Title :
Thermal Effects on the Design of Passive Loops to Mitigate the Magnetic Field Generated by Underground Power Cables
Author :
Del Pino López, Juan Carlos ; Romero, Pedro Cruz
Author_Institution :
Dept. of Electr. Eng., Seville Univ., Seville, Spain
fDate :
7/1/2011 12:00:00 AM
Abstract :
This paper introduces a new design procedure to obtain optimum solutions for multiturn-compensated loops. The magnetic-field mitigation problem is formulated by taking into account the thermal effects derived from the losses induced in the loops, in order to analyze the impact of this technique on the ampacity of the line. The IEC 60287 standard is used in the formulation of the multiturn-compensated loops, developing new expressions for the external thermal resistance and the proximity effect factor in the case of four equally loaded touching cables. Also, a 2-D finite-element approach is employed to verify those expressions and to validate the coupled magnetothermal problem. The performance of this technique is analyzed in terms of efficiency and operational costs.
Keywords :
finite element analysis; magnetic field effects; power cables; thermal resistance; underground cables; 2D finite element approach; IEC 60287 standard; design procedure; loaded touching cables; magnetic field mitigation problem; magnetothermal problem; multiturn-compensated loops; optimum solution; passive loop design; proximity effect factor; thermal effect; thermal resistance; underground power cables; Conductors; Finite element methods; IEC standards; Optimization; Power cables; Thermal resistance; Ampacity; compensated loop; external thermal resistance; magnetic field; mitigation; proximity effect;
Journal_Title :
Power Delivery, IEEE Transactions on
DOI :
10.1109/TPWRD.2011.2141691
