Rev 0 to Panda Transient Tests M9 Integral Sys Test Data Transmittal Rept

ML20116M486
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Site:	05200004
Issue date:	07/30/1996
From:	Huggenberger M, Torbeck J, Wingate G PAUL SCHERRER INSTITUTE
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ML20116M434	List: ML20116M431 ML20116M437 ML20116M442 ML20116M450 ML20116M462 ML20116M465 ML20116M470 ML20116M478 ML20116M486
References
ALPHA-622, ALPHA-622-R, ALPHA-622-R00, NUDOCS 9608200170
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i Document No.

4 c2..PHA-622 i

4 Document Title 4

l PANDA Transient Tests M9 Integral System Test l

Data Transmittal Report i

i Revision Status Approval / Date Rev.

Prepared / Revised by P-PM G-PM G-SOR lssue Date Remarks n

I *$T J. Tomek a mgam 30 July 96 0

M. Huggenberger 10 T5-3 l, 29 July 96 N July 96 (P-eau se, p 2)

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9608200170 960816 PDR ADOCK 05200004 A

PDR

3 ALPHA-622 / Seite 2 Controlled Copy (CC) Distribution List Note: Standard distribution (cf. next page) is non-controlled CC Holder CC Ust Entry Retum / Recall No.

Name, Affiliation Date Date

l3 Regenerung i

GEJz~

El PAUL SCHERRER INSTITUT m2-96 28 ALPHA-622-0 1

i PANDA Transient Tests Ersazt Titel M9 Integral System Test l

Data Transmittal Report f

Autoren/

M. Huggenberger, C. Aubert, J. Dreier, O. Fischer,

{

Autonnnen S. Lomperski, H.J. Strassberger

29. July 1996 i

i Summary:

i l

This Data Transmittal Report (DTR) summarizes the results of the PANDA transient system test M9 which was conducted with conditions simulating the transition from GDCS injection i

phase to long-term PCC cooling phase of a post-LOCA transient, i.e. initial conditions I

corresponding to the predicted state of the RPV and containment at 1040 seconds after main steam line break initiation (Early Start Test). The 6 hour6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> test M9 provides data on the transition from the GDCS injection phase to the PCC system startup and the long-term PCC i

cooling phase.

The DTR for test M9 together with the Umbrella DTR satisfies the requirements specified in i

the Test Plan (TP) 25A5824 Rev. 0 (GE document) section 10. The DTR includes: General j

description and purpose of test, test facility configuration description and a table of actual and specified initial conditions. Further, the test results are presented by time history plots over the test duration and the main observations are given.

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The system pressure dropped during GDCS injection phase and started to increase after l

steam production had recovered. At 2560 seconds after test initiation (or one hour into the

)

LOCA) the pressure reached the initial value of the base case test M3 (which was initiated j

one hour into the LOCA). Later on test M9 showed the same global DW/WW pressure response as the M3 series tests. Fourteen vacuum breaker openings occurred during the

}

first period of the test. All three PCCs started to work immediately after steam flow from the RPV to this DWs had recovered.

l Test M9 has successfully demonstrated the transition from the GDCS injection phase to the PCC system start-up and the following long-term PCCS operation.

1 The M9 test objectives have been achieved.

l Vensier Abt Errsenger/ Empungersinen EspL ht Empanger/ Errgengemnon EmptI EspL 42 G. Yadigaroglu 1

GE Ran Jose CA BMomsk G. Varadi 1

d.E. Torbeck 1

C. Aubert 1

(for distribution at GE to Rosene 5

T. Bandurski 1

J.R. Fitch, G.A. Wingate, J. Dreier 1

B.S. Shiralkar, M

18 O. Fischer 1

DRF No. T10-0005)

J. Healzer 1

sesen 60 M. Huggenberger 1

g S. Lomperski 1

H.J. Strassberger 1

irwormeronsmete PANDA-Documentation 2

0 1

2 3

4 5

8 9

A Vsum Abulanonenung' i

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ALPHA-622 0 / Page 4 1

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Contents

1. INTRODUCTION 5

'4 1.1 General Description and Purpose of Test 5

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1.2 Purpose of Report 5

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2. TEST OBJECTIVES 5

i 2.1 General Objectives 5

i 2.2 Specific Objectives 6

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3. TEST FACIUTY CONFIGURATION AND INITIAL CONDITIONS 6

j 3.1 Test Facility Configuration 6

3.2 Test initial Conditions 7

4. TEST RESULTS 13 4.1 Main Observations 13 14 4.2 Tirne History Plots 1

5. CONCLUSIONS 35 35 5.1 Adequacy of Test Data 35 5.2 Applicability to Test Objectives

6. REFERENCE DOCUMENTS 36 APPENDIX: COMPOSITION OF DATA RECORDS 37

e ALPHA-622-0 / Page 5 i

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1. Introduction 1.1 General Description and Purpose of Test 1

Test M9 is a transient integral systems test which simulates the transition from the GDCS injection I

phase to the long-term PCC cooling phase of a post LOCA transient. The nominal initial conditions correspond to the calculated state of RPV and containment at 1040 seconds after j

main steam line break initiation. Consequently, the initial conditions for the 'early start test' M9 were different from the other M-series tests which started at 3600 seconds into the LOCA. The i

i main differences with respect to the base case test M3 are:

- higher decay heat initial power

- slightly higher system pressure

- lower RPV water level

- GDCS pool partially full with water (allowing for simulating the GDCS injection phase)

- no air in the drywell The steam flow from the RPV was directed to DW1 which feeds one PCC condenser, and to DW2 with two PCC condensers connected. This was achieved with separate blowdown lines from the RPV to each of the two drywells. Test M9 provides data on the transition from the GDCS injection phase to the long-term PCC cooling phase of a post LOCA transient.

1.2 Purpose of Report This Data Transmittal Report (DTR) is compiled in accordance with the requirements specified in Test Plan (TP) 25A5824 Rev 0 (GE document) Section 10 [1]. The report covers the results for the transient integral system test M9 which has been run in accordance with the test procedure described in [2]. The CTR provides detailed information about tot objectives, the test facility configuration and the test initial conditions. The test results are repo *ed and a number of plots, which support the findings, are included. The conclusions about the adequacy of test data and the applicability of test objectives are given. The composition of the data record is described in an Appendix. The general information about the overall test program, the PANDA facility, the instrumentation, the data acquisition system, the facility characterization tests, the PANDA experimental data base and the ermr analysis is described in the DTR umbrella report [4). The apparent test results for test M9 are summarized in (3).

2. Test Objectives 2.1 General Objectives The objectives of the PANDA integral systems tests are to provide additional data to: a) confirm the capability of TRACG to predict SBWR containment system performance, including potential systems interaction effects (integral System Tests) and b) demonstrate startup and long-term operation of a passive containment cooling system (Concept Demonstration).

ALPHA-622-0 / Page 6 2.2 Specific Objectives The specific objective is to perform test M9 with conditions simulating the transition from the GDCS injection phase to the long-term PCC cooling phase of the post LOCA transient.

The approach to meet the objective is to set the GDCS inrtial conditions (level and temperature),

to set the RPV initial conditions (water level) and to control RPV power throughout the test, in order to obtain containment behaviors (e.g. drywell pressure change, vacuum breaker operation) which are representative of the SBWR during this transition period.

3. Test Facility Configuration and initial Conditions 3.1 Test Facility Configuration

[

The PANDA test facility is described in detail in Section 3 of PSI report ALPHA-606 (4]. For test j

M9 the PANDA facility was configured to simulate the SBWR post-LOCA configuration as follows:

1) The RPV supplies steam to each drywell with two steam lines (one to each drywell). These two steam lines have the same pressure loss characteristics and, therefore, allow for symmetric injection of steam into the two drywells.

2) The RPV heater power is controlled as a function of time to create conditions similar to the early phase of the GDCS injection after which the power is ramped back to simulate the scaled decay heat and stored energy release (as specified in [1]).

3) The IC unit is isolated by closing the inlet and outlet valves (i.e., the IC feed, drain and vent lines are closed).

4) All three PCC units are lined-up to take feedflow from the dryweils, to vent noncondensables and steam into the water volume of the suppression pool, and drain condensate to the GDCS volume.

5) The three PCC pools are filled and isolated from each other. During the test, no water is added or drained from the pools.

6) The only direct lines of communication between the drywell and wetwell are as follows:

a) through the vacuum breakers (when the wetwell pressure exceeds drywell pressure sufficiently to open the vacuum breakers. Drywell-Wetwell pressure differential setpoints are

-3.24 kPa for opening and -2.06 kPa for closing VB1, and -3.90 kPa and 2.80 kPa, respectively, for V62 [cf. NCR P-019].)

b) through main vent lines (which are submerged within the wetwells).

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7) The GDCS pressure equalization lines to both drywells are cpen.

8) The GDCS drain line with check valve is lined up to retum PCC condensate to the RPV (as part of test initiation sequence).

9) The equalization lines between the RPV and wetwells are valved out of service.

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s ALPHA-622-0 / Page 7 3.2 Test initial Conditions The test initial conditions represent the state of the system 1040 seconds after scram. These conditions are provided in Table 3.1. 'Ihe ' Average Value' represents the arithmetic mean over i

the one minute measurement period prior to the test start. The ' Requested Value'is the value as it is specified in the Test Plan [1].

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1 ALPHA-622-0 / Page 8 Table 3.1: Test M9 Initial Conditions i

VARIABLE PROCESSID UNIT Average Standard Requested Tolerance Value Deviation Value ENVIRONMENT PARAMETERS l

Atmosphetic pressure MP.EN bar Temperature of saturation for atmospheric pressure (T,_ss)

C RPV PARAMETERS Total pressure MP.RP.1 bar 1

Fluid temperatures:

Spatial average Tp_,,, n(RP)

C I

Local MTF.RP.1 C

l MTF.RP.2 C

MTF.RP3 C

MTF.RP.4 C

MTF.RP.5 C

Water level ML.RP.1 m

DRYWELL PARAMETERS 2

Total pressure MP.D1 bar 3

Air partis.i pressure MPG.DI.1 bar Gas temperatures:

Spatial average To_

(D1)

C Local MTG.DI.1 C

MTG.DI.2 C

MTG.D13 C

MTG.Dl.4 C

MTG.D1.5 C

MTG.DI.6 C

1 The Drywell notal pressures are nos ; :, :m vananeas.eey are grven by acoperannus and au parua6 pressures.The w..

' ng tokrance is cawutated from termperaturs and gas carnal presswa towances.

3. Thss instrument MPc Dt.1 broke during east M9; nevereeruss u was worbng and reliable during the pescondiuoning process.

ALPHA-622-0 / Page 9 Table 3.1: Test M9 initial Conditions Contd.

VARIABLE PROCESSID UNIT Average Standard Requested Tolerance Value Deviation Value DRYWELL PARAMETERS (Cont'd)

Spatial average To_,n (D2)

C Local MTG.D2.1 C

MTG.D2.2 C

MTG.D2.3 C

MTG.D2.4 C

MTG.D2.5 C

MTG.D2.6 C

Water level ML.D1 m

ML.D2 m

SUPPRESSION CHAMBER PARAMETE Total pressure MP.S1 bar Air partial pressure' MPG.S2 bar Water temperatures:

Spatial average Tw m (SI)

C Local MTL.SI.1 C

MTL.SI.2 C

MTL.SI.3 C

MTL.S t.4 C

MTL.SI.5 C

MTL.S t.6 C

Spatial average Tw, (S2)

C Local MTL.S2.1 C

MTL.S2.2 C

MTL.S2.3 C

MTL.S2.4 C

MIL.S2.5 C

MTL.S2.6 C

(The supprussion Charreer aar paruai pressures are not independans vanacies.tney are geven of temperatures and soul pressures. The ccerespond-ems he as calculated from temperature and total pressure solerances.

l ALPHA-622 0 / Page 10 1

Table 3.1: Test M9 initial Conditions Contd.

a i

VARIABLE PROCESSID UNIT Average Standard Requested Tolerance Value Deviation Value SUPPRESSION CHAMBER PARAMEERS(Cont'd)

Gas temperatures-Spatial average To_

(SI)

C Local MTG.SI.1 C

MTG.SI.2 C

l MTG.S13 C

j MTG.SI.4 C

j MTG.S1.5 C

MTG.SI.6 C

Spatial average To_m (S2)

C Local MTG.S2.1 C

MTG.S2.2 C

MTG.S2.3 C

MTG.S2.4 C

MTG.S2.5 C

MTG.S2.6 C

Water level M L.S1 m

ML.S2 m

GDCS PARAMETERS Total pressure MP.GD bar Fluid temperatures:

Spatial average Tr_m (GD)

C Local MTF.GD.1 C

MTF.GD.2 C

MTF.GD.3 C

MTF.GD.4 C

MTF.GD.5 C

MTF.GD.6 C

MTF.GD.7 C

Water level ML.GD m

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ALPHA-622-0 / Page 11 Table 3.1: Test M9 initial Conditions Contd.

VARIABLE PROCESSID UNIT Average Standard Requested Tolerance Value Deviation Value PCC1 POOL PARAMETERS Water temperatures:

4 Spatial average Tw (U1)

C Local MTL.UI.1 C

MTL.UI.2 C

MTL.U1.3 C

MTL.UI.4 C

MTL.U1.5 C

MTL.UI.6 C

MTL.UI.7 C

Waterlevel ML.U1 m

PCC2 POOL PARAMETERS Water temperatures:

Spatial average Tw (U2)

C Local MTL.U2.1 C

MH..U2.2 C

MTL.U2.3 C

MTL.U2.4 C

MTL.U2.5 C

MTL.U2.6 C

MTL.U2.7 C

Water level ML.U2 m

PCC3 POOL PARAMETERS Water temperatures:

Spatial average Tw (U3)

C Local MTL.U3.1 C

MTL U3.2 C

MTL.U3.3 C

MTL.U3.4 C

ALPHA-622-0 / Page 12 Table 3.1: Test M9 Initial Conditions Contd.

VARIABLE PROCESSID UNIT Average Standard Requested Tolerance Value Deviation Value PCC3 POOL PARAMETERS (Cont'd)

MTL.U3.5 C

MTL.U3.6 C

MTL.U3.7 C

MTL.U3.8 C

M~IL.U3.9 C

MIL.U3.10 C

MTL.U3.11 C

MTL.U3.12 C

MTL.U3.13 C

MTL.U3.14 C

MTL.U3.15 C

MTL.U3.16 C

MTL.U3.17 C

MTL.U3.18 C

MTL.U3.19 C

Waterlevel ML.U3 m

List of Deviations from Requested initial Conditions:

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Water levelin GDCS ML.GD Air partial pressure in Drywell 1 MPG.Dt.1 Total pressure in RPV MP.RP.1 Total pressure in GDCS MP.GD Mean temperature in both Drywells To,m.,n(D1)

To,m. n(D2)

Mean temperature in RPV TF_mean(RP)

Local temperature in RPV MTF.RP.5 According to Nonconformance Report NCR P-018 these deviations from initial conditions specified in the Test Plan are acceotable.

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ALPHA 622-0 / Page 13

4. Test Results The main observations for the M9 base case test are presented in Section 4.1. A standard set of time history plots for the key parameters and additional plots which support the individual test observations are given in Section 4.2.

4.1 Main Observations

ALPHA-622-0 / Page 14 1

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4.2 Time History Plots Time history plots are provided to support the observations discussed in Section 4.1 for the following parameters:

Figure RPV, Drywell and Wetwell Pressures 1

PCC Feed Mass Flow Rates 2

PCC1 Temperatures 3

4 PCC2 Temperatures PCC3 Temperatures 5

PCC Vent Phase Detectors 6

j PCC Vent une Gas Temperatures 7

Wetwell Air Partial Pressure 8

J PCC Pool Levels 9

RPV Heater Power 10 RPV and Drywell Temperatures 11 1 Pure-steam conditions in the Main Vent Lines were estabbshed in the fral precondrtsoning phase when the Main Ve:tts cleared (cf. NCR P418). Incornplete blanketing of MV2 kne in the test may be due to drtferent VB setpoints and (cf. NCR P-019) consequermy fewer openings of VB2 wrth less noncondensable backflow to DW2.

ALPHA 622-0 / Pcge 15 Figure Wetwell 1 Gas and Water Temperatures 12 Wetwell 2 Gas an6 Water Temperatures 13 Main Steam Une Mass Flow Rates 14 Vacuum Breaker 1 Position 15 Vacuum Breaker 2 Position 16 Vacuum Breaker Une Gas Temperatures 17 RPV and GDCS Pool Levels 18 Main Vent Line Gas Temperatures 19 The identification code for the process variables used in the plots is explained in the DTR Umbrella Report, Section 4 [4). Also, the DAS channel, type, range, accuracy and location of each instrument are given in the Appendix ' Composition of Data Records'.

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O ALPHA-622-0 / Pages 16 through 34 i

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l These pages have been deleted from this nonproprietary version of this report, because Figures 1 through 19 which are on these pages in the proprietary version of the report contain proprietary information.

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' l ALPHA 622-0 / Pcg3 35

5. Conclusions 1

5.1 Adequacy of Test Data The integral system test M9 has provided data for the overall system behaviour in an adequate i

manner. Based on the analysis of the test data [3] the test acceptance criteria have clearly been met. All zero and instrument checks for test M9 have been successfully completed and the l

instrument readings were within the permitted ranges.

All required instrumentation performed well except for three oxygen sensors listed below. This was acceptable because the backup instruments did work.

Measurement instrument Back-up instrument Air partial pressure in WW1 MPG.S1 MPG.S2 Air partial pressure in DW1 MPG.C' '

TG_mean(D1) / MP.D1 Air partial pressure in DW2 MPGD2.1 TG_mean(D2) / MP.D1 5.2 Applicability to Test Objectives The test objectives as stated in Section 2 of this report have been reached:

• The early start test M9 successfully demonstrated the transition from the GDCS injection phase to the PCCS startup and the following Icng-term PCCS cooling phase.

• The system pressure dropped during the GDCS injection phase and started to increase after steam generation in the RPV had recovered. One hour into the LOCA the system pressure l

matched the base case test M3 initial value.

• 14 vacuum breaker openings occurred during the first 1500 seconds (GDCS injection phase).

• After steam flow from the RPV to the drywell had recovered, all three PCCs started to work immediately.

• The PCCS long-term behavior showed the same global trends as the base case test M3.

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ALPHA-622-0 / Page 36 i

6. Reference Documents 4

[1]

' PANDA Test Plan - Test M9' (Specification), GE Document 25A5824 Rev. O, Dec 12, 1995.

[2]

' PANDA Transient Tests: M9 Integral System Test Procedure', PSI Intemal Report ALPHA-528-0, Dec 18,1995.

[3]

' PANDA Transient Tests: M9 Integra: System Test Apparent Test Results', PSI internal Report ALPHA-614 0, May 10,1996, Proprietaryinformation.

[4]

' PANDA Facility, Test Program and Data Base General Description (DTR Umbrella Report) ",

PSI Intemal Report ALPHA-606-0, May 31,1996.

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[5]

'SBWR Test and Analysis Program Description" (TAPD, Licensing Topical Report), GE Report NEDC-32391P Rev. C, August 1995, GE Proprietaryinformation.

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ALPHA 622-0 / Pags 37 Appendix: Composition of Data Records Data Transfer for PANDA Test M9 4

All variables given by the Table A.1 are contained in four ORACLE tables:

GE_ PANDA _M9_MT_LINE 11511 rows GE_ PANDA _M9_MT_ POOL 11511 rows GE_ PANDA _M9_MT_ VESSEL 11511 rows GE_ PANDA _M9_M_OTHER 11511 rows All contain the variable called REC _ID (record identifier) allowing to link records to corresponding time.

Time data are given in the table:

GE_ PANDA _M9_M_ TIME 11511 rows The structure of all these tables is exactly the same as the one described in the DTR umbrella report (4) for corresponding tables labeled without

'GE_'

(PANDA _M9_...

instead of GE_ PANDA _M9...); new table names have been used because of database consistency!

All these tables are owned by the user "aubert" and have been created in the tablespace

' USERS'; they have been exported in file "M9_GE_ tables.dmp'.

Measurements with restricted use MV.P3C only qualitative use possible (for example oscillations etc.) absolute value is not reliable MV.GRT only qualitative use possible (for example oscillations etc.) absolute value is not reliable MV.P1V during whole test below lower flow limit MV.P2V MV.P3V MV.MS1 temporary below lower flow limit (cf. Figure 14)

MV.MS2

ALPHA-622-0 / Page 38 Table A.1: M9 Data identification DACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATION On/Off valve Vacuum Breaker SC1-DW1 230 CB.VB1 KEY.NOR.AUT 0,50 or 100%

231 CB.VB2 KEY.NOR.AU i 0,50 or 100%

On/Off valve Vacuum Breaker SC2-DW2 105 MD.GRT RM 1151 DP5

-36.- 150. kIE 1.68 kPa pressure diff. meas. Condensate Return GDCS->RPV 530 MD.MSI RM 3051 CD2 0.- 10.kPa 0.17 kPa pressure diff. meas. Main Steam line RPV->DW1 531 MD.MS2 RM 3051 CD2 0.- 10. kPa 0.17 kPa pressure diff. meas. Main Steam line RPV->DW2 98 MD.MV1 RM 1151 DP4 0.- 37. kPa 0.40 kPa pressure diff. meas. Main Vent line DW1-> SCI 99 MD.MV2 RM 1151 DP4 0.- 37. kPa 0.40 kPa pressure diff. meas. Main Vent line DW2->SC2 537 MD.P1 RM 3051 CD2 15.- 25. kPa 0.21 kPa pressure diff. meas. PCC1 Condenser 540 MD.P1 C RM 3051 CD2 0.- 30. kPa 0.25 kPa pressure diff. meas. PCC1 Condensate PCC1->GDCS 533 MD.P1F RM 3051 CD2 0.- 30. kPa 0.26kPa pressure diff. meas. PCC1 Feed DW1->PCC1 544 MD.P1V.1 RM 1151 DP4

-15.- 22. kPa 0.34 kPa pressure diff. meas. PCC1 Vent PCC1->SC1 101 MD.P1V.2 RM 1151 DP4 0.- 37. kPa 0.37 kPa pressure diff. meas. PCC1 Vent PCC1-> SCI 538 MD.P2 RM 3051 CD2 15.- 25. kPa 0.21 kPa pressure dilf. meas. PCCZ Condenser 541 MD.P2C RM 3051 CD2 0.- 30. kPa 0.25 kPa pressure diff. meas. PCC2 Condensate PCC2->GDCS 534 MD.P2F RM 3051 CD2 0.- 30. kPa 0.26 kPa pressure diff. meas. PCC2 Feed DW2->PCC2 545 MD.P2V.1 RM 1151 DP4

-15.- 22. kPa 0.34 kPa pressure diff. meas. PCC2 Vent PCC2->SC2 102 MD.P2V.2 RM 1151 DP4 0.- 37. kPa 0.37 kPa pressure diff. meas. PCC2 Vent PCC2->SC2 539 MD.P3 RM 3051 CD2 15.- 25. kPa 0.21 kPa pressure diff. meas. PCC3 Condenser 542 MD.P3C RM 3051 CD2 0.- 30. kPa 0.25 kPa pressure diff. meas. PCC3 Condensate PCC3->GDCS 535 MD.P3F RM 3051 CD2 0.- 30. kPa 0.26 kPa pressure diff. meas. PCC3 Feed DW2->PCC3 546 MD.P3V.1 RM 1151 DP4

-15.- 22. kPa 0.34 kPa pressure diff. meas. PCC3 Vent PCC3->SC2 103 MD.P3V.2 RM 1151 DP4 0.- 37. kPa 0.37 kPa pressure diff. meas. PCC3 Vent PCC3->SC2

.i ALPHA-622-0 / Page 39 Table A.1: M9 Data klontification contd.

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DACHANNEL PROCESSID TYPE RANGEtUNIT ACCURACY LOCATION 224 MD.VB1 RM 3051 CD2 20.- 46. kPa 0.19 kPa pressure diff. meas. Vacuum Breaker SC1-DW1 l

225 MD.VB2 RM 3051 CD2 20.- 46. kPa 0.19 kPa pressure diff. meas. Vacuum Breaker SC2-DW2 36 ME.RP EH MYCOM 0 - 200 pS/cm 0.5 %

water quality mess. Reactor Pressure Vessel / RPV 70 Mt.MV1 PSI /GA COND 0 or 1 phase indicator Main Vent line DW1-> SCI phase indicator Main Vent line DW2->SC2 l

71 MI.MV2 PSI /GA COND 0 or 1 phase indicator PCC1 Vent PCC1->SC1 67 M1.P1V.1 PSI /GA COND 0 or 1 phase indicator PCC2 Vent PCC2->SC2 68 M1.P2V.1 PSI /GA COND 0 or 1 69 MlP3V.1 PSI /GA COND 0 or 1 phase indicator PCC3 Vent PCC3->SC2

[

227 ML.D1 RM 3051 CD2 0-1.8 m 0.021 m level meas. Drywell 1/ DW1 l

228 MLD2 RM 3051 CD2 0-1.8 m 0.021 m level meas. Drywell 2 / DW2 229 MLGD RM 3051 CD3 0-6.3 m 0.070 m level meas. GDCS tank / GDCS 113 MLMSI RM 1151 DP4 0-1.0 m 0.033 m level meas. Mein Steam line RPV->DW1 f

114 MLMS2 RM 1151 DP4 0-1.0 m 0.033 m level meas. Main Steam line RPV->DW2 8

MLRP.1 RM 3051 CD3 0-21.5m 0.166 m level meas. Reactor Pressure Vessel / RPV

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MLRP.2 RM 1151 DPS 0-4.1 m 0.157 m level meas. Reactor Pressure Vessel / RPV 107 MLRP.3 RM 1151 DP4 0-3.8 m 0.042 m level meas. Reactor Pressure Vessel / RPV i

108 MLRP.4 RM 1151 DP4 0-3.8 m 0.042 m level meas. Reactor Pressure Vessel / RPV j

226 MLRP.5 RM 1151 DP5 0-7.7 m 0.166 m level meas. Reactor Pressure Vessel / RPV 360 MLRP.6 RM 1151 DP5 0-4.6 m 0.158 m level meas. Reactor Pressure Vessel / RPV 110 MLS1 RM 3051 CD2 0-4.6 m 0.039 m level meas. Suppression Chamber 1/ SCI j

111 MLS2 RM 3051 CD2 0-4.6 m 0.039 m level meas. Suppression Chamber 2 / SC2 547 MLUO RM 1151 DPS 0-5.6 m 0.156 m level meas. IC pool

ALPHA-622-0 / Page 40 Table A.1: M9 Data identification contd.

DACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATION i

548 ML.01 RM 1151 DP5 0-5.6 m 0.156 m level meas. PCC1 pool 549 ML.U2 RM 1151 DP5 0-5.6 m 0.156 m level meas. PCC2 pool 550 MLU3 RM 1151 DP5 0-5.6 m 0.156 m level meas. PCC3 pool Vacuum Breaker Trigger signal 0 or 1 72 MO.VB 555 MP.D1 RM 3051 CA2 0.0- 6.0 bar 0.022 bar absol. pressure meas. Drywell 1/ DW1 556 MP.D2 RM 1144 A 0.0- 6.0 bar 0.172 bar absol. pressure meas. Drywell 2 / DW2 2

MP.EN RM 3051 CA2 0.0- 1.5 bar 0.011 bar absol. pressure meas. Environment 338 MP.GD RM 1144 A 0.0- 6.0 bar 0.169 bar absol. pressure meas. GDCS tank / GDCS 346 MP.11F RM 3051 CA2 0.0-10.3 bar C.024 bar absol. pressure meas. IC Feed RPV->lC 218 MP.MS1 RM 3051 CA2 0.0-10.3 bar 0.023 bar abso!. pressure meas. Main Steam line RPV->DW1 t

219 MP.MS2 RM 3051 CA2 0.0-10.3 bar 0.023 bar absol. pressure meas. Main Steam line RPV->DW2 344 MP.P1F RM 3051 CA2 0.0- 6.0 bar 0.022 bar absol. pressure meas. PCC1 Feed DW1->PCC1 341 MP.P1V RM 3051 CA2 0.0- 6.0 bar 0.022 bar absol. pressure meas. F ~ C1 Vent PCC1-> SCI 557 MP.P2F RM 3051 CA2 0.0- 6.0 bar C.022 bar absol. pressure meas. PCC2 Feed DW2->PCC2 342 MP.P2V RM 3051 CA2 0.0- 6.0 bar 0.022 bar absol. pressure meas. PCC2 Vent PCC2->SC2 558 MP.P3F RM 3051 CA2 0.0- 6.0 bar 0.022 bar absol. pressure meas. PCC3 Feed DW2->PCC3 343 MP.P3V RM 3051 CA2 0.0- 6.0 bar 0.022 bar absol pressure meas. PCC3 Vent PCC3->SC2 554 MP.RP.1 RM 3051 CA2 0.0-10.3 bar 0.023 bar absol. pressure meas. Reactor Pressure Vessel / RPV 58 MP.RP.2 RM 2088 A3 0.0-13.0 bar 0.293 bar absol. pressure meas. Reactor Pressure Vessel / RPV 221 MP.S1 RM 3051 CA2 0.0- 6.0 bar 0.022 bar absol. pressure meas. Suppression Chamber 1/ SCI 222 MP.S2 RM 1144 A 0.0- 6.0 bar 0.169 bar absol. pressure meas. Suppression Chamber 2 / SC2 377 MPG.S2 LI 123102

.002-600 bar 4.0 %

air partial press. meas. Suppression Chamber 2 / SC2 482 MTF.GD.1 PSITC 1.0-196.58 C 0.8 C fluid temp. meas. GDCS tank / GDCS

ALPHA-622-0 / Page 41 TatWe A.1: M9 Data Ider lification contd.

DACHANNEL PROCESSID TYPE RANGE' UNIT ACCURACY LOCATION J

480 MTF.GD.2 PSITC 1.0-196.58 C 0.8 C fluid temp. meas. GDCS tank / GDCS 479 MTF.GD.3 PSITC 1.0-196.58 C 0.8 C fluid temp. meas. GDCS tank / GDCS 478 MTF.GD.4 PSITC 1.0-196.58 C 0.8 C fluid temp. meas. GDCS tank / GDCS 477 MTF.GD.5 PSI TC 1.0-196.58 C 0.8 C fluid temp. mess. GDCS tank / GDCS -

476 MTF.GD.6 PSITC 1.0-196.58 C 0.8 C fluid temp. meas. GDCS tank / GDCS 475 MTF.GD.7 PSITC 1.0-196.58 C 0.8 C fluid temp. meas. GDCS tank / GDCS 336 MTF.RP.1 PSITC 1.0-196.58 C 0.8 C fluid temp. meas. Reactor Pressure Vessel / RPV 335 MTF.RP.2 PSITC 1.0-196.58 C 0.8 C fluid temp. meas. Reactor Pressure Vessel / RPV 334 MTF.RP.3 PSI TC 1.0-196.58 C 0.8 C fluid temp. meas. Reactor Pressure Vessel / RPV 96 MTF.RP.4 PSITC 1.0-196.58 C 0.8 C fluid temp. meas. Reactor Pressure Vessel / RPV 95 MTF.RP.5 PSITC 1.0-196.58 C 0.8 C fluid temp. meas. Reactor Pressure Vessel / RPV 474 MTG.D1.1 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Drywell 1/ DW1 473 MTG.DI.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Drywell 1/ DW1 472 MTG.DI.3 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Drywell 1/ DW1 471 MTG.DI.4 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Drywell 1/ DW1 470 MTG.DI.5 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Drywell 1/ DW1 469 MTG.DI.6 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Drywell 1/ DW1 467 MTG.D2.1 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. Drywell 2 / DW2 466 MTG.D2.2 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. Drywell 2 / DW2 465 MTG.D2.3 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. Drywell 2 / DW2 464 MTG.D2.4 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. Drywell 2 / DW2 463 MTG.D2.5 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Drywell 2 / DW2

ALPHA-622-0 / Page 42 Table A.1: M9 Data identification contd.

DACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATION 462 MTG.D2.6 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Drywell 2 / DW2 717 MTG.GP1.1 PSITC 1.0-196.58 C 0.8 C gas temp. meas. GDCS Pressure equal. GDCS-DW1 716 MTG.GP1.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. GDCS Pressure equal. GCCS DW1 715 MTG.GP2.1 PSITC 1.0-196.58 C 0.8 C gas temp. meas. GDCS Pressure equal. GDCS-DW2 714 MTG.GP2.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. GDCS Pressure equal. GDCS-DW2 l

713 MTG.11.1 PSITC 1.0-196.58 C 0.8 C gas temp. meas. IC Condenser 712 MTG.11.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. IC Condenser 711 MTG.11.3 PSITC 1.0-196.58 C 0.8 C gas temp. meas. IC Condenser 710 MTG.11.4 PSITC 1.0-196.58 C 0.8 C gas temp. meas. IC Condenser 709 MTG.11.5 PSITC 1.0-196.58 C 0.8 C gas temp. meas. IC Condenser 708 MTG.II.6 PSITG 1.0-196.58 C 0.8 C gas temp. meas. IC Condenser 707 MTG.11.7 PSITC 1.0-196.58 C 0.8 C gas temp. meas. IC Condenser 706 MTG.11.8 PSITC 1.0-196.58 C 0.8 C gas temp. meas. IC Condenser 705 MTG.11.9 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. IC Condenser 571 MTG.11 F.1 HB Pt100 0.0-200.00 C 0.2 C gas temp. mess. IC Feed RPV->lC 459 MTG.11F.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. IC Feed RPV->lC 704 MTG.11F.3 PSITC 1.0-196.58 C 0.8 C gas temp. meas. IC Feed RPV->lC 237 MTG.MSI.1 HB Pt100 0.0-200.00 C 0.2 C gas temp. meas. Main Steam line RPV->DW1 458 MTG.MSI.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Main Steam line RPV->DW1 456 MTG.MS1.3 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Main Steam line RPV->DW1 238 MTG.MS2.1 HB Pt100 0.0-200.00 C 0.2 C gas temp. meas. Main Steam line RPV->DW2 455 MTG.MS2.2 PSITC 1.0-196.58 C 0.8 C gas temp. mess. Main Steam line RPV->DW2 454 MTG.MS2.3 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Main Steam line RPV->DW2

ALPHA-622-0 / Page 43 1

TatWe A.1: M9 Data identification contd.

DACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATION 287 MTG.MV1.1 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Main Vent line DW1->SC1 333 MTG.MV1.2 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. Main Vent line DW1->SC1 t

216 MTG.MV1.3 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Main Vent line DW1->SC1 215 MTG.MV1.4 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. Main Vent line DW1->SC1 286 MTG.MV2.1 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Main Vent line DW2->SC2 332 MTG.MV2.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Main Vent line DW2->SC2 214 MTG.MV2.3 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. Main Vent line DW2->SC2 213 MTG.MV2.4 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Main Vent line DW2->SC2 703 MTG.P1.1 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC1 Condenser 702 MTG.P1.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC1 Condenser 701 MTG.P1.3 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC1 Condenser 700 MTG.P1.4 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC1 Condenser 699 MTU.P1.5 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC1 Condenser 698 MTG.P1.6 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC1 Condenser 696 MTG.P1.7 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC1 Condenser 695 MTG.P1.8 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC1 Condenser 694 MTG.P1.9 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC1 Condenser 572 MTG.P1 F.1 HB Pt100 0.0-200.00 C 0.2 C gas temp. mess. PCC1 Feed DW1->PCC1 693 MTG.P1F.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC1 Feed DW1->PCC1 365 MTG.P1V.1 HB Pt100 0.0-200.00 C 0.4 C gas temp. meas. PCC1 Vent PCC1->SC1 692 MTG.P1V.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCCI Vent PCCI->SC1 331 MTG.P1V.3 PSITC 1.0-106.58 C 0.8 C gas temp. meas. PCC1 Vent PCC1-> SCI

ALPHA-622-0 / Page 44 Table A.1: M9 Data identification contd.

i DACHANNEL PROCESSID TYPE RANGEtUNIT ACCURACY LOCATION 212 MTG.P1V.4 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC1 Vent PCC1-> SCI 211-MTG.P1V.5 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC1 Vent PCC1->SC1 691 MTG.P2.1 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Condenser 690 MTG.P2.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Condenser l

689 MTG.P2.3 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Condenser 688 MTG.P2.4 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Condenser 687 MTG.P2.5 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Condanser j

686 MTG.P2.6 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Condenser l

685 MTG.P2.7 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Condenser t

684 MTG.P2.8 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Condenser l

683 MTG.P2.9 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Condenser

[

573 MTG.P2F.1 HB Pt100 0.0-200.00 C 0.2 C gas temp. meas. PCC2 Feed DW2->PCC2

[

682 MTG.P2F.2 PSITG 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Feed DW2->PCC2 f

366 MTG.P2V.1 HB Pt100 0.0-200.00 C 0.4 C gas temp. meas. PCC2 Vent PCC2->SC2 1

681 MTG.P2V.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Vent PCC2->SC2 f

330 MTG.P2V.3 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Vent PCC2->SC2 l

210 MTG.P2V.4 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Vent PCC2->SC2

}

209 MTG.P2V.5 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. PCC2 Vent PCC2->SC2 528 MTG.P3.1 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC3 Condenser

[

527 MTG.P3.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC3 Condenser 526 MTG.P3.3 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC3 Condenser 525 MTG.P3.4 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC3 Condenser I

~.

ALPHA-622-0 / Page 45 Table A.1: M9 Data identification contd.

DACHANNEL PRCCESSID TYPE RANGE / UNIT ACCURACY LOCATION 524 MTG.P3.5 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC3 Corbaser 523 MTG.P3.6 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC3 Condenser 522 MTG.P3.7 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC3 Condenser 521 MTG.P3.8 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC3 Condenser 520 MTG.P3.9 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC3 Condenser 574 MTG.P3F.1 MB Pt100 0.0-200.00 C 0.2 C gas temp. meas. PCC3 Feed DW2->PCC3 680 MTG.P3F.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC3 Feed DW2->PCC3 367 MTG.P3V.1 HB Pt100 0.0-200.00 C 0.4 C gas temp. meas. PCC3 Vent PCC3->SC2 679 MTG.P3V.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC3 Vent PCC3->SC2 329 MTG.P3V.3 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. PCC3 Vent PCC3->SC2

-208 MTG.P3V.4 PSITC 1.0-196.58 C 0.8 C gas temp. meas. PCC3 Vent PCC3->SC2 207 MTG.P3V.5 PSITC 1.0-196.58 C -

0.8 C gas temp. meae. PCC3 Vent PCC3->SC2 206 MTG.SI.1 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Suppression Chamber 1/ SCI 205 MTG.S1.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Suppression Chamber 1/ SC1 204 MTG.SI.3 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Suppression Chamber 1/ SCI l

203 MTG.SI.4 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Suppression Chamber 1/ SC1 J

202 MTG.S1.5 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Suppression Chamber 1/ SC1

[

201 MTG.SI.6 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Suppression Chamber 1/ SC1 j

199 MTG.S2.1 PSITC 1.0-196.58 C 0.8 C gas temp. rmas. Suppression Chamber 2 / SC2 198 MTG.S2.2 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. Suppression Chamber 2 / SC2

]

197 MTG.S2.3 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Suppression Chamber 2 / SC2 l

196 MTG.S2.4 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Suppression Chamber 2 / SC2 195 MTG.S2.5 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Suppression Chamber 2 / SC2 j

-._.-_--____--_____u--,--..___

.-.r

ALPHA-622-0 / Page 46 Table A.1: M9 Data identification contd.

DACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATION 194 MTG.S2.6 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Suppression Chamber 2 / SC2 449 MTG.TDO.1 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. DW1-DW2 connection 448 MTG.TDO.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. DW1-DW2 connection 447 MTG.TDO.3 F SiTC 1.0-196.58 C 0.8 C gas temp. meas. DW1-DW2 connection 328 MTG.TSU.1 PSITC 1.0-196.58 C 0.8 C gas temp. meas. SC1-SC2 Upper connection 327 MTG.TSU.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. SC1-SC2 Upper connection 326 MTG.TSU.3 PSITC 1.0-196.58 C 0.8 C gas temp. meas. SC1-SC2 Upper connection 325 MTG.VB1.1 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Vacuum Breaker SC1-DW1 324 MTG.VB1.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Vacuum Breaker SC1-DW1 446 MTG.VB1.3 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. Vacuum Breaker SCI-DW1 445 MTG.VB1.4 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Vacuum Breaker SC1-DW1 323 MTG.VB2.1 PSI TC 1.0-196.58 C 0.8 C gas temp. meas. Vacuum Breaker SC2-DW2 322 MTG.VB2.2 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Vacuum Breaker SC2-DW2 444 MTG.VB2.3 PSITC 1.0-196.58 C 0.8 C gas temp. meas. Vacuum Breaker SC2-DW2 443 MTG.VB2.4 PSI TC 1.0-196.58 C 0.8 C gas temp. mens. Vacuum Breaker SC2-DW2 283 MTI.D1.1 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 1/ DW1 282 MTI.D1.2 PSITC 1.0-196.58 C 0.8 C inside wal temp. meas. Drywell 1/ DWt 281 MTI.D1.3 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 1/ DW1 280 MTI.DI.4 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 1/ DW1 j

279 MTI.DI.5 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 1/ DW1 278 MTI.01.6 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 1/ DW1 277 MTl.D1.7 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 1/ DW1

I ALPHA-622-0 / Page 47 Tatde A.1: M9 Data identification contd.

[

DACHANNEL PROCESSID TYPE RANGEtUNIT ACCURACY LOCATION t

276 MTI.DI.8 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 1/ DW1 275 MTI.D1.9 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 1/ DW1 274 MTI.D2.1 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 2 / DW2 273 MTl.D2.2 PSITC 1.0-196.58 C 0.8 C inside wall temp. mess. DryweN 2 / DW2 272 MTI.D2.3 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 2 / DW2 271 MTI.D2.4 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 2 / DW2 270 MTI.D2.5 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 2 / DW2 269 MTI.D2.6 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 2 / DW2 l

r 268 MTI.D2.'7 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 2 / DW2 267 MTI.D2.8 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 2 / DW2 266 MTI.D2.9 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Drywell 2 / DW2 263 MTI.GD.1 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. GDCS tank / GDCS 262 MTI.GD.2 PSITC 1.0-196.58 C 0.8 C Inside wall temp. meas. GDCS tank / GDCS 261 MTI.GD.3 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. GDCS tank / GDCS 260 MTI.GD.4 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. GDCS tank / GDCS 259 MTI.GD.5 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. GDCS tank / GDCS 258 MTl.GD.6 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. GDCS tank / GDCS 244 MTI.RP.1 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Reactor Pressure Vessel / RPV 243 MTI.RP.2 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Reactor Pressure Vessel / RPV 242 MTI.RP.3 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Reactor Pressure Vessel / RPV 191 MTI.SI.1 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 1/ SC1 190 MTI.S1.2 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 1/ SC1

ALPHA-622-0 / Page 48 Table A.1: M9 Data identification contd.

DACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATION 189 MTI.S1.5 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 1/ SCI 188 MTI.SI.4 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 1/ SC1 187 MTI.S1.5 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 1/ SC1 186 MTI.S t.6 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 1/ SC1 185 MTI.SI.7 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 1/ SCI 184 MTI.S t.8 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 1/ SCI 183 MTI.S1.9 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 1/ SC1 182 MTI.S2.1 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 2 / SC2 181 MTi.S?.;

PSITC 1.0-196.58 C 0.8 C inside wall temp. mess. Suppression Chamber 2 / SC2

~

180 MTI.E ' 3 PSI TC 1.0-1%.58 C 0.8 C inside wall temp. meas. Suppression Chamber 2 / SC2 179 MTI.S2.4 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 2 / SC2 178 MTI.S2.5 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 2 / SC2 177 MTI.S2.6 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 2 / SC2 176 MTI.S2.7 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 2 / SC2 175 MTI.S2.8 PSI TC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 2 / SC2 174 MTI.S2.9 PSITC 1.0-196.58 C 0.8 C inside wall temp. meas. Suppression Chamber 2 / SC2 14 MTLEGO HB Pt100 0.0-200.00 C 0.4 C hquid temp. meas. EOualization line common branch 15 MTLGRT.1 HB Pt100 0.0-200.00 C 0.2 C hquid temp. meas. Condensate Retum GDCS->RPV 88 MTLGRT.2 PSITC 1.0-196.58 C 0.8 C liquid temp. meas. Condensate Retum GDCS->RPV 317 MTL.GRT.3 PSI TC 1.0-196.58 C 0.8 C liquid temp. mess. Condensate Retum GDCS->RPV 674 MTLl1 PSI TC 1.0-196.58 C 0.8 C liquid temp. meas. IC Condenser 16 MTL.11C.1 HB Pt100 0.0-200.00 C 0.4 C liquid temp. meas. IC Condensate IC->RPV

~.

ALPHA-6224)/ Page 49 Table A.1: M9 Data identification contd.

DACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATION i

672 MTLI1C.2 PSITC 1.0-196.58 C 0.8 C liquid temp. mens. IC Condensate IC->RPV 173 MTLl1C.3 PSI TC 1.0-196.58 C 0.8 C liquid temp. meas. IC Condensate IC->RPV 671 MTLP1 PSITC 1.0-196.58 C 0.8 C liquM temp. meas. PCC1 Condenser 234 MTLPIC.1 HB Pt100 0.0-200.00 C 0.4 C liqu'd temp. meas. PCC1 Condensate PCC1->GDCS l

670 MTLP1C.2 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. PCC1 Condensate PCC1->GDCS 669 MTLP2 PSI TC 1.0-196.58 C 0.8 C liquid temp. meas. PCC2 Condenser 235 MTL.P2C.1 HB Pt100 0.0-200.00 C 0.4 C hquid temp. meas. PCC2 Condensate PCC2->GDCS 668 MTL.P2C.2 PSITC 1.0-196.58 C 0.8 C ltquid temp. meas. PCC2 Condensate PCC2->GDCS 519 MTLP3 PSITC 1.0-196.58 C 0.8 C liquid temp. meas. PCC3 Condenser 236 MTLP3C.1 HB Pt100 0.0-200.00 C 0.4 C liquid temp. meas. PCC3 Condensate PCC3->GDCS 1

667 MTL.P3C.2 PSI TC 1.0-196.58 C 0.8 C hquid temp. meas. PCC3 Condensate PCC3->GDCS 86 MTL.RP.1 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. Reactor Pressure Vessel / RPV 85 MTLRP.2 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. Reactor Pressure Vessel / RPV 172 MTLSI.1 PSITC 1.0-196.58 C 0.8 C hqued temp. meas. Suppression Chamber 1/ SC1 171 MTLSI.2 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. Suppressioa Chamber 1/ SCI 170 MTLSI.3 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. Suppression Chamber 1/ SCI 168 MTLSI.4 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. Suppression Chamber 1/ SC1 167 MTL.S1.5 PSI TC 1.0-196.58 C 0.8 C hquid temp. meas. Suppression Chamber 1/ SCI 166 MTLSI.6 PSITC 1.0-196.58 C 0.8 C hquid tema. meas. Suppression Chamber 1/ SC1 165 MTL.S2.1 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. Suppression Chamber 2 / SC2 164 MTL.S2.2 PSITC 1.0-196.58 C 0.8 C hqued temp. meas. Suppression Chamber 2 / SC2 163 MTLS2.3 PSITC 1.0-196.58 C 0.8 C liquid temp. meas. Suppression Chamber 2 / SC2

ALPHA-622-0 / Page 50 Table A.1: M9 Data Identification contd.

i DACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATION E

162 MTLS2.4 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. Suppression Chamber 2 / SC2 161 MTLS2.5 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. Suppression Chamber 2 / SC2 160 MTLS2.6 PSI TC 1.0-196.58 C 0.8 C liqued temp. meas. Suppression Chamber 2 / SC2 159 MTL.TSL1 PSI TC 1.0-196.58 C 0.8 C hqued temp. meas. SCI-SC2 Lower connection 158 MTL.TSL2 PSITC 1.0-196.58 C 0.8 C liquid temp. meas. SC1-SC2 Lower connection 157 MTLTSL3 PSITC 1.0-196.58 C 0.8 C lequed temp. meas. SC1-SC2 Lower connection 432 MTL.UO.1 PSITC 1.0-196.58 C 0.8 C hqued temp. meas. IC pool 431 MTLUO.2 PSITC 1.0-196.58 C 0.8 C liqued temp. meas. IC pool 430 MTLUO.3

' PSI TC 1.0-196.58 C 0.8 C hqued temp. meas. IC pool 429 MTLUO.4 PSITC 1.0-196.58 C 0.8 C liquid temp. meas. IC pool 428 MTLUO.5 PSITC 1.0-196.58 C 0.8 C hqued temp. meas. IC pool 427 MTLUO.6 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. IC pool 426 MTLUO.7 PSI TC 1.0-196.58 C 0.8 C liqued temp. meas. IC pool 657 MTLU1.1 PSI TC 1.0-196.58 C 0.8 C hquid temp. meas. PCC1 pool 656 MTLUI.2 PSITC 1.0-196.58 C 0.8 C hqued temp. meas. PCCI pool 655 MTLU1.3 PSI TC 1.0-196.58 C 0.8 C hquid temp. meas. PCC1 pool 654 MTLUI.4 PSITC 1.0-196.58 C 0.8 C hqued temp. meas. PCC1 pool 653 MTLUI.5 PSITC 1.0-196.58 C 0.8 C liqued temp. meas. PCC1 pool 652 MTLU1.6 PSITC 1.0-196.58 C 0.8 C liquid temp. meas. PCC1 pool 651 MTLU1.7 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. PCCI pool 647 MTLU2.1 PSI TC 1.0-196.58 C 0.8 C liquid temp. meas. PCC2 pool 646 MTLU2.2 PSITC 1.0-196.58 C 0.8 C liquid temp. meas. PCC2 pool

.m m

m

-_._____.,_____.________..._______m_________a

ALPHA-622-0 / Page 51 Table A.1: M9 Data identification contd.

0ACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATION 645 MTLU2.3 PSITC 1.0-196.58 C 0.8 C liquid temp. meas. PCC2 pool 644 MTLU2.4 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. PCC2 pool f

643 MTLU2.5 PSITC 1.0-196.58 C 0.8 C hqued temp. meas. PCC2 pool 642 MTLU2.6 PSI TC 1.0-196.58 C 0.8 C liquid temp. meas. PCC2 pool 641 MTLU2.7

, PSI TC 1.0-196.58 C 0.8 C liquid temp. meas. PCC2 pool 518 MTLU3.1 PS:TC 1.0-196.58 C 0.8 C liquid temp. meas. PCC3 pool t

517 MTLU3.2 PSITC 1.0-196.58 C 0.8 C liquid temp. meas. PCC3 pool 516 MTLU3.3 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. PCC3 pool f

515 MTLU3.4 PSI TC 1.0-196.58 C 0.8 C hquid temp. meas. PCC3 pool 514 MTLU3.5 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. PCC3 pool 513 MTL.U3.6 PSITC 1.0-196.58 C 0.8 C liquid temp. meas. PCC3 pool

{

512 MTLU3.7 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. PCC3 pool

[

511 MTL.U3.8 PSITC 1.0-196.58 C 0.8 C liquid temp. meas. PCC3 pool 510 MTLU3.9 PSITC 1.0-196.56 C 0.8 C hquid temp. meas. PCC3 pool 509 MTLU3.10 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. PCC3 pool 508 MTLU3.11 PSI TC 1.0-196.58 C 0.8 C hquid temp. meas. PCC3 pool 507 MTL.U3.12 PSI TC 1.0-196.58 C 0.8 C hquid temp. meas. PCC3 pool 506 MTLU3.13 PSITC 1.0-196.58 C 0.8 C hquid temp. mess. PCC3 pool f

504 MTLU3.14 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. PCC3 pool 503 MTLU3.15 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. PCC3 pool l

502 MTLU3.16 PSI TC 1.0-196.08 C 0.8 C hquid temp. meas. PCC3 pool

}

501 MTL.U3.17 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. PCC3 pool i

ALPHA-622-0 / Page 52 Table A.1: M9 Data identification contd.

DACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATICN 500 MTL.U3.18 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. PCC3 pool 499 MTL.U3.19 PSITC 1.0-196.58 C 0.8 C hquid temp. meas. PCC3 pool 636 MTO.DI.1 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. Drywell 1/ DW1 635 MTO.DI.2 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. Drywell 1/ DW1 634 MTO.D1.3 PSI TC 1.0-196.88 C 0.8 C outside wall temp. meas. DryweN 1/ DW1 I

254 MTO.D1.4 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. Drywell 1/ DW1 253 MTO.D1.5 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. Drywell 1/ DW1 252 MTO.DI.6 PSITC 1.0-196.58 C 0.8 C outside waH temp. meas. Drywell 1/ DW1 l

315 MTO.D1.7 PSITC 1.0-196.58 C 0.8 C outside waN temp. meas. Drywell 1/ DW1 314 MTO.D1.8 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. DryweR 1/ DW1 1

312 MTO.D1.9 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. Drywell 1/ DW1 633 MTO.D2.1 PSITC 1.0-196.58 C 0.8 C outside waH temp. meas. DryweN 2 / DW2 632 MTO.D2.2 PSITC 1.0-196.58 C 0.8 C outside wall temp. maas. Drywell 2 / DW2 631 MTO.D2.3 PSI TC 1.0-196.58 C 0.8 C outside wall temp. meas. Drywell 2 / DW2 257 MTO.D2.4 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. Drywell 2 / DW2 256 MTO.D2.5 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. Drywell 2 / DW2 l

255 MTO.D2.6 PSI TC 1.0-196.58 C 0.8 C outside waN temp. meas. Drywell 2 / DW2 311 MTO.D2.7 PSI TC 1.0-196.58 C 0.8 C outside wall temp. meas. DryweN 2 / DW2 310 MTO.D2.8 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. Drywell 2 / DW2 309 MTO.D2.9 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. Drywell 2 / DW2 251 MTO.GD.1 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. GDCS tank / GDCS 250 MTO.GD.2 PSI TC 1.0-196.58 C 0.8 C outside waH temp. meas. GDCS tank / GDCS

b ALPHA-622-0 / Page 53 i

Table A.1: M9 Data klentification contd.

1 DACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATION 249 MTO.GD.3 PSITC 1.0-196.58 C 0.8 C outside waN temp. meas. GDCS tank / GDCS L

248 MTO.GD.4 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. GDCS tank / GDCS 247 MTO.GD.5 PSI TC 1.0-196.58 C 0.8 C outside waN temp. meas. GDCS tank / GDCS f

246 MTO.GO.6 PSITC 1.0-196.58 C 0.8 C outside waN temp. meas. GDCS tank / GDCS 308 MTO.SI.1 PSITC 1.0-196.58 C 0.8 C outside waN temp. meas. Suppression Chamber 1/ SCI i

307 MTO.S1.2 PSITC 1.0-196.58 C 0.8 C outside waN temp. meas. Suppression Chamber 1/ SCI

+

306 MTO.S1.3 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. Suppression Chamber 1/ SC1 j

156 MTO.SI.4 PSITC 1.0-196.58 C 0.8 C outside waN temp. meas. Suppression Chamber 1/ SC1 l

155 MTO.S1.5 PSI TC 1.0-196.58 C 0.8 C outside wall temp. meas. Suppression Chamber 1/ SC1 154 MTO.SI.6 PSITC 1.0-196.58 C 0.8 C outsede wall temp. meas. Suppression Chamber 1/ SCI f

80 MTO.S1.7 PSITC 1.0-196.58 C 0.8 C outside wall temp. mess. Suppression Chamber 1/ SC1 79 MTO.SI.8 PSITC 1.0-196.58 C 0.8 C outside waN temp. meas. Suppression Chamber 1/ SC1 f

78 MTO.SI.9 PSITC 1.0-196.58 C.

0.8 C outside waN temp. meas. Suppression Chamber 1/ SCI l

305 MTO.S2.1 PSITC 1.0-196.58 C 0.8 C outside well temp. meas. Suppression Chamber 2 / SC2 l

304 MTO.S2.2 PSITC 1.0-196.58 C 0.8 C outside waN temp. meas. Suppression Chamber 2 / SC2 303 MTO.S2.3 PSI TC 1.0-196.58 C

'O.8 C outside wall temp. meas. Suppression Chamber 2 / SC2 153 MTO.S2.4 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. Suppression Chamber 2 / SC2 152 MTO.S2.5 PSITC 1.0-196.58 C 0.8 C outside wall temp. mess. Suppression Chamber 2 / SC2 151 MTO.S2.6 PSITC 1.0-196.58 C 0.8 C outside wall temp. meas. Suppression Chamber 2 / SC2

?

77 MTO.S2.7 PSITC 1.0-196.58 C 0.8 C outside waN temp. meas. Suppression Chamber 2 / SC2 76 MTO.S2.8 PSI TC 1.0-196.58 C 0.8 C outside wall temp. meas. Suppression Chamber 2 / SC2 75 MTO.S2.9 PSITC 1.0-196.58 C 0.8 C outsede waN temp. meas. Suppression Chamber 2 / SC2 i

l

~.

ALPHA-622-0 / Page 54 Table A.1: M9 Data identification contd.

~

DACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATION 376 MTP.S2 Li TC 0.0-1000.0 C 0.75 %

Temp. for oxygen Probe Suppression Chamber 2 / SC2 408 MTS.D1.1 PSITC 1.0-196.58 C 0.6 C pool surface temp. meas. Drywell 1/ DW1 407 MTS.DI.2 PSITC 1.0-196.58 C 0.6 C pool surface temp. meas. Drywell 1/ DW1 406 MTS.DI.3 PSITC 1.0-196.58 C 0.6 C pool surface temp. meas. Drywell 1/ DW1 405 MTS.D2.1 PSITC 1.0-196.58 C 0.6 C pool surface temp. meas. Drywell 2 / DW2 404 MTS.D2.2 PSI TC 1.0-196.58 C 0.6 C pool surface temp. meas. Drywell 2 / DW2 403 MTS.D2.3 PSITC 1.0-196.58 C 0.6 C pool surface temp. meas. Drywell 2 / DW2 402 MTS.GD.1 PSITC 1.0-196.58 C 0.6 C pool surface temp. meas. GDCS tank / GDCS 401 MTS.GD.2 PSITC 1.0-196.58 C 0.6 C pool surface temp. meas. GDCS tank / GDCS 400 MTS.GD.3 PSI TC 1.0-196.58 C 0.6 C pool surface temp. meas. GDCS tank / GDCS 150 MTS.SI. i PSITC 1.0-196.58 C 0.6 C pool surface temp. meas. Suppression Chamber 1/ SCI 149 MTS.81.2 PSITC 1.0-196.58 C 0.6 C pool surface temp. meas.' Suppression Chamber 1/ SC1 148 MTS.SI.3 PSITC 1.0-196.58 C 0.6 C pool surface temp. meas. Suppression Chamber 1/ SC1 147 MTS.S2.1 PSITC 1.0-196.58 C 0.6 C pool surface temp. meas. Suppression Chamber 2 / SC2 146 MTS.S2.2 PSITC 1.0-196.58 C 0.6 C pool surface Imnp. meas. Suppression Chamber 2 / SC2 144 MTS.S2.3 PSITC 1.0-196.58 C 0.6 C pool surface temp. meas. Stppression Chamber 2 / SC2 425 MTT.11.1 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. IC Condenser 424 MTT.11.2 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. IC Condenser 423 MTT.11.3 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. IC Condenser 422 MTT.11.4 PSI T C i.0-196.53 C 0.8 C tube wall temp. meas. IC Condenser 421 MTT.11.5 PSITC 1.0-196.58 C 0.8 C tube wall temp. mers. IC Condenser 420 MIT.11.6 PSI TC 1.0-196.58 C 0.8 C tube wall temp. meas. IC Condenser

ALPHA-622-0 / Page 55 Tatde A.1: M9 Data identification contd.

DACHANNEL PROCESSID TYPE RANGEAINIT ACCURACY LOCATION 419 MTT.11.7 PSITC 1.0-196.58 C 0.8 C tube wall temp. mess. IC Condenser 418 MTT.11.8 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. IC Condenser 417 MTT.11.9 PSI TC 1.0-196.58 C 0.8 C tube waN temp. meas. IC Condenser 416 MTT.11.10 PSITC 1.0-196.58 C 0.8 C tube waH temp. meas. IC Condenser 415 MTT.11.11 PSI TC 1.0-196.58 C 0.8 C tube wall temp. meas. IC Condenser 414 MTT.11.12 PSI TC 1.0-196.58 C 0.8 C tube wall temp. meas. IC Condenser 413 MTT.11.13 PSITC 1.0-196.58 C 0.8 C tube waN temp. meas. IC Condenser 412 MTT.11.14 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. IC Condenser 411 MTT.11.15 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. IC Condenser 410 MTT.11.16 PSI TC 1.0-196.58 C 0.8 C tube war temp. meas. IC Condenser 613 MTT.P1.1 PSI TC 1.0-196.58 C 0.8 C tube wall temp. mess. PCC1 Condenser 612 MTT.P1.2 PSITC

.1.0-196.58 C 0.8 C tube wall temp. meas. PCC1 Condenser 611 MTT.P1.3 PSITC 1.0-196.58 C 0.8 C tube waN temp. meas. PCC1 Condenser 610 MTT.P1.4 PSITC 1.0-196.58 C 0.8 C tube waN temp. meas. PCC1 Condenser 609 MTT.P1.5 PSITC 1.0-196.58 C 0.8 C tube waN temp. meas. PCC1 Condenser 608 MTT.P1.6 PS! TC 1.0-196.58 C 0.8 C tube waN temp. meas. PCCI Condenser 607 MTT.P1.7 PSITC 1.0-106.58 C 0.8 C tube waN temo. mess. PCC1 Condenser 606 MTT.P1.8 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC1 Condenser l

605 MTT.P1.9 PSITC 1.0-196.58 C 0.8 C tube wap semp. meas. PCC1 Condenser 604 MTT.P1.10 PSI TC 1.0-196.58 C 0.8 C tube wd temp. meas. PCC1 Condenser -

l 603 MTT.P1.11 PSITC 1.0-196.58 C 0.8 C tube waN temp. meas. PCCI Condenser 602 MTT.P1.12 PSITC 1.0-196.58 C l 0.8 C tube waN temp. meas. PCC1 Condenser i

5 6

ALPHA-622-0 / Page 56 Table A.1: M9 Data identification contd.

DACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATION I

800 MTT.P1.13 PSITC 1.0-196.58 C 0.8 C tube war temp. meas. PCC1 Condenser 599 MTT.P t.14 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC1 Condenser l

598 MTT.P1.15 PSI TC 1.0-196.58 C 0.8 C tube waN temp. meas. PCC1 Condenser 597 MTT.P1.16 PSITC 1.0-196.58 C 0.8 C tube waN temp. meas. PCCI Condenser i

630 MTT.P2.1 PSITC 1.0-196.58 C 0.8 C tube waN temp. meas. PCC2 Condenser 629 MTT.P2.2 PSITC 1.0-196.58 C 0.8 C tube waN temp. meas. PCC2 Condenser f

628 MTT.P2.3 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC2 Condenser 627 MTT.P2.4 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC2 Condenser I

626 MTT.P2.5 PSI TC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC2 Condenser 624 MTT.P2.6 PSI TC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC2 Condenser 623 MTT.P2.7 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC2 Condenser 622 MTT.P2.8 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC2 Condenser 621 MTT.P2.9 PSITC 1.0-196.58 C 0.8 C tube waN temp. meas. PCC2 Condenser 620 MTT.P2.10 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC2 Condenser 619 MTr.P2.11 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC2 Condenser 618 MTT.P2.12 PSITC 1.0-196.58 C 0.8 C tube waN temp. meas. PCC2 Condenser 617 MTT.P2.13 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC2 Condenser c

616 MTT.P2.14 PSI TC 1.0-196.58 C 0.8 C tube waN temp. meas. PCC2 Condenser 615 MTr.P2.15 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC2 Condenser 614 MTF.P2.16 PSI TC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC2 Condenser 498 MTT.P3.1 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser I

497 MTT.P3.2 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser l'

ALPHA-622-@/ Page 57 Table A.1: M9 Data identification contd.

DACHANNEL PROCESSID TYPE RANGEfJNIT ACCURACY LOCATION 496 MTT.P3.3 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser 495 MTT.P3.4 PSI TC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser 494 MTT.P3.5 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser i

493 MTT.P3.6 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser 492 MTT.P3.7 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser 491 MTT.P3.8 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser 490 MTT.P3.9 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser 489 MTT.P3.10 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser 488 MTT.P3.11 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser 487 MTT.P3.12 PSITC 1.0-196.58 C 0.6 C tube war temp. meas. PCC3 Condenser 486 MTT.P3.13 PSITC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser I

485 MTT.P3.14 PSITC 1.0-196.58 C 0.8 C tube war temp. meas. PCC3 Condenser 484 MTT.P3.15 PSI TC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser 483 MTT.P3.16 PSI TC 1.0-196.58 C 0.8 C tube wall temp. meas. PCC3 Condenser 569 MTV.GP1.1 PSITC 1.0-196.58 C 0.8 C wall temp. meas. GDCS Pressure equal. GDCS-DW1 568 MTV.GP1.2 PSITC 1.0-196.58 C 0.8 C wall temp. meas. GDCS Pressure equal. GDCS-DW1 567 MTV.GP2.1 PSITC 1.0-196.58 C 0.8 C wall temp. meas. GDCS Pressure equal. GDCS-DW2 566 MTV.GP2.2 PSITC 1.0-196.58 C 0.8 C waN temp. meas. GDCS Pressure equal. GDCS-DW2 302 MTV.GRT PSITC 1.0-196.58 C 0.8 C wall temp. meas. Condensate Retum GDCS->RPV 2

596 MTV.IIC PSI TC 1.0-196.58 C 0.8 C wall temp. meas. IC Condensate IC->RPV 594 MTV.11 F.1 PSITC 1.0-196.58 C 0.8 C waN temp. meas. IC Feed RPV->IC 399 MTV.11 F.2 PSITC 1.0-196.58 C 0.8 C wall temp. meas. IC Feed RPV->lC

ALPHA-622-0 / Page 58 t

Table A.1: M9 Data identification contd.

DACHANNEL PROCESSID TYPE RANGE / UNIT ACCURACY LOCATION 595 MTV.11F.3 PSITC 1.0-196.58 C 0.8 C waN temp. meas. IC Feed RPV->lC 397 MTV.MSI.1 PSITC 1.0-196.58 C 0.8 C wall temp. meas. Main Steam line RPV->DW1 398 MTV.MSI.2 PSI TC 1.0-196.58 C 0.8 C wal: ? wnp. meas. Main Steam line RPV->DW1 396 MTV.MSI.3 PSITC 1.0-196.58 C 0.8 C wall temp. meas. Main Steam line RPV->DW1 j

394 MTV.MS2.1 PSITC 1.0-196.58 C 0.8 C waN temp. meas. Main Steam line RPV->DW2 I

395 MTV.MS2.2 PSITC 1.0-196.58 C 0.8 C waN temp. meas. Main Steam line RPV->DW2 393 MTV.MS2.3 PSITC 1.0-196.58 C 0.8 C waN temp. meas. Main Steam line RPV->DW2 292 MTV.MV1.1 PSITC 1.0-196.58 C 0.8 C waN temp. meas. Main Vent line DW1->SC1 l

301 MTV.MV1.2 PSITC 1.0-196.58 C 0.8 C wall temp. meas. Main Vent line DW1-> SCI 140 MTV.MV1.3 PSI TC 1.0-196.58 C 0.8 C waN temp. meas. Main Vent line DW1->SC1 291 MTV.MV2.1 PSITC 1.0-196.58 C 0.8 C wall temp. mess. Main Vent line DW2->SC2 l

300 MTV.MV2.2 PSITC 1.0-196.58 C 0.8 C waN temp. meas. Main Vent line DW2->SC2 j

3 141 MTV.MV2.3 PSITC 1.0-196.58 C 0.8 C wall temp. meas. Main Vent line DW2->SC2 593 MTV.PIC PSI TC 1.0-196.58 C 0.8 C waN temp. meas. PCC1 Condensate PCC1->GDCS 592 MTV.P1 F.1 PSI TC 1.0-196.58 C 0.8 C wall temp. meas. PCC1 Feed DW1->PCC1 i

591 MTV.P1 F.2 PSITC 1.0-196.58 C 0.8 C wall temp. meas. PCC1 Feed DW1->PCC1 390 MTV.P1V.1 PSITC 1.0-196.58 C 0.8 C waN temp. meas. PCC1 Vent PCC1-> SCI 590 MTV.P1V.2 PSITC 1.0-196.58 C 0.8 C wall temp. meas. PCC1 Vent PCC1-> SCI 299 MTV.P1V.3 PSITC 1.0-196.58 C 0.8 C walltemp. meas. PCC1 Vent PCCI->SC1 137 MTV.P1V.4 PSITC 1.0-196.58 C 0.8 C waN temp. meas. PCC1 Vent PCC1->SC1 589 MTV.P2C PSI TC 1.0-196.58 C 0.8 C waN temp. meas. PCC2 Condensate PCC2->GDCS 588 MTV.P2F.1 PSITC 1.0-196.58 C 0.8 C wall temp. meas. PCC2 Feed DW2->PCC2

ALPHA-622-0 / Page 59 Tatdo A.1: M9 Data identification contd.

DACHANNEL PROCESSID TYPE RANGEtUNIT ACCURACY LOCATION 587 MTV.P2F.2 PSITC 1.0-196.58 C 0.8 C waN temp. meas. PCC2 Feed DW2->PCC2 389 MTV.P2V.1 PSITC 1.0-t96.58 C 0.8 C waN temp. meas. PCC2 Vent PCC2->SC2 586 MTV.P2V.2 PSITC 1.0-196.58 C 0.8 C waN temp. meas. PCC2 Vent PCC2->SC2 298 MTV.P2V.3 PSITC 1.0-196.58 C 0.8 C wall temp. meas. PCC2 Vent PCC2->SC2 138 MTV.P2V.4 PSI TC 1.0-196.58 C 0.8 C waN temp. meas. PCC2 Vent PCC2->SC2 585 MTV.P3C PSITC 1.0-196.58 C 0.8 C waN temp. meas. PCC3 Condensate PCC3->GDCS 584 MTV.P3F.1 PSITC 1.0-196.58 C 0.8 C wall temp. meas. PCC3 Feed DW2->PCC3 583 MTV.P3F.2 PSITC 1.0-196.58 C 0.8 C wall temp. meas. PCC3 Feed DW2->PCC3 388 MTV.P3V.1 PSI TC 1.0-196.58 C 0.8 C waN temp. mess. PCC3 Vent PCC3->SC2 582 MTV.P3V.2 PSI TC 1.0-196.58 C 0.8 C waN temp. meas. PCC3 Vent PCC3->SC2 297 MTV.P3V.3 PSITC 1.0-196.58 C 0.8 C wall temp. meas. PCC3 Vent PCC3->SC2 139 MTV.P3V.4 PSITC 1.0-126.58 C 0.8 C waN temp. meas. PCC3 Vent PCC3->SC2 296 MTV.VB1.1 PSI TC 1.0-196.58 C 0.8 C waN temp. meas. Vacuum Breaker SC1-DW1 294 MTV.VB1.2 PSITC 1.0-103.58 C 0.8 C wall temp. meas. Vacuum Breaker SC1-DW1 382 MTV.VB1.3 PSITC 1.0-196.58 C 0.8 C waN temp. mess. Vacuum Breaker SC1-DW1 384 MTV.VB1.4 PSITC 1.0-196.58 C 0.8 C waN temp. mess. Vacuum Breaker SC1-DW1 295 MTV.VB2.1 PSITC 1.0-196.58 C 0.8 C wall temp. meas. Vacuum Breaker SC2-DW2 293 MTV.VB2.2 PSITC 1.0-196.58 C 0.8 C waN temp. meas. Vacuum Breaker SC2-DW2 379 MTV.VB2.3 PSITC 1.0-196.58 C 0.8 C waN temp. meas. Vacuum Breaker SC2-DW2 381 MTV.VB2.4 PSITC 1.0-196.58 C 0.8 C wall temp. meas. Vacuum Breaker SC2-DW2 118 MV.GRT I USON 994 449-2722 g/s 2.0 %

volume flow meas. Condensate Retum GDCS->RPV 358 MV.MS1 i VORTEX 100 135-595 g/s 1.5 %

volume flow meas. Main Steam line RPV->DW1 m

mm m.

m-.

m

__m ALPHA-622-0 / Page 60 Table A.1: M9 Data identification contd.

DACHANNEL PROCESSID TYPE RANGEtUNIT ACCURACY LOCA110N 359 MV.MS2 I VOR1EX100 134-592 g/s 1.5 %

volume flow meas. Main Steam line RPV->DW2 562 MV.P1F 1 VORTEX 80 72-311 g/s 1.5 %

volume flow meas. PCC1 Feed DW1->PCCI 352 MV.P1V i VORTEX 80 68-262 g/s 2.0 %

volume flow meas. PCC1 Vent PCC1->SC1 563 MV.P2F i VORTEX 80 73-327 g/s 1.5 %

volume flow meas. PCC2 Feed DW2->PCC2 353 MV.P2V I VORTEX 80 62-259 g/s 2.0 %

volume flow meas. PCC2 Vent PCC2->SC2 116 MV.P3C 1 USON 994 53-387 g/s 2.0 %

volume flow meas. PCC3 Condensate PCC3->GDCS 1.5 %

volume flow meas. PCC3 Feed DW2->PCC3 564 MV.P3F i VORTEX 80 71-342 g/3 ___

354 MV.P3V I VORTEX 80 63-263 g/s 2.0 %

volume flow meas. PCC3 Vent PCC3->SC2 42 MW.RP.1 CB SYNEAX 0 - 50 kW 0.6 %

electrical power meas Reactor Pressure Vessel / RPV 43 MW.RP.2 CB SYilEAX 0 - 300 kW 0.6 %

electrical power meas Reactor Pressure Vessel / RPV 44 MW.RP.3 CB SYNEAX 0 - 300 kW 0.6 %

electrical power mess Reactor Pressure Vessel / RPV 45 MW.RP.4 CB SYNEAX 0 - 300 kW 0.6 %

electrical power meas Reactor Pressure Vessel / RPV 46 MW.RP.5 CB SYNEAX 0 - 300 kW 0.6 %

electrical power meas Reactor Pressure Vessel / RPV 47 MW.RP.6 CB SYNEAX 0 - 300 kW 0.6 %

electrical power meas Reactor Pressure Vessel / RPV 48 MW.RP.7 HB TZA4 TOT 0 - 1500 kW 0.6 %

electrical power meas Reactor Pressure Vessel / RPV A Total of 502 Data Records

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