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{{#Wiki_filter:4.8         EMERGENCY POWER SYSTEM PERIODIC TESTS Applies to periodic testing and surveillance requirements             for the emergency power system.
{{#Wiki_filter:4.8 EMERGENCY POWER SYSTEM PERIODIC TESTS
      ~Ob'ective: To verify that the emergency power system       will   respond promptly and properly.
~Ob'ective:
The following tests     and surveillance shall be performed as stated:
Applies to periodic testing and surveillance requirements for the emergency power system.
: 1. Diesel Generator Each   diesel generator shal:1   be demonstrated   OPERABLE:
To verify that the emergency power system will respond promptly and properly.
                        .a. On a staggered test basis (nonconcurrently) at the frequency specified by Table 4.8-1 by:
The following tests and surveillance shall be performed as stated:
: 1. Verifying fuel level in the     day tank and   in the engine-mounted fuel tank.
1.
2'. Verifying fuel level in the fuel storage tank.
Diesel Generator Each diesel generator shal:1 be demonstrated OPERABLE:
: 3. Veri'fying that a fuel transfer pump can be started and transfers fuel from the Diesel       Oi,l Storage Tank to the Day Tank.
.a.
: 4. Verifying that, the diesel generator starts from ambient conditions and accelerated to provide 60+1.2 Hz frequency and 4160+624 vol'ts in <15 seconds.
On a staggered test basis (nonconcurrently) at the frequency specified by Table 4.8-1 by:
: 5. Verifying that the generator is synchronized, loaded to >2500 kw.within 10 minutes and operates for >60 minutes.
1.
: 6. Verifying that the diesel generator cooling system functions   within design limits during the 1-hour full load test required by Specification 4.8.1.a.5.
Verifying fuel level in the day tank and in the engine-mounted fuel tank.
: b. At least once per 92 days by verifying that a sample of diesel fuel from the fuel storage tank is within acceptable   limits when checked for viscosity, water, and sediment.
2'.
: c. At least once per     18 months by:
Verifying fuel level in the fuel storage tank.
: 1. Subjecting the diesel to an inspection in conjunction with its manufacturer's recommendations for this class of standby service.
3.
2-   Verifying the diesel generator's capability to:
Veri'fying that a fuel transfer pump can be started and transfers fuel from the Diesel Oi,l Storage Tank to the Day Tank.
4.8-1                                   8/15/80 8008280  (@OS
4.
Verifying that, the diesel generator starts from ambient conditions and accelerated to provide 60+1.2 Hz frequency and 4160+624 vol'ts in <15 seconds.
5.
Verifying that the generator is synchronized, loaded to >2500 kw.within 10 minutes and operates for >60 minutes.
6.
Verifying that the diesel generator cooling system functions within design limits during the 1-hour full load test required by Specification 4.8.1.a.5.
b.
At least once per 92 days by verifying that a sample of diesel fuel from the fuel storage tank is within acceptable limits when checked for viscosity, water, and sediment.
c.
At least once per 18 months by:
1.
Subjecting the diesel to an inspection in conjunction with its manufacturer's recommendations for this class of standby service.
2-Verifying the diesel generator's capability to:
8008280 (@OS 4.8-1 8/15/80


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(a) Reject   a load of 200 kw without exceeding 4160+624   volts and 60+1.2 Hz.
(a)
(b)   Reject complete load without exceeding 4160+624 volts, and without exceeding overspeed   limits.
Reject a load of 200 kw without exceeding 4160+624 volts and 60+1.2 Hz.
: 3. Verifying that diesel generator trips which are operable during the test mode of diesel operation.
(b)
Reject complete load without exceeding 4160+624 volts, and without exceeding overspeed limits.
3.
Verifying that diesel generator trips which are operable during the test mode of diesel operation.
are inoperable when the diesel is not in the test mode of operation.
are inoperable when the diesel is not in the test mode of operation.
: 4. Alternately, initiating     one of t'e following two diesel startup tests:
4.
(a') Simulate a safety injection signal, and allow the diesel generator to achieve nominal rated voltage and speed.       Then simulate a loss of offsite power, and allow the diesel generator to load and stabil'ize.
Alternately,initiating one of t'e following two diesel startup tests:
(b)   Simulate a loss of offsite power, and allow the diesel generator to load and stabilize. Then simulate a safety injection signal, and allow the diesel generator to sequence safety loads and stabilize.
(a')
: 5. Monitoring the tests specified in 4.8.       l.c.4 to:
Simulate a safety injection signal, and allow the diesel generator to achieve nominal rated voltage and speed.
(a)   Verify proper deenergization and load shedding from the 4160 volt busses.
Then simulate a loss of offsite power, and allow the diesel generator to load and stabil'ize.
(b)   Verify that the diesel generator starts from ambient conditions and accelerates to provide 60+1.2 Hz frequency and 4160+624 volts in <T5 seconds.
(b)
: 6. Verifying that the diesel generator operates for at least 8 hours by performing the fol'lowing tests:
Simulate a loss of offsite power, and allow the diesel generator to load and stabilize.
(a)   L'oad the diesel generator to >2750: kw during the   first 2 .hours of the 8 hour test.
Then simulate a safety injection
  .(b) .Load   the diesel generator to >2500 kw during the last 6 hours of. the 8 hour test.
: signal, and allow the diesel generator to sequence safety loads and stabilize.
(c)   Verify. that voltage, frequen'cy, and cooling system functions are within design limits during the 8 hour full-load test.
5.
: 7. Demonstrating the       ability to sequentially:
Monitoring the tests specified in 4.8. l.c.4 to:
4.8-2                                         8/15/80
(a)
Verify proper deenergization and load shedding from the 4160 volt busses.
(b)
Verify that the diesel generator starts from ambient conditions and accelerates to provide 60+1.2 Hz frequency and 4160+624 volts in <T5 seconds.
6.
Verifying that the diesel generator operates for at least 8 hours by performing the fol'lowing tests:
(a)
L'oad the diesel generator to >2750: kw during the first 2.hours of the 8 hour test.
.(b)
.Load the diesel generator to >2500 kw during the last 6 hours of. the 8 hour test.
(c)
Verify. that voltage, frequen'cy, and cooling system functions are within design limits during the 8 hour full-load test.
7.
Demonstrating the ability to sequentially:
4.8-2 8/15/80


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(a)   Synchronize the di esel generator wi th offsite power while the generator   is supplyi'ng emergency loads; (b)   Transfer the emergency load to offsite power; II (c)   Isolate the diesel generator;   and (d)   Return the diesel generator to standby status.
~ ~
: 8. Verifying that auto - connected loads to     each, diesel. generator do not exceed 2750 kw.
(a)
: d. At least once per 10 years, or after any modification that could affect diesel generator independence, start both diesel generators simultaneously at a time when both reactors are shutdown and verify that both diesel generators provide 60+1'.2   'Hz frequency and 4160+624   volts in <15 seconds.
Synchronize the di esel generator with offsite power while the generator is supplyi'ng emergency loads; (b)
4.8-3                                   8/15/80
Transfer the emergency load to offsite power; II (c)
Isolate the diesel generator; and (d)
Return the diesel generator to standby status.
8.
Verifying that auto - connected loads to each, diesel. generator do not exceed 2750 kw.
d.
At least once per 10 years, or after any modification that could affect diesel generator independence, start both diesel generators simultaneously at a time when both reactors are shutdown and verify that both diesel generators provide 60+1'.2 'Hz frequency and 4160+624 volts in <15 seconds.
4.8-3 8/15/80


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Pael     of   2 TABLE 4.8-1 Diesel Generator Test Schedul'e Number of Unsuccessful Valid Tests in Last 100 Valid Tests                         Test Fre uenc
Pael of 2 TABLE 4.8-1 Diesel Generator Test Schedul'e Number of Unsuccessful Valid Tests in Last 100 Valid Tests Test Fre uenc
                      > 3                             At least once per 30 days
> 3
                      > 6                            At least once per 14 days
> 6
                      > 9                            At least once per 7 days A "VALID TEST" is defined as a start attempt initiated by (1) a bona fide automatic start signal with the diesel-generator in service (2) a manual start signal for the purpose of accomplishing the Technical Specification surveillance, or (3.) a manual start signal for the purpose of demonstrating the diesel-generator unit is operable following repair, modification, or.
> 9 At least once per 30 days At least once per 14 days At least once per 7 days A "VALID TEST" is defined as a start attempt initiated by (1) a bona fide automatic start signal with the diesel-generator in service (2) a manual start signal for the purpose of accomplishing the Technical Specification surveillance, or (3.)
maintenance.       Only valid tests conducted after, the issuance of this Specification shall'e included in the computation of the "last 100 valid tests."     The last 100 valid tests shall 'be detemined on a per individual diesel-generator basis. Entry into this test schedul'e shall be made at the             14 day test frequency.
a manual start signal for the purpose of demonstrating the diesel-generator unit is operable following repair, modification, or.
An "UNSUCCESSFUL VALID TEST"       is defined   as a valid test during which:
maintenance.
(1)   the diesel-generator   does not   start properly, (2)     the diesel-generator does not     come up to nominal speed   and voltage within 15 seconds, or (3)   the diesel-generator is incapable of operating for at least 60 minutes due to a disabl'i ng malfunction directly related to engine or generator performance ('e.g., fuel system malfunction)..
Only valid tests conducted after,the issuance of this Specification shall'e included in the computation of the "last 100 valid tests."
For the purpose of determining the required frequency o'f diesel generator set periodic availability testing, onl'y diesel generator set failures are to be included in the failure total. A diesel generator set failure is defined as:
The last 100 valid tests shall 'be detemined on a per individual diesel-generator basis.
Entry into this test schedul'e shall be made at the 14 day test frequency.
An "UNSUCCESSFUL VALID TEST" is defined as a valid test during which:
(1) the diesel-generator does not start properly, (2) the diesel-generator does not come up to nominal speed and voltage within 15 seconds, or (3) the diesel-generator is incapable of operating for at least 60 minutes due to a disabl'i ng malfunction directly related to engine or generator performance
('e.g., fuel system malfunction)..
For the purpose of determining the required frequency o'f diesel generator set periodic availability testing, onl'y diesel generator set failures are to be included in the failure total.
A diesel generator set failure is defined as:
A valid test during which:
A valid test during which:
(1)   the diesel generator does not start properly., or (2)   the diesel generator set does not come up to required speed, or voltage within the requi,red time interval, or (3)   the diesel generator set is incapable of operating at the required load for the required time interval due to a disabling malfunction directly related to engine or generator performance (e.g- fuel, lubrication or excitation   system malfunction).
(1) the diesel generator does not start properly., or (2) the diesel generator set does not come up to required speed, or voltage within the requi,red time interval, or (3) the diesel generator set is incapable of operating at the required load for the required time interval due to a disabling malfunction directly related to engine or generator performance (e.g-fuel, lubrication or excitation system malfunction).
8/15/80
8/15/80


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Table 4.8-1 Pae2of2 There are many components which can prevent completely successful   diesel generator set testing. These must .be repaired, reported as applicable and retest performed. However, the diesel generator set should not then be routinely subjected to additional, ultimately degrading, rapid st'art testing unless the failure is diesel generator set related.
Table 4.8-1 Pae2of2 There are many components which can prevent completely successful diesel generator set testing.
These must.be repaired, reported as applicable and retest performed.
However, the diesel generator set should not then be routinely subjected to additional, ultimately degrading, rapid st'art testing unless the failure is diesel generator set related.
8/15/80
8/15/80


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Latest revision as of 12:51, 7 January 2025

Proposed Revision to Tech Spec 4.8 & Table 4.8-1,specifying Schedule for Emergency Power Sys Testing & Surveillance
ML17340A122
Person / Time
Site: Turkey Point  NextEra Energy icon.png
Issue date: 08/15/1980
From:
FLORIDA POWER & LIGHT CO.
To:
Shared Package
ML17340A121 List:
References
NUDOCS 8008250603
Download: ML17340A122 (10)
v  d  e


Text

4.8 EMERGENCY POWER SYSTEM PERIODIC TESTS

~Ob'ective:

Applies to periodic testing and surveillance requirements for the emergency power system.

To verify that the emergency power system will respond promptly and properly.

The following tests and surveillance shall be performed as stated:

1.

Diesel Generator Each diesel generator shal:1 be demonstrated OPERABLE:

.a.

On a staggered test basis (nonconcurrently) at the frequency specified by Table 4.8-1 by:

1.

Verifying fuel level in the day tank and in the engine-mounted fuel tank.

2'.

Verifying fuel level in the fuel storage tank.

3.

Veri'fying that a fuel transfer pump can be started and transfers fuel from the Diesel Oi,l Storage Tank to the Day Tank.

4.

Verifying that, the diesel generator starts from ambient conditions and accelerated to provide 60+1.2 Hz frequency and 4160+624 vol'ts in <15 seconds.

5.

Verifying that the generator is synchronized, loaded to >2500 kw.within 10 minutes and operates for >60 minutes.

6.

Verifying that the diesel generator cooling system functions within design limits during the 1-hour full load test required by Specification 4.8.1.a.5.

b.

At least once per 92 days by verifying that a sample of diesel fuel from the fuel storage tank is within acceptable limits when checked for viscosity, water, and sediment.

c.

At least once per 18 months by:

1.

Subjecting the diesel to an inspection in conjunction with its manufacturer's recommendations for this class of standby service.

2-Verifying the diesel generator's capability to:

8008280 (@OS 4.8-1 8/15/80

1 IO II I

l a

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c I.

r,

(a)

Reject a load of 200 kw without exceeding 4160+624 volts and 60+1.2 Hz.

(b)

Reject complete load without exceeding 4160+624 volts, and without exceeding overspeed limits.

3.

Verifying that diesel generator trips which are operable during the test mode of diesel operation.

are inoperable when the diesel is not in the test mode of operation.

4.

Alternately,initiating one of t'e following two diesel startup tests:

(a')

Simulate a safety injection signal, and allow the diesel generator to achieve nominal rated voltage and speed.

Then simulate a loss of offsite power, and allow the diesel generator to load and stabil'ize.

(b)

Simulate a loss of offsite power, and allow the diesel generator to load and stabilize.

Then simulate a safety injection

signal, and allow the diesel generator to sequence safety loads and stabilize.

5.

Monitoring the tests specified in 4.8. l.c.4 to:

(a)

Verify proper deenergization and load shedding from the 4160 volt busses.

(b)

Verify that the diesel generator starts from ambient conditions and accelerates to provide 60+1.2 Hz frequency and 4160+624 volts in <T5 seconds.

6.

Verifying that the diesel generator operates for at least 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> by performing the fol'lowing tests:

(a)

L'oad the diesel generator to >2750: kw during the first 2.hours of the 8 hour9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> test.

.(b)

.Load the diesel generator to >2500 kw during the last 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> of. the 8 hour9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> test.

(c)

Verify. that voltage, frequen'cy, and cooling system functions are within design limits during the 8 hour9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> full-load test.

7.

Demonstrating the ability to sequentially:

4.8-2 8/15/80

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(a)

Synchronize the di esel generator with offsite power while the generator is supplyi'ng emergency loads; (b)

Transfer the emergency load to offsite power; II (c)

Isolate the diesel generator; and (d)

Return the diesel generator to standby status.

8.

Verifying that auto - connected loads to each, diesel. generator do not exceed 2750 kw.

d.

At least once per 10 years, or after any modification that could affect diesel generator independence, start both diesel generators simultaneously at a time when both reactors are shutdown and verify that both diesel generators provide 60+1'.2 'Hz frequency and 4160+624 volts in <15 seconds.

4.8-3 8/15/80

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Pael of 2 TABLE 4.8-1 Diesel Generator Test Schedul'e Number of Unsuccessful Valid Tests in Last 100 Valid Tests Test Fre uenc

> 3

> 6

> 9 At least once per 30 days At least once per 14 days At least once per 7 days A "VALID TEST" is defined as a start attempt initiated by (1) a bona fide automatic start signal with the diesel-generator in service (2) a manual start signal for the purpose of accomplishing the Technical Specification surveillance, or (3.)

a manual start signal for the purpose of demonstrating the diesel-generator unit is operable following repair, modification, or.

maintenance.

Only valid tests conducted after,the issuance of this Specification shall'e included in the computation of the "last 100 valid tests."

The last 100 valid tests shall 'be detemined on a per individual diesel-generator basis.

Entry into this test schedul'e shall be made at the 14 day test frequency.

An "UNSUCCESSFUL VALID TEST" is defined as a valid test during which:

(1) the diesel-generator does not start properly, (2) the diesel-generator does not come up to nominal speed and voltage within 15 seconds, or (3) the diesel-generator is incapable of operating for at least 60 minutes due to a disabl'i ng malfunction directly related to engine or generator performance

('e.g., fuel system malfunction)..

For the purpose of determining the required frequency o'f diesel generator set periodic availability testing, onl'y diesel generator set failures are to be included in the failure total.

A diesel generator set failure is defined as:

A valid test during which:

(1) the diesel generator does not start properly., or (2) the diesel generator set does not come up to required speed, or voltage within the requi,red time interval, or (3) the diesel generator set is incapable of operating at the required load for the required time interval due to a disabling malfunction directly related to engine or generator performance (e.g-fuel, lubrication or excitation system malfunction).

8/15/80

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Table 4.8-1 Pae2of2 There are many components which can prevent completely successful diesel generator set testing.

These must.be repaired, reported as applicable and retest performed.

However, the diesel generator set should not then be routinely subjected to additional, ultimately degrading, rapid st'art testing unless the failure is diesel generator set related.

8/15/80

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