Investigation on the Electric Field Inverse Problem of HV Transmission Lines and Discussion on Its Appli
关键词:
Investigation on the Electric Field Inverse Problem of HV Transmission Lines and Discussion on Its Appli摘要
The electric field inverse problem of high voltage transmission lines is investigated in this paper. Firstly the equations for the electric field forward problem of transmission lines were formulated, then equations for the inverse problem were formulated according to the forward problem and the least square theory. A method to solve the inverse problem is presented in the paper, in which the global regularization was used to process the ill-posed characteristic of the inverse problem. The Damped Gauss-Newton iterative method was used to search the optimum solution. A 500kV double-circuit transmission line was taken as an example for the calculations of the inverse problem. The inverse problems for different situations were calculated, including the situation when the transmission lines were in normal operation, and the situation when the transmission lines were in faulty state. The solutions to the inverse problem with and without regularization were compared in the paper, and the results indicated that the global regularization can effectively eliminate the ill-pose of the inverse problem. The electric field inverse problem can be used to confirm the electrification state of the ultra high voltage transmission lines, and also can be used in the environmental assessment tests to reduce the measurement workload.
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参考
B. Florkowska, A. Jackowicz-Korczynski, and
M. Timler, “Analysis of electric field
distribution around the high-voltage overhead
transmission lines with an ADSS fiber-optic
cable”, IEEE Transactions on Power Delivery,
vol.19, no.3, pp. 1183-1189, 2004.
Y. Liu, L.E. Zaffanella, “Calculation of
electric field and audible noise from
transmission lines with non-parallel
conductors”, IEEE Transactions on Power
Delivery, vol.11, no.3, pp. 1492-1497, 1996.
D. Lee, K.-Y. Shin, and S.-D. Lee, “Technique
to decrease the electric field intensity on
conductor surface using the asymmetrical-
sized conductor bundle”, IEEE/PES
Transmission and Distribution Conference,
vol. 4, pp. 1-6, 2008.
E. Coccorese, R. Martone, and F.C. Morabito,
“A neural network approach for the solution of
electric and magnetic inverse problems”,
YANG. WU, HE, CHEN, NIE: INVESTIGATION ON ELECTRIC FIELD INVERSE PROBLEM OF HV TRANSMISSION LINES
IEEE Transactions on Magnetics , vol. 30, no.
, pp. 2829-2839, 1994.
M.A. Hussain, B. Noble, and B. Becker,
“Computer simulation of an inverse problem
for electric current computed tomography
using a uniform triangular discretization”, The
Annual International Conference of the IEEE
Engineering in Engineering in Medicine and
Biology Society, pp. 448-450, 1989.
M. Trlep, A. Hamler, B. Hribernik, "The use
of DRM for inverse problems of Poisson's
equation", IEEE Translations On Magnetics,
vol.36, no.4, pp. 1649-1652, 2000.
H. Kama, and Z. Xiang, The inverse problem
in Electromagnetic field and its application,
The Science Press, 2005.
http://www.integratedsoft.com/
IEEE Standard 1127-1990, “IEEE guide for
the design, construction, and operation of safe
and reliable substations for environmental
acceptance”.
