ML20108B580

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VEPCO Proposed Program,Mechanical Cleaning & Valve Repair Svc Water Sys,North Anna Power Station,Feb 1985. W/One Oversize Drawing.Aperture Card Available in PDR
ML20108B580
Person / Time
Site: North Anna  Dominion icon.png
Issue date: 02/28/1985
From:
VIRGINIA POWER (VIRGINIA ELECTRIC & POWER CO.)
To:
Shared Package
ML20108B575 List:
References
PROC-850228, NUDOCS 8503070388
Download: ML20108B580 (120)


Text

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VEPCO'S PROPOSED PROGRAM MECHANICAL CLEANING & VALVE REPAIR SERVICE WATER SYSTEM i

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NORTH ANNA POWER STATION i

i FEBRUARY 1985

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TABLE OF CONTENTS -

Page 1.0 Description of the Service Water System & History 1

1.1 Discovery 2

1.2 Corrosion History 2

1.2.1 Cause of Corrosion 2

1.2.2 Attempts to Control Corrosion 3

1.2.2.1 1977 Program 3

1.2.2.2 1981 Program 4

1.2.2.3 1984 Program 4

1.3 Recent Actions Taken 4

1.3.1 Piping Replaced 5

l 1.3.2 Pipe Wall Testing 5

1.3.3 Chemical Treatment 6

2.0 Scope of the Project 7

2.1 Safety 7

2.1.1 UFSAR Design Basis 8

2.1.2 Alternatives 8

2.1.3 Technical Specifications 8

2.1.4 Historical Reliability 11 2.1.5 Header Isolations 12

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2.1.6 Short Duration Isolations - Branch Headers 12 l

2.1.7 Total Isolation Time for Plan 4 13 2.1.8 Safety Review & Design Control 14 2.1.9 Status Board 14 2.1.10 Contingency Plans 15 j

2.2 Station Operation 19 2.3 Work Breakdown 19 2.3.1 Mechanical Cleaning 19 2.3.2 Valve Repair 21 3.0 Overall Project Approach 22 3.1 Option Chosen 22 3.1.1 Backup Plan 22 3.1.2 Basis for Choice 23

l 3.2 Project Scope 23 3.2.1 Identification of Pipe to be Cleaned 23 3.2.2 Engineering a Related Work 25 3.2.3 Definition of Work Packages 26 3.2.3.1 Grouping of Work Packages 26 3.2.3.2 Contents of Work Packages 30 3.3 Project Planning a Monitoring 33 3.3.1 Project Schedule 33 3.3.2 Detailed Work Package Schedule 33 3.3.3 Consolidated Flow Diagram 34 3.3.4 Management Reports 35 3.4 Interfaces with Other Activities 35 3.5 Generic Procedure 36 3.6 Project Team 39 Figure 1 - Service Water Flow Diagram Figure 2 - Detail Work Package Schedule Appendix A - Description of Work Packages Appendix B - Options Appendix C - Personnel Requirements, Responsibilities a Commitments V

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VEPCO PROPOSED PROGRAM MECHANICAL CLEANING AND VALVE REPAIR SERVICE WATER SYSTEM NORTH ANNA POWER STATION The purpose of this document is to provide background information with respect to the North Anna Power Station service water system corrosion problem, present the alternatives to resolve the problem and to present a program description to implement mechanical cleaning of service water system piping. Vepco intends to obtain the NRC's concurrence with the mechanical cleaning program so that work can begin and further corro-sion of the service water piping can be arrested.

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1.0 DESCRIPTION

OF THE SERVICE WATER SYSTEM & HISTORY 1

The service water system is described in detail in the North Anna UFSAR (Section 9.2).

Certain highlights are presented here as a summary of the system.

The system provides cooling water to various components and systems within the power station.

These include containment recirculation spray system, component cooling system, charging pump coolers, and the control room air condition-ers. In addition, service water is provided as a backup supply to the steam generator feed system, the fuel pit coolers, penetration cooling coils and the recirculation air cooling coils.

The service water system consists of two 100% capacity loops with four pumps providing supply to either loop.

The system rejects the heat -

energy through the 9 acre service water reservoir and spray array.

e 1.1 Discovery In the fall of 1976, prior to the start up of Unit One, signi-ficant corrosion of the service water system was evident.

Studies were performed to determine the corrosion mechanism and several actions taken as noted below.

1.2 Corrosion History f

1.2.1 Cause of Corrosion Studies have shown that two mechanisms are responsi-ble for the corrosion.

They are microbiological attack and the very aggressive water from Lake Anna which is the source of make up water for the service water system.

i The biological attack is from three types of bacteria.

Two of these types are iron fixing bacteria and the third type is a sulfate reducing bacteria.

These bacteria form localized colonies which develop protec-tive nodules.

The bacteria are responsible for the pitting found in the piping which has resulted in pinhole leaks in some of the small bore piping in areas of relatively low flow. I

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The water is characterized as aggressive due to the lack of dissolved metals, low hardness, low alkalinity and neutral to slightly acidic pH.

This means that the water is very anxious (aggressive) to dissolve anything it contacts, including iron pipe.

1.2.2 Attempts to Control Corrosion As mentioned above, the corrosion problem has been known for a long time.

Two attempts were made at controlling the corrosion by chemical means.

1.2.2.1 1977 Program By letter dated April 29, 1977, Vepco in-

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formed the NRC of plans to chemically treat the service water system to clean the system of fouling and corrosion products and to prevent future fouling and corrosion.

However, this program was discontinued due to the effect the chemicals had on the ser-vice water reservoir liner.

The chemicals that were designed to disperse the corrosion products were picking up the clay liner as well and depositing the clay throughout the service water system and components.

This resulted in restricted flow and reduced heat transfer.

Once the chemical treatment was fh()

discontinued, the system was volume flushed,

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to remove the clay which restored flow rates and heat transfer.

However, the treatment for the biological fouling was continued but was not as effective as hoped due to the protective nodules around the colonies of bacteria.

1.2.2.2 1981 Program An independent consultant developed another chemical treatment program in 1981.

This program was also found ineffective and abandoned.

C 1.2.2.3 1984 Program A third program was implemented in 1984 which has proved effective on base metal.

Test coupons have shown that corrosion has been reduced to less than 1 mil per year.

The need for mechanical cleaning is based on the results of this program.

Additional discussion of this program is found in sec-tion 1.3.3 of this report.

1.3 -Recent Actions Taken In response to the corrosion, certain actions have been taken.

They include the replacing of pipe sections with pinhole leaks and renewed chemical treatment of the system. i

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1.3.1 Piping Replaced Two sections of pipe have been replaced or placed on component cooling. Piping to the charging pump lube oil coolers and the service and instrument air com-pressors was replaced with stainless steel pipe.

The 3 inch headers supplying the containment hot pipe penetration coolers were mechanically and chemically cleaned to remove corrosion product.

Many of t,he l

1/2 inch branch lines supplying individual penetration cooleru were replaced due to flow blockage that could not be removed by cleaning.

These lines were then j

placed on the component cooling water system which uses chromated water to insure that corrosion would not continue. Service water is still used as a backup supply for these subsystems.

1.3.2 Pipe Wall Testing The remaining pipe has been examined to determine if there is adequate wall thickness to meet the UFSAR commitments and analysis.

The UFSAR is based on minimum wall thickness of 87.5% of nominal wall thick-ness which takes into account standard manufacturing tolerances.

It has been shown as a result of this testing that there is adequate strength to withstand both operational and design basis loads.

As pointed out earlier, the failure of the piping from corrosion.

t has been due to pitting which results in pinhole leaks and not a general reduction of pipe strength.

A surveillance program has been developed to period-ically monitor pipe wall thickness and condition.

1.3.3 Chemical Treatment In order to preserve the integrity of the remaining service water system piping, and thereby avert or postpone any requirement for further pipe replace-ments, a corrosion inhibitor chemical treatment pro-gram has been initiated.

Corrosion inhibitor chemi-cals were added to the reservoir on July 13, 1984.

The corrosion inhibitor is a molybdate-based chemical j\\V that has been effective in significantly reducing the corrosiveness of the service water.

The Corrosion Inhibitor Chemical Treatment Program was developed for this particular application by Calgon Corporation and consists of the following chemicals:

a.

Calgon TRC-256 Molybdate Solution Corrosion Inhibitor

'a.

Calgon CL-36 Surfactant Deposit Inhibitor c.

Calgon H-130 Microblocide These chemicals are used in addition to an existing 7

hypochlorite treatment,

which is used to control f3 V

biological growth. i

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Carbon steel test coupons cxposed to the treated

- service water for periods of up to 90 days have consistently experienced corrosion rates of less than 1 mil per year.

However,_the treated service water canno: come in contact with the internal surface of a majority of the service water system piping due to the layer of corrosion product, silt and slime that has developed over the years of plant operation.

In order for the corrosion inhibitor to be effective on service water piping, the internal surf 8Ms must be cleaned to base metal.

Until the piping is thoroughly cleaned, corro-V.

sion will continue to occur beneath the corrosion build f

up in spite of the presence of corrosion inhibiting chemicals in the service water.

4 2.0 SCOPE OF THE PROJECT f

The scope of the project defines how the cleaning will be done.

This scope includes safety considerations, continued operation of the two units, and requirements to properly and effectively per-form the task.

2.1 Safety i

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2.1.1 UFSAR Design Basis The safety function of the service water system is described and analyzed in the UFSAR (9.2.1).

The system is designed to provide redundant service water such that no single failure of the system would compromise the safety of the two units.

2.1.2 Alternatives Consideration was given to installing a third service water header. A permanent third header was investi-gated, and it was determined that there was not adequate room to locate a third 36" header and asso-ciated supports and missile protection within the station, and that the time required for installing the header was too long to allow immediate cleaning of the service water system. The use of a temporary header was also explored but was determined to be impracti-cal and would not necessarily reduce the number of required isolations of permanent headers due to the need to tie into the existing equipment.

2.1.3 Technical Specifications The system is required to operate in all modes of plant operation and uader all accident conditions.

Technical Specification 3/4.7.4 governs the cperation, of the system during operating Modes 1 through 4.

Although the Technical Specifications do not rejuire

p two loops of the service water system to be operating

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in Modes 5 and 6, at least one loop must be operating in these modes to remove heat from the Residual fleat Reinoval system and fuel pool.

Technical Specifications also govern the operation of several safety related components that are supplied by the service water system.

The intent of the Technical Specifications, as related to this project, is to minimize the amount of time a safety related system is operated without redundancy of flow paths.

The Technical Specifications make provisions for system maintenance and modifications during operation 3

by allowing one of the two redundant service water

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loops to be taken out of service for a period of 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />.

The isolated loop must be placed back into service within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or both units must ' begin shutting down.

Similar provisions are made in the Technical Specifications governing the operation of other safety related components and systems.

The Technical Specifications do not put any ' limits on the number of times a particular system or component can be removed from ser~ ice.

i In a separate licensing action, Vepco is preparing a i.

license amendment to change the Technical Specifica-tions to extend the action statement time limit for the s,

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However, due to the time required to get a license amendment processed, it was determined that the cleaning of the service water piping should proceed without delay.

The license amendment to change the Technical Specification will proceed and will be utilized in the cleaning if made available before the cleaning is completed.

The increase in the action statement time limit will reduce the number of times that the Technical Specification action statement will be entered into.

k No exceptions or amendments to the Technical h

Specifications are being requested at this time.

This submittal is provided because of the number of times the action statement will be entered and the time period between isolations.

Maintenance and repairs to the service water system and other safety related systems under Technical Specification action statement time constraints are performed as required in order to maintain safe and economical operation of the plant. An Action Statement Status Log (1-LOG-11) is maintained in accordance with Station Administrative Procedure 19.1 which documents each time an action statement is entered.

The operational and safety consequences for each instance

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are thoroughly reviewed prior to voluntarily entering V

an action statement.

The work described in this report has been carefully reviewed to insure that it can be accomplished safely with one or both North Anna units in operation.

To minimize the number of times that Technical Specification action statements are involved, much of the work will be accomplished during planned single unit outages.

Some of the work can be accomplished during one or two unit operation without impacting the Technical Specifications.

Isolation of operating service water system loops or components will be dor.e only when necessary and will be controlled using existing station Administrative Procedures.

The duration of each period of isolation will be kept to a minimum.

Discussion of the Technical Specification requirements for each work package is included with each package l

description in Appendix A.

" Description of Work Packages".

l 2.1.4 Historical Reliability i

A review of the Action Statement Log for prior years 1

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to 1978 shows that most entries into the action l

statement can be categorized as a periodic test failure 6

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or for the replacement of pipe due to pinhole leaks.

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Therefore, based on past experience, we find the b

system to be very reliable.

2.1.5 Header Isolations Most header isolations will be for the complete duration of the action statement time limit.

The number of isolations varies with each of the plans described in Appendix B.

The plan proposed by Vepco (i.e., Plan 4 in Appendix B) would result in six main header isolations and 16 branch header isolations.

Ten of the 1

16 branch header isolations are of short duration as described below.

The remaining isolations will be for

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most of the action statement time limit duration.

\\L 2.1.6 Short Duration Isolations - Branch Headers One package (DCP 84-86) controls ten of the 16 branch header isolations.

This Isackage cleans the piping immediately adjacent to the component cooling heat exchangers.

These branch line isolations are expected to be about five hours long in order to allow the removal of the valves connecting the heat exchangers with one header and the placement of fla.iges over the branch header opening.

The approach here is to isolate one branch supply and return header; remove the valves connected to the m

heat exchangers to be cleaned; place a flange over the I

header; and restore the header back to service.

After 4

approximately 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> with both headers in service, the other branch header will be isolated, valves i

removed, flanges installed and branch header then j

restored back to service.

A heat exchanger can then be isolated and cleaned without being in a Technical Specification action statement.

Once the cleaning is i

complete, the reverse operation will be performed to return the repaired valves in place.

This procedure will be followed with each of the four component cooling heat exchangers.

Total time for branch line isolation (i.e., entry into the Technical Specification action statement) is about 50 hours5.787037e-4 days <br />0.0139 hours <br />8.267196e-5 weeks <br />1.9025e-5 months <br />.

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2.1.7 Total Isolation Time for Plan 4 A total of 18 separate header or branch line isolations are anticipated for this plan, ten of which should last less than five hours.

The total time of isolation is estimated to be approximately 1,010 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br />.

These isolations will be spread over a time period of approximately 7,200 hours0.00231 days <br />0.0556 hours <br />3.306878e-4 weeks <br />7.61e-5 months <br /> (10 months).

Main or branch headers will be isolated approximately 14 percent of the total time during completion of the work.

Each period of isolation required to completc

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\\j pipe cleaning and valve repairs will be separated by a t

minimum separation of 14 days of normal operation.

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'V Ilowever, half of the ten 5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> long isolations required by work package DCP 84-86 will be separated by a period of approximately 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br />.

These periods of isolation will affect only the component cooling heat exchangers.

2.1.8 Safety Review & Design Control Each work package will include a detailed review in accordance with the requirements of 10CFR50.59 to insure that the work does not create an an unreviewed safety question.

A review of the operational safety implications will also be included in each package.

These reviews will include requirements for precautions to be taken to minimize risks.

All work ' packages will be approved by the Station Nuclear Safety and Operating Committee prior to initiation of any work related to that package.

2.1.9 Status Board To aid the control room operators, a Service Water Status Board is planned.

It will show in a concise and timely manner which lines, headers or components are isolated and which valves are removed for access to w..c) the pipe for hydrolasing. or which valves have been

  • removed for repair.

In

addition, temporary p

installations will be noted such as where flan ges, t

spools or jumpers are installed.

2.1.10 Contingency Plans Based on the design and performance history of the service water system, it is unlikely that a plant accident or component failure will occur during any period of main or branch header isolation that will render the unisolated header inoperable or that will require a site evacuation.

Ilowever, should either of these events occur, quick action will be taken to restore the isolated header or branch line to a

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serviceable condition.

There are, work packages that r

involve isolating main or branch headers will include an emergency contingency plan.

Contingency plans will provide instructions for installing temporary devices such as spool pieces and pipe couplings to insure flow conditions.

Temporary installations would be returned to normal status as soon as conditions allow.

These plans provide for restoration of service water to a component or subsystem in the unlikely event one of the followinr, should take picco during the time period that a header or portion of the service water system G

will be isolated: i w

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a.

Loss of Coolant Accident or other accident

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requiring service water to be operable; b.

failure of the remaining operating service water a

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loop; or c.

flooding through the opened portion of the 2

system as a result of operator error or valve failure.

i For each system segment, a contingency plan for each of these events is addressed in Appendix A,

" Description of Work Packages".

Iv In general, these events are addressed as follows:

a.

The Loss of Coolant Accident (or other accident requiring service water) is protected by the operational header; the isolated header will be restored to operation as soon as possible or within approximately two hours.

Where valves have been removed, blind flanges will be provided in those valve locations where flow through that valve is not necessary to meet the accident conditions.

(See Appendix t

A, DCP 84-82 as an example.) Where flow of w L

service water through a removed valve is V

required, spool pieces will be provided for quick restoration of flow path.

In both cases,

.once the flange or spool piece is in place, the header will be restored to service to provide the redundant service water supply.

b.

Failure of the other or operational header is addressed by providing a temporary third supply of cooling water to the charging pump coolers which require cooling water immediately.

Operation of non-essential equipment and components will be cut back to reduce heat load

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(such as Abnormal Procedure 15 for the component cooling heat exchangers).

Under these conditions of reduced heat load, the component cooling system can tolerate a loss of service water flow for approximately 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.

The isolated header will be restored to service within approximately 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> utilizing flanges and spool pieces as described above.

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Administrative controls to prevent flooding through an opened loop have proved successful in the past and will be re!!er! upon in this event.

These administrative controls include h

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"ta g-ou t" procedures.

The "ta g-ou t" procedures require the notification of the Shift L

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p Supervisor, placement of a

tag on the component (valves in this case) and tagging the components control room indicators and/or controlling switches.

These procedures assure i

that tagged out valves will not be operated inadvertantly.

In addition to the normal tagging procedure described above, valves 18" diameter (9) and greater which are closed to provide main header isolation will be locked when there is a potential

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to flood the Auxiliary.

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basement, emergency switch gear rooms or quench spray building basement.

The locking of valves is included in work packages for Design Changes 84-76, 84-77, 84-82, 84-83, 84-84, 84-85, 84-86, 84-87, 84-88, 84-89, 84-96, 84-97, 84-98, 84-99, as described in Appendix A.

It should be noted that further administrative controls will complicate the restoration of the isolated header to service under emergency conditions and are not desirable.

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2.2 Station Operation It is desirable that any outage time for the sole purpose of the mechanical cleaning of the service water system be avoided. This can best be accomplished by the approach put forth here to assure that the cleaning is accomplished in the most effective, practicable anu safe manner.

The mechanical cleaning can be accomplished during normal station operation without compromising the safety of the station, station em-ployees or the general public.

2.3 Work Breakdown The first priority is to clean the system in as timely a manner as possible to allow thc chemical treatment to protect the remaining pipe.

To perform the work, information on the length of pipe to be cleaned, needed valve repairs, location, equipment and manpower requirements were compiled.

These factors were taken into account in the definition of the 34 cleaning packages or sections as described in Appendix A.

This appendix describes the location, boundaries, Technical Specification limitations and the contingency plan (for each of the three events described earlier) for each of the defined sections.

2.3.1 Mechanical Cleaning Hydrolasing was chosen na the mechanical cleaning method because it is flexible, effective and is least i

likely to remove metal from the pipe wall.

V Hydrolasing is a process whereby _ a high pressure (4,000 to 8,000 psi) water jet is directed at right angles to the internal surface of the pipe.

The dislodged corrosion product is flushed out through an opening in the pipe. Waste products from the hydro-lasing can be easily disposed of as described in section 3.2.3.2.

Hydrolasing is flexible in that both small and large sections of piping can be cleaned with only minor setup adjustments.

Cleaning operations can be sche-duled to comply with Technical Specifications.

Hydrolasing performed previously at North Anna on small bore service water piping has been very effec-tive in removing corrosion product build up from the pipe surface with no apparent metal removal.

Hydrolasing also has several economic advantages that makes it the preferred process for service water piping mechanical cleaning. The process is economical in that:

a.

it will be accomplished by on-site construc-tion personnel; L

b.

the equipment is already available on-site;

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c.

access requirements can be satisfied by relatively D

minor modifications, such as removing small sections of piping, valves, expansion joints or spools; d.

no special outages are required; and e.

waste products are easily handled and disposed.

Hydrolasing can also be accomplished without unplanned unit outages which requires purchase of replacement power.

2.3.2 Valve Repair Operating experience has shown that some of the valves in the service water system do not provide tight shutoff.

This failure to properly seat causes difficulties in isolating equipment for - the cleaning operation.

The majority of the velves that create isolation problems are flanged or wafer type butterfly valves.

The extent of the isolation problems are not known at this time. The three problems expected are:

a.

buildup of corrosion product around the valve seating area; s L

p b,

corrosion attack of the cast iron butterfly valve dise; and c.

butterfly valve discs being " pulled through" their seats causing vt damage.

It is likely that a combination of all of these exists.

Isolation problems are most prevalent with the butterfly valves.

A conservative assumption is made that all of the butterfly valves have seating problems.

It is also likely that some of the gate and check valves are also leaking through and will likewise require maintenance.

3.0 OVERALL PROJECT APPROACH

\\w 3.1 Option Chosen After careful consideration of the options described in Appendix B, Vepco proposes proceeding under Plan 4.

Work under Plan 4 begins with 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statements for branch line isolations, but it will utilize the extended action statement if the future proposed license amendment is approved as assumed.

3.1.1 Backup Plan O

j Should the future proposed license amendment for the extended action statement time limit not be granted by the time main header isolations begin, Plan 3 will be implemented based on 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statements.

Plan 3 and Plan 4 a 2 identical until the main header isolations begin.

Should the extension be granted after main header isolations begin, we will then shift to a modified Plan 4 for the remainder of the main header isolations.

3.1.2 Basis for Choice The following reasons lead to the selection of Plan 4:

a.

It accomplishes the mechanical cleaning with minimum impact on safety while continuing station operation.

b.

It minimizes the number of main header isolations.

c.

It allows for a fall-back to Plan 3 should the extension not be granted.

3.2 Project Scope 3.2.1 Identification of Pipe to be Cleaned Service water system piping, 3 inch diameter and

larger, will be hydrolased with the following OV exceptions: L_

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i a.

The 4 inch diameter and smaller piping servicing the charging pump lube oil coolers and instrument and service air compressors.

These lines have 'been replaced with stainless steel piping and do not require mechanical cleaning.

i b.

The 3 inch diameter and smaller piping servicing the containment penetration cool-ers. These lines have been switched over to the Component Cooling System under Design Changes 84-12 and 84-13.

c.

The 36 inch diameter piping which has an internal coal tar epoxy lining.

d.

The 24 inch diameter return lines in the service water pump house.

This piping will be taken out of service once - the new spray array is put into operation.

e.

The 20 inch diameter piping between the service water pump discharge flanges and the 36 inch diameter main supply headera.

This piping consists of all fittings which is much thicker than the system piping; and, since flow rates in this piping are high,

corrosion is not a serious problem.

1 3.2.2 Engineering and Related Work The project scope also includes all engineering and operations activities required to prepare implementa-tion documents such as design change packages, valve repair procedures, engineering work requests, jumpers and temporary operating procedures.

In addition, minor modifications to facilitate main header draining, installation of a corrosion rate monitoring system and cross ties to climinate stagnant areas will be included.

The modification to the main header to facilitate draining consists of the addition of high point vents in the service water pump house.

The corrosion monitoring system modification will include sixteen 2" taps with gate valves to which the monitoring system will be added at a later date. The cross ties to eliminate stagnant areas will consist of 3/4" lines with valves to provide flow to normally stagnant areas (such as auxiliary service water piping) to allow the chemicals to be effective in those areas.

i The design and installation of temporary provisions for collecting, handling and disposal of waste product and recovery of residual service water are also in-cluded in the project scope of work as described in O)

Section 3.2.3.2.

i.

3.2.3 Definition of Work Packages The Service Water System Mechanical Pipe Cleaning and Valve Repair Program has been broken down into 34 individual work packages.

The boundaries for each work package are shown in Figure 1, Flow Diagram. A list of the work packages and a summary of the Scope of Work for each is included in Appendix A, Description of Work Packages.

3.2.3.1 Grouping of Work Packages The work packages can be grouped into categories according to their relationship with station operating conditions and Techni-cal Specifications.

The work has been broken down in a manner that allows clean-ing within the Technical Specification action statement time limits. The vorious categories are described as follows:

a.

Category A - There are three work packages that can be accomplished during normal plant operation without enterirg into any Technical Specification action statement time period.

This category includes portions of the con-trol room air conditioning condenser cooling piping and portions of the auxiliary service water supply piping. _

b.

Category B - There are sixteen work packages that can be accomplished during normal plant operation within existing Technical Specification action statement time limits with one of the redundant service water main supply and return headers isolated.

This category includes the main headers and lines that branch off of them up to the first isolation valve.

c.

Category C There are five work packages that can be accomplished during normal operation within existing Technical Specification action statement time limits with one redundant supply and return branch header to safety related components isolated.

This category includes the branch lines to the component cooling heat exchangers and the charging pump gear box and seal coolers.

There are eight work d.

Category D packages-that will be accomplished during single unit maintenance outages vbich are currently scheduled during..

the Fall of 1985.

This category in-

%d cludes the branch lines to the recircu-lation spray heat exchangers outside of the containment isolation valves, e.

Category E - There are two work packages that will be accomplished during single unit refueling outages that are currently scheduled during the Spring of 1986. This category includes the service water piping inside the containments that service the recircu-lation spray heat exchangers.

O V

The estimated duration for the implementation of each work package under the proposed method of Plan 4 is shown on -the project schedule which is included as Figure 4 of Appendix B.

The time periods when the main and branch headers are isolated and Technical Specification action statements are in effect are highlighted.

A total of four 72 hour-long and four extended main header isolations will be required to implement the six Category B isolations and four of the five Category C isolations, assuming that L

' NRC approval of the extended action state- _-_--________-___-_a

- f3

't) ment request is obtained by September 1985.

The fifth Category C work package will require that branch headers servicing the component cooling heet exchangers be isolated a total of 10 times with each period of isolation lasting approximately five hours.

As shown on the schedule, all main and branch header isolations are estimated to occur over the 10 month period between April 1985 and January 1986.

Based on the information presented above, it is estimated that total Technical Specification action statement time periods for both main header

- N

)

and branch header will be in effect for approximately 14 percent of the time during i

the cleaning period.

I In general, Category A work packages will be implemented early in the project since no Technical Specification action statements are involved.

Experience gained during the implementation of these packages will aid the detailed planning and implementation of those packages that will be completed under Tech-nical. Specification time constraints.

Cate-gory B and C packages will be implemented

(

beginning in April 1985 based on availability of materials and work package documenta-tion.

Category D and E packages will be implemented as the appropriate plant outages occur.

All pipe cleaning and valve repair work will be accomplished using Design Change Pack-ages prepared in accordance with the Vepco Nuclear Power Station Quality Assurance Manual and the Vepco Engineering and Construction Nuclear Design Control Pro-gram.

Implementation of all work will be done in accordance with the applicable Station Administrative Procedures and Tech-J nical Specifications.

3.2.3.2 Contents of Work Package A typical work package as described in Appendix A consists of all the activities required to isolate a specific section of piping, gain access to the inside of the pipe, hydrolase the internal surface of the pipe, repair or replace isolation valves, make modifications as required, perform required i

acceptance testing and return the system to operation.

O i !,

. = _ _

4 4

1

/

In most cases access to the inside of the l

piping will be gained by the removal of flanged valves and expansion joints.

How-1-

ever, in some of the smaller lines, access i

will be gained by temporarily cutting out a 4

short section of the piping.

During all hydrolasing activities, provisions will be made for collecting and discharging corrosion product wastes.

These provisions will consist of providing the following tempo-rary installations:

Og a.

Collection troughs to collect waste product l-b.

Settling drums to collect the heavier solids c.

Pumps and piping to transfer decanted E

l waste water to the plant settling basin l'

The collected corrosion product will be drummed and disposed of as a non-hazardous i

{

waste.

l

. i

O)

The majority of valve repairs will involve the

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refurbishment of butterfly isolation valves.

Typical repair activities will consist of disassembly of the valve, thoroughly clean-ing the body and reassembly using new seats, stainless steel discs, packing, etc.

In order to minimize the number of valves that must be refurbished during Technical Specification action statement time periods,

replacement valves obtained from North Anna 3 and 4 stock will be used where possible.

Valves that are replaced will be refurbished and reused in other work pack-ages.

Some gate and check valves may also require refurbishment.

Some wJrk packages will include minor modifications which will improve corrosion contrcl in stagnant areas of the system, allow the effectiveness of the corrosion inhibitor chemical treatment program to be monitored or improve techniques for draining the main service water headers.

' \\

A]

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3.3 Project Planning Monitoring 3.3.1 Project Schedule Although this project is not critical to insure near-term opert.bility of the service water system, it must be expedited to reduce the damage being done to the piping due to corrosion and thereby preserve long-term system integrity.

As shown on the schedule in Figure 4 of Appendix B, the work packages are to be completed by the end of the June 1986 Unit i refueling outage.

Schedule dates for completion of the outage related work will change if the scheduled outage dates change.

Scheduled dates for perfor-

)

mance of other categories of work packages will be revised as required to accommodate plant outages and operating requirements.

Therefore, the dates shown on Figure 4 of Appendix B are to be considered preliminary.

However, changes in the schedule due to revised outage dates will not cause an increase in the amount of time main or branch line headers are isolated.

Other changes which result in increased header isolations will be submitted as a revision to this package.

3.3.2 Detailed Work Package Schedule Prior to isolating any piping segment during a Tech-

[

nical Specification action statement for modifications, - _ _ _ _ - _ - _ _ _ _ - _ _ _ _ _ _

nQ hydrolasing or valve r apair, a detailed hour by hour schedule will be prepared covering every activity to be performed during the period of isolation.

A stop work point providing ample time for system closure and pressure testing will be included to insure that the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> Technical Specification action statement is not violated.

A sample of the detailed schedule is included as Figure 2.

The sample is an actual sche-dule to be used during the implementation of work package DCP 84-73.

Work will be subdivided into small enough portions to provide ample margin for completion within the allowable time limit.

All equip-ment set-up will be completed and a thorough check-out of all equipment and tools performed prior to isolating the segment.

Also, all personnel performing any portion of the work will be thoroughly briefed prior to start of work.

Work will be performed around the clock with shifts overlapping to insure continuity.

3.3.3 Consolidated Flow Diagram A consolidated flow diagram of the serv.ee water system has been prepared which cross references to t

erection control isometrics for each line to be hydro-

~

lased.

Also, the diagram shows the boundaries of each work package.

The flow diagram is included as Figure 1.

This diagram will be used as an aid in m...

i f3[]

planning the work and for tracking project p rogress.

In addition, status lists will be maintained providing status of hydrolasing and valve repair activities.

3.3.4 Management Reports Vepco management will be kept informed as to the status of the project through weekly reports issued by Project Management Engineering.

The NRC resident inspector will also be kept informed by station management of project status and any changes to the schedule that were required.

3.4 Interfaces with Other Activities O

G/

The performance of the mechanical cleaning and valve repair efforts affects m.d is affected by other service water system improvement p o._ cts.

Chemical cleaning of the service water piping is not feasible until the mechanical cleaning is complete and the redundant loops can be isolated from each other.

Efforts to obtain the services of a chemical cleaning contractor must begin several months prior to the actual cleaning effort.

This long lead time is required to request bids, analyze pipe samples, de-velop the cleaning process, obtain and review bids, develop and implement modification required to facilitate hook-up and to develop the required temporary operating procedures.

The V

obtaining of pipe samples for evaluation by the prospective. _ _

)

chemical cleaning contractors will be accomplished under this project. The actual chemical cleaning process is not included in the scope of work for this project.

A permanently installed corrosion rate monitoring system is to be installed in the service water system piping.

Piping modifications to install corrator probes and corrosion coupon holders will be required.

These modifications will be imple-mented while their locations are isolated for hydrolasing and/or valve repairs to reduce the overall number of isola-tions required.

The electrical hook up and commissioning of the monitoring system will be accomplished under a separate project.

(G) v 3.5 Generic Procedure In order to expedite the completion of this project, it is necessary to break the work down into numerous individual work packages.

This is in lieu of preparing one all-inclusive package that would be cumbersome, would require consider-able time to prepare and would require numerous revisions during the implementation process.

Implementation of the work under individual packages will allow flexibility in plan-ning the work effort to suit changes in circumstances.

The process of preparing individual work packages will be very similar in each case.

The general process and proce -

v dure is described below:

- 3G -

i

^

a.

A detailed walkdown of the piping segment to be k'

hydrolased and/or valve to be repaired will be per-formed by the project team.

Existing provisions for drainage, isolation, water recovery and access will be noted.

Requirements for temporary or permanent modifications to provide the above will be determined.

The waste collection and disposal scheme for that segment will be formulated.

t b.

Implementing procedures such as Design Change Pack-ages, Engineering Work Requests, Temporary Operating Procedures, Mechanical Maintenance Procedures and/or jumpers will be, prepared and submitted to the Station Nuclear Safety and Operating Committee (SNSOC) for

,D approval.

c.

Temporary installations not requiring system isolation will be installed and tested.

d.

Required equipment will be set up and tested, e.

Personnel performing the work will be thoroughly briefed on the procedures, precautions, time con-st raints, work schedule and potential trouble spots.

I Personnel required to provide support during system isolation will also be briefed.

v _ _

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f.

Materials and/or valve repair parts will be moved into

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work areas.

g.

Connections for draining, etc or any other work that can be performed without system isolation will be completed.

h.

Required tag reports and tags will be completed in accordance with the station Administration Procedures.

i.

The piping segment will be isolated at which time the action statement will be entered in accordance with station Operating Procedures.

O j.

Piping segment will be drained and access points for hydrolasing opened as called for in the implementation documents, k.

Hydrolasing operation will be performed.

At the same time, preparations will be made for system closure (weld end preparation, flange face preparation, etc).

i 1.

Valve repairs will be made.

m.

At a pre-determined time, even if hydrolasing has not been completed, system closure will begin.

o l
l

1 n.

Piping segment will be pressure tested as called for in

'Nj the implementation documents.

o.

The completed implementation documents will be reviewed and signed off by SNSOC.

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p.

The piping segment will be placed back into service and the tags removed, q.

Temporary installations will be removed.

t-In the event the entire piping segment is not cleaned during 4

the period of isolation, portions of the procedure will have to be repeated at another time.

As stated earlier in this report,

\\'

the work has been broken down into small work packages in j

order to minimize the risk of not being able to complete the work within the allotted time period.

3.6 Project Team To implement the mechanical cleaning and valve repairs, a Vepco Project Team consisting of Operations, Engineering and Construction personnel will be established.

Full time involement by key personnel will be required.

Part time support on an as requested basis will be required from certain departments.

Support during periods of system isolation will be provided on a priority basis to insure that.

4 the Technical Specification action statement is not violated.

v' Project Team personnel requirements, responsibilities,

and commitment requirements are provided in Appendix C.

Support from other departments such as estimating, cost and safety will be required.

This support will be coordinated by the i

Project Management Engineer.

Installation of temporary and permanent modifications and hydrolasing and valve repair activities will be performed by Vepco Power Station Construction under the direction of the Project Team.

In order to insure project continuity, any changes in personnel will be made with individuals trained and qualified to perform their assigned tasks.

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l APPENDIX A f

a Description of Work Packages j

Mechanical Cleaning Service Water System I

J North Anna Power Station i

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PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

2 Type C DESIGN CHANGE:

84 '3 LOCATION:

Auxiliary Building Basement PIPE LINE NUMBERS:

4"-C50 & C53 PIPE SEGMENT BOUNDARIES:

From Valves 694 & 678 to end of.4" lines at Charging Pump Gear Box and Seal Coolers.

REFERENCE DRAWINGS:

For Line C50 WS-2C50A Sheets 1 & 2, 2C50B, C

& D; FM-22A and 22G.

For Line C53 WS-2C52A Sheets 1 & 2, 2C52B, C

& D; FM-22A and 22G.

ISOLATION REQUIREMENTS:

Lines:

4"-C50 and C53 Valves:

1-SW-694, 678, 682, 654, 659, 637, 642, 622, 628, 604 2-SW-610, 587, 593 PIPING MODIFICATIONS:

Remove three sections of pipe plus one spool piece per line. These sections will be restered to service without any changes.

VALVES TO BE REPAIRED:

None LENGTH OF PIPE TO BE CLEANED: Approximately 400' of 4" Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with the T

other unit) shall be OPERABLE", while either one or two units are in modes j

I through 4.

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to take the same action should the system not be restored.

Work on this section will require isolating and draining of one branch supply header and one branch return header to the gear box and seal coolers, but will at no time isolate the main headers. The draining of the branch headers, the cleaning of the piping, and the restoration to operability will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the headers into service will be monitored.

Cleaning will stop at any point in order to provide adequate time to restore the headers. Once the headers are restored to OPERABLE status a review of the cleaning accomplished will be conducted and a determination will be made if additional header isolation and draining will be required in order to complete the cleaning addressed by this section.

Additional draining is not anticipated due to margin provided in the detailed work schedule.

PLANS FOR COMPENSATORY ACTION:

Compensatory measures will be taken to maintain service water to the Charging Pump Coolers in the event that the operating supply or return or p

both are lost between the reservoir and the branch line's isolating valve

( /

while cleaning this segment. An alternate water supply and return will be made from the opposite main headers to the operating supply and return branch lines before starting this work.

DC8473 84106/DC1.

^/%Q PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET Fire hose will be connected from supply and return main header branch valves to temporary r;rool pieces per the attached sketch. Valves have been added to minimize the water from flowing out of any cuts or damaged sections in either fire hose. In order to bring either the alternate supply or return line into service, a readily accessible branch line isolating valve will be closed. In addition, Dresser couplings will be used to bring back into service.the line being cleaned.

If a LOCA occurs during the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> time period, the loop being cleaned will be brought back into service using the Dresser couplings.

High radiation levels occur after one hour, which should be ample time to install the Dresser couplings and evacuate the area.

In the event that a 4" valve was inadvertently opened while cleaning the subject pipe segment would not flood critical equipment in the auxiliary building basement for 45 minutes.

This is more than enough time to close any opened valve.

This work may be performed in conjunction with other Technical Specification related work, except for cleaning pipe segments 3, 5, 6, 7, 8, 9, 10, 11, 13, 14, 15, 16, 17, 18, 25, 26, 27 and 28.

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PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

3 Type C DESIGN CHANGE:

84-74 LOCATION:

Auxiliary Building Basement PIPE LINE NUMBERS:

4"-C51 & C52 PIPE SEGMENT BOUNDARIES:

From valves 681 and 679 to end of four inch pipe charging pump gear box and seal coolers.

REFERENCE DRAWINGS:

For Line C51: WS-2C50A Sheets 3 & 4, 2C50B, C&D.

For Line C52: WS-2C52A Sheets 3 & 4, 2C52B, C&D.

ISOLATION REQUIREMENTS:

4"-C51 and C52 only PIPING MODIFICATIONS:

Temporary removal of three pipe sections and one spool piece per line.

VALVES TO BE REPAIRED:

None LENGTH OF PIPE TO BE CLEANED: Approximately 400' of 4"O Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with the other unit) shall be OPERABLE", while either one or two units are in modes 1 through 4.

the action statement requires the restoration of two loops to OPERABLE (O) status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to take the same action should the system not be restored.

Work on this section will require isolating and draining of one branch supply header and one branch return header to the gear box and seal coolers, but will at no time isolate the main headers. The draining of the branch headers, the cleaning of the piping, and the restoration to operability will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the headers into service will se monitored.

Cleaning will stop at any point in order to provide adequa:e time to restore the headers. Once the headers are restored to OPERABLE status a review of the cleaning accomplished will be conducted and a determination will be made if additional header isolation and draining will be required in order to complete the cleaning addressed by this section.

Additional draining is not anticipated due to margin provided in the detailed work schedule.

PLANS FOR COMPENSATORY ACTION:

Compensatory measures will be taken to maintain service water to the Charging Pump Coolers in the event that the operating supply or return or both are lost between the reservoir and the branch line's isolating valve while cleaning this segment.

An alternate water supply and return will be made from the opposite main headers to the operating supply and return 79 branch lines before starting this work.

(

v DC8473 84106/DC1 r

O i

3

'v PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET Fire hose will be connected from supply and return main header branch valves to temporary spool pieces per the attached sketch. Valves have been added to - minimi=e the water from flowing out of any cuts or damaged sections in either fire hose. In order to bring either the alternate supply or return line into service, a readily accessible branch line isolating valve will be closed. In addition, Dresser couplings will be used to bring back into service the line opened for cleaning.

If a LOCA occurs during the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> time period, the loop being cleaned will be brought back into service using the Dresser couplings.

High radiation levels occur after one hour, which should be ample time to

(

install the Dresser couplings and evacuate the area.

In the event that a 4" valve was inadvertently opened while cleaning the subj ect pipe segment would not flood critical equipment the auxiliary l

building basement for 45 minutes. This is more than enough time to close any opened valve.

l l-This work may be performed in conjunction with other Technical j

Specification related work, except for cleaning pipe segments 2, 5, 6, 7, 8, 9, 10, 11, 13, 14, 15, 16, 17, 18, 25, 26, 27 and 28.

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PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

4 Type A DESIGN CHANGE:

84-75 LOCATION:

Turbine Building Basement PIPE LINE NUMBERS:

Control Room A/C Condensers (no line numbers)

PIPE SEGMENT BOUNDARIES:

AC Condenser piping for Units 1 & 2 from 4" subsystem block valves to the condensers REFERENCE DRAWINGS:

FM-22C, FB-26G, FB-26H, FB40 B & D ISOLATION REQUIREMENTS:

-Isolate one condenser at a time.

PIPING MODIFICATIONS:

None, valves, spools and flex hoses are to be removed for access.

VALVES TO BE REPAIRED:

None LENGTH OF PIPE TO BE CLEANED: Approximately 75' 3"6 & 200' 4"9 Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 4.7.7.1 requires that two air conditioning systems be OPERABLE.

There are three 100% A/C chillers per system, removal of one chiller f rom service will not effect the operability of the other two chillers. Two air conditioning systems will always be OPERABLE.

The operability of the two remaining chillers will be verified before work begins.

No action statement will be initiated by work on this section.

COMPENSATORY MEASURES:

A Compensatory measures are not required while performing this work, since it is non-Technical Specification related.

The potential flooding through a 4"$ valve into the switch gear room shall be prevented by danger tagging the isolating valve in accordance with the -

Station Administrative Procedure.

(.

l DC8473 84106/DC1 !

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

5 Type B DESIGN CHANGE:

84-76 LOCATION:

Auxiliary Building Basement PIPE LINE NUMBERS:

10"-20; 10"-22 and others PIPE SEGMENT BOUNDARIES:

From headers 24"-95 and 101 to first valves on lines 10"-20 & 22; 4"-46, 56, & CS2 REFERENCE DRAWINGS:

WS-25, WS-88 WS-16A, WS-19A, WS-2C50A She

3. FP-5A,-FP-5J, FP-21N ISOLATION REQUIREMENTS:

Lines:

36"-1 & 3; 24"-95 & 101; 10"-20 &

22; 4"-46, 56, & CS2 PIPING MODIFICATIONS:

None. Access through valves and spools.

VALVES TO BE REPAIRED:

.MOV-113B, 113A LENGTH OF PIPE TO BE CLEANED: Approximately 15' of 3"W, 50' of 4"d, and 40' of 10"# Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with the other unit) shall be OPERABLE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action-O statement applies to both units and would require both units to take the same action should the system not be restored.

Work on this section will require the draining of one main supply header and one main return header. The draining of the headers, the cleaning of the piping, and the restoration to operability will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the headers into service will be monitored.

Cleaning will stop at any point in order to provide adequate time to restore the headers.. Once the headers are restored to OPERABLE status a review of the cleaning accomplished will be conducted and a determination will be made if additional header draining and isolation will be required in order to complete the cleaning addressed by this section.

PLANS FOR COMPENSATORY ACTION:

Compensatory measures will be taken to maintain service water to the Component Cooling Heat Exchangers 'and the Charging Pump Coolers in the event that the unisolated supply or return header fails while cleaning the off line loop for this segment.

Alternate supply and return water lines will be provided to the Charging Pump Coolers before starting the work.

Temporary spool pieces will be installed in the supply and return lines with a hose connected from the supply temporary spool piece to the fire protection supply, and a second hose from the return temporary spool piece to a main header return line.

Valves have been added to prevent depressurizing the supply line and minimizing leakage on the return line due to cuts or damaged sections in the fire hose.

This alternate supply O

water may be brought into service quickly by closing a branch line valve DC8473 84106/DC1,

Ch'

(

1 PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET

%/

and opening the fire valve. Closing a branch line valve and opening a small main header branch valve will allow using the alternate return line.

If the service water is lost, the Station will initiate Abnormal Procedure 15

. which will greatly reduce the heat load on the Component Cooling System.

Based on conservative calculations, there is about 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> to bring a service water loop on line before the component cooling water temperature becomes critical.

Within this time, the service water loop being cleaned will be brought back on line by installing prefabricated spool pieces.

Construction personnel will be on location to perform any emergency installation.

In a LOCA event, the line being cleaned will be brought back on line by utilizing the prefabricated spool pieces.

The potential flooding from a 24"9 opened valve into the auxiliary basement will be avoided by danger tagging all valves which are closed for isolation and locking all of these valves which are 18"W or greater in accordance with the Stations Administrative Procedures.

This work may be performed in conjunction with other Technical Specification related work, except for cleaning pipe segments 2, 3, 6, 8, 9, 13, 14, 15, 18, 26 and 28.

.~

n v

DC8473 84106/DC1

- 4.1 -

i PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET v

L PIPE SEGMENT I.D.:

6 Type B DESIGN CHANCE:

84-77 LOCATION:

Auxiliary Building Basement PIPE LINE NUMBERS:

24"-96 & 102 PIPE SEGMENT BOUNDARIES:

From Headers 24"-96 and 102 to first valve on lines: 10"-21 & 23; 4"-47, 57, & C53 i

2 REFERENCE DRAWINGS:

WS-48, WS-65. WS17-A, WS-18A, WS-2C50A Sht

1. FP-5J. FP-21N ISOLATION REQUIREMENTS:

Lines:

36"-2 & 4; 24"-96 & 102; 10"-21 &

23; 4"-47, 57, & C53 i

PIPING MODIFICATIONS:

Access through valves & spools. Add corro-

[

sion monitoring probes.

VALVES TO BE REPAIRED:

MOV-213A, 2138 4

LENGTH OF PIPE TO BE CLEANED: Approximately 50' of 4"W and 40' of 10"6 i -

Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with the

~

other unit) shall be OPERABLE."

f' The action statement requires ' the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6-hours and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to take the

'same action should the system not be restored.

1-f

Work on this section will require the draining of one main supply header and one main return header. The draining of the headers, the cleaning of la the piping, and the restoration to operability will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the headers into t'

service will be monitored.

Cleaning will stop at any point in order to provide adequate ~ time to restore the headers.

Once the headers are restored to OPERABLE status a review of the cleaning accomplished will.be

[

conducted and a determination will be made if additional header draining will be required in order to complete the cleaning addressed by this l

section.

?

I PLANS FOR COMPENSATORY ACTION:

[

Compensatory measures will be taken to maintain service water to the Component Cooling Heat Exchangers and the Charging Pump Coolers in the event that-the unisolated supply or return header fails while cleaning the off line loop. Alternate supply and return water lines will be provided to the Charging Pump Coolers before starting the work on this segment.

l Temporary spool pieces will be installed in the supply and return lines t

with a hose connected from the supply temporary spool piece to the fire protection supply, and a second hose from the return temporary spool piece to a main header return line.

Valves have been added to prevent j

depressurizing the supply line and minimizing leakage on the return line i

due to cuts or damaged sections in the fire hose.

This alternate supply 6

I DC8473 84106/DC1 l

. --L

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET V

water may be brought into service quickly by closing a branch line valve and opening the fire valve.

Closing a branch line valve and opening a small main header branch valve will allow using the alternate return line.

If the service water is lost, the Station will initiate Abnormal Procedure 15 which will greatly reduce the heat load on the Component Cooling System.

Based on conservative calculations, there is about 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> to bring a service water loop on line before the component cooling water temperature becomes critical.

During this time, the service water loop being cleaned will be brought back on line by installing prefabricated spool pieces.

Construction personnel will be on location to perform any emergency installation.

In a LOCA event, the loop being cleaned will be brought back on line by utilizing the prefabricated spool pieces.

The potential flooding from a 24"O opened valve into the auxiliary basement will be avoided by danger tagging all valves which are closed for isolation and locking all of these valves which are 18" or larger in accordance with the Stations Administrative Procedures.

l This work may be performed in conjunction with other Technical Specification related work, except for cleaning pipe segments 2, 3, 5, 7, 10, 11, 15, 16, 17, 25 and 27.

O

U l

[

O DC8473 84106/DC1

- 5.1 -

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

7 Type B DESIGN CHANGE:

84-78 LOCATION:

Turbine Building Basement PIPE LINE NUMBERS:

4"-466 & 468

' PIPE SEGMENT BOUNDARIES:

Between 4" subsystem block valves and the main header lines (36" 1 & 3) during 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> REFERENCE DRAWINGS:

WS-2A & 6C

. ISOLATION REQUIREMENTS:

Lines: 36"-l & 3, 4"-244 & 468 PIPING MODIFICATIONS:

Access through valves and temporary removal of pipe sections.

. VALVES TO BE REPAIRED:

None LENGTH OF PIPE TO BE CLEANED:

150' of 4"9 Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with the other unit) shall be OPERABLE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to take the same action should the system not be restored.

Work on this section will require the draining of one main supply header and one main return header. The draining of the headers, the cleaning of the piping, and the restoration to operability will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement Time required to restore the, headers into service will be monitored.

Cleaning will stop at any point in order to provide adequate time to restore the headers.,

Once the headers are restored to OPERABLE status a review of the cleaning accomplished will be conducted and a determination will be made if additional header isolation and draining will be required in order to complete the cleaning addressed by this section.

PLANS POR COMPENSATORY PLANS Compensatory measures will be taken to maintain service water to the Air Conditioning, Component Cooling, and the Charging Pump Coolers in the event that the unisolated supply or return header fails while cleaning this segment.

Provisions for alternate supply and return water lines will be established for the Charging Pump Coolers before starting this work.

Fire hose will be connected to temporary spool pieces installed in the operating supply and return lines.

The supply hose will be connected from the fire

. protection system and the return hose will connect to a small main header valve.

Valves have been added to the temporary spool pieces to prevent depressurizing the supply line and minimizing leakage on the return line due to cuts or dariaged sections in the fire hose. The alternate supply for the Charging Pump Coolers may be brought quickly into service by closing a eO Charging Pump Cooler branch line valve and opening the fire protection valve. Similar steps may be taken for the alternate return line should it DC8473 84106/DC1.

.f]

Q PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET be necessary.

The main service water header may be easily brought back into service by closing a 4" air conditioning isolating valve to avoid a significant rise in the component cooling water temperature.

Once this segment's pipe sections are reinstalled using Dresser couplings, the air conditioning isolating valve may be opened which will bring the air conditioning system on line well within the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> Tech.

Spec.

requirement.

If - a LOCA occurs during the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> time period, the air conditioning isolating valve will be closed on the segment being worked which will bring the isolated main header back on line. The air conditioning system may be down for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> which will be sufficient time to go back and reinstall removed pipe sections utilizing Dresser couplings in a non-radiation area.

The potential flooding from a 4"W opened valve into the Chiller Rooms will be prevented by danger tagging all valves which are closed for isolation in accordance with Station Administrative Procedures.

This work may be performed in conjunction with other Technical Specification related work, except for cleaning pipe segments 2, 3, 6, 8, 9, 13, 14, 15, 26 and 28.

O U

l DC8473 84106/DC1

- 6.1 -

i.

g i

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SECMENT I.D.:

8 Type B DESIGN CHANCE:

84-79 LOCATION:

Service Building Basement PIPE LINE NUMBERS:

4"-467 & 469 PIPE SEGMENT BOUNDARIES:

From 4" subsystem block valves to 36" headers (see segment 7)

REFERENCE PRAWINGS:

WS-4A, WS-8C ISOLATION REQUIREMENTS:

36"-2 & 4, 4"-467 & 469 PIPING MODIFICATIONS:

Access through valves and temporary removal of short pipe sections.

VALVES TO BE REPAIRED:

None LENGTH OF PIPE TO BE CLEANED:

150' of 4"$ Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with the other unit) shall be OPERABLE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to take the same action should the system not be restored.

Work on this section will require the draining of one main supply header and one main return header. The draining of the headers, the cleaning of the piping, and the restoration to operability will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the headers into service will be monitored.

Cleaning will stop at any point in order to provide adequate time to restore the headers.

Once the headers are restored to OPERABLE status a review of the cleaning accomplished will be conducted and a determination will be made if additional header isolation and draining will be required in order to complete the cleaning addressed by this section.

PLANS FOR COMPENSATORY PLANS Compensatory measures will be taken to maintain service water to the Air Conditioning, Component Cooling, and the Charging Pump Coolers in the event that the unisolated supply or return header fails while cleaning this segment.

Provisions for alternate supply and return water lines will be established for the Charging Pump Coolers before starting this work.

Fire hose will be connected to temporary spool pieces installed in the operating supply and return lines. The supply hose will be connected from the fire protection system and the return hose will connect to a small main header valve.

Valves have been added to the temporary spool pieces to prevent depressurizing the supply line and minimizing leakage on the return line due to cuts or damaged sections in the fire hose. The alternate supply for the Charging Pump Coolers may be brought quickly into service by closing a Charging Pump Cooler branch line valve and opening the fire protection (p/

valve. Similar steps may be taken for the alternate return line should it be necessary.

The main service water header may be easily brought back DC8473 84106/DC1

-7'

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET into service by closing a 4" air conditioning isolating valve to avoid a significant rise in the component cooling water temperature.

Once this segment's pipe sections are reinstalled using Dresser couplings, the air conditioning isolating valve may be opened which will bring the air conditioning system on line well within the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> Tech.

Spec.

requirement.

4 If a LOCA occurs during the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> time period, the air conditioning isolating valva will be closed on the segment being worked which will bring the isolated main header back on line. The air conditioning system may be down for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> which will be sufficient time to go back and reinstall removed pipe sections utilizing Dresser couplings in a non-radiation area.

4 The potential flooding from a 4"6 opened valve into the Chiller Rooms will l

be prevented by danger tagging the valves which are closed for isolation in accordance with Station Administrative Procedures.

This work may be performed in conjunction with other Technical Specification relat'ed work, except for cleaning pipe segments 2, 3, 5, 7, 10, 11, 15, 16, 17, 25 and 27.

l 4

i l

O DC8473 84106/DC1

- 7.1 -

1 i

i

/

T V

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

9 Type B DESIGN CHANGE:

84-80 LOCATION:

Service Building Basement PIPE LINE NUMBERS:

4'-67 & 69 PIPE SEGMENT BOUNDARIES:

4" subsystem block valves to main headers (see segment 7)

REFERENCE DRAWINGS:

WS-4C, WS-8A ISOLATION REQUIREMENTS:

36"-2 & 4, 4"-67 & 69 PIPING MODIFICATIONS:

Access through valves and temporary removal of short pipe sections.

VALVES TO BE REPAIRED:

None LENGTH OF PIPE TO BE CLEANED:

220' of 4"W Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with the other unit) shall be OPERABLE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to take the same action should the system not be restored.

O Work on this section will require the draining of one main supply header and one main return header'.

The draining of the headers, the cleaning of-the piping, and the restoration to operability will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the headers into service will be monitored.

Cleaning will stop at any point in order to provide adequate time to restore the headers.

Once the headers are restored to OPERABLE status a review of the cleaning accomplished will be conducted and a determination will be made if additional header isolation and draining will be required in order to complete the cleaning addressed by this section.

PLANS FOR COMPENSATORY PLANS Compensatory measures will be taken to maintain service water to the Air Conditioning, Component Cooling, and the Charging Pump Coolers in the event that the unisolated supply or return header fails while cleaning this segment.

Provisions for alternate supply and retuta water lines will be established for the Charging, Pump Coolers before starting this work.

Fire hose will be connected to temporary spool pieces installed in the operating supply and return lines.

The supply hose will be cennected from the fire protection system and the return hose will connect te a small main header valve.

Valves have been added to the temporary spc 1 pieces to ' prevent depressurizing the supply line and minimizing leakagi on the return line due to cuts or damaged sections in the fire hose. The alternate supply for the Charging Pump Coolers may be brought quickly into service by closing a Q

Charging Pump Cooler branch line valve and opening the fire protection Q

valve. Similar steps may be taken for cae alternate return line should it be necessary.

The main service water header may be easily brought back DC8473 84106/DC1.

A PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET into service by closing a 4" air conditioning isolating valve to avoid a significant rise in the component cooling water temperature.

Once this segment's pipe sections are reinstalled using Dresser couplings, the air conditioning isolating valve may be opened which will bring the air conditioning system on line well within the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> Tech.

Spec.

requirement.

If a LOCA occurs during the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> time period, the air conditioning isolating valve will be closed on the segment being worked which will bring the isolated main header back on line. The air conditioning system may be down for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> which will be sufficient time to go back and reinstall removed pipe sections utilizing Dresser couplings in a non-radiation area.

The potential flooding from a 4"@ opened valve into the Chiller Rooms will be prevented by danger tagging all valves which are closed for isolation in accordance with Station Administrative Procedures.

This work may be performed in conjunction with other Technical Specification related work, except for cleaning pipe segments 2, 3, 5, 7, 10, 11, 15, 16, 17, 25 and 27.

O

'q,]

OG i

DC8473 84106/DC1

- 8.1 -

\\

i PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

10 Type B DESIGN CHANGE:

84-81 LOCATION:

Service Building Basement PIPE LINE NUMBERS:

4"-66 & 68 PIPE SEGMENT BOUNDARIES:

4" subsystem block valves to main header (see segment 7)

REFERENCE DRAWINGS:

WS-2C, WS-6A

~ ISOLATION REQUIREMENTS:

36"-1 & 2, 4"-66 & 68 PIPING MODIFICATIONS:

Access through valves and temporary removal of short pipe sections.

VALVES TO BE REPAIRED:

None LENGTH OF PIPE TO BE CLEANED: 220' of 4"$ Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with the

=other unit) shall be OPERABLE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to take the same action should the system not be restored.

O Work on this section will require the draining of one main supply header v

and one main return header. The draining of the headers, the cleaning of the piping,,and the restoration to operability will be coepleted within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the headers into service will be monitored.

Cleaning will stop at any point in order to provide adequate time to restore the headers.

Once the headers are restored to OPERABLE status a review of ene cleaning accomplished vill be conducted and a determination will be made if additional header isolation and draining will be required in order to complete the cleaning addressed by this section.

PLANS FOR COMPENSATORY PLANS Compensatory measures will be taken to maintain service water to the Air Conditioning, Component Cooling, and the Charging Pump Coolers in the event that the unisolated supply or return header fails while cleaning - this segment.

Provisions for alternate supply and return water lines will be established for the Charging Pump Coolers before starting this work.

Fire hose will be connected to temporary spool pieces installed in the operating supply and return lines.

The supply hose will be connected from the fire protection system and the return hose will connect to a small main header valve.

Valves have been added to the temporary spool ~ pieces to' prevent depressurizing the supply line and minimizing leakage on the return line due to cuts or damaged sections in the~ fire hose. The alternate supply for the Charging Pump Coolers may be brought quickly into service by closing a Charging Pump Cooler branch line valve and opening the ' fire protection valve. Similar steps.'may be taken for the alternate return line should it be necessary.

The main service water header may be easily brought back DC8473 84106/DC1.

4 PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET into service by closing a 4" air conditioning isolating valve to avoid a significant rise in the component cooling water temperature.

Once this segment's pipe sections are reinstalled using Dresser couplings, the air conditioning isolating valve may be opened which will bring the air conditioning system on line well within the 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> Tech.

Spec.

. requirement.

If a LOCA occurs during the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> time period, the air conditioning isolating valve will be closed on the segment being worked which will bring the redundant main header back on line. The air conditioning system may be i

down.for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> which will be sufficient time to go back and reinstall j

removed pipe sections utilizing Dresser couplings in a non-radiation area.

I

' The potential flooding from a 4"$ opened valve into the Chiller Rooms will be prevented by danger tagging the valves which are closed for isolation in accordance with Station Administrative Procedures.

This work may be performed in conjunction with other Technical Specification related work, except for cleaning pipe segments.2, 3, 6, 8, i

9, 13, 14, 15, 18, 26 and 28.

e O

f p

i

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i i

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PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

11 Type B DESIGN CHANGE:

84-82 LOCATION:

Turbine Building Basement PIPE LINE NUMBERS:

24"-25 & 58 PIPE SEGMENT BOUNDARIES:

Main header to first valves.

(MOV-220A &

MOV-115A)

REFERENCE DRAWINGS:

WS-9A, WS-9C, WS-9D ISOLATION REQUIREMENTS:

24"-25 & 58 PIPING MODIFICATIONS:

Access through Valves. Add corrosion moni-tor probe.

VALVES TO BE REPAIRED:

1-MOV-220B & 115A LENGTH OF PIPE TO BE CLEANED: Approximately 100' of 24"@ Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with the other unit) shall be OPERABLE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to take the same action should the system not be restored.

Work on this section will require the draf ting of one main supply header and one main return header. The draining of the headers, the cleaning of the piping, and the restoration'to operability will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the headers into service will be monitored.

Cleaning will stop at any point in order to provide adequate time to restore the headers.

Once the headers are restored to OPERABLE status a review of the cleaning accomplished will be conducted and a determination will be made if additional header draining will be required in order to complete the cleaning addressed by this section.

PLANS FOR COMPENSATORY ACTION:

Compensatory measures will be taken to maintain service water to the Component Cooling Heat Exchangers and the Charging Pump Coolers in the event that the unisolated supply or return header fails while cleaning the off line loop for this segment.

Alternate supply and return water lines will.be provided to the Charging Pump Coolers before starting the work.

Fire hose will be connected to temporary spool pieces installed in the operating supply and return lines. The supply hose will be connected from the fire protection system and the return hose will connect to a small main header valve.

Valves have been added to the temporary spool pieces to prevent depressurizing the supply line and minimizing leakage on the return line due to cuts or damaged sections in the fire hose.

This alternate supply water may be brought into service quickly by closing a branch line D

valve and opening the fire valve. Closing a branch line valve and opening a

', (

small main header branch valve will allow using the alternate return line.

If the service water is lost, the Station will initiate Abnormal DC8473 84106/DC1.

_m--,--4,,,g-

,,,-.~..e,se-_,,.,

.,&~a r,,--

,,r,,,

e,

Y PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET Procedure 15 which will greatly reduce the heat load on the Component Cooling System. Based on conservative calculations, there is about I hour and 45 minutes to bring a service water loop on line before the component cooling water temperature becomes critical. Within this time, the service water loop being cleaned will be brought back on line by installing blind flanges.

Construction pe rsonnel will be on location to perform any emergency installation.

In a LOCA event, the redundant supply line will be brought back on line by utilizing the blind flanges.

The potential flooding from a 24"9 opened valve into the auxiliary basement will be avoided by danger tagging all valves which are closed for isolation and locking all of these valves which are 18" or larger in accordance with the Stations Administrative Procedures.

This work may be performed in conjunction with other Technical Specification related work, except for cleaning pipe segments 2, 3, 6, 8, 9, 13, 14, 15, 26 and 28.

rs f

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~-

I i

(_/.

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DC8473 84106/DC1

- 10.1 -

n

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT.I.D.:

12 Type A DESIGN CHANGE:

84-83 LOCATION:

Circulating Water Pump Area Yard and Turbine Building PIPE LINE NUMBERS:

24"-25, 48 & 425 and 8"-94 & 95 PIPE SEGMENT BOUNDARIES:

Auxiliary SW and CS make-up supply piping from and including valves MOV-217, MOV-117, MOV-119 & MOV-219 up to valves MOV-115A and MOV-215A REFERENCE DRAWINGS:

11715-FP-5L-7, FP-5M-10 & FP-5N-7 ISOLATION REQUIREMENTS:

24"-25, 425 and 48; 8"-94 PIPING MODIFICATIONS:

Add one 2" line approximately 20' length with valve and flanged ends. Add corrosion monitor probe.

VALVES TO BE REPAIRED:

8"-MOV-119, 8"-MOV-219, 24"-MOV-115B, 24"-MOV-117, 24"-MOV-118, 24"-MOV-215B,

~

24"-MOV-217 LENGTH OF PIPE TO BE CLEANED: Approximately 25' of 8"9 and 725' of 24"9 Pipe TECHNICAL SPECIFICATIONS:

Work on this section of pipe will not require the isolation of the main header or any branch of the service water loop.

In addition no other n'

(

Technical Specifications address the auxiliary service water pumps or lines; therefore, work done' on this section will not require the initiatic,n*

of any action statements.

COMPENSATORY MEASURES:

1 Compensatory measures are not required while performing this work, since it is non-Technical Specification related.

The potential flooding through a 24"$ valve into the turbine building valve pit will be prevented by danger tagging all valves which are closed for isolation and locking all of these valves which are 18"$ or greater in accordance with Station Administrative Procedures.

E f

i DC8473 84106/DC1 f e-

-,-,-r-,-r-r

-._,.,...,,.,1.cr--r.-...., - - - -

-w.,.-

--. v-.--+---.

,.r.,-

r l

(3

y PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.

13 Type B DESIGN CHANGE:

84-84 LOCATION:

Turbine Building Basement PIPE LINE NUMBERS:

24"-425 & 59 PIPE SEGMENT BOUNDARIES:

Between main header and first valve REFERENCE DRAWINGS:

MS-4B, WS-10A, B & C, WS-9D ISOLATION REQUIREMENTS:

24"-425 & 59, 36"-2 & 3 PIPING MODIFICATIONS:

None. Access through Valves.

VALVES TO BE REPAIRED:

MOV-220A & MOV-215A LENGTH OF PIPE TO BE CLEANED: Approximately 110' of 24"$ Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with the other unit) shall be OPERABLE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to take the same action should the system not be restored.

Work on this section will require the draining of one main supply header and one main return header. The draining of the headers, the cleaning of p) the piping, and the' restoration to operability will be completed within the

\\

V 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the headers into service will be monitored.

Cleaning will stop at any point in order to provide adequate time to restore the headers.

Once the headers are restored to OPERABLE statu.s a review of the cleaning accomplished will be conducted and a determination will be made if additional header draining will be required in order to complete the cleaning addressed by this section.

PLANS FOR COMPENSATORY ACTION:

Compensatery measures will' be taken to naintain service water to the Component Cooling Heat Exchangers and the Charging Pump Coolers in the event that the unisolated supply or return header fails while cleaning the off line loop for this segment.

Alternate supply and return water lines will be provided to the Charging Pump Coolers before starting the work.

Fire hose will be connected to temporary spool pieces installed in the operating supply and return lines. The supply hose will be connected from the fire protection system and the return hose will connect to a small main header valve. Valves have been added to prevent depressurizing the supply line and minimizing leakage on the return line due to cuts or damaged sections in the fire hose. This alternate supply water may be brought into service quickly by closing a branch line valve and opening the fire valve.

~

Closing a branch line valve and opening ' a small main header branch valve will allow using_the alternate return line.

If the service water is lost.

the Station will initiate AP (Abnormal Procedure) 15 which will greatly O

reduce the heat load on the Component Cooling System.

Based on conserva-tive_ calculations, there is-about I hour and 45 minutes to bring a service DC8473 84106/DC1.

()

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET water loop on line before the component cooling water temperature becomes critical.

Within this time, the service water loop being cleaned will be brought back on line by installing blind flanges.

Construction personnel will be on location to perform any emergency installation.

In a LOCA event, the redundant supply line will be brought back on line by utilizing the blind flanges.

The potential flooding from a 24"9 opened valve into the auxiliary basement will be avoided by danger tagging all valves which are closed for isolation and lacking all of these valves which are 18" or larger in accordance with the Stations Administrative Procedures.

This work may be performed in conjunction with other Technical Specification related work, except for cleaning pipe segments 2, 3, 5, 7, 10,-11, 15, 16, 17, 25 and 27.

s l

l DC8473 84106/DC1

- 12.1 -

n PIPING PRESERVATION PROJECT - HYDROLASING PLAGNING SHEET PIPE SEGMENT I.D.:

14 Type C DESIGN CHANGE:

84-85 LOCATION:

Auxiliary Building Basement l'IPE LINE NUMBERS:

24"-96 & 101 PIPE SEGMENT BOUNDARIES:

From main header to heat exchanger valves.

REFERENCE DRAWINGS:

WS-43, WS-17A WS-28A ISOLATION REQUIREMENTS:

24"-96, 101, C50 PIPING MODIFICATIONS:

Add corrosion monitor probes VALVES TO BE REPAIRED:

1-SW-247, MOV-208A & B LENGTH OF PIPE TO BE CLEANED:

8' of 18"$ and 155' of 24" Pipe TECHNICAL SPECIFICATIONS:

l Tech Spec 3.7.4.1 states "at least two service water loops (shared with the other unit) shall be OPERABLE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to take the same action should the system not be restored. Work on this section will require the draining of one branch supply header and one branch return header.

The draining of the branch headers, the cleaning of the piping,-

p and the restoration to operability will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> i

4 action statement. Time required to restore the branch headers into service O

will be monitored.

Cleaning will stop at any point in order to provide adequate time to restore the branch headers.- Once the branch headers are restored to OPERABLE status a review of the cleaning accomplished will be conducted and a determination will be made if additional header draining will be required in order to complete the cleaning addressed by this section.

PLANS FOR COMPENSATORY ACTION:

Compensatory measures will be taken to maintain service water to the Component Cooling Heat Ex-bangers and the Charging Pump Coolers in the event that the unisolated supply or return header fails while cleaning the off line loop for this segment.

Alternate supply and return water lines will be provided to the Charging Pump Coolers before starting the work.

Fire hose will be connected to temporary spool pieces installed in the operating supply and return lines. The supply hose will be connected from the fire protection system and the return hose will connect to a small main header valve.

Valves have been added to the temporary spool pieces to prevent depressurizing the supply line and minimizing leakage on the return line due to cuts or damaged sections in the fire hose.

This alternate supply water may be brought into service quickly by closing a branch line valve and opening the fire valve. Closing a branch line valve and opening a small main header branch valve will allow using the alternate return line.

If the service water is lost, the Station will initiate AP (Abnormal

,m Procedure) 15 which will greatly reduce the heat load on the Component

(-}

Cooling System.

Based on conservative calculations, there is about I hour and 45 minutes to bring a service water loop on line before the component DC8473 84106/DC1...

)

,,/

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET cooling water temperature becomes critical. Within this time, the service water loop being cleaned will be brought back on line by installing prefab-ricated spool pieces.

Construction personnel will be on location to perform any emergency installation.

In a LOCA event, the redundant supply line will be brought bac'c on line by utilizing the prefabricated spool pieces.

The potential flooding from a 24"9 opened valve into the auxiliary basement will be avoided by danger tagging all valves which are closed for isolation and locking all of these valves which are 18" or larger in accordance with the Stations Administrative Procedures.

This work may be performed in conjunction with other Technical Specification related work, except for cleaning pipe segments 2, 3, 5, 7, 10, 11, 15, 16, 17, 25 and 27.

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i DC8473 84106/DC1

- 13.1 -

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

15 Type C DESIGN CHANGE:

84-86 LOCATION:

Auxiliary Building Basement PIPE LINE NUMBERS:

CC Heat Exchangers PIPE SEGMENT BOUNDARIES:

Between valves supplying heat exchangers.

REFERENCE DRAWINGS:

WS-4B, WS-17A ISOLATION REQUIREMENTS:

One HX at a time, branch lines PIPING MODIFICATIONS:

None VALVES TO.BE REPAIRED:

1-SW-233, 221, 194, 232, 185, 186, 230, 187, 222, 223, 240, 176, 195, 241, 184 and 177 LENGTH OF PIPE TO BE CLEANED:

80' of 18"6 and 40' of 20"$ Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared between units) shall be OPERABLE."

The action statement requires the restoration of, two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both unita to take the same action should the system not be restored. The four CC huat exi: hangers will.be cleaned one at a time, leaving three in service (two are required for two units to operate). Each heat exchanger will require the isolation y

of both branch lines in sequence to allow the placement of flanges over the ends of the branch lines where the butterfly valves are to be removed.

  • Once cleaning is complete the branch lines will be isolated to allow the reinstallation of the valves. At no time will both trains be isolated from i

service.

As many as 16 branch line. isolations will be required for this

.section.

Each branch line isolation for this section is expected to last from three to five hours.

Tech Spec 3.7.3.1 states "at least two component cooling water subsystems (shared with the other unit) shall be OPERABLE."

The cleaning of this section will not reduce the number of CC heat exchangers below two.

Therefore, the action statement for this Tech Spec i

.will not be entered.

PLANS FOR COMPENSATORY ACTION:

Compensatory measures will be taken to maintain service water to the Component Cooling Heat Exchangers in the event that the unisolated supply

  • or return branch header fails while cleaning the off line-loop for this segment.

If the service water is lost, the Station will initiate AP (Abnormal Procedure) 15 which will greatly reduce the heat load on the Component Cooling System.

Based on conservative calculations, there is about I hour and 45 minutes to bring a service water loop on line before the component cooling water temperature becomes critical.

Within this time, the earvice water loop being cleaned will be brought back on line by installing blind flanges which will isolate only one Heat-Exchanger from 5

1 service.

Construction personnel will be on location to perform any emergency installation.

DC8473 84106/DC1,

[s y

, PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET In a LOCA event, the redundant supply line will be brought back on line by utilizing the blind flanges.

The potential flooding from a 24"O opened valve into the auxiliary basement will be avoided by danger tagging all valves which are closed for isolation and locking all of these valves which are 18" or larger in accordance with the Stations Administrative Procedures.

This work may not be performed in conjunction with any other Technical Specification related work.

O L

DC8473 84106/DC1 14.1 -

l PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE. SEGMENT I.D.:

16 Type C DESIGN CHANCE:

84-87 LOCATION:

Auxiliary Building Basement PIPE LINE NUMBERS:

24"-95 & 102 PIPE SEGMENT BOUNDARIES:

From main header to heat exchanger valves.

REFERENCE DRAWINGS:

WS-19A, WS-28C ISOLATION REQUIREMENTS:

24"-95, 102, and 4"-C51 PIPING MODIFICATIONS:

None VALVES TO BE REPAIRED:

MOV-108A, 108B and 1-SW-250 LENGTH OF PIPE TO BE CLEANED:

32' of 18"O and 185' of 24"6 Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with the other unit) shall be OPERABLE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in - cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to take the same action should the system not be restored.' Work on this section will~

require the draining of one branch supply header and one branch return header.

The draining of the branch headers, the cleaning of the piping,'

and the restoration to operability will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> O

action statement. Time required to restore the branch headers into service will be monitored.

Cleaning will stop at any point in order to provide adequate time to restore the branch headers.

Once the branch headers are restored to OPERABLE status a review of the cleaning accomplished will be conducted and a determination will be made if additional header draining will be required in order to complete the cleaning addressed by this section.

PLANS FOR COMPENSATORY ACTION:

Compensatory measures will be taken to maintain service water to the Component Cooling Heat Exchangers and the Charging Pump Coolers in the event that the unisolated supply or return header fails while cleaning the off line loop for this segment.

Alternate supply and return water lines will be provided to the Charging Pump Coolers before starting the work.

Fire hose will be connected to temporary spool pieces installed in the operating supply and return lines. The supply hose will be connected from the fire protection system and the return hose will connect to a small main header valve.

Valves have been added to the. temporary spool pieces to prevent depressurizing the supply line and minimizing leakage on the return line due to cuts or damaged sections in the fire ~ hose.

This alternate supply water may be brought into service quickly by closing a branch line valve and opening the fire valve.

Closing a branch line valve and opening a small main header branch valve will allow using the alternate return

-line.

If the service water is lost, the Station will initiate AP (Abnormal e

Procedure) 15 which will greatly reduce the heat load on the Component Cooling System.

Based on conservative calculations, there is about I hour and 45 minutes to bring a service water loop on line before the component DC8473 84106/DC1.

.--yo--i.g g vc

m PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET cooling water temperature becomes critical.

Within this time, the service water loop being cleaned will be brought back on line by installing prefab-ricated spool pieces.

Construction personnel will be on location to perform any emergency installation.

In a'LOCA event, the redundant supply line will be brought back on line by utilizing the prefabricated spool pieces.

The potential flooding from a 24"9 opened valve into the auxiliary basement will be avoided by danger tagging all valves which are closed for isolation and locking all of these valves which are 18" or larger in accordance with the Stations Administrative Procedures.

This work may be performed in conjunction with other Technical Specification related work, except for cleaning pipe segments 2, 3, 6, 8, 9, 13, 14, 15, 18, 26 and 28.

O v

1

!].

DC8473 84106/DC1

- 15.1 -

~

f***

V PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SECMENT I.D.:

17 Type B DESIGN CHANGE:

84-88 LOCATION:

Safeguards PIPE LINE NUMBERS:

24"-428 & 434 PIPE SEGMENT BOUNDARIES:

Main header to valves MOV-201A & B MOV-205A

& B; TV-102A & B; 2SW-21 & 15 REFERENCE DRAWINGS:

WS-2A, WS-201B ISOLATION REQUIREMENTS:

Lines 36"-1 & 3; 24"-428 & 434 PIPING MODIFICATIONS:

Add 2" recire. line. Add corrosion monitor probe.

VALVES TO BE REPAIRED:

2-MOV-201A, 210A, 201B, 205A, 214A and 205B LENGTH OF PIPE TO BE CLEANED:

20' of 3"@, 30' of 8"6 and 90' of 24" Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with the other unit) shall be OPERABLE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to take the same action should the system not be restored.

V Work on this section will require the draining of one main supply header and one main return header. The draining of the headers, the cl.eaning of.

the piping, and the restoration to operability will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the headers into service will be monitored.

Cleaning will stop at any point in order to provide adequate time to restore the headers.

Once the headers are restored to OPERABLE status a review of the cleaning accomplished will'be conducted and a determination will be made if additional header draining will be required in order to complete the cleaning addressed by this section.

PLANS FOR COMPENSATORY ACTION:

Compensatory measures will be taken to maintain service water to the Component Cooling Heat Exchangers and the Charging Pump Coolers in the event that the unisolated supply or return header fails while cleaning the off line loop for this segment.

Alternate supply and return water lines will be provided to the Charging Pump Coolers before starting the work.

Fire hose will be connected to temporary spool pieces installed in the operating supply and return lines. The supply hose will be connected from-the fire protection system and the return hose will connect to a small main header valve.

Valves have been added to the temporary spool pieces to prevent depressurizing the supply line and minimizing leakage on the return line due to cuts or damaged sectionn in the fire hose.

This alternate supply water may be brought into service quickly by closing a branch line Q

valve and opening the fire valve. Closing a branch line valve and opening C/

a small main header branch valve will allow using the alternate return line. If the setvice water is lost, the Station will initiate AP (Abnormal 1

DC8473 84106/DC1 [

l

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET Procedure) 15 which will greatly reduce the heat load on the Component Cooling System.

Based on conservative calculations, there is about 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and 45 minutes to bring a service water loop on line before the component cooling water temperature becomes critical. Within this time, the service water loop being cleaned will be brought back on line by installing prefab-ricated spool pieces.

Construction personnel will be on location to perform any emergency installation.

The Recirculating Spray System is a safety system required 5 minutes after a LOCA event but not during normal operation.

Therefore, no compensatory measures are necessary to account for the failure of the on-line loop while the redundant loop is cleaned.

If the on-line loop does fail, the installation of the prefabricated spool piece for supply water to the Component Cooling System will re-establish supply to the Recirculating Spray Heat Exchangers.

The possibility of a LOCA event occurring at the same time that the on-line main header fails is considered extremely unlikely.

The potential flooding from a 24"9 opened valve into the quench spray building basement will be avoided by danger tagging all valves which are closed for isolation and locking all of these valves which are 18" or larger in accordance with the Stations Administrative Procedures.

This work may be performed in conjunction with other Technical-Specification related work, except for cleaning pipe segments 2, 3, 6, 8, g

9, 13, 14, 15, 25 and 27.

O DC8473 84106/DC1

- 16.1 -

w PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

18 Type B DESIGN CHANGE:

84-89 LOCATION:

Safeguards PIPE LINE NUMBERS:

24"-426 & 436 PIPE SEGMENT. BOUNDARIES:

Main header to first valves, plus all of lines 515 & 513 to "T'S".

REFERENCE DRAWINGS:

WS-4A WS-201B ISOLATION REQUIREMENTS:

Lines 36"-2 & 4; 24'-426 & 436 PIPING MODIFICATIONS:

Add 2" recire. line VALVES TO BE REPAIRED:

2-MOV-201C, 2108, 205C, 214B, 201D & 205D LENGTH OF PIPE TO BE CLEANED:

20' of 3"9, 30' of 8"9 and 110' of 24"9 Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with the other unit) shall be OPERABLE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require-both units to take the same action should the system not be restored.

Work on this section will require the draining of one main supply header I

O and one main return header. The draining of the. headers, the cleaning of the piping, and the restoration to operability will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the headers : into service will be monitored.

Cleaning will stop at any point in order to provide adequate time to, restore the headers.

Once the. headers are restored to OPERABLE status a review of the cleaning accomplished will be conducted and.a determination will be made if additional header draining will be required in order to complete the cleaning addressed by this section.

p PLANS FOR COMPENSATORY ACTION:

Compensatory measures will be taken to maintain service water to.the Component Cooling Heat Exchangers and the Charging Pump Coolers in the r

event that the unisolated supply or return header fails while cleaning the off line loop for this segment.

Alternate supply and return water lines will be provided to the Charging Pump Coolers before starting the work.

Fire hose will be connected to temporary spool pieces installed in the i

operating supply and return lines. The supply hose will be connected from the fire protection system and the return hose will connect to a small main header valve.

Valves have been added to the temporary spool pieces to prevent depressurizing the supply line and minimizing leakage on the return line due to cuts or damaged sections in the fire hose.

This alternate i

supply water may be brought into service quickly by closing a branch line valve and ' opening the fire valve. Closing a branch line valve and opening i

a small main header branch valve will allow using the alternate return

'~

line.

If the service water is lost, the Station will initiate AP (Abnormal-Procedure) 15 which will greatly reduce the heat load on the Component I

DC8473 84106/DC1 r e~

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PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET Cooling System. Based on conservative calculations, there is about i hour and 45 minutes to bring a service water loop on line before the component cooling water temperature becomes critical.

Within this time, the service water loop being cleaned will be brought back on line by installing prefab-ricated spool pieces.

Construction personnel will be on location to perform any emergency installation.

The Recirculating Spray System is a safety system required 5 minutes after a LOCA event but not during normal operation.

Therefore, no compensatory measures are necessary to account for the failure of the on-line loop while the redundant loop is cleaned.

If the on-line loop does fail, the installation of the prefabricated spool piece for supply water to the Component Cooling System will re-establish supply to the Recirculating Spray Heat Exchangers.

The possibility of a LOCA event occurring at the same time that the on-line main header fails is considered extremely unlikely.

The potential flooding from a 24"9 opened valve into the quench spray building basement will be avoided by danger tagging all valves which are closed for isolation and locking all of these valves which are 18" or larger in accordance with the Stations Administrative Procedures.

This work may be performed in conjunction with other Technical Specification related work, except for cleaning pipe segments 2, 3, 5, 7.-

9, 15, 16, 17, 25 and 27.

(s)

O DC8473 84106/DC1

- 17.1 -

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PIPING PRESERVATION PROJECT - HYDROLASING ?LANNING SHEET f-PIPE SEGMENT I.D.:

19 i

DESIGN CHANGE:

84-90 i

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NOTE: THIS SECTION HAS BEEN COMBINED WITH OTHER SECTIONS.

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PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

20 Type D DESIGN CHANGE:

84-91 LOCATION:

Safeguards PIPE LINE NUMBERS:

24"-428 PIPE SECMENT BOUNDARIES:

From MOV-201B to MOV-202B; MOV203C &

MOV-203D REFERENCE DRAWINGS:

WS-21A ISOLATION REQUIREMENTS:

Line 24"-428 during maintenance outage.

PIPING MODIFICATIONS:

None. Remove expansion joint for pipe Access.

VALVES TO BE REPAIRED:

2-MOV-202A LENGTH OF PIPE TO BE CLEANED:

8' of 6", 35' of 16"W and 60' of 24"@ Pipe TECHNICAL SPECIFICATIONS:

. Tech Spec 3.6.2.2 requires four separate and independent containment recirculation spray subsystems.

With one subsystem inoperable, restore within seven days.

Due to the arrangement of this section of piping, the section cannot be isolated without removing two heat exchangers from OPERABLE status.

Therefore, this section pipe will be cleaned during a maintenance outage.

PLANS FOR COMPENSATORY ACTION:

There are no plans for ccmpensatory action since the unit will be in cold, shut down for maintenance.

The potential flooding from a 16"O motor operator valve into the quench spray building basement will be avoided by tagging out the isolation valves in accordance with Station Administrative Procedures.

Cleaning this segment is not effected by work on other segments since, the cleaning takes place during a refueling outage.

V I

I DC8473 84106/DC1 y.

(_,/

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

21 Type D DESIGN CHANGE:

84-92 LOCATION:

Safeguards PIPE LINE NUMBERS:

24"-426 PIPE SEGMENT BOUNDARIES:

Between valves MOV-201D; 202B; 203A; 203D &

2-SW-69 REFERENCE DRAWINGS:

WS-4A ISOLATION REQUIREMENTS:

Line 24"-426 & Recire Spray Heat Exchangers (2-RS-E-1A & ID). During outage.

PIPING MODIFICATIONS:

None. Remove expansion joint for pipe access.

VALVES TO BE REPAIRED:

None LENGTH OF PIPE TO BE CLEANED:

8' of 6"O, 70' of 16"O and 35' of 24"O Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.6.2.2 requires four separate and independent containment recirculation spray subsystems.

With one subsystem inoperable, restore within seven days.

Due to the arrangement of this section of piping, the section cannot be isolated without removing two heat exchangers from 0?f2ABLE status.

Therefore, this section pipe will be cleaned during a maintenance outage.

. f3,)

PLANS FOR COMPENSATORY ACTION:

g There are na plans for compensatory action since the unit will be in cold shut down for maintenance.

The potential flooding from a 16"O motor operator valve into the quench spray building basement will be avoided by tagging out the isolation valves in accordance with Station Administrative Procedures.

Cleaning this segment is not effected by work on other segments since, the cleaning takes place during a refueling outage.

i

'V I

DC8473 84106/DC1 i

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

22 Type D DESIGN CHANCE:

84-93 LOCATION:

Safeguards PIPE LINE NUMBERS:

24"-434 PIPE SEGMENT BOUNDARIES:

Between valves MOV-205B, 206B, 204A, 204D REFERENCE DRAWINGS:

WS-201B ISOLATION REQUIREMENTS:

Line 24"-434 and 2-RS-E-1A & ID during outage.

PIPING MODIFICATIONS:

None

. VALVES TO BE REPAIRED:

2-MOV-206A LENGTH OF PIPE TO BE CLEANED:

80' of 16"W and 30' of 24"$ Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.6.2.2 requires four separate and independent containment recirculation spray subsystems.

With one subsystem inoperable, restore within seven days.

Due to the arrangement of this section of piping, the section cannot be isolated without removing two heat exchangers from OPERABLE status..

Therefore, this section pipe will be cleaned during a maintenance outage.

PLANS FOR COMPENSATORY ACTION:

There are no plans for compensatory action since the unit will be in cold shut down for maintenance.

The potential flooding f rom a 16"O motor operated valve into the quench

. spray building basement will be avoided by tagging out the isolation valves in accordance with Station Administrative Procedures.

Cleaning this segment is not effected by work on other segments since, the cleaning takes place during a refueling outage.

l i

l DC8473 84106/DCI l-L..

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PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET Vs PIPE SEGMENT I.D.:

23 Type D DESIGN CHANGE:

84-94 LOCATION:

Safeguards PIPE LINE NUMBERS:

24"-436, 16"-440, 16"-439 PIPE SEGMENT BOUNDARIES:

Between valves MOV-205C, 206B, 204B & 204C REFERENCE DRAWINGS:

WS-201B, WS-207C ISOLATION REQUIREMENTS:

24"-436, 2-RS-E-1B & IC PIPING MODIFICATIONS:

None VALVES TO BE REPAIRED:

2-MOV-206B LENGTH OF PIPE TO BE CLEANED:

50' of 16"W and 40' of 24" Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.6.2.2 requires four separate and independent containment recirculation spray subsystems.

With one subsystem inoperable, restore within seven days.

Due to the arrangement of this section of piping, the section cannot be isolated without removing two heat exchangers from OPERABLE status.

Therefore, this section pipe will be cleaned during a maintenance outage.

PLANS FOR COMPENSATORY ACTION:

1 There are no plans for compensatory action since tha unit will be in cold shut down for maintenance.

%J The potential ' flooding from a 16"O motor operated valve into the quench spray building basement will be avoided by tagging out the isolation valves in accordance with Station Administrative Procedures.

Cleaning this segment is not effected by work on other segments since, the cleaning takes place during a refueling outage.

i o

DC8473 84106/DC1 _

s,j PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

24 Type E DESIGN ChNGE:

84-95 LOCATION:

Safeguards & Containment PIPE LINE FUMBERS:

Recire Spray Heat Exchangers - Unit 2 PIPE SEGME?iT BOUNDARIES:

Between valves MOV-204A & 203A; 204B & 203B; MOV-204C & 203D; 204D & 203D REFERENCE DRAWINGS:

WS-206D ISOLATION REQUIREMENTS:

All branch lines to heat exchangers, requires refueling outage.

PIPING MODIFICATIONS:

None VALVES TO BE REPAIRED:

2-MOV-204A, 204B, 203A, 203B, 203C, 203D, 204C and 204D.

LENGTH 0F PIPE TO BE CLEANED: 450' of 16"$ Pipe TECHNICAL SPECIFICATIONS:

Work an this section of pipe will require dismantling of valves needed for conte.inment isolation.

(Tech Spec 3.6.1.1

" Containment Integrity")

Therafore, this section of pipe will be cleaned during a refueling outage.

PLANS FOR COMPENSATORY ACTION:

There -are no plans for compensatory action since the unit will be in cold shut down for refueling.

e l

The potential flooding from. a 16"9 motor operated valve into the containment sumps will be avoided by tagging out the isolation valves in accordance with Station Administrative Procedures.

Cleaning this segment is not effected by work on other segments, since the cleaning takes place during a refueling outage, bV DC8473 84106/DC1 '

(.

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

25 Type B DESIGN CHANGE:

84-96 LOCATION:

Auxiliary Building 244'/ Safeguards PIPE LINE NUMBERS:

24"-28 PIPE SEGMENT BOUNDARIES:

36" to 24" reducer through 24"-28 to branch valves: TV-101A; MOV-101B; MOV-101A (all of line 24"-29) & 1-SW-37 REFERENCE DRAWINGS:

WS-2B ISOLATION REQUIREMENTS:

36"-1, 24"-28, 8"-113 & 3"-42 PIPING MODIFICATIONS:

Access through man-way & MOV-101B. Clean from both. ends. Two Hydrolasers. Add 2" recirc line.

VALVES TO BE REPAIRED:

1-MOV-110B, 101A & 101B LENGTH OF PIPE TO BE CLEANED:

10' of 3"9. 20' of 8"# and 170' of 24"W Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared between units) shall be OPERABLE."

The action. statement requires. the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applie's to both units and would require both units to take the same action should the system not be restored.

Work on this.

section will require the draining of one main supply header, the draining of the header, the cleaning of the piping, and the restoration to OPERABLE status will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the header into service will be determined.

Cleaning t

will stop at any point in. order to, provide adequate time to restore the header.

Once the header is restored to OPERABLE status a review of the cleaning accomplished will be conducted and a determination will be made if additional header draining will be required in order to complete the cleaning addressed by this section.

PLANS FOR COMPENSATORY ACTION:

Compensatory measures will be taken to maintain service water to the Component Cooling Heat Exchangers and the Charging Pump Coolers in the event that the unisolated supply or return header fails while cleaning the off line loop for this segment.

Alternate supply and return water lines will be provided to the Charging Pump Coolers before starting the work.

The supply and return lines will have temporary spool piece installed with a hose connected. from the supply temporary spool piece to the fire protection supply, and from the return temporary spool piece to a main O

header return line.

Valves have been added to prevent depressurizing the supply line. and minimizing leakage on the return line due to cuts or damaged sections in the fire hose.

This alternate supply water may be d#.

brought into service quickly by closing a branch line valve and opening the fire valve.

Closing a branch line valve and opening a small main header branch valve will allow using the alternate return line.

If the service I

'DC8473 84106/DC1 (m

(,

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET water is lost, ^ the Station will initiate AP (Abnormal Procedure) 15 which will greatly reduce the heat load on the Component Cooling System.

Based on conservative calculations, there is about I hour and 45 minutes to bring

a. service water loop on line before the component cooling water temperature becomes critical.

Within this time, the service water loop being cleaned will be brought back on line by installing prefabricated spool pieces.

Construction personnel will be on location to perform any emergency installation. The Recirculating Spray System is a safety system required 5 minutes after a LOCA event but not during normal operation. Therefore, no compensatory measures are necessary to account for the failure of the on-line loop while the redundant loop is cleaned. If the on-line loop does fail, the installation of the prefabricated spool piece for supply water to the Component Cooling System will re-establish supply to the Recirculating Spray Heat Exchangers.

The possibility of a LOCA event occurring at the same time that the on-line main header fails is considered extremely unlikely.

The potential flooding from a 24"O opened valve into the auxiliary basement will be avoided by danger tagging all valves which are closed for isolation and locking all of these valves which are 18" or larger in accordance with the Stations Administrative Procedures.

This work may be performed in conjunction with other Technical p) t Specification related work, except for cleaning pipe segments 2, 3, 6, 8, 9, 13, 14, 15, 17 and 18.

%)

(

DC8473 84106/DC1

- 24.1 -

f' p

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET

.1 PIPE SEGMENT I.D.:

25 Type B DESIGN CHANGE:

84-97 LOCATION:

Auxiliary Building to Safeguards PIPE LINE NUMBERS:

24"-26 PIPE SEGMENT BOUNDARIES:

From 36" to 24" reducer to branch line i

valves REFERENCE DRAWINGS:

WS-4B ISOLATION REQUIREMENTS:

36"-2, 8"-113, 3"-43, & 24"-26 PIPING MODIFICATIONS:

See DC 84-93. Add 2" recire line. Add corrosion monitor probes.

i VALVES TO BE REPAIRED:

1-MOV-101C, 101D and 110A LENGTH OF PIPE TO BE CLEANED:. 10' of 3"$, 10' of 8"9 and 185' of 24"9 Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at-least two service water loops (shared between units) shall be OPERAELE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to Q]

(

take the same action should the system not be restored.

Work on this section will require the draining of one main supply header,.the draining of the header, the cleaning of the piping, and the restoration to OPERABLE status will.. be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the header into service will be determined.

Cleaning will stop at any point in, order to provide adequate time to restore the header.

Once the header is restored to OPERABLE status a review of the cleaning accomplished will be conducted and a determination will be made if additional header draining will be required in order to complete the cleaning addressed by this section.

PLANS FOR COMPENSATORY ACTION:

Compensatory measures will be taken < to maintain service water t'o the Component Cooling Heat Exchangers and the Charging Pump Coolers in the event that the unisolated supply or return header fails while-cleaning the off line loop for this segment.

Alternate supply and return water lines I

will be provided to the Charging Pump Coolers before starting the work.

.The supply and return lines will have a temporary spool piece installed with-a' hose connected from the supply temporary spool piece to the fire protection supply, and from the return temporary spool. piece to a main

-header. return line.

Valves have been added to prevent depressurizing the supply line and minimizing leakage on the return line due to cuts or damaged sections in the fire hose.

This alternate supply water may be brought into service quickly by closing a branch line valve and opening the fire valve.

Closing a branch line valve and opening a small main header

, branch valve will allow using. the alternate return line.

If the service water is lost, the Station will. initiate AP (Abnormal Procedure) 15 which will greatly reduce the heat load on the Component Cooling System.

Based DC8473 84106/DC1.

/-m (V)

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET on conservative calculations, there is about 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and 45 minutes to bring a service water loop on line before the component cooling water temperature becomes critical.

Within this time, the service water loop being cleaned will be brought back on line by installing prefabricated spool pieces.

Construction persocnel will be. on location to perform any emergency installation. The Recirculating Spray System is a safety system required 5 minutes after a LOCA event but not during normal operation. Therefore, no compensatory measures are necessary to account for the failure of the on-line loop while the redundant loop is cleaned.

If the on-line loop does fail, the installation of the prefabricated spool piece for supply water to the Component Cooling System will re-establish supply to the Recirculating Spray Heat Exchangers.

The possibility of a LOCA event occurring at the same time that the on-line main header fails is considered extremely unlikely.

The potential flooding from a 24"O opened valve into the auxiliary basement will be avoided by danger tagging all valves which are closed for isolation and locking all of these valves which are 18" or-larger in accordance with the Stations Administrative Procedures.

This work may be performed in conjunction with other Technical 4

Specification related work, except for cleaning pipe segments 2, 3, 5, 7,'

10, 11, 15, 16, 15 and 27.

i J

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DC8473 84106/DC1

- 25.1 -

t y--,_,

m-

.,__,rr

-_.y-

PIPING PRESERVATION PROJECT - HYDROLASING PLANEP!G SHEET PIPE SEGMENT I.D.:

27 Type B DESIGN CHANGE:

84-98 LOCATION:

Auxiliary Building / Safeguards PIPE LINE NUMBERS:

24"-34 PIPE SEGMENT BOUNDARIES:

From 36" to 24" reducer to valves on branch lines. Same pattern and segments as DC 84-96 & 97.

REFERENCE DRAWINGS:

WS-6B ISOLATION REQUIREMENTS:

36"-3, 24"-34, 8"-116, & 3"-44 PIPING MODIFICATIONS:

Add corrosion monitor probe.

VALVES TO BE REPAIRED:

1-MOV-105A, 105B and 114A LENGTH OF PIPE TO BE CLEANED:

10' of 3"9, 10' of 8"6 and 200' of 24"9 Pipe TECHNICAL SPECIFICATIONS:

' Tech Spec 3.7.4.1 states "at least two service water loops (shared with the other unit) shall be OPERABLE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both unit to

()

take the same action should the system not be restored.

Work on this

%./

section will require the draining of one main return header, the draining of'the header, the cleaning of the piping, and the restoration to OPERABLE status will. be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

Time required to restore the header into service will. be determined.

Cleaning will stop at any point in order to provide adequate time to restore the header.

Once the header is restored to OPERABLE status, a review of the cleaning accomplished will be conducted and a determination will be made if additional header draining will be required in order to complete the cleaning addressed by this section.

PLANS FOR COMPENSATORY ACTION:

Compensatory measures will be taken to maintain service water to the Component Cooling - Heat Exchangers and the Charging Pump Coolers in the event that the unisolated supply or return header fails while cleaning the off line loop for this segment.

Alternate supply and return water lines will be provided to the Charging Pump Coolers before starting the work.

The supply and return lines will have a temporary spool piece installed with a hose connected from the supply temporary spool piece to the fire protection supply, and from the return temporary spool piece to a main header return line. Valves have been added to prevent depressurizing the supply line and minimizing ' leakage on the return line due to cuts or damaged sections in the fire hose.

This alternate supply water may be brought into service quickly by closing a branch line valve and opening the fire valve.

Closing a branch line valve and. opening a small main header O-branch valve will allow using the alternate return line.

If the se rvice water-is lost, the Station will initiate AP (Abnormal Procedure) 15 which will greatly reduce the heat load on the Component Cooling System.

Based DC8473 84106/DC1 '

e4 xj PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET on conservative calculations, there is about I hour and 45 minutes to bring a service water loop on line before the component cooling water temperature becomes critical.

Within this time, the service water loop being cleaned will be brought back on line by installing prefabricated spool pieces.

Construction personnel will be on location to perform any emergency installation. The Recirculating Spray System is a safety system required 5 minutes after a LOCA event but not during normal operation. Therefore, no compensatory measures are necessary to account for the failure of the on-line loop while the redundant loop is cleaned.

If the on-line loop does fail, the installation of the prefabricated spool piece for supply water to the Component Cooling System will re-establish supply to the Recirculating Spray Heat Exchangers.

The possibility of a LOCA event occurring at the same time that the on-line main header fails is considered extremely unlikely.

The potential flooding from a 24"O opened valve into the auxiliary basement will be avoided by danger tagging all valves which are closed for isolation and locking all of these valves which are 18" or larger in accordance with the Stations Administrative Procedures.

This work may be performed in conjunction with other Technical Specification related work, except for cleaning pipe segments 2, 3, 6, 8.-

('"'/

S 9, 13, 14, 15, 17, 18, 26 and 28.

v) i DC8473 84106/DC1

- 26.1 -

.O PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.'D.:

28 Type B DESIGN CHANGE:

84-99 LOCATION:

Auxil! gy Building / Safeguards 24"-36,b"reducertobranchlinevalves PIPE LINE NUMBERS:

36" to' PIPE SFGMENT BOUNDARIES:

~ REFERENCE DRAWINGS:

WS-88 ISOLATION REQUIREMENTS:

36"-4 S"-36, 8"-115 & 3"-45 PIPING MODIFICATIONS:

None, See DC 84-96 VALVES TO BE REPAIRED:

1-MOV-105C, 105D and 114B LENGTH OF PIPE TO BE CLEANED:

10' of 3"W, 20' of 8"W and 220' of 24"W Pipe TECHNICAL SPECIFICATIONS:

1 Tech Spec 3.7.4.1 states "at least two service water loops (shared with the other unit) shall be OPERABLE."

The action statement requires the _ restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both unit to take the same action should the system not be restored.

Work on this section will require the draining. of one main return header, the draining

- h of the header, the cleaning of the piping, and the restoration to OPERABLE status will be-completed, within the 72 hcur action statement.

Time required to restore the header into service will be determined.

Cleaning

  • will stop at any point in order to provide adequate time to restore the header.

Once the header is restored to OPERABLE status, a review of the cleaning accomplished will be conducted and a determination will be made if additional header draining will be required in order to complete the cleaning addressed by this section.

PLANS FOR COMPENSATORY ACTION:

l i

Compensatory measures will _ be taken to maintain service water to the Component Cooling Heat Exchangers and the Charging Pump Coolers in the j

event that the unisolated supply or return header fails while cleaning the off line loop for this segment.

Alternate supply and return water lines will be provided to the Charging Pump Coolers before starting the work.

l The supply and return lines will have a temporary spool piece installed with a hose connected from the supply temporary spool piece to the fire l-protection supply, and from the return temporary spool piece to a main header return line.

Valves have been added to prevent depressurizing tLs dupply line and minimizing leakage on the return line due to cuts or damaged ' sections in the fire hose.

This alternate supply water.may be brought into service quickly by closing a branch line valve and opening the fire valve.

Closing a branch line valve and opening a small main header branch valve will allow using the alternate return line.

If the service water is lost, the Station will initiate AP (Abnormal Procedure) 15 which

, f will greatly reduce the heat load on the Component Cooling System.

Based l

on conservative calculations, there is about 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and 45 minutes to bring a service vater loop on line before the component cooling water temperature DC8473 84106/DC1,

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PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET becomes critical.

Within this time, the service water loop being cleaned will be brought back on line by installing prefabricated spool pieces.

-Construction personnel will be on location to perform any emergency installation. The Recirculating Spray System is a safety system required 5 minutes after a LOCA event but not during normal operation. Therefore, no compensatory measures are necessary to account for the failure of the on-line loop while the redundant loop is cleaned. If the on-line loop does fail, the installation of the prefabricated spool piece for supply water to the Component Cooling System will re-establish supply to the Recirculating Spray Heat Exchangers.

The possibility of a LOCA event occurring at the same time that the on-line main header fails is considered extremely unlikely.

The potential flooding from a 24"9 opened valve into the auxiliary basement will be avoided by danger tagging all valves which are closed for isolation and locking all of these valves which are 18" or larger in accordance with the Stations Administrative Procedures.

This work may be performed in conjunction with other Technical Specification related work, except for cleaning pipe segments 2, 3, 5, 7, 10, 11, 15, 16, 25 and 27.

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DC8473 84106/DC1

- 27.1 -

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/3 PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

29 Type D DESIGN CHANGE:

84-100 i

LOCATION:

Safeguards PIPE LINE NUMBERS:

16"-30 PIPE SEGMENT BOUNDARIES:

Between MOV's 101B, 103A, 102B & 103A REFERENCE DRAWINGS:

WS-12A ISOLATION REQUIREMENTS:

Line 16"-30 PIPING MODIFICATIONS:

None VALVES TO BE REPAIRED:

1-MOV-102A LENGTH OF PIPE TO BE CLEANED:

80' of 16"O and 30' of 24"O Pipe I

TECHNICAL SPECIFICATIONS:

Tech Spec 3.6.2.2 requires four separate and independent containment f

recirculation spray subsystems.

With one subsystem inoperable, restore within seven days.

4 Due to the arrangement of this section of piping, the section cannot be isolated without removing two heat exchangers from OPERABLE status.

Therefore, this section pipe will be cleaned during a maintenance outage.

PLANS FOR COMPENSATORY ACTION:

There are no plans for compensatory action since the unit will be in cold l- (

shut down for refueling.

The potential flooding from a 16"9 motor operated valve into the quench 4

spray building basement will be avoided by tagging out the isolation valves in accordance with Station Administrative Procedures.

Cleaning this segment is not effected by work on other segments since, the cleaning takes place during a maintenance outage.

v t

DC8473 84106/DCL..

(O PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

30 Type D DESIGN CHANCE:

84-101 LOCATION:

Safeguards PIPE LINE NUMBERS:

16"-41 PIPE SEGMENT BOUNDARIES:

Between MOV's 105C, 106A, 104A & 104D REFERENCE DRAWINGS:

WS-ISB ISOLATION REQUIREMENTS:

16"-41 PIPING MODIFICATIONS:

None VALVES TO BE REPAIRED:

1-MOV-106B LENGTH OF PIPE TO BE CLEANED:

8' of 6"O, 35' of 16"6 and 60' of 24" Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.6.2.2 requires four separate and independent containment recirculation spray subsystems.

With one subsystem inoperable, restore within seven days.

Due to the arrangement of this section of piping, the section cannot be isolated without removing two heat exchangers from OPERABLE status.

Therefore, this section pipe will be cleaned during a maintenance outage.

PLANS FOR COMPENSATORY ACTION:

O There are no plans"for compensatory action since the unit will be in cold b

shut down for refueling.

~

16"O motor operated valve into the quench The potential flooding.from a spray building basement will be avoided by tagging out the isolation valves in accordance with Station Administrative Procedures.

Cleaning this segment is not effected by work on other segments since, the cleaning takes place during a maintenance outage.

(

DC8473 84106/DCI -

s v

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

31 Type D DESIGN CHANGE:

84-102 LOCATION:

Safeguards PIPE LINE NUMBERS:

16"-31 PIPE SEGMENT BOUNDARIES:

Between MOV's REFERENCE DRAWINGS:

WS-13A ISOLATION REQUIREMENTS:

16"-31 PIPING MODIFICATIONS:

None VALVES TO BE REPAIRED:

1-MOV-102B LENGTH OF PIPE TO BE CLEANED:

8' of 6"6, 70' of 16"9 and 35' of 24"$ Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.6.2.2 requires four separate and independent containment recirculation spray subsystems.

With one subsystem inoperable, restore within seven days.

Due to the arrangement of this section of piping, the section cannot be isolated without removing two heat exchangers from OPERABLE status.

Therefore, this section pipe will be cleaned during a maintenance outage.

PLANS FOR COMPENSATORY ACTION:

A There are no plans for compensatory action since the unit will be in cold shut down for refueling.

s

~

The potential flooding from a 16"9 moi:or operated valve into the quench spray building basement will.be avoided by tagging out the isolation valves in accordance with Station Administrative Procedures.

Cleaning this segment is not effected by work on other segments since, the cleaning takes place during a maintenance outage.

O 9

DC8473 84106/DC1 ;

1 D(b PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET 1

PIPE SEGMENT I.D.:

32 Type D DESIGN CHANGE:

84-103 LOCATION:

Safeguards PIPE LINE NUMBERS:

16"-39 PIPE SEGMENT BOUNDARIES:

Between MOV's REFERENCE DRAWINGS:

WS-14B ISOLATION REQUIREMENTS:

Line 16"-39 PIPING MODIFICATIONS:

None VALVES TO BE REPAIRED:

1-MOV-106A LENGTH OF PIPE TO BE CLEANED:

50' of 16"6 and 40' of 24"6 Pipe TECHNICAL SPECIFICATIONS:

Tech Spec 3.6.2.2 requires four separate and independent containment recirculation spray subsystems.

With one subsystem inoperable, restore within seven days.

Due to the arrangement of this section of piping, the section cannot be isolated without removing two heat exchangers from OPERABLE status.

Therefore, this section pipe will be cleaned during a maintenance outage.

PLANS POR COMPENSATORY ACTION:

There are no plans for compensatory action since the unit will be in cold C

shut down for refueling.

The potential flooding from a 16"9 motor operated valve into the quench spray building basement will be avoided by tagging out the isolation valves in accordance with Station Administrative Procedures.

Cleaning this segment is not effected by work on other segments since, the cleaning takes place during a maintenance outage.

O DC8473 84106/DC1

-s s,,)

PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

33 Type E DESIGN CHANGE:

84-104 LOCATION:

Containment & Safeguards PIPE LINE NUMBERS:

Unit 1 Recirc Spray HX PIPE SEGMENT BOUNDARIES:

HX's to valves REFERENCE DRAWINGS:

WS-12B ISOLATION REQUIREMENTS:

Refueling outage PIPING MODIFICATIONS:

None VALVES TO BE REPAIRED:

1-MOV-103A, 103B, 103C, 103D, 104A, 104B, 104C and 104D LENGTH OF PIPE TO BE CLEANED: 450' of 16'9 Pipe TECHNICAL SPECIFICATIONS:

Work on this section of pipe will require dismantling of valves needed for containment isolation.

'(Tech Spec 3.6.1.1

" Containment Integrity")

Therefore, this section of pipe will be cleaned during a refueling outage.

PLANS FOR COMPENSATORY ACTION:

There are no plans for compensatory action since the unit will be in cold shut down for refueling.

,Q The potential flooding from a 16"6 motor operated valve into the

(,_)

containment sumps will be avoided by tagging out the isolation valves in accordance with Station Administrative Procedures.

Cleaning this segment is not effected by work on other segments, since the cleaning takes place during a refueling outage.

O DC8473 84106/DC1.

-....m

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PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

34 Type A DESIGN CHANGE:

84-105 LOCATION:

Yard & Circulating Water Structure PIPE LINE NUMBERS:

24"-425 & 25 PIPE SEGMENT BOUNDARIES:

Pumps to Valve House REFERENCE DRAWINGS:

WS-4B, WS-9A, WS-9C ISOLATION REQUIREMENTS:

Lines 24"-425 & 25 PIPING MODIFICATIONS:

Install internal plastic liner VALVES TO BE REPAIRED:

None LENGTH OF PIPE TO BE CLEANED:

100' of 8"6 pipe and 160' of 24"W pipe TECHNICAL SPECIFICATIONS:

Work on this section of pipe will not require the isolation of the main header or any branch of the service water loop.

In addition, no other Technical Specifications address the auxiliary service water pumps or lines; therefore, work done on this section will not require the initiation of any action statements.

Determination of coating requirements will be made before cleaning is begun.

PLANS FOR COMPENSATORY ACTION:

Compensatory measures are not required since the Technical Specification-does not address the auxiliary service water piping.

The potential flooding of valve pit and yard from a 24"6 valve will be r

avoided by. tagging out the isolation valves in accordance with ' Station Administrative Procedures.

i 4

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l rt DC8473 84106/DCI '

L

IV PIPING PRESERVATION PROJECT - HYDROLASING PLANNING SHEET PIPE SEGMENT I.D.:

35 DESIGN CHANGE:

84-106 LOCATION:

SW Pumphouse PIPE LINE NUMBERS:

Main Supply Headers PIPE SEGMENT BOUNDARIES:

N/A REFERENCE DRAWINGS:

N/A ISOLATION REQUIREMENTS:

36"-1, 2, 3 and 4 (individual isolations)

PIPING MODIFICATIONS:

Add 4" vents to aid in draining of main headers VALVES TO BE REPAIRED:

None LENGTH OF PIPE TO BE CLEANED: None TECHNICAL SPECIFICATIONS:

Tech Spec 3.7.4.1 states "at least two service water loops (shared with other unit) shall be OPERABLE."

The action statement requires the restoration of two loops to OPERABLE status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or be in at least hot standby within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in cold shutdown within the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

This action statement applies to both units and would require both units to take the same action should the system not be restored. Work on this section will require the draining of one main supply header and one main return header.

/]

The draining of the headers, installation of the modification, and the V

restoration of operability will be completed within the 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statement.

~

PLANS FOR COMPENSATORY ACTION:

Compensatory measures will be taken to maintain service water to the Charging Pump Coolers in the event that the unisolated supply or return header fails while installing the 4"9 vent.

Alternate supply and return water lines will be provided to the Charging Pump Coolers before starting the work.

The supply and return lines will have a temporary spool piece installed with a hose connected from the supply temporary spool piece to the fire protection supply, and from the return temporary spool piece to a main header return line. Valves have been added to prevent depressurizing the supply line and minimizing leakage on the return line due to cuts or damaged sections in the fire hose.

This alternate supply water may be brought into service quickly by closing a branch line valve and opening the fire valve. Closing a branch line valve and' opening a small main header branch valve will allow using the alternate return line.

If the on-line service water loop fails while the 4" vent is being installed, the hole will be plugged within minutes using a Dresser Repair Clamp.

Construction personnel will be on location to perform any emergency installation.

In a LOCA event, the redundant supply line will be brought back on line by utilizing the Dresser repair clamp.

The potential flooding from a 4"O opening into the service pump house is y) avoided by tagging isolation valves in accordance with Station Administrative Procedures.

DC8473 84106/DC1 i 1

.. - _ =. -.

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PIPINC PRESERVATION PROJECT - HYDROLASING PLANNING SHEET This work will provide a vent to allow draining the main service water headers and will be performed prior to other work.

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- 34.1 -

APPENDIX B OPTIONS WHICH HAVE BEEN DEVELOPED The following section describes the plans for mechanical cleaning of the service water system. Other alternatives are also discussed. The pros and cons for each option are presented.

All are within the existing l

Technical Specifications except as noted in Plan 4.

1.0 Plan 1, the Original i

l This is the plan and schedule presented in the December 5, 1984 meeting with the NRC in Bethesda.

It is based on 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action i

statements and requires all isolations over the' shortest period of time.

Periods of isolation are separated by seven days except for one package (DCP 84-86) which has several short branch line isolations spaced by a cleaning time requiring no isolation.

This plan entails the cleaning of one section at a time and, therefore,

~

provides the most control over cleaning and restoration of the l

service water system.

This approach also makes the best utiliza-f tion of the manpower and equipment resources, and does not 1

require outages specifically for this work.

I A total of 28 separate header or branch line isolations are antici-t l

pated for this plan, ten of which will last less than five hours.

i The total time of isolation is estimated to be approximately 1,346 I

hours.

These isolations will be spread over a time period of approximately 7,920 hours0.0106 days <br />0.256 hours <br />0.00152 weeks <br />3.5006e-4 months <br /> (11 months).

Main or branch headers i

i l

O V

will be isolated approximately 17 percent of time during completion of the work.

Each period of isolation required to complete pipe cleaning and valve repairs will be separated by a minimum separa-tion of 7 days of normal operation.

However, half of the ten 5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> long isolations required by work package DCP 84-86 will be separated by a period of approximately 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br />. These periods of isolation will affect only the component cooling heat exchangers.

2.0 Plan 2 - Consolidate 72 Hour Packages This plan combines certain packages which could be worked toge-ther, thereby reducing the number of isolation periods.

This approach compounds the problem of controlling the work being V

performed and increases the chances of having to shut down two units because of this work.

The fall maintenance outages would also have to be extended to facilitate this work.

A total of 22 separate header or branch line isolations are antici-pated for this plan, ten of which will last less than five hours.

The total time of isolation is estimated to be approximately 914 hours0.0106 days <br />0.254 hours <br />0.00151 weeks <br />3.47777e-4 months <br />.

These isolations will be spread over a time period of approximately 10,800 hours0.00926 days <br />0.222 hours <br />0.00132 weeks <br />3.044e-4 months <br /> (15 months).

Main or branch headers will be isolated approximately 9 percent of time during completion of the work.

Each period of isolation required to complete pipe cleaning and valve repairs will be separated by a minimum separa-tion of 14 days of normal operation.

Ilowever, half of the ten 5 OV hour long isolations required by work package DCP 84-86 will be.

separated by a period of approximately 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br />.

These periods of

'd isolation will affect only the component cooling heat exchangers.

3.0 Plan 3 - Stretch Out Isolations This plan takes the same packages as in Plan 1 and doubles the time between isolations to 14 days.

This is in response to the expressed concern of an LCO cyclic effect in Plan 1.

Plan 3 poses the problem of keeping the trained and dedicated people on board for the length of the project.

It does not reduce the number of isolations.

A total of 28 separate header or branch line isolations are p

anticipated for this plan, ten of which will last less than five hours. The total time of isolation is estimated to be approximately 1,346 hours0.004 days <br />0.0961 hours <br />5.720899e-4 weeks <br />1.31653e-4 months <br />.

These isolations will be spread over a time period of approximately 10,800 hours0.00926 days <br />0.222 hours <br />0.00132 weeks <br />3.044e-4 months <br /> (15 months).

Main or branch headers will be isolated approximately 12 percent of time during completion of the work.

Each period of isolation required to complete pipe cleaning and valve repairs will be separated by a minimum separation of 14 days of normal operation.

However, half of the ten 5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> long isolations required by work package DCP 84-86 will be separated by a period of approximately 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br />.

These periods of isolation will affect only the component cooling heat exchangers.

4.0 Plan 4 - Consolidate for Extended Technical Specification k

This plan is based on utilizing an extended action statement which will be requested in a future license amendment.

Based on a March 1985 Vepco submittal, we target NRC approval of the license amendment in September 1985.

This licensing action would allow consolidation of several packages to be worked at the same time without outages and would cut the number of main header isolations in Plan 1 by as much as one-half.

Initially, work would be performed during 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> action statements until such time as the Technical Specification change is approved.

Thereafter, work would be accomplished during extended action statements..

A total of 18 separate header or branch line isolations are anticipated for this plan, ten of which will last less than five hours.

The total time of isolation is estimated to be approximately 1,010 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br />. These isolations will be spread over a time period of approximately 7,200 hours0.00231 days <br />0.0556 hours <br />3.306878e-4 weeks <br />7.61e-5 months <br /> (10 months).

Main or branch headers will be isolated approximately 14 percent of time during completion of the work.

Each period of isolation required to complete pipe cleaning and valve repairs will be separated by minimum separation of 14 days of normal operation.

flowever, half of the ten 5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> long isolations required by work package DCP 84-86 will be separated by a period of approximately 5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br />.

These periods of isolation will affect only the component cooling heat exchangers.

I I

5.0 Plan 5 - Two Unit Outage The cleaning during a two unit outage would resolve most of the Technical Specification concerns.

However, it poses several burdens:

a.

It would require several weeks of down time requiring more expensive replacement power.

b.

Performing the work over such a compressed schedule would severely impair the resources of the company to provide the specialized equipment and manpower.

It does not allow the isolation of'both headers due to the fact

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c.

that service water is needed even during intermediate', cold and refueling shut down conditions.

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t APPENDIX B FIGURE 6 COMPARISON OF PLANS Total Time Minimum Duration Between Time of lat/Last Percent Between Number of Isolation Isolation Isolation Isolation

  • Plan No.

Isolations Hours Months Time Days 1

28 1,346 11 17%

7 2

22 914 15 9%

14 3

28 1,346' 15 12%

14 4

18 1,010 10 14%

14

  • Except for the 10 five-hour isolations in DCP 84-86.

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APPENDIX C PERSONNEL REQUIREMENTS, RESPONSIBILITIES AND COMMITMENTS PERSONNEL RESPONSIBILITIES COMMITMENT Project Management

1. Provide overa11' coordination and control of all As required (ap-Engineer project activities.

proximately 75%

2. Insure proper interface with other service of full time) water projects.
3. Monitor project progress and provide reports to management.
4. Assist in resolution of technical and procedural problems.
5. Provide interface with management.

Coordinator

1. Assist the Project Management Engineer in the Full time for one day to day coordination of project activities Coordinator and on the preparation of status reports.
2. Prioritize project work activities to insure maximum use of isolation time.
3. Insure that proper interface between working groups occurs.
4. Insure that appropriate working groups are notified prior to implementation of work packages to allow adequate time for preparation.

(

Mechanical

1. Determine scope of modification required to Full time for Engineer implement each hydrolasing activity.

Engineers (addi-

2. Determine methods of recovering drained service.

tional support water and hydrolaser waste product.

may be required

3. Prepare implementing documentation (EWRs and while around the DCPs) to control Construction activities.

clock hydrolasing

4. Determine piping segment boundaries, is being per-
5. Provide full time support during hydrolasing formed and as re-and valve repair activities to insure timely quired to main-resolution to technical problems.

tain the project

6. Review valve isolation capabilities and deter-schedule.

mine required valve repairs.

7. Specify valve repair parts.
8. Review North Anna 3 & 4 butterfly documentation to determine acceptability for use on Units 1 and 2 service water system.
9. Provide schedule inputs for all engineering activities.

Station Operator

1. Prepare temporary operating procedures and/or Full time for one jumpers required to determine valve isolation operator that is capabilities, knowledgeable of
2. Prepare any temporary operating procedures and/

the SW system.

or jumpers required to allow the hydrolasing (Additional sup-and valve repair work to be performed during port will be re-plant operation, quired at various O

3. Prepare all required tag reports and prepare times.)

tags as required. 4

im PERSONNEL RESPONSIBILITIES COMMITMENT Station Operator

4. Arrange for all valve manipulations required (cont'd) to achieve designated isolations.
5. Review implementation procedures for operational acceptability.
6. Provide schedule inputs pertaining to system isolation time requirements.
7. Communicate with Control Room.
8. Maintain Status Board.

]

9. Maintain Action Log (with Shift Supervisor).
10. Confirm compensatory measures.

Advisory Operations

1. Provide all required testing procedures.

As required.

2. Assist, as requested, in resolution of opera-(Performance of tional concerns and problems.

testing must be

3. Perform required testing.

on a priority basis.)

Construction

1. Revise erection isometrics to reflect any As required (Ap-Engineering modifications.

proximately 60-

2. Prepare weld data packs.

70% of full time.

3. Review implementation procedures to insure Additional sup-that adequate instructions are provided.

port may be re-

4. Coordinate construction activities.

quired at times

5. Provide schedule inputs pertaining to all of peak activi-g construction activities.

ty.)

6. Determine construction manpower requirements and arrange for those requirements to be met.

Health Physics

1. Insure that proper ALARA considerations are

'As required.

included in all in-plant activities.

(Sampling of

2. Sample all waste product released from the wastes must be plant.

done on a prior-

3. Perform decontamination and cleanup of waste ity basis.)

spillage in potentially contaminated areas.

4. Prepare and issue the required Radiation Work Permits.

Planning

1. Prepare and maintain all project schedules.

Full time for (a) Level 3 overall One Planner l

(b) Hour by hour for hydrolasing and valve repairs.

Purchasing

1. Procure all required materials.

As required.

2. Expedite delivery as necessary.

Quality Control

1. Review implementation documentation during As required.

development to insure that proper QC Holds, etc. are included.

2. Provide continuous coverage of work activities p

during periods of isolation.

3. Perform all inspections as required by procedures.
4. Coordinate coverage by Station NDE and the Insurance Inspector.,

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