Chen Zhiyu, Xia Mingyao, Ren Liehui. Analytical solution about heating effects of a non-symmetrical dipole in lossy media[J]. Journal of Electronics & Information Technology, 2002, 24(6): 821-826.
Citation:
Chen Zhiyu, Xia Mingyao, Ren Liehui. Analytical solution about heating effects of a non-symmetrical dipole in lossy media[J]. Journal of Electronics & Information Technology, 2002, 24(6): 821-826.
Chen Zhiyu, Xia Mingyao, Ren Liehui. Analytical solution about heating effects of a non-symmetrical dipole in lossy media[J]. Journal of Electronics & Information Technology, 2002, 24(6): 821-826.
Citation:
Chen Zhiyu, Xia Mingyao, Ren Liehui. Analytical solution about heating effects of a non-symmetrical dipole in lossy media[J]. Journal of Electronics & Information Technology, 2002, 24(6): 821-826.
An approximate method is used to analyse the excited fields with a non-symmetrical dipole in lossy media and simple analytical expressions about the fields and joule heat are obtained. These expressions are compared with the formulas of traditional symmetrical half-wave dipole. Some calculated results are given for a typical oil reservior, which will be useful for the electromagnetic wave oil recovery technique.
A. Chakma, K. N. Jha, Heating oil recovery from thin pay zone by electromagnetic heating, SPE 24817, 1992, 525-534.[2]M.Y. Xia, Z. Y. Chan, Attenuation predictions at extremely low frequencies for measurement while drilling electromagnetic telemetry system, IEEE-GRS, 1993, 31(6), 1222 1228.[3]Chen Zhiyu, Xia Mingyao, The frequency property of buried non-symmetrical dipole, International Journal of Electronics, 1993, 75(4), 783-793. [4]R.W.P. King, K. IIZUKA, The complete electromagnetic field of a half-wave dipole in a dissipative medium, IEEE-AP, 1963, 11(5), 275-285.
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