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Article type: Research Article
Authors: Yang, Fana | Gao, Binga; * | Chen, Minuyoua | Wei, Linb | Peng, Qingjunb | Zou, Lifengc
Affiliations: [a] State Key Laboratory of Power Transmission Equipment and System Security and New Technology, College of Electrical Engineering, Chongqing University, Chongqing, China | [b] Postdoctoral workstation of Yunnan power grid corporation, Kunming, Yunnan, China | [c] Kunming subsidiary of Yunnan Power Grid Corporation, Kunming, Yunnan, China
Correspondence: [*] Corresponding author: Bing Gao, State Key Laboratory of Power Transmission Equipment and System Security and New Technology (Chongqing University), College of Electrical Engineering, Chongqing University, Shapingba District, Chongqing 400044, China. E-mail:[email protected]
Abstract: The operation environment of electric power cables undergoes more and more natural damages, such as earthquake, flood which would result in the change of unit capacitance and inductance of power cables, as well as the reactive power. In this paper, a method of ``distributed model'' based on Poynting vector and space-stepping finite difference frequency domain (FDFD) is proposed to calculate the reactive power of power cables. Comparing with the method of ``lumped model'', it can calculate the reactive power of power cables without computing the unit capacitance and inductance which are difficult to get, especially when the cable trench is fill with ponding, sludge and collapse. Calculation of the reactive power has been carried out in consideration of eccentric and water infiltration cases, and results indicate that ponding environment will lead to a substantial increase of capacitive reactive power. Capacitive reactive power increase with cable eccentricity degree; when cables suffer both water ingress and a 2.5 mm eccentricity degree, the increased capacitive reactive power will reach 51.98%.
Keywords: Poynting vector, FDFD, eccentric cable, water infiltration, reactive power
DOI: 10.3233/JAE-150013
Journal: International Journal of Applied Electromagnetics and Mechanics, vol. 49, no. 3, pp. 375-385, 2015
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