For the distribution substation given in Problem 14.9, assume that each of the four circuit breakers on

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For the distribution substation given in Problem 14.9, assume that each of the four circuit breakers on the \(12.5-\mathrm{kV}\) side of the distribution substation transformers has a maximum continuous current of \(2000 \mathrm{~A} /\) phase during both normal and emergency conditions. Determine the summer allowable substation rating under the single-contingency loss of one transformer, based on not exceeding the maximum continuous current of these circuit breakers at \(12.5-\mathrm{kV}\) operating voltage. Assume a \(5 \%\) reduction for unequal transformer loadings. Comparing the results of this problem with Problem 14.9, what limits the substation allowable rating, the circuit breakers or the transformers?

Problem 14.9

As shown in Figure 14.24, an urban distribution substation has one 30-MVA (FOA) and three 33.3 MVA (FOA), \(138 \mathrm{kV} \Delta / 12.5 \mathrm{kV}\) Y transformers denoted TR1-TR4, which feed through circuit breakers to a ring bus. The transformers are older transformers designed for \(55^{\circ} \mathrm{C}\) temperature rise. The ring bus contains eight bus-tie circuit breakers, two of which are normally open (NO), so as to separate the ring bus into two sections. TR 1 and TR 2 feed one section, and TR 3 and TR 4 feed the other section. Also, four capacitor banks, three banks rated at 6 Mvar and one at 9 Mvar, are connected to the ring bus. Twenty-four \(12.5-\mathrm{kV}\) underground primary feeders are served from the substation, 12 from each section. The utility that owns this substation has the following transformer summer loading criteria based on a percentage of nameplate rating:

a. \(120 \%\) for normal summer loading.

b. \(150 \%\) during a two-hour emergency.

c. \(130 \% 30\)-day emergency loading.

Determine the following summer ratings of this substation:

(a) the normal summer rating with all four transformers in service;

(b) the allowable substation rating assuming the single-contingency loss of one transformer; and

(c) the 30-day emergency rating under the single-contingency loss of one transformer. Assume that during a two-hour emergency, switching can be performed to reduce the total substation load by \(10 \%\) and to approximately balance the loadings of the three transformers remaining in service. Assume a 5\% reduction for unequal transformer loadings.

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Power System Analysis And Design

ISBN: 9781305632134

6th Edition

Authors: J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

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