Title :
Thermal analysis of a ZnO surge arrester using the finite element approach
Author :
Pinto, J. A Dias ; Coimbra, A. Paulo ; Antunes, C. Lemos ; Moura, A. Machado e
Author_Institution :
Dept. de Engenharia Electrotecnica, Coimbra Univ., Portugal
Abstract :
In the design stage of a metal oxide surge arrester, the heating and cooling simulation is particularly important since the temperature rise in the ZnO elements, caused by absorbing surge energy, can produce the phenomena of thermal runaway. In the present paper, the heating and cooling analysis of a ZnO surge arrester under different operating conditions is performed using CAD/CAE techniques. This analysis was performed taking into account the steady-state and the transient heat transfer phenomena. The results were obtained using CADdyTERM, a finite element software package developed by the authors. These computer programs allow to handle the complex geometry of the device as well as the highly nonlinear resistance of the metal oxide elements. Finally the results are discussed and some important and practical conclusions concerned with the heating and cooling of the surge arrester are pointed out
Keywords :
arresters; computer aided engineering; finite element analysis; heat transfer; software packages; thermal analysis; zinc compounds; CAD/CAE techniques; CADdyTERM; ZnO; ZnO surge arrester; complex geometry; computer programs; cooling simulation; finite element approach; heat transfer phenomena; heating simulation; metal oxide surge arrester; nonlinear resistance; software package; surge energy absorption; temperature rise; thermal analysis; Arresters; Computer aided engineering; Cooling; Finite element methods; Heating; Performance analysis; Steady-state; Surges; Temperature; Zinc oxide;
Conference_Titel :
Power System Technology, 1998. Proceedings. POWERCON '98. 1998 International Conference on
Conference_Location :
Beijing
Print_ISBN :
0-7803-4754-4
DOI :
10.1109/ICPST.1998.728947
