# Short-circuit apparent power of the system

When doing power systems study, it always the predicament of Electrical Engineers where to get the values of the utility short circuit MVA. I was just talking to a senior engineer a few weeks back and he told me that he always consider an infinite bus supply when doing his studies. Despite the fact that it is partially correct, if the fault current values are used in the selection of equipment, then it will be very expensive.

The available short circuit varies significantly from location to location even for a particular utility, thus the utility provides the more accurate values for these electrical parameters. It is not always an easy tasks  for the electrical engineer though to get the utility line parameters. Talking to the utility can sometime be very difficult and stressful. If you ask me, I would rather not do that unless I know anybody with in their organization.

If you faced a blank wall, as an electrical engineer tasks to size electrical equipment, what will you do? Use infinite bus as an assumption? No way, especially if you are trying to reduce the cost of your project.

It is here where IEC 60076-5 Power transformers – Part 5: Ability to withstand short circuit comes into rescue. Table 5 of this standard provides the short-circuit apparent power of the system for any particular voltage. As a bonus, it provides for both current European and North American practice.

Table 2 - Short-circuit apparent power of the system
Highest voltage for equipment, Um
kV
Short-circuit apparent power, MVA
Current European practice Current North American practice
7.2, 12, 17.5 and 24 500 500
36 1 000 1 500
52 and 72.5 3 000 5 000
100 and 123 6 000 15 000
145 and 170 10 000 15 000
245 20 000 25 000
300 30 000 30 000
362 35 000 35 000
420 40 000 40 000
525 60 000 60 000
765 83 500 83 500
Source: IEC 60076-5
For Australia, use AS 2374.5-1982 Power transformers - Ability to withstand short-circuit which is a modified version of the IEC standard to suit Australian practice.

In above table, it is very noticeable that North American practice have higher fault MVA ratings for their equipment thus significantly larger in size.

## Author

• A Filipino Engineer, Registered Professional Engineer of Queensland (RPEQ) - Australia, and Professional Electrical Engineer (PEE 2574 - 1st Place April 1991) - Philippines with extensive experience in concept selection, front-end engineering, HV & LV detail design, construction, and commissioning of Hazardous and Non-Hazardous Area electrical installations in water and wastewater pipeline and pumping facilities, offshore platforms, hydrocarbon process plants and pipelines including related facilities. Hazardous area classification and design certification (UEENEEM015B, UEENEEM016B, UEENEEM017B).

### Ver Pangonilo

A Filipino Engineer, Registered Professional Engineer of Queensland (RPEQ) - Australia, and Professional Electrical Engineer (PEE 2574 - 1st Place April 1991) - Philippines with extensive experience in concept selection, front-end engineering, HV & LV detail design, construction, and commissioning of Hazardous and Non-Hazardous Area electrical installations in water and wastewater pipeline and pumping facilities, offshore platforms, hydrocarbon process plants and pipelines including related facilities. Hazardous area classification and design certification (UEENEEM015B, UEENEEM016B, UEENEEM017B).