Title :
2D fully coupled analysis with magneto-thermal model for prediction of temperature distribution on UHV GIB
Author :
Sohn, H.S. ; Kim, N.K. ; Chae, J.J. ; Yeo, C.H. ; Kim, Ji H.
Author_Institution :
Power & Ind. Syst. R&D Center, Hyosung Corp., Anyang, South Korea
Abstract :
This paper describe the 2 dimensional fully coupled analysis with EM field and thermal-fluid analysis using commercial software to predict the temperature distribution of the UHV Gas Insulated Bus (GIB). To perform the heat transfer simulation, sources are calculated in the ohmic loss of the conductor and eddy current loss of the enclosure by harmonic eddy current analysis. The emissivity and absorption coefficient are determined by experimental data and referred from references and the local hot spot are estimated by 3 dimensional coupled simulations. The actual 145kV three phases GIB was used for the experiment and temperature sensors were installed. The accuracy of the analysis is verified through the comparison of the simulation temperature result and experimented in UHV GIB.
Keywords :
eddy current losses; emissivity; gas insulated switchgear; heat transfer; temperature distribution; thermal analysis; 2D fully coupled analysis; 3 dimensional coupled simulations; EM field; UHV GIB; UHV gas insulated bus; absorption coefficient; commercial software; conductor; eddy current loss; emissivity; harmonic eddy current analysis; heat transfer simulation; magneto-thermal model; ohmic loss; temperature distribution prediction; temperature sensors; thermal-fluid analysis; three phase GIB; two-dimensional fully coupled analysis; voltage 145 kV; Conductors; Eddy currents; Equations; Mathematical model; Numerical models; Temperature distribution; Temperature measurement;
Conference_Titel :
Electric Power Equipment - Switching Technology (ICEPE-ST), 2013 2nd International Conference on
Conference_Location :
Matsue
DOI :
10.1109/ICEPE-ST.2013.6804387
