1. Protection of Power Systems
6. Reclosers and Fuses

2. Automatic circuit reclosers are commonly used for distribution circuit protection.
A recloser is a self-controlled device for automatically interrupting and reclosing an ac circuit with a preset sequence of openings and reclosures.
Unlike circuit breakers, which have separate relays to control breaker opening and reclosing, reclosers have built-in controls.
More than 80% of faults on overhead distribution circuits are temporary, caused by tree limb contact, by animal interference, by wind bringing bare conductors in contact, or by lightning.

3. The automatic tripping-reclosing sequence of reclosers clears these temporary faults and restores service with only momentary outages, thereby significantly improving customer service.
A disadvantage of reclosers is the increased hazard when a circuit is physically contacted by people—for example, in the case of a broken conductor at ground level that remains energized.
Also, reclosing should be locked out during live-line maintenance by utility personnel.

4. Figure shows a common protection scheme for radial distribution circuits utilizing fuses, reclosers, and time-delay overcurrent relays.
Data for the 13.8-kV feeder in this figure is given in Table 10.7.

7. There are three load taps protected by fuses.
The recloser ahead of the fuses is set to open and reclose for faults up to and beyond the fuses.
For temporary faults the recloser can be set for one or more instantaneous or time-delayed trips and reclosures in order to clear the faults and restore service.
If faults persist, the fuses operate for faults to their right (downstream), or the recloser opens after time delay and locks out for faults between the recloser and fuses.

8. Separate time delay overcurrent phase and ground relays open the substation breaker after multiple reclosures of the recloser.

9. Coordination of the fuses, recloser, and time-delay overcurrent relays is shown via the time-current curves in Figure
Type T (slow) fuses are selected because their time-current characteristics coordinate well with reclosers.
The fuses are selected on the basis of maximum loads served from the taps.
A 65 T fuse is selected for the bus 1 tap, which has a 60-A maximum load current, and 100 T is selected for the bus 2 and 3 taps, which have 95-A maximum load currents.

11. The fuses should also have a rated voltage larger than the maximum bus voltage and an interrupting current rating larger than the maximum asymmetrical fault current at the fuse location.
Type T fuses with voltage ratings of 15 kV and interrupting current ratings of 10 kA and higher are standard.
Standard reclosers have minimum trip ratings of 50, 70, 100, 140, 200, 280, 400, 560, 800, 1120, and 1600 A, with voltage ratings up to 38 kV and maximum interrupting currents up to 16 kA.

12. A minimum trip rating of 200–250% of maximum load current is typically selected for the phases, in order to override cold load pickup with a safety factor.
The minimum trip rating of the ground unit is typically set at maximum load and should be higher than the maximum allowable load unbalance.
For the recloser in Figure 10.18, which carries a 250-A maximum load, minimum trip ratings of 560 A for each phase and 280 A for the ground unit are selected.

13. A popular operation sequence for reclosers is two fast operations, without intentional time delay, followed by two delayed operations.
The fast operations allow temporary faults to self-clear, whereas the delayed operations allow downstream fuses to clear permanent faults.
Note that the time-current curves of the fast recloser lie below the fuse curves in Figure 10.19, such that the recloser opens before the fuses melt.
The fuse curves lie below the delayed recloser curves, such that the fuses clear before the recloser opens.

14. The recloser is typically programmed to reclose ½ s after the first fast trip, 2 s after the second fast trip, and 5–10 s after a delayed trip.
Time-delay overcurrent relays with an extremely inverse characteristic coordinate with both reclosers and type T fuses.
A 300 :5 CT ratio is selected to give a secondary current of 250(5/300) = 4.71 A at maximum load.
Relay settings are selected to allow the recloser to operate effectively to clear faults before relay operation.

15. A current tap setting of 9 A is selected for the CO-11 phase relays so that minimum pickup exceeds twice the maximum load.
A time-dial setting of 2 is selected so that the delayed recloser trips at least 0.2 s before the relay.
The ground relay is set with a current tap setting of 4 A and a time-dial setting of 1.