, Wuqiang Yang, Fringe effect of electrical capacitance and resistance tomography sensors Measurement Science and Technology. ,vol. 24, pp. 074002- ,(2013) , 10.1088/0957-0233/24/7/074002
B Ulker Karbeyaz, Nevzat Guneri Gencer, Electrical conductivity imaging via contactless measurements: an experimental study IEEE Transactions on Medical Imaging. ,vol. 22, pp. 627- 635 ,(2003) , 10.1109/TMI.2003.812271
Manuchehr Soleimani, William R. B Lionheart, Absolute Conductivity Reconstruction in Magnetic Induction Tomography Using a Nonlinear Method IEEE Transactions on Medical Imaging. ,vol. 25, pp. 1521- 1530 ,(2006) , 10.1109/TMI.2006.884196
Thomas Widlak, Otmar Scherzer, Hybrid tomography for conductivity imaging Inverse Problems. ,vol. 28, pp. 084008- ,(2012) , 10.1088/0266-5611/28/8/084008
Xu, Yuesheng, Lu, Yang, Zhongying, Yao, Hongqi, Chen, MULTI-PARAMETER TIKHONOV REGULARIZATION FOR LINEAR ILL-POSED OPERATOR EQUATIONS 计算数学:英文版. ,vol. 26, pp. 37- 55 ,(2008)