ML20085J097
| ML20085J097 | |
| Person / Time | |
|---|---|
| Site: | Mcguire, McGuire  |
| Issue date: | 05/16/1983 |
| From: | Beaver B, Mcconnell T DUKE POWER CO. |
| To: | |
| Shared Package | |
| ML20085J091 | List: |
| References | |
| PROC-830516-01, NUDOCS 8310110421 | |
| Download: ML20085J097 (21) | |
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- ,N Form 34731 (10 81) ,.
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i (Formerly SPO 1002-1) -
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DUKE POWER COMPANY (1) ID No: OP/1/A/6200/48 PROCEDURE PREPARATION Change (s) O to PROCESS RECORD 2 Incorporated I
(2) STATION: McGUIRE NUCLEAR STATION (3) PROCEDURE TITLE: OPERATING PROCEDURE FOR THE OPERATION OF THE POST ACCIDENT LIQUID SAMPLE STSTEM (Unit I)
(4) PREPARED BY: N /rx 11t b ' A s h n i s DATE:_ J /// /f 3 (5) REVIEWED BY:M - ,L /=_ - '- DATE: 7-IL - IJ Cross-Disciplinary view By: N/R: [/
(6) TEMPORARY APPROVAL (IF NECESSARY):
By: -
(SRO) Date:
By: Date:
(7) APPROVED BY: /m .Z #1* ~
Date: i/A/D d
(8) MISCELLANEOUS:
Reviewed / Approved By: Date:
Esviewed/ Approved By: Date:
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OP/1/A/6200/48 DUKE POWER COMPANY l McGUIRE NUCLEAR STATION v OPERATING PROCEDURE FOR THE OPERATION OF THE POST ACCIDENT LIQUID SAMPLE SYSTEM (Unit I) l 1
1.0 Purpose 1 The Post Accident Liquid Sampling System (PALS) provides the capacity to i promptly obtain a reactor coolant sample under a nuclear reactor accident condition.
Sample acquisition during accident conditions (normal sampling area being inaccessible) will help evaluate information related to:
- 1) The extent of core damage which has occurred or is occurring.
- 2) Types and quantities of fission products released to containment liquid and gas phases.
- 3) Reactor Coolant chemistry and radiochemistry.
2.0 Limits 2.1 The PALS will be used to sa.nple primary systems under the following 3 .
) conditions:
2.1.1, Post accident sampling -
2.1.2 Inaccessibility of the Primary Sampling Lab due to radiation levels.
2.1.3 Request from the Station Chemist or designee.
2.2 The undiluted sample volume is 1.25 ml. and the final' dilution i volume shall be controlled between 250-3500 ml.
2.3 Health Physics personnel must perfom continuous radiation monitoring during sampling at the liquid sample or control panel on the 716'el and 750'el Auxillary Building respectively.
2.4 Samples will be collected in 1 'mt and 5 ml. lockable glass syringes to be found in the Hot Lab.
2.5 When handling radioactive samples, good laboratory practices and techniques are essential to prevent radioactive contamination of personnel, equipment, and physical structures. Reference applicable SRWP(s) or RWP(s) and Section 3.13 of the Chemistry Manual.
3.0 Initial Conditions l
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p 3.1 In order to maintain the PALS in an operable condition at all times,
\v the following requirements on Enclosure 9.1, PALS Monthly Checklist, must be done monthly and be current prior to sampling.
3.2 Verify with Operations that 1XC "A" Train is in operation when sampling is to be perfonned and list on Enclosure 9.2. <
3.3 If the containment building has been isolated due to an SI or SIS signal, no sample is to be obtained until the On-Site Support Center can decide how to un-isolate one of the sample lines.
3.4 Verify with primary chemistry personnel that no sampling is in progress in the NM Lab.
4.0 Panel Preparation 4.1 Valve Alignment for Liquid Sampling 4.1.1 Contact Operations and request the following valves be opened to obtain the sample desired:
NC HOT LEG A NC Hot Leg #1 Sample Line Inside Cont. Isol 1NM22A
, NCHot Leg Sample Header _0utside Cont. Isol 1NM26B' u NC HOT LEG D NC Hot Leg #4 Sampl_e Line Inside Cont. Isol lNM25A NC Hot Leg Sample Header Outside Cont. Isol INM26B ND PUMP DISCH 1A
- ND Pump 1A and HX Miniflow Stop 1ND68A l
ND PUMP DISCH 1B
- ND Pump 13 and HX 1B Miniflow Stop 1N067B
- Flow should be verified in this piping prior to sampling by verifying with operations that the respective A or B train is in service. Sign off Enclosure 9.2.
4.1.2 Notify Health Physics of sampling and ask for surveillance l prior to going to the Control Panel. Sign off Enclosure 9.2.
..- 4.1.3 Notify Radwaste Chemistry that panel will be operated.
4.1.4 Record specific conductivity of buffer solution on
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Enclosure 9.2 from Primary Chemical Data Log and take a
( stop watch and panel keys (located in Cold Lab Key Box) to Control Panel.
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,3 4.2 Control Panel (750'el. Aux. Bldg. Lable Room)
. q ,' 4.2.1 Turn the main selector knob (on control panel) to " Reset".
Place key in System Power Switch and turn to the right.
- Press " Reset" button.
4.2.2 For ND Pump Discharge Sample, place the " Remote / Local" switch on the PALS Control Panel in the " Local" position and press "Open" switch for INM39 or lhM40 to line up for an ND "lA" or "18" Pump Discharge sample respectively.
This is to be done after Operations has opened 1N068A or 1ND678.
4.2.3 Place the toggle switch fur the dilution water meter and the nitrogen dilution meter on "0N".
4.2.4 Place the toggle switch for the radiation nwnitor to "0N" and turn the scale select to " rem /hr".
4.2.5 Place the temperature prote selector (Tc) to position 1.
4.2.6 Place the conductivity meter to " Measure".
4.2.7 Push in the pH probe " standardize" knob.
,, 4.2.8 Select the system to be sampled with the system selector -
([' Reactor Coolant System (refers to NC Hot Leg), Reactor Building Ncr. Sump'(refers to ND Pump Discharge).
5.0 Panel Operation 5.1 Panel Prep (position 1) 5.1.1 Turn the selector knob to " Panel Prep", position 1.
5.1.2 Press the " Selection Power - Activate" button.
5.1.3 Press the " Panel Prep. - Purge" button an'd hold for 1 min.
and release.
, *- 5.1.4 Press the " Panel Prep. - Drain" button and hold for 30 l
i sec. and release.
l 5.1.5 Press the " Panel Prep. - Calibration" button and hold
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until the conductivity and pH meters stabilize.
(Approximately 1 minute) 5.1.6 Record the specific conductivity reading on Enclosure 9.2, the measured specific conductivity should correspond with the specific conductivity of the pH standard which was prepared in the lab. If not, repect section 5.1.3 and 5.1.5. Contact the Station Chemist or Primary Supervisor
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q if this measure does not work in the event of an accident. l Q' , (If this is a routine test, replace the probe and then submit a work request as a final repair measure.)
- NOTE
- Multiply conductivity meter reading by 1000 to
' obtain proper specific conductivity v'alue.
5.1.7 Adjust the pH meter to the known pH of the standard.
5.1.8 Press the " Panel Prep - Purge" button and hold for 30 seconds then release.
5.1.9 Press the " Panel Prep - Flush" button and hold until the conductivity and pH meters stabilize (specific conductivity and pH of demineralized water) approximately 2-3 minutes, then release.
5.1.10 Press the " Panel Prep - Purge" button for 30 seconds and release.
5.1.11 Press the " Panel Pap - Drain" button for 60 seconds and release.
5.1.12 Repeat Steps 5.1.9, 5.1.10, 5.1.11 and then continue to
' Section 5.2.
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5.2 Sample Collection (Position 2) 5.2.1 Turn the selector knob to " Sample Recirculation", position 2.
5.2.2 Set the temperature selector, located on the instrument panel, to Tc 1.
5.2.3 Record the radiation monitor reading on Enclosure 9.2 (Background).
5.2.4 Press the " Selection Power - Activate" button. Record the starting time on Enclosure 9.2. The radiation monitor should show an increased activity level and Tc 1 should show temperature increase as sample enters the liquid panel.
5.2.5 If Tcl goes above 190*F, sample is not being cooled sufficiently. Turn selector to " Reset". Press" Reset" button and turn Power Key to vertical position. Call Station Chemist or his designee.
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' 5 g 5.2.6 Turn the selector knob to ' sample", position 3, when the Jf v
sample temperature at Tc 1 stabilizes. Record the temperature on Enclosure 9.2. (Approximately 7-8 minutes)
NOTE: Tc 3 monitors KC Coolant outlet from the PALS HX and can be monitored during Tc 1 and Tc 2 stabilization.
5.3 Sample (Position 3) 5.3.1 Turn the temperature selector to Tc 2.
5.3.2 Press the " Selection Power - Activate" button.
5.3.3 Monitor the temperature gauge and when Tc 2 stabilizes record the temperature and radiation readings on Enclosure
" 9.2. (Approximately 7-8 minutes) 5.3.4 Subtract initial background activity from sample activity found during Tc 2 stabilization and record reading on Enclosure 9.2. This is the radiation due to the sample.
5.3.5 Press the " Sample - 1 Tc 2 Stabilize" button. When
_ pressure stabilizes _ record the reading on Enclosure 9.2.
( 5.3.6 Press the " Sample - 2 Pressure Stabilize" button. Record the time sample flow stops on Enclosure 9.2.
5.3.7 Turn the selector k' nob to'"Depressurization", position 4.
5.3.8 Request Operations to close the valves opened in section 4.1. If an NO Pump Discharge sample is being taken, press "close" switch for the ND Pump Discharge Isolation Valve, -
l either 1ND39 or 1ND40 and place the " Remote / Local" switch
! in the " Remote" position.
5.4 Depressurization (Position 4) 5.4.1 Press the " Reset" button on the nitrogen flow totalizer to s.
zero the readout. Preset the counter on the totalizer to 99999.
5.4.2 Press the " Selection Power - Activate" button. Verify the level gauge on the instrument panel indicates a vacuum of
-25 inches of mercury (-25 level). Wait 60 seconds and
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j insure 3000 psig pressure gauge indicates O psig pressure.
5.4.3 Press the " Start" button on the nitrogen flow totalizer s and monitor the level gauge. Press the "Stop" button on the totalizer when the Level gauge needle first begins to
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move (approximately 5 minutes). Press " Start" button and
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"Stop" button to add small amounts of nitrogen and continue small adds until level meter reads 0-2 inches in level. If 5 inches is exceeded, a new stripped gas sample j
( will need to be taken (ie) start from Section 4.1. '
5.4.4 Turn the selector knob to " Liquid Sample", position 5.
5.5 Liquid Sample (Position 5) 5.5.1 Press the " Selection Power - Activate" button.
5.5.2 Prest the " Liquid Sample - 1) Conductivity" button and hold until the conductivity meter stabilizes (approximately 5 seconds). Record the specific conductivity on Enclosure 9.2. .
5.5.3 Press both the " Liquid Sample - 1) Conductivity" and
" Liquid Sample - 2) Log pH" bottons and hold until the pH matar stabilizes. If meter does not stabilize in 30 seconds, release both buttons and take a reading. Record the pH on, Enclosure 9.2.
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5.5.4 Press the " Gas Sample - 1) Activate" button. Note level gauge should decrease.
5.5.5 Pressthe"GasSample-3)DilutedGasSampleGrab" button.
5.5.6 Tunt the selector knob to " Liquid Sample Prep.", position 6.
5.6 Liquid Sample Prep (Position 6) l 5.6.1 Press the " Selection Power - Activate" buttort.
5.6.2 Press the " Liquid Sample Prep - B Activate to desired ml.
volume" button and wait 5 seconds, after depressing. This i deposits 1.25 ml of sample for dilution.
l 5.6.3 Press the " Reset" button on the dilution water flow totalizer and preset the meter for 250 mis of dilution l water. .
Press the " Start" button and let dilution continue to completion. Record the dilution volume on Enclosure 9.2.
5.6.4 Press the " Liquid Sample Prep - 3) Activate Mix" button
( and hold for 10 seconds.
5.6.5 Turn the selector knob to " Liquid Sample", position 7.
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p 5.7 Liquid Sample (Posit.on 7)
( 5.7.1 5.7.2 Press the " Selection Power - Activate" button.
Press the " Liquid Sample - Activate" button. Wait 15 seconds.
5.7.3 Immediately after 15 seconds press the " Liquid Sample -
Diluted Sample Grab" button.
5.7.4 Turn the selector knob to " Flush", position 8.
5.8 Flush (Position 8) 5.8.1 Press the " Selection Power - Activate" button.
5.8.2 Press the " Flush - Activate" button and wait 4 - 5 minutes,1st flush cycle.
5.8.3 Press the " Flush - Activate" button and monitor pH and conductivity meters until they reach equilibrium of domineralized water, 2nd flush cycle. (Approx.10 minutes.)
5.8.4 Press the " Flush - Activate button and wait 3 minutes, 3rd flush cycle.
(' 5.8.5 Press the " Flush - Activate" button. The " Complete":
light must illuminate. If light doesn't illuminate continue and write'a work request after sampling is completed.
, 5.8.6 Tuni the selector knob to " Drain", position 9.
5.9 Drain (Position 9) 5.9.1 Press the " Selection Power - Activate" button.
5.9.2 Press the " Drain - Activate" button. Wait 120 seconds.
5.9.3 Press the " Drain - Activate" button. Wait 120 seconds.
5.9.4 Press the " Drain - Activate" button. Wait 13 minuter.
l 5.9.5 Press the " Drain - Activate" button and the " Complete" light should illuminate.
5.9.6 Turn the selector knob to " reset" and press the " reset" button.
5.9.7 Turn the System Power Key to the left to operate the sump pump: Allow pump to run for 15 minutes to insure sump is pumped dry.
( 5.9.8 Turn the System Power Key to the right to re-energize the PALS. Record the radiation level on Enclosure 9.2.
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p 5.9.9 If the field at the panel is greater than 3 Rem /hr,
. continue to section 5.10, otherwise turn the System Power Key to the vertical off position and proceed to section 6.0. 1 5.10 Decontamination 5.10.1 Tt:rn the selector knob to " Panel Prep", position 1.
5.10.2 Press the " Selection Power - Activate" button. l 5.10.3 Press and hold.the " Flush" button for 2 minutes.
5.10.4 Repeat Panel Flush and Drain modes starting Section 5.8 through 5.9.8.
5.10.5 If radiation level is less than 3 Rem / hour, turn the System Power Key to the vertical position and continue to Section 6.0. If however, the radiation level remains greater than 3 Rem / hour, go back to step 4.1 and repeat the sequence using a larger dilution volume. See Enclosure 9.3 to determine the dilution volume. If with a
.. 3500 ml dilution volume the radiation level is still
( greater than 3 Rem / hour contact the Station Chemist or his designee.
6.0 Samplino 6.1 Verify the operability of 2-1 ml and 2-5 ml glass locking syringes located in the Hot Lab and label them.
6.2 Contact Health Physics Surveillance and Control Group and request surveillance while taking gas and liquid samples from the sample portion of the PALS located on 716'el. Aux. Bldg. FF-54.
6.3 Collect 2 - 1.0 ml stripped gas samples at the gas sample panel septum located on the north side of the sample panel and place syringes in plastic bag.
6.4 Collect 2 - 5 m1 liquid samples from the liquid sample septum located on the south side of the sample panel and place syringes in l
plastic bag.
6.5 Replace the septa after collecting the syringe samples. prior to returning to the Hot Lab, time permitting.
6.6 Take syringes to Hot Lab jn a_ sample carrier and place in operating l , fume hood behind'a lead brick shield to await analysis.
7.0 Sample Analysis l
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p 7.1 One syringe of stripped gas will be analyzed via Chemistry procedure N. CP/0/R/8100/31, Chemistry Procedure for the Analysis of Gases From the neactor Coolant System Gas Mixtures. No averaging of gas samples will be done as in the procedure as only one syringe of sample will be pulled. Analyze the sample for % H and 0 and 2 2 '
report results as follows:
%H2 x 1000 cc x 1 = cc/kg H 2 (ie) %H2 x 58.3 = cc/Kg H 2 0.170 kg 100
%02 x 1000 cc x 1 = cc/kg 0 2 (ie)%02x 58.3 = cc/Kg 0 2 0.170 kg 100 Where: % gas is determined via CP/0/8/8100/31 1000 cc = stripped gas bomb volume 0.170 kg = reactor coolant sample size 1/100 = conversion of percent to decimal Report cc/kg H2 and 0 2on Enclosur_e 9.2.
7.2 Take the restining 1 ml. syringe with stripped gas sample, withdraw 1 ml air from septum stoppered glass vial and load 1 mi stripped gas. AnalyzebyGeLiSpectralAnalysisfollowingCP/0/A/8200/05, ,
Chemistry Procedure for Radioisotope Analysis.
Report the actual sample volume on the botton of the sample analysis form under remarks and submit to Health Physics so that they may adjust isotope acitivities from diluted samples to reflect reactor coolant activity. The calculation is as follows:
Sample Volume = 170 ml. = 0.17 ml.
1000 Where: 1000 cc = stripped gas boet volume 170 cc = reactor coolant sample size 7.3 Take 1 ml of liquid sample and dilute to 50 mis with Super Q Water in a 60 ml poly bottle. Analyze by GeLi Spectral Analysis following CP/0/A/8200/05. Report the actual sample volume being counted on the bottom of the sample analysis form under remarks and submit to Health Physics so that appropriate adjustment of isotope activities occurs. The calculation of sample volume is as follows:
F
A Sample Volume = 1.25 ml
( Total Dilution Volume Where: 1.25 ml. = Reactor Coolant Volume Total Oilution Volume = mis water added in Part II #11 of a
Enclosure 9.2 + 1.25 mis.
. Example: 250 ml dilution water added Sample Volume = 1.25 ml = 4.98 x 10-3 ,),
Y5DFm1 7.4 Take 2 ml. of liquid sample and analyze for Baron using CP/0/B/8100/5E, Chemistry Procedure for the Determination of Baron in Water and Wastewater, Colormetric Method. -
The value received must be corrected for dilution as follows:
ppm Baron in reactor coolant = ppm measured x Total Dilution Volume 1.25 ml.
Where: ppm Boron measured = value obtained via CP/0/B/8100/5E Total Dilution Volume = mis water added Part II #11 of
/ - Enclosure 9.2 + 1.25 ml.
N-1.25 ml. = reactor coolant sample 7.5 If dilution proves inadequate,for any of the above analyses, contact Station Chemist or his designee.
7.6 Report all results in the Primary Chemistry Data Log and Enclosure 9.2. -
7.7 A minimum of 3 mis. of liquid will be needed for halide analysis (chloride). If insufficient sample remains after that needed for Boron and GeLi Spectral Analysis, the panel will be operated again within 10 hrs. after initial sampling and 2-5 ml. syringes of liquid sample taken for halide analysis. One technicon cup of liquid j sample will be analyzed via CP/0/A/8100/06, Chemistry Procedure for l
the Detemination of Chloride in High Purity Water. Results must be l adjusted via the calculation in Section 7.4, substituting ppb Cl-for ppm B, so that dilution is taken into account. Record value in j
Primary Chemistry Data Log. m NOTE: Chloride sample to be taken only in an accident situation.
l l 7.8 Clean 5 ml. syringes with Super Q Water after use.-
8.0 References 8.1 Duke Power Company Nuclear Station Post Accident Liquid Sample
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s 8.2 MC-1572-4.0 LL, Rev.1 8.3 CP/0/B/8100/31, Chemistry Procedura for the Analysis of Gases from Reactor Coolant System Gas Mixtures.
8.4 CP/0/B/8100/05E, Chemistry Procedure for the Deter 1nination of Baron in Water and Wastewater.
8.5 CP/0/A/8200/05, Chemistry Frocedure for Radioisotope Analysis.
8.6 CP/0/A/8100/06, Chemistry Procedure for the Deter 1nination of Chloride in High Purity Water.
9.0 Enclosures 9.1 PALS Monthly Checklist 9.2 PALS Data Sheet 9.3 Correction of Dilution Volume 9.4 PALS Control Panel Diagram
.10.0 General Information 10.1 PALS Breaker - Breaker Box 1XJ Breaker #34 located on 750' el. letS6 10.2 Phone at Control Panel - Ext. 4330 10.3 Phone at Sample Panel - Ext. 4304~
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OP/1/A/6200/48 ENCLOSURE 9.1 PALS MONTHLY CHECKLIST ,
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- 1. pH 7.0 buffer solution must be replaced once a month. Prepare pH 7.0 buffer
, (4 liters) as per CP/0/B/8100/43. Measure specific conductivity and log in Primary Chemical Data Log.
buffer expiration date: ,
specific conductivity: umhos/cm Technician /Date: /
- 2. Verify that the 1000 ppe Boron Standard Stock Solution used in CP/0/B/8100/05E, Chemistry Procedure for the Detennination of Boron in Water and Wastemater, will not expire prior to next monthy inspection. If so, replace as stated in the above procedure.
1000 ppm Baron std. expiration date:
Technician /Date: /
Canninic Acid and 10 ppe Baron std are to be made prior to sampling.
- 3. The following valves should remain open: Location Date Instrument Air Supply Isolation -.l VIZ31 716 el' FF-54 Nitrogen Supply Isolation 1GN124 716 el' above NB Panel KC Supply Isolation to PALS HX ,1XC829 733 el' in front of "A" train pumps DI Water Supply Isolation 1NM376 716 el' FF-54 Panel DI Water Inlet Isolation LATER 716 el' south side of panel .
Panel Nitrogen Inlet Isolation LATER 716 el' south side of panel Panel Instrument Air Inlet Isol. LATER 716 el' south side of panel Panel Sample Return Isolation 1NM411 716 el' inside panel Panel KC Inlet to HX Isolation 1KC957 716 el' FF-54 i Panel KC Outlet from RFIsolation LATER 716 el' inside panel XC Return to System IKC873 733 el' by EMF-46
- 4. pH and conductivity meters must be checked when buffer solution is renewed.
Complete PALS operating procedure sections 4.2.1, 4.2.6, 4.2.7, 5.1.1, 5.1.2, 5.1.3, 5.1.4, 5.1.5, 5.1.6 5.1.7,.5.1.8, 5.1.9, 5.1.10, and 5.1.11.
Turn System Power Key to vertical position to deenergize panel, calibration date: ,
Technician:
- 5. Go to section 3.0 and take a reactor coolant sample using the PALS, analyzing the sample as stated in .the procedure.
ENCLOSURE 9.2 OP/1/A/6200/48 PALS DATA SHEET PART I (Complete prior to going to O control panel) Time
\ l - Verify IKC "A" Train is in operation.
2 - Sample valves opened as per 4.1.1 for the respective sample.
3 - Health Physics notified for monitoring support.
4 - Specific Conductivity of pH 7.0 buffer (reference Primary Chemistry Log). umhos/cm 1
PART II (Complete at the control panel) 1 - Specific Conductivity of pH 7.0 buffer (measured). umhos/cm __
2 - pH meter standardized. _
3 - Radiation field (presample background) rem /hr 4 - Time sample purge started. hrs 5 - Temperatura: Tc 1 *F Temperature: Tc 2 aF -
6 - Radiation field (at sampling) rem /hr
- Radiation field (background) rem /hr
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Radiation due to sample rem /hr 7.- Pressure at Isolation psig 8 - Time sample purge isolated '
hrs 9 - Specific Conductivity of sample umhos/cm 10- pH of sample (measured) 11- Dilution volume (mis. H O 2 added) mis 12- Radiation field (postsample) rem /hr 13 *pH of sample (boron corrected)
- NOTE: If boron is present in sample, pH can be adjusted for boren by referring to baron curve in CP/0/B/8100/43. If this is 1 post accident sump sample, do not correct pH for boren.
PART III (Complete in Hot Lab) 1 - Gas Analysis cc/kg H 2
cc/kg 0 2 2 - GeLi Spectral Analysis (Gas) l 3 - GeLi Spectral Analysis (Liquid)
! 4 - Baron Concentration ppm B 5 - Chloride Concentration opm C1-l l TECHNICIAN i
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.,,, . ENCLOSURE 9.3 OP/1/A/6400/48
/ CORRECTION OF DILUTION VOLUME To correct the dilution volume, divide the final radiation reading (Section !
5.10,5) by 3 rem /hr, then multiply this by.250 m1 to obtain desired dilution volume in Section 5.6.3.
I Example: Reading in Section 5.10.5 = 10 rem /hr then 10 res/hr x 250 = 833 al 3
GobacictoSection5.2andrepeatthesamplesequence,usingadilutionvolumeof 833 m1 in Section 5.6.3 instead of 250 mis.
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. PALS CONTROL PANEL DIAGRAM j l
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F.NCLOSURE 9.4
,.' OP/1/A/6200/48 Page 2 of 2 PALS CONTROL PANEL DIAGRAM E
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APPROVAL DATE Original issued 8/14/78
- REVISION 4 DATE.5//4 h
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DUKE POWER COMPANY McGUIRE NUCLEAR STATION NEWS FET. EASES OBJECTIVE To convey to the public accurate and factual information on its operations, the Company frequently issues official releases of such information to the news media.
APPLICABILITY P
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It is the responsibility of the Corporate Consnunications Department to prepare and issue all of the Company's official news releases after receiving complete and accr. rate information from the Department (s) involved.
'The Nuclear Production Department Duty Engineer will provide the necessary
! informatim to Corporate Cc-=ications for all news release items involving i the operations of Duke Power nuclear generating facilities. News releases may .
involve matters such as equipment or unit outages, serious personnel accidents, damage to equipment during natural (or other) disasters, etc.
l
- 1. The Shift Supervisor, Operations Duty Engineer or Station Manager shall i
contact the Nuclear Production Duty Engineer for the following conditions: (_ - . __ _ _ ._
i l
(a) A shutdown, scheduled or unscheduled, of a unit for a period greater than one day. (Four days for news release.)
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4 (b) Any damage to or failure of any safety-related equipment, ff the time to inspect and repair equipment is likely to exceed technical
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. specifications for the time allowed to return the equipment to s
' operable status.
(c) Any inadvertent release of radioactive material from the plant and all releases of radioactive material from the plant in excess of
, allowable technical specifications.
(d) Any incident resulting in personnel receiving external and/or internal radiation exposures in excess of regulatory limits; or resulting in skin contamination to a level that requires assistance by outside medical personnel for successful decontamination.
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(e) Any unusual event offsite during fuel or radioactive waste transport.
(f) Forced unit outages that would adversely affect the capability of
, providing adequate system load.
(g) Violations of EPA or state water and air permits that may result in enforcement action against the company.
(h) Any injury, radiological or non-radiological, requiring the use of emergency vehicles or requiring hospital or clinical attention.
(i) Any "Netification of Unusual Event" or other emergency classification, as defined in the station emergency plan, that requires notifi:2. ion of state and/or county emergency centers.
(j) Any other incident or activity considered to be of general public interest.
- 2. The Nuclear Production Duty Engineer shall contact a member of the Corporate Communications Department and provide them with available information concerning any incident he may perceive as necessitating a I
Q news release. The release will be made by Corporate Coc:munications, unless specific authorization is given to McGuire Nuclear Station
' Management to do so. In this case, the news release will be prep:. red
. by Corporate Comunicaticas and conveyed, usually by fastest means (telephone oi teletype) for in: mediate release by Station Management.
During. emergency conditions described in the McGuire Emergency Plan, news releases from the Crisis News Center will provide information to
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the media. During the " Notification of Unusual Event" emergency condition, the Emergency Coordinator shall contact the Nuclear Production Duty Engineer in accordance with McGuire Procedure RP/0/A/5700/01, Notification of Unusual Event. The Nuclear Production Duty Engineer shall then contact the Corporate Comunications Department.
- 3. Unless specifically authorized to release information, Station Management should refer all inquiries from the news media to Corporate Comunications. In any case, reporters should be handled in a friendly and courteous mnnar. The StatY1 n Manager or Operations Duty Engineer should be notified that a request for a news release was referred to Corporate Comunications. If a medber of Corporate Communications
- s. .
cannot be contacted, the Station Manager may authorize a news release using the News Release Form (Attachment 1).
Office 5 Weekdays Home Mary Cartwright ,
I Mary Boyd l Andy Thompson f Cicily Newton f i N i N l 24 Hour Answering Service N
's -e se.
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