The Response of Substation Bus Systems to Short Circuit Conditions Part I: A Comparison of Design Methods

The four methods proposed in the literature for the structural design of substation bus systems to withstand short circuit loads are compared in the case of a single, simple element of a substation. These comparisons show that the continuous, dynamic design method, which treats the distributed mass of each element, will provide more reliable designs than will the methods presently in use. They also suggest that this method will provide more economical alternatives for renovation of existing substations, where the cost penalty can be especially severe if the traditional static method is used. It is concluded that the development of the continuous dynamic method for use on a routine basis is warranted, in spite of its computational complexity.

[1]  D. W. Taylor,et al.  Short-Circuit Tests on 138-Kv Busses [includes discussion] , 1956, Transactions of the American Institute of Electrical Engineers. Part III: Power Apparatus and Systems.

[2]  O. R. Schurig,et al.  Mechanical stresses in busbar supports during short circuits , 1925, Journal of the A.I.E.E..

[3]  A. C. Bates Basic Concepts in the Design of Electric Bus for Short-Circuit Conditions , 1958, Transactions of the American Institute of Electrical Engineers. Part III: Power Apparatus and Systems.

[4]  H. K. Amchin,et al.  Digital Computation of Short-Circuit Bus Stresses , 1959, Transactions of the American Institute of Electrical Engineers. Part III: Power Apparatus and Systems.

[5]  N. S. Attri,et al.  Response of Bus Bars on Elastic Supports Subjected to a Suddenly Applied Force , 1967 .

[6]  Fred Chambers,et al.  Behavior of High-Voltage Busses and Insulators During Short Circuits [includes discussion] , 1955, Transactions of the American Institute of Electrical Engineers. Part III: Power Apparatus and Systems.