Title :
Three phase models of specially connected transformers
Author :
Chen, Bin-Kwie ; Guo, Bing-Song
Author_Institution :
Tatung Inst. of Technol., Taipei, Taiwan
fDate :
1/1/1996 12:00:00 AM
Abstract :
To reduce power system imbalance, various types of specially-connected power transformers have been adopted in Taiwan and abroad. Because three-phase transformer models are necessary for three-phase load flow simulation, specially-connected transformers which have been adopted so far are selected to derive three-phase models in this paper. These transformers include the single-phase connection, the V-V connection, the wye-delta connection, the Scott connection, the Le Blanc connection and the modified-Woodbridge connection. The three-phase models with the specially-connected transformers offered in this paper distinctly represent the HSR feeding system by means of the physical three-phase circuit and the symmetrical-component equivalent circuit. The three-phase model could be joined to the three-phase load flow program to exactly analyze the system imbalance in the future. The symmetrical-component equivalent circuit may also be used to derive the approximate unbalance-estimating formula
Keywords :
equivalent circuits; load flow; power system analysis computing; power system harmonics; power system stability; power transformers; transformer windings; Le Blanc connection; Scott connection; V-V connection; computer simulation; load flow simulation; modified-Woodbridge connection; power system imbalance; single-phase connection; symmetrical-component equivalent circuit; three-phase circuit; three-phase power transformers; transformer models; wye-delta connection; Equivalent circuits; Impedance; Load flow; Load flow analysis; Phase transformers; Power system analysis computing; Power system modeling; Power transmission lines; Rail transportation; Substations;
Journal_Title :
Power Delivery, IEEE Transactions on
