Regulatory Guide 1.16: Difference between revisions

| number = ML003739954

| issue date = 08/31/1975

| document report number = RG-1.16, Rev 4

| page count = 15

{{#Wiki_filter:Reviion 4 U.S. NUCLEAR REGULATORY COMMISSION  

August 1975 REGULATORY GUIDE  

OFFICE OF STANDARDS DEVELOPMENT

REGULATORY GUIDE 1.16 REPORTING OF OPERATING INFORMATION-APPENDIX A  

TECHNICAL SPECIFICATIONS  

Regulations," and is not pre Section 50.36, "Technical Specifications," of 10  

CFR Part 50, "Licensing of Production and Utilization B.

Facilities," requires that each applicant for a license authorizing operation of a nuclear power plant include In Septem b74 tomic Energy Commis in its application proposed technical specifications.

hed Revision 2 of Regula These technical specifications, as issued by the NRC, are tory Guide ion reflected results of astaff incorporated into the facility license and are conditions review f

information needed to permit of the license. Technical specifications are now included assess y

Commission of safety-related activities as two appendices to the license: Appendix A technical  

erating phase of plant life. Significant specifications relate to health and safety, and Appendix ision 2 were:

B technical specifications relate to environmental im- bporting requirements were updated to reflect pact.' Each of these appendices includes a section-l in reports required by Appendix A technical reporting requirements. The reporting program descril ci ications. In general, these changes involved:

in this regulatory guide involves the reportin g

/ul a.

a change in frequency of submittal of ments of Appendix A technical specificatio oY. I

routine operating reports;  

elimination of the first-year operating or modified because of unique plant design tarlr report;  

other factors. The need for a supplemental or ied c.

formalization of reporting of operating program will be determined on a case-by-case basis.

Reporting of informati cerning radioactive d.

f. improved guidance concerning definitions In additi to ng requirements necessary and categories of significance of abnormal occurrences.

Appendices were added to provide ttie desired porting requiren are included in Part 50, as well as format for radiation exposure reports and monthly in other Parts of 'i]tle 10, Chapter I, Code of Federal operating revorts.

A listing of reports other than those required applicable to the various types of NRC licensees, includ- by Appendix A technical specifications was eliminated.

 

ing identification of the proper NRC addressee or ad (See Introduction above.)  

dressees and designation of the number of copies requir ed, is included in Regulatory Guide 10.1, "Compilation

2The Atomic Energy Commission was abolished by the Energy Reorganization Act of 1974, which also created the Nuclear

'A few facilities have a single appendix that contains the Regulatory Commission and gave it the licensing and related combined aspect of Appendices A and B.

 

regulatory functions of the AEC.

Comments should be sent to the Secretary of the Commission. U.S. Nuclear Regulatory Commission. Washington, D.C. 20M.6 Attention: Dockevting anld Regulatory Guides are issued to describe and make available to the public Service Section.

methods acceptable to the NRC staff of implementing specific parns of the Commission's regulations. to delineate techniques used by the staff in evalu- The guides are issued in the following ten broad divisions:

===1. Power Reacters ===

7. Transportation the guides will be acceptable if they provide a basis for the findings requisite to

-.  

Occupational Health the issuance or continuance of a permit or license by the Commission.

ticularly useful in evaluating the need for an early revision.

20M6. Attention: Director. Office of Standards Development.

Comments were invited within 60 days of publica tion of Revision 2 for use in conjunction with early revision of the guide. As a result of comments received on the guide and additional staff review, the staff developed Revision 3. Significant changes in Revision 3 were:  

The annual report section was revised to (1)  

further quantify the term "reduction in power," (2)  

provide further guidance on reporting of occupational radiation exposures, and (3) revise the information to be submitted on fuel performance.

 

3.

The abnormal occurrence report section was revised to (1) provide for prompt notification by telephone and confirmation of such notification by telegraph, mailgram, or facsimile transmission of the types of abnormal occurrences listed under Section 2.a,  

(2) be more specific on the types of abnormal occur rences reported, (3) delete radiological effluent releases from Appendix A technical specification reporting requirements, (4) provide for reporting of the types of abnormal occurrences listed under Section 2.b within 30  

days of occurrence of the event, and (5) make Section  

2.c of Revision 2 of the guide a separate section (Section  

4).

In addition to the applicable reporting requirements of Title 10, Code of Federal Regulations, the following program for reporting of operating information provides an acceptable basis to the NRC staff for meeting the reporting requirements of Appendix A technical specifi cations. Reports submitted in accordance with this guide should be addressed to the Director of the appropriate NRC Regional Office unless otherwise noted.

 

*Unes indicate substantive changes from previous issue.

A summary report of plant startup and power escalation testing should be submitted following (1)  

receipt of an operating license, (2) amendment to the license involving a planned increase in power level, (3)  

installation of fuel that has a different design or has been manufactured by a different fuel supplier, and (4)  

The report should address each of the tests identified in the FSAR and should in general include a description of the measured valaes of the operating conditions or characteiistics obtained during the test program and a comparison of these values with design predictions and specifications. Any corrective actions that were required to obtain satisfactory operation should also be de scribed. Additional specific details may be included in license conditions based on the applicant's commitment to applicable regulatory guides and should be included in this report.

Startup reports should be submitted within (1)  

90 days following completion of the startup test program, (2) 90 days following resumption or com mencement of commercial power operation, or (3) 9 months following initial criticality, whichever is earliest.

If the Startup Report does not cover all three events (i.e., initial criticality, completion of startup test pro gram, and resumption or commencement of commercial power operation), supplementary reports should be submitted at least every three months until all three events have been completed.

b.

Annual Operating Report.3 Routine operating reports covering the opera tion of the unit during the previous calendar year should be submitted prior to March 1 of each year. The initial report should be submitted prior to March 1 of the year following initial criticality.

The primary purpose of annual operating reports is to permit annual evaluation by the NRC staff of operat ing and maintenance experience throughout the nuclear power industry. The annual operating reports made by licensees should provide a comprehensive summary of the operating experierce gained during the year, even though some repetition of previously reported informa tion may be involved. References in the annual operating report to previously submitted reports should be clear.

Each annual operating report should include:  

(1) A narrative summary of operating experi ence during the report period relating to safe operation of the facility, including safety-related maintenance not covered in item l.b.(2Xe) below.

3 A single submittal may be made for a multiple unit station. The submittal should combine those sections that are common to all units at the station.

1.16-2

(2) For each outage or forced reduction in power 4 of over 20 percent of design power level where the reduction extends for more than four hours:

(a) the proximate cause and the system and major component involved (if the outage or forced reduction in power involved equipment malfunction);

(b) a brief discussion of (or reference to reports of) any reportable occurrences pertaining to the outage or power reduction;

. (c) corrective action taken to reduce the probability of recurrence, if appropriate;

(d) operating time lost as a result of the outage or power reduction (for scheduled or forced out ages,s use the generator-off-line hours; for forced re ductions in power, use the approximate duration of op eration at reduced power);

(e) a description of major safety-related corrective maintenance performed during the outage or power reduction, including the system and component involved and identification of the critical path activity dictating the length of the outage or power reduction;

percent of the allowable annual values.

100 mrem/yr and their associated man-rem exposure according to work and job functions, 6 e.g., reactor operations and surveillance, inservice inspection, routine maintenance, special maintenance (describe mainte nance), waste processing, and refueling. The dose assign ments to various duty functions may be estimates based on pocket dosimeter, TLD, or film badge measurements.

Small exposures totalling less than 20 percent of the individual total dose need not be accounted for. In the aggregate, at least 80 percent of the total whole body dose received from external sources should be assigned to specific major work functions. See Appendix A to this guide for a standard format for providing this information.

(4) Indications of failed fuel resulting from irradiated fuel examinations, including eddy current

4The term "forced reduction in power" as used in this guide and as normally defined in the electric power industry means the occurrence of a component failure or other condition that requires that the load on the unit be reduced for corrective action immediately or up to and including the very next weekend.

Note that routine preventive maintenance, surveillance, and calibration activities requiring power reductions are not covered by this section.

SThe term "forced outage" as used in this guide and as normally defined in the electric power industry means the occurrence of a component failure or other condition that requires that the unit be removed from service for corrective action immediately or up to and including the very next weekend.

 

 

tests, ultrasonic tests, or visual examinations completed during the report period.

Routine reports of operating statistics and shutdown experience should be submitted on a monthly basis. The report formats set forth in Appendices B, C,  

and D to this guide should be completed in accordance with the instructions provided. The completed forms should be submitted by the tenth of the month following the calendar month covered by the report to the Director, Office of Management Information and Program Control, U.S. Nuclear Regulatory Commission, Waslitngton, D.C. 20555, with a copy to the appropriate NRC Regional Office.

Reportable Occurrences Guidance concerning reportable occurrences that should be reported in different time frames is provided below. Supplemental reports may be required to fully describe final resolution of the occurrence. In cases of corrected or supplemental reports, a licensee event report should be completed and reference should be made to the original report date.

The types of events listed below should be reported as expeditiously as possible, but within 24 hours by telephone and confirmed by telegraph, mail gram, or facsimile transmission to the Director of the appropriate NRC Regional Office, or his designee, no later than the first working day following the event, with a written followup report within two weeks. A copy of the confirmation and the written followup report should also be sent to the Director, Office of Managementj Information and Program Control, USNRC. The written followup report should include, as a minimum, a completed copy of the licensee event report form (see Appendix E to this guide) used for entering data into the NRC's computer-based file of information concerning licensee events. (Instructions for completing these licensee event report forms7 are issued individually to each licensee.) Information provided on the licensee event report form should be supplemented, as needed, by additional narrative material to provide complete explanation of the circumstances surrounding the event.

(1) Failure of the reactor protection system or other systems subject to limiting safety-system settings to initiate the required protective function by the time a monitored parameter reaches the setpoint specified as the limiting safety-system setting in the technical specifi

7Instruction Manual, Licensee Event Report File, Office of Management Information and Program Control, U.S. Nuclear Remglatory Commission, Washington, D.C. 20555.

cations or failure to complete the required protective function. The following are examples:8 (a)  

(b) Inability to trip and insert sufficient control rods to achieve the technical specification shut down margin.

(c) Failure of the reactor protective system to complete the required protective action once initi ated.

Note: Instrument drift discovered as a result of testing need not be reported under this item but may be report able under items 2.a(5),2.a(6), or 2.b(l) below.

(2) Operation of the unit or affected systems when any parameter or operation subject to a limiting condition for operation is less conservative than the least conservative aspect of the limiting condition for opera tion established in the technical specifications. The fol lowing are examples:  

(a) Shutdown not begun within the speci fied time when unidentified reactor coolant leakage ex ceeds the technical specifications limit.

(b) Failure of a system other than the systems subject to limiting safety-system settings (see  

2.a(l) above) to actuate, or actuation of such a system at a monitored parameter value less conservative than that listed in the technical specifications for the system.

(c) Operation with unacceptable contain ment leak rate type B or C test results.

(3) Abnormal degradation discovered in fuel cladding, reactor coolant pressure boundary, or primary containment. The following are examples:  

(a) Through-wall failure of piping or com ponents of the reactor coolant pressure boundary.

(b) Steam generator tube thinning in excess of acceptance limits in Regulatory Guide 1.83,  

"Inservice Inspection of Pressurized Water Reactor Steam Generator Tubes."  

Note: Leakage of valve packing or gaskets within the limits for identified leakage set forth in technical specifi cations need not be reported under this item.

8Examples are intended to be illustrative only.

(4) Reactivity anomalies involving disagreement with the predicted value of reactivity balance under steady-state conditions during power operation greater than or equal to 1% Ak/k; a calculated reactivity balance indicating a shutdown margin less conservative than specified in the technical specifications; short-term react ivity increases that correspond to a reactor period of less than 5 seconds or, if subcritical, an unplanned reactivity insertion of more than 0.5% Ak/k; or occurrence of any unplanned criticality.

used to cope with accidents analyzed in the SAR. The following are examples:  

(c) HPCI failure to start or failure to con tinue running once initiated.

(6) Personnel error or procedural inadequacy which prevents or could prevent, by itself, the fulfill ment of the functional requirements of systems required to cope with accidents analyzed in the SAR. The follow ing are examples:  

(b) Improper procedure leading to in correct valve lineup which resulted in closure of one manual valve in each of two redundant safety injection subsystems and would have prevented injection on demand.

(7) Conditions arising from natural or man made events that, as a direct result of the event, require plant shutdown, operation of safety systems, or other protective measures required by technical-specifications.

The following are examples:  

(8) Errors discovered in the transient or accident analyses or in the methods used for such analyses as described in the safety analysis report or in the bases for the technical specifications that have or could have permitted reactor operation in a manner less conservative than assumed in the analyses. The following are examples:  

 

(b) Reactivity insertion delay times by reactor protection system longer than those used in the technical specification bases.

(9) Performance of structures, systems, or com ponents that requires remedial action or corrective measures to prevent operation in a manner less conserva tive than that assumed in the accident analyses in the safety analysis report or technical specifications bases; or discovery during plant life of conditions not specifically considered in the safety analysis report or technical spe cifications that require remedial action or corrective measures to prevent the existence or development of an.

 

(a) Axial flux ratios less conservative than those for which correlations with overpower AT were based on core bumup projections.

(b) Failure of a safety injection pump to deliver the flow rates assumed in the FSAR.

(c) Degradation of hydraulic shock sup pressors to the extent that they could not perform their required safety function.

(d) Failure of magnetic trip mechanisms on a safety-related circuit breaker to provide trip on instantaneous overcurrent as indicated on the manufac turer's time-current characteristic curve.

(e) Failure of a safety/relief valve to close after pressure has reduced below the required reseat valve.

(f) Thermal shock to the reactor coolant system resulting from inadvertent safety injection actua tion.

b. Thirty-Day Written Reports.

The reportable occurrences discussed below should be the subject of written reports to the Director of the appropriate NRC Regional Office within 30 days of occurrence of the event. A copy of the written report I should also be sent to the Director, Office of Manage ment Information and Program Control. The written report should include, as a minimum, a completed copy of the licensee event report form (see Appendix E to this guide) used for entering data into the NRC's computer-based file of information concerning licensee events. (Instructions for completing these licensee event report forms7 are issued individually to each licensee.)

Information provided on the licensee event report form should be supplemented, as needed, by additional narra tive material to provide complete explanation of the cir cumstances surrounding the event.

(1) Reactor protection system or engineered safety feature instrument settings which are found to be less conservative than those established by the technical specifications but which do not prevent the fulfillment of the functional requirements of affected systems. The following are examples:

(a) One of the four scram dump volume level switches failed to operate during surveillance test.

(b) One of four reactor low-pressure switches operated at 885 psig instead of LSSS value of  

(c) During test, one out of four under voltage relays failed to perform its function of tripping a reactor trip breaker.

"(2) Conditions leading to operation in a de graded mode permitted by a limiting condition for operation, or plant shutdown required by a limiting condition for operation. The following are examples:  

(a) Core spray pump breaker tripped after  

20 minutes during test. Trip unit was found to be defective, declared inoperable, and repaired.

Redundant pump operability was confirmed.

Note: Routine surveillance testing, instrument calibra tion, or preventive maintenance which require system configurations as described in items 2.b(l) and 2.b(2)  

need not be reported except where test results them selves reveal a degraded mode as described above.

(3) Observed inadequacies in the implementa tion of administrative or procedural controls which threaten to cause reduction of degree of redundancy provided in reactor protection systems or engineered safety feature systems. The following are examples:  

Trip of switch would not occur at low pressure.

 

Improper return to operation following maintenance was the cause.

(4) Abnormal degradation of systems other than those specified'in item 2.a(3) above designed to contain radioactive material resulting from the fission process. For example, a through-wall leak in a liquid waste storage tank.

Note: Sealed sources or calibration sources are not included under this item. Leakage of valve packing or gaskets within the limits for identified leakage set forth in technical specifications need not be reported under this item.

 

Unique Reporting Requirements The above reporting program will in general satisfy the reporting requirements necessary for compliance with Appendix A technical specifications. This program may need to be supplemented or modified because of unique plant design features or other factors. The need for a supplemental or modified program will be deter mined on a case-by-case basis and so designated in individual operating licenses.

Events of Potential Public Interest The types of events listed below are frequently of high public interest. While some of the events may not be reportable by regulation or defined in other parts of this guide, the Director of the appropriate NRC Regional Office, or his designee, should be informed of such events by telephone as soon as possible after the event has been discovered.

An event that causes damage to property or equipment when such damage affects the power pro duction capability of the facility.

Natural or man-made conditions that may require action which need not be reported under item  

Discovery of significant radiological event off site occurring during transport of material for which the licensee was either shipper or consignee.

Unusual releases of radioactive material from the site boundary not reportable under other require ments.

Failure of or damage to safety-related equip ment which need not be reported under item 2.a above, if the time for repair is likely to exceed the time allowed by the technical specifications.

The purpose of this section is to provide informa tion to applicants and licensees regarding the NRC staff's plans for utilizing this regulatory guide.

Except in those cases in which the applicant proposes an acceptable alternative method, the reporting program described herein is being used by the NRC staff in order to standardize the reporting requirements section of Appendix A technical specifications of all operating licenses.

For licensees holding operating licenses without Appendix B environmental technical specifications, it may be necessary to include those reports identified in Regulatory Guide 1.21, "Measuring, Evaluating, and Reporting Radioactivity in Solid Wastes and Releases of Radioactive Materials in Liquid and Gaseous Effluents from Light-Water-Cooled Nuclear Power Plants," and Regulatory Guide 4.1, "Programs for Monitoring Radio activity in the Environs of Nuclear Power Plants," in the technical specifications under the unique reporting requirements section of the technical specifications.

APPENDIX A  

I"1 _* _ ..1 "IP^+^I

APPENDIX B

UNIT  

DATE  

COMPLETED BY  

DAY AVERAGE DAILY POWER LEVEL  

(MWe-Net)  

1  

2  

4  

5  

7  

8  

10  

11  

12  

13  

14  

15  

16 DAY AVERAGE DAILY POWER LEVEL

17  

18  

20  

21  

22  

23  

24  

25  

26  

27  

28  

29  

30  

31 INSTRUCTIONS  

On this form, list the average daily unit power level in MWe-Net for each day in the reporting month. Compute to the nearest whole megawatt.

These figures will be used to plot a graph for each reporting month. Note that when maximum dependable capacity is used for the net electrical rating of the unit, there may be occasions when the daily average power level exceeds the

100% line (or the restricted power level line). In such cases, the average daily unit power output sheet should be footnoted to explain the apparent anomaly.

1.16-8

DOCKET NO.

UNIT  

DATE  

COMPLETED BY  

MAX. DEPEND. CAPACITY (MWO-Net):

8. UNIT RESERVE SHUTDOWN HOURS.

12. REACTOR SERVICE FACTOR.

........................... 

13. REACTOR AVAILABILITY FACTOR........................

15. UNIT AVAILABILITY FACTOR ....  

16. UNIT CAPACITY FACTOR (Using MDC).

19. SHUTDOWNS SCHEDULED OVER NEXT 6 MONTHS (TYPE, DATE, AND DURATION OF EACH):

20.

21.

1.16-9 I

This report should be furnished each month by licensees. The name and telephone number of the preparer should be provided in the designated spaces.

The instructions below are provided to assist licensees in reporting the data consistently. The number of the instruction corresponds to the item number of the report form.

1. Reporting Period. Designate the month for which the data are presented. The Gross Hours are normally from 0001 of the first day through 2400 of the last day of the calendar month, with appropriate adjustments for any month in which a change from standard to daylight-saving time (or vice versa) is made. The only two shorter reporting periods are (1) the one in which the initial electrical generation occurs and (2) the one in which the reactor is shut down for decommissioning. In the former, the gross hours, expressed to the nearest tenth of an hour, are those from the time of initial power generation to 2400 of the last day of the calendar month. In the latter case, the gross hours, expressed to the nearest tenth of an hour, are those from 0001 of the calendar month to the specific time of final shutdown.

2. The Authorized Power Level is the maximum thermal power, expressed in megawatts, currently authorized by the Nuclear Regulatory Commission.

The net Maximum Dependable Capacity is the gross electrical output as measured at the output terminals of the turbine-generator during the most restrictive seasonal conditions less the normal station service loads.

The net Design Electrical Rating is the nominal net electrical output of the unit specified by the utility and used for the purpose of plant design.

3. Note that this item is applicable only if restric tions on the power level are in effect. Short-term (less than one month) limitations on power level need not be presented in this item, since one of the important purposes of the item is to determine if, and at what power level, a restricted power level line should be drawn on the chart of average daily reactor power.

Since this information is used to develop figures on capacity lost due to restrictions and because most users of the "Operating Plant Status Report" are primarily interested in energy actually fed to the distribution system, it is requested that this figure be expressed in MWe-Net in spite of the fact that the figure must be derived from MWt or percent power.

4. Reasons for Restriction (if Any). If item 3 is used, item 4 explains why. Brief narrative is acceptable.

Cite references as appropriate. Indicate whether restric tions are self-imposed or are regulatory requirements. Be as specific as possible within space limitations. Plants in startup and power ascension test phase should be identified here.

5. Show the total number of hours the reactor was critical during the gross hours of the reporting period.

6. Reactor Reserve Shutdown Hours. The total number of hours during the gross hours of reporting period that the reactor was removed from service for administrative or other reasons but was available for operation.

7. Hours Generator On Line. Also called Service Hours. The total number of hours during the gross hours of the reporting period that the unit operated with breakers closed to the station bus. These hours, plus those listed in Appendix D for the generator outage hours, should equal the gross hours in the reporting period.

8. Unit Reserve Shutdown Hours. The total number of hours during the gross hours of the reporting period that the unit was removed from service for economic or similar reasons but was available for operation.

9. Gross Thermal Energy Generated. The thermal output of the nuclear steam supply system during the gross hours of the reporting period, expressed in megawatt hours.

10. Gross Electrical Energy Generated. The electrical output of the unit measured at the output terminals of the turbine-generator during the gross hours of the reporting period, expressed in megawatt hours.

11. Net Electrical Energy Generated. The gross elec trical output of the unit measured at the output terminals of the turbine-generator minus the normal station service loads during the gross hours of the reporting period, expressed in megawatt hours. Negative quantities should not be used. If there is no net positive value for the period, enter zero.

12-18. For units still in the startup and power ascension test phase, items 12-18 should not be com puted. Instead, enter N/A in the current month column.

These seven factors should be computed starting at the time the unit is declared to be in commercial operation.

The cumulative figures in the second and third columns should be based on commercial operation as a starting date. However, units already in commercial operation, for which cumulative figures have been based on different starting dates, need not recalculate the cumula tive figures.

1.16-11

12. Reactor Service Factor. Compute by dividing hours reactor was critical (item 5) by the gross hours in the reporting period (item 1). Express as percent to the nearest tenth of a percent. During months when the unit is shut down for the entire period because of nonreactor problems, enter "Not Applicable" and explain in the Summary of Appendix D. Do not include reserve shutdown hours in the calculation.

13. Reactor Availability Factor. Compute by divid ing the reactor available hours (items 5 plus 6) by the gross hours in the reporting period (item 1). Express as percent to the nearest tenth of a percent.

14. Unit Service Factor. Compute by dividing hours the generator was on line (item 7) by the gross hours in the reporting period (item 1). Express as percent to the nearest tenth of a percent. Do not include reserve shutdown hours in the calculation.

15. Unit Availability Factor. Compute by dividing the unit available hours (item 7 plus item 8) by the gross hours in the reporting period (item 1). Express as percent to the nearest tenth of a percent.

16. Unit Capacity Factor (Using MDC). Compute by dividing net electrical energy generated (item 11) by the product of maximum dependable capacity (item 2)

Express as percent to the nearest tenth of a percent.

17. Unit Capacity Factor (Using Design Electrical Rating). Compute as in item 16, substituting design electrical rating for maximum dependable capacity.

18. Unit Forced Outage Rate. Compute by dividing the total forced outage hours (from the table in Appendix D) by the sum of hours generator on line (item 7) plus total forced outage hours (from the table in Appendix D). Express as percent to the nearest tenth of a percent.

19. Shutdowns Scheduled to Begin in Next 6 Months. Include type (refueling, maintenance, other),

proposed date of start of shutdown, and proposed length of shutdown. It is recognized that shutdowns may be scheduled between reports and that this item may not be all inclusive. Be as accurate as possible as of the date the report is prepared.

20. Self-explanatory.

21. Self-explanatory. Note, however, that this infor mation is requested for all units in startup and power ascension test status and is not required for units already in commercial operation.

Test Status is defined as that period following initial criticality during which the unit is tested at successively higher outputs, culminating with operation at full power for a sustained period and completion of warranty runs.

Following this phase, the unit is generally considered by the utility to be available for commercial operation.

Date of Commercial Operation is defined as the date that the unit was declared by the utility owner to be available for the regular production of electricity, usually related to the satisfactory completion of qualifi cation tests as specified in the purchase contract and to the accounting policies and practices of the utility.

1.16-12

APPENDIX D

UNIT NAME  

DATE  

COMPLETED BY  

REPORT MONTH  

F: FORCED  

DATE  

S: SCHEDULED  

REDUCING POWER (2)-

(1)  

REASON  

A: EQUIPMENT FAILURE (EXPLAIN)  

B: MAINT. OR TEST  

C: REFUELING  

D: REGULATORY RESTRICTION  

E: OPERATOR.TRAINING AND  

LICENSE EXAMINATION  

F: ADMINISTRATIVE  

G: OPERATIONAL ERROR (EXPLAIN)  

H: OTHER (EXPLAIN)  

(2)  

METHOD  

1: MANUAL  

2: MANUAL SCRAM  

3: AUTOMATIC SCRAM

UNIT SHUTDOWNS AND POWER REDUCTIONS

This report should describe all plant shutdowns dur ing the report period. In addition, it should be the source of explanation of significant dips in average power levels (Appendix B). Each significant reduction in power level (greater than 20% reduction in average daily power level for the preceding 24 hours) should be noted, even though the unit may not have been shut down completely)

For such reductions in powe+/- lew', the duration should be listed as zero, the method of reduc tion should be listed as 4 (Other), and the Comments column should explain. The Comments column should be used to provide any needed explanation not ade quately described by the coded columns. Please do not add to the list of codes or legends now furnished. Simi larly, do not add additional columns.

Number. This column should indicate the sequential number assigned to each shutdown or significant reduc tion in power for that calendar year. When a shutdown or significant power reduction begins in one report period and ends in another, an entry should be made for both report periods to be sure all shutdowns or signifi cant power reductions are reported. Until a unit has achieved its first power generation, no number should be assigned to each entry.

Date. This column should indicate the date of the start of each shutdown or significant power reduction. Report as year, month, and day. August 14, 1975 would be reported as 750814. When a shutdown or significant power reduction begins in one report period and ends in another, an entry should be made for both report periods to be sure all shutdowns or significant power reductions are reported.

'Note that this differs from the Edison Electric Institute (EEl)  

definitions of "Forced Partial Outage" and "Scheduled Partial Outage." For these terms, EEl uses a change of 30 MW as the break point. For larger power reactors, 30 MW is too small a change to warrant explanation.

required to be initiated by no later than the weekend following discovery of an off-normal condition. It is recognized that some judgment is required in categori zing shutdowns in this way. In general, a forced shut down is one that would not have been completed in the absence of the condition for which corrective action was taken.

Reason. Categorize by letter designation in accordance with the table appearing on the report form. If category H must be used, supply brief comments.

Method of Shutting Down the Reactor or Reducing Power. Categorize by number designation in accordance with the table appearing on the report for

====m. If category ====

4 must be used, supply brief comments.

Corrective Actions/Comments. Use this column to am plify or explain the reasons for each shutdown or signifi cant power reduction, with the corrective action taken, if appropriate. The Comments column entries should provide identification of each shutdown or significant power reduction that occurs as a direct result of a re portable occurrence on which a report has been or will be submitted. (This information may not be immediately evident for all such shutdowns, of course, since further investigation may be required to ascertain whether or not a reportable occurrence was involved.) When a direct correlation can be made between a given shutdown and a specific reportable occurrence report, the Comments column entry should state the reportable occurrence report number and date.

Summary. Write a brief summary description (3 to 4 sentences) of the highlights of operation of the unit for the reporting month. Include any comments required by item 12 of Appendix C.

1.16-14

0 1C°N'4J__--J