Title :
The ADI Method for Simulations of SFCL
Author :
de Sousa, W.T.B. ; Noe, M.
Author_Institution :
COPPE, Fed. Univ. of Rio de Janeiro, Rio de Janeiro, Brazil
Abstract :
In spite of the recent advances achieved with superconducting fault current limiters, modeling and simulation of such devices are still important issues. Different approaches have been used to model the transient behavior of such devices when submitted to fault currents. In this paper, the alternating direction implicit method is used to numerically solve the thermal equations discretized by the finite-difference method (FDM). That is a fast method to solve the system of differential equations resultant from the FDM discretization. It also allows the insertion of inhomogeneities of the superconducting tapes in the simulation and the study of its influence on fault limitation. The results of simulations models were compared with experimental data. A good agreement between simulated current and voltages with tests has been found in the present work. In addition, the temperature increase and the electrical field in the tapes during the fault time is shown.
Keywords :
differential equations; electric fields; fault simulation; finite difference methods; power system transients; superconducting fault current limiters; superconducting tapes; ADI method; FDM discretization; SFCL simulation; alternating direction implicit method; differential equation; electrical field; fault time; finite-difference method; superconducting fault current limiter; superconducting tape; thermal equation; transient simulation; Decoding; Encoding; Relay networks (telecommunications); Alternating direction implicit (ADI); Superconducting Fault Current Limiter; alternating direction implicit; superconducting fault current limiter (SFCL); transient simulations;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2014.2368121
