ML20080T345
| ML20080T345 | |
| Person / Time | |
|---|---|
| Site: | Farley, 05000000 |
| Issue date: | 08/02/1978 |
| From: | John Thomas ALABAMA POWER CO. |
| To: | |
| Shared Package | |
| ML20079E758 | List: |
| References | |
| FOIA-83-789 FNP-1-IMP-202.9, NUDOCS 8403010152 | |
| Download: ML20080T345 (22) | |
Text
e VOL. 8 FNP-1-IMP-202.9 August 2, 1978 f ,',';- -- e Revision 1 i . ,
e FARLEY NUCLEAR' PLANT INSTRUMENT MAINTENANCE PROCEDURE FNP-1-IMP-202.9
.=
VOLUME CONTROL TANK LEVEL LT-115 Approved:
. I&C Suptetvisor Date Issued: 8 -f0-78 8403010152 840125 PDR FOIA -
MADDEN 83-789 PDR
~
1 PROCEDURE REQUEST ICRM FNP-0-AP-1 t' *
- 1. Procedure NumberEA]P-!-rM/'2tJ RRevision Number /
.. Procedure Title VOLU ME CO NT9DL T% M X L.e U e L LT- h 5 O Safety Related I Non-Safety Related O New Procedure Request-O Procedure Revision, New Revision Number O ange of Intent Temporary Procedur- Change, Effective until next permanent change, TCN /
O One ti=e Temporary Procedure Change, Effective from to , TCN
-2. Change Su= mary 2.1 Procedure Page Numbers Affected by Change Ac e /D c $eebo'nx) 7 11. / on) ^), il O u '
2.2 Description of Changes .
CRAr>6R TER PsTA)kL NU HAEAS la nd 9 ~?o %l5 2.3 Reason for Change in tR M G. t E 8 HI tahL N u M SERS E E F_ ev .
O?ne co ur c MS TA'u H ENT
- 3. Prepared By Cvd-A/ 8ATCF , SEA artE M/tN , 3-/7-79 Signature Title Date
- 4. Reviewed By [ [ A ',h e ,1 Srew , .3-/ ~)- 2 9
~
Signature v' Title Date
- 5. Cross-Disciplinary /PORC Review Group Signature T_itle Date 9____ ,
- 6. Temporary Change Approval (Signature /Date)
[femberGroupStaff _NM . . / 3./7_79 L-I Shift Foreman _hted(E C / 7 -- n - W D senior Reactor operator /
s
- 7. Final Approval (Signature /Date, required within 30 days of temporary approval)
Group Supervisor med '
'3 /pdn
//
O Plant Superintendent _ _ /
O Manager of operations gA . _ _ _ /
O Manager of Nuclear Gecerat. ion __ __ /__
O Plant Manager _ . _ _ _ _ _ _ _ /___
Figure 1 Rev. 7 -
VOL. G .
- . LIST OF EFFF.CTIVC PAGES FNP-1-IMP-2 0.4. 9 '
Pi CC REVISIO*i MO. I
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VOL._E[ FNP-1-IMP-202.9 FARLEY NUCLEAR PLANT UNIT 1 INSTRUMENT MAINTEMANCE PROCEDURE dip-202. 9 VOLUME CONTROL TANK LEVEL LT-115 1.0 Purpose 1.l~ The purpose of this procedure is to verify and, if required, re-establish the accuracies and control functions of the channel sensor and associated signal processing equipment.
1.2 This procedure is written for normal complete calibration; however, partial performance is also possible. Partial performance is divided into: 1) the sensor, sections 2.0 through 7.1 and 7.16 or 2). signal processing equipment, scetions 2.0 through 6.3 and 7.2 through 7.16.
. 2.0 Acceptance Criteria 2'.1 The acceptance criteria for this test is that the process instrumentation provide in-tolerance conversion of the process parameter and perform its as-designed indication and control functions.
The setpoints.and tolerances to be used are con-tained in the data package listed as reference 3.1.
3.0 References 3.1 FNP-1-IMP-202.9A Instrument Mainteannce Procedure Data Package " Volume Control Tank Level LT-ll5" 3.2 tion sect.
Bar U-260930,ongonModel3S6 D/P Transmitter 1-4.4,Maintenanceseccionogagibra- .
- 3.3 U-175989, V.C. TK Level Schematic Diagram 7377D81 3.4 U-253631,. Westinghouse PLS 3.5 U-260860,-P-2500 Computer Operators Guide 3.6 D-175039 Sh. 2, CVCS P&ID
'3.7 D-177303, Elem. Diag.-VCT Level and Pressure 4.0 - Test Eculpment 4.1 -Fluke' Digital Multimeter, Model 8120A or equivalent (2).
Rev. 0 9 ,
. . VOL. 8 FNF-1-IMP-202.9
. ~
4.2 Transmat' ion Transmitter Simulator, Model 1040 or equivalent.
4.3 Hewletu Packerd 69203 meter calibrator or equivalent (if transmitter calibration is not to be performed).
4.4 Wallace and Tiernan Pneumatic Calibrator,
. Model 65-120 (0-125 in.) cn: equivalent.
5.0 Precautions and Limitations 5.1 All reference to data sheets by this procedure is to data sheets contained in reference 3.1 All reference to attachments are to the attachments of FNP-0-!MP-443.1.
5.2 Critical procedure sections and steps are listed on page 2 of the data package used with this procedure and are marked with an asterisk (*) with-in the body of this procedure. As each critical step or section is completed, initial on the space provided on Table 1 of the data package.
5.3 Observe all precautions and limitations listed in FNP-0-IMP-0, General Instrumentation and Controls Precautions and Limitations.
5.4 During its conduct of this test, the following will be erratic and unreliable:
5.4.1 LI-115 (MC3) 5.4.2 Annunciator D53 VOLUME CONTROL TANK LEVEL HI-LO.
5.4.3 Annunciator D52 VCT INLET ~ FLOW DIVERTED _TO RHT ON VCT LEVEL HI.
-5.4.4 Annunciator D93 AUTO MAKE-CP START SIGNAL BLOCKED.
5.4.5 Computer AP Loll 2A.
5.5 -The following valves may actuate in automatic control at the volume control tank low-low level set point (L3-112, 5% decreasing).
5.5.1 LCV-1153, RWST to changing pump (open)
Rev. O
VOL. 8 FNP-1-IMP-202.9 C ,
5.5.2 LCV-ll5C, VCT outlet isolation (cicse) .
5.5.3. LCV-ll5D, RWST to charging pump (open).
5.5.4 LCV-ll5E, VCT outlet isolation (close).
- 6.0 Initial conditions 6.1 HS-21000, VCT Auto Make-up selector switch (MCB),
.c .is not in its AUTO position.
6.2 HS-0115A, Letdown divert to H.U. TK valve control (MC3), is in its HU TK position.
6.3 On computer, console enter LO 209S=1.
NOTE: Step 6.3 provides a reliable vulae. and removes frem Scan and Lim 4.t c. hack several computer points including L0ll2A.
6.4 VCT level is being monitored at LT-112 (BTRS Chiller Room) and communication has been setue ~
with the control room.
6.5 . VCT level- is greater than low-low setpoint. (5%)
as indicated on LI-112 or plant in Mode 5 or 6.
-6.6 The Shift Foreman has granted administrative authority to perform this test and is aware of indications, printouts, and alarms that wf.11 re-sult.
7.0 Detailed Procedure
- 7.1 Calibrate D/P transmitter LT-115 as follows:
- 7.1.1 Open the equalizing valve.
- 7.1. 2 Have the High pressure root valve, 1-CVC-V-2418A closed and tagged.
- 7.1.3 Have the Lo pressure root valve, 1-CVC-V-8418B closed and tagged.
CAUTION: Do not open the vent fittings on the transmitter.
- 7.1.4 Vent the high pressure leg by opening the process test connection (swagelok fitting) on the high pressure (upper) bellows isolation housing.
s *7.1.5 Open the drain and calibration valve and drain the sensing lines. Collect any fluid in a suitable container.
Rev. 1 11 ._. - - ~_
T von, 8 FNP-1-IMP-202.9 CAUTION: Observe . caution when handling boric acid solutions.
- 7.1. 6 Connect the test pressure source and test pressure gauge to the drain and calibration connection.
- 7.1. 7 Close the equalizing valve.
7.1.8 Connect a DVM to the transmitter test jack.
7.1.9 Vary the transmitter input as necessary to obtain a transmitter output equal to 12 mA.
Verify that the D.C. potential across the transmitter output terminals is 32.5V SV.
7.1.10 If the voltage is out of t,olerance, measure and record on data sheet 1 the AS FOUND potential at Cabinet 5, TBA, terminals 19 and.20. Then adjust pot M88-1 on the NLP card in location C5-141 to obtain 32.5Vt0.lv at the above terminals and record the FINAL value.
7.1.11 Apply the inputs called for on. data sheet 1 and record AS FOUND data.
7.1. 12 If AS FOUND data is within to'lerance, no further adjustments are required. Proceed to step 7.1.19.
7.1.13 If AS FOUND data is out of tolerance, apply a test pressure-equal to 0% of the transmitter SPAN and adjust the transmitter ZERO to obtain the required value shown on' data sheet 1.
7.1.14 Apply a test pressure eqpal to 100% of the transmitter SP AN , and adjust the SPAN to obtain the required value shown on data sheet 1.
7.1.15 Repeat step 7.1.13 and 7.1.14 until both ZERC and SPAN meet required values.
7.1.16 Apply the values called for on data sheet 1 and ensure all output values are within tolerances. If transmitter output is non-linear, of fset the transmitter zzRo and SPAN ~vithin 3e allowed tolerances to Rev. 0
'. , . VO L'. 8- FNP-1-IMP-202.9 minimize-the maximum difference between REQUIRED and FINAL data. If the transmitter cannot be calibrated using these. instructions, refer to reference 3.2. Record the FINAL data on data sheet 1.
- 7.1.17 Replace the cap on the upper bellows isolation housing.
- 7.1.18 Close the drain and calibration valve.
- 7.1.19 Disconnect all test equipment connected to the transmitter and return the transmitter
-to s'ervice as follows:
- 7.1.19.1 Open the equalizing valve.
- 7.1.19.2 Have the transmitter high pressure root valve opened.
- 7.1.19.3 Have the transmitter low pressure root valve opened.
- 7.1.19.4 Close the equalizing valve.
- 7.1.19.5 vent the low pressure leg at the lower bellows isolation -
vent (swagelok fitting) .
7.2 Card Calibration Setup
- 7.2.1 Pull' the NT.? card in Location C5-141 f ar
.enough forward to de-energize the card.
- 7.2.2 Lift the leads from Cabinet 5, T3A 19 and 20 and connect the transmitter simulator to the terminals.
- 7.2.3 Reinsert .the NLP card.
- 7.3- Calibration of Power Supply (NLP) Card LQY-ll5 Style 2837A12G01, Location C5-141 7.3.1 Adjust the transmitter simulator for an input of 12mA. Measure and record on data sheet 2 the AS FOUND D.C. poten-tial-b.etween Cabinet 5, TBA, terminals 19 and 20.
7.3.2 Adjust' potentiometer M88-1 on the NLP card
$.1 VDC.
, to obtain a D.C. potential of 32.5 Rev. O a
e - - - - -. -- , . , , , , _ . , _ . ,
. . VOL.*8 FNP-1-ItiP-202.9 7.3.3 Record the FINAL D.C. potential on Data Sheet 2.
7.3.4 Connect a DVM to the unisol'ated OUTPUT and SIG COM jacks.
7.3.5 Apply the inputs called for on data sheet 2 and record AS FOUND data.
7.3.6 If necessary, adjust the NLP card as instructed in Attachment A3.
7.3.7 Record FINAL data and disconnect the DVZt.
- 7.4 Indicator Cal bration, Number LI-il5 Location MC3.
7.4.1 Apply the inputs called for on data sheet 2 by adjusting the transmitter simulator and record AS FOUND values.
7.4.2 If required adjust the indicator's zero screw to minimize the maximum error.
. NOTE: Do not turn zero screw more than h turn.in either direction.
7.4.3 If tolerances cannot be met, replace the indicator and repeat 7.4.1.
7.4.4 Record' FINAL data.
- 7.5 Computer Input Calibration, Addressable Point Synbol LO112A.
NOTE: Detailed instructions for executing the computer functions are contained in
, Reference 3.5.
7.5.1 Adjust the transmitter simulator / decade
. resistor / transmitter input to apply the input signals called for on data sheet 3 and check the computer output for each sinnal input using the Check Sensor Calib function on the operator's console'.
Record the AS FOUND data.
0
. Rev. 0
+
m.
VOL. 8 FNP-1-IMP-202.9
- 7. 5. 2 If AS FOUND computer output values are not within tolerance, perform calibration using the Least Squares Fit function, then repeat step 7. 3.1, recording FINAL data.
7.5.2 If M5 FOUND data is within tolerance,
. record FINAL' data.
7.5.3 Add the AP symbol to LIMIT CHECK using the Add / Omit from Limit Checking function and confirm the alarm limits listed on data sheet 3 by performing the Print Limits fu.;stion en the operator's console.
7.5.4 If the computer stored limits do not agree with those listed on the data sheet, change the limits using the Chan'ge Alarm Limits
- function.
- 7 .' 6 Calibration of Signal Comparator (NAL) Card, LB-ll5A Style 2837A13G01, Location C5-143.
- 7. 6. l~ Adjust the transmitter simulator so that comparator Circuit 1 is reset ( OUTPUT LED ic on).
7.6.2- Slowly increase che input from the trans-mitter simulator and record the AS FOUND value at wnich the comparator trips on datafsheet 3 (as indicated by the OUTPUT LED turning off) .
- 7.6.3 Slowly decrease the input.from the trans-mitter simulator and record the AS FOUND
- value at which the comparator resets (as indicated by the OUTPUT LED turning on).
7.6.4 If necessary, adjust the NAL card as instructed in Attachment A7.
7.6.5 Record FINAL ' trip and reset values on data sheet 3.
- 7.71 Cabibration of Signal Comparator (NAL) Card,LB-ll5B
- Style 2837A13G01, Location C5-144.
J 7. 7 '. l Adjust the transmitter aimulator so that comparator Circuit 1 is reset i OUTPUT LED is on).
Rev. 0
+-t Mr- '-
d-
'VOL. 8 FNP-1-IMP-202.9 e
7.7.2' Slowly decrease the input frem the transmitter simulator and record the AS FOUND value at which the comparator trips on data sheet 4 (as indicated by the OUTPUT LED turning off).
7.7.3 Slowly increase the input from the transmitter simulator and record the AS FOUND value at which the comparator resets (as indicated by the OUTPUT LED turning on).
'7.7.4 If necessary, adjust the NAL card as instructed in Attachment A7.
7.7.5 Record FINAL trip and reset values on data sheet 4. .
- 7.8 Calibration of Signal Comparator (NAL) Card, LB-115C Style 2837A13G01, Location C5-145.
7.8.1 Adjust the transmitter simulator so that comparator Circuit 1 is .eset (OUTPUT LED is on).
- 7. 8. 2 - ' Slowly decrease the input from the trans-mitter simulator and record the AS FOUND valus at which the ccmparator trips on data cheet 4 (as indicated by the OUTPUT
-LED turning off).
7.8.3 Slowly increase the input from the trans-mitter simulator and record the AS FOUND value at.which the comparator resets (as indicated by the OUTPUT LED turning on).
-7.8.4 If necessary, adjust the NAL card as .
instructed in Attachment A7.
7.8.5 Record FINAL trip and-reset values on data sneet 4..
- 7.9' Calibration of Signal Comparator (NAL) Card, LB-115D Style 2837A13G02, Location C5-142.
NOTE:- .The rollowing is a test of a dual comparator.
OUTPUT l' feeds Hi alarm and OUTPUT 2
+ feeds Lcw alarm.
7.9.1 Adjust the transmitter simulator so that camparator L3-115D is reset (OUTPUT 1 LED-13 on).
~
o- Rev. 0
. ~ . . _ , - - _ _ _ _ _ _ _ . . _ _ __
r
~VOL. 8 FNP-1-I!!P-202.9 7.9.2 Slowly increase the input from the transmitter simulator and record the AS FOUND value at which the compara-tor trips (as indicated by the OUTPUT 1 LED turning.off) on data sheet 5.
7.9.3 Slowly decrease the input frem the transmitter simulator and record the AS FOUND value at which the OUTPUT 1 LED turns on).
7.9.4 If necessary, adjust the NAL card as instructed in Attachment A7.
7.9.5 Record ~ FINAL trip and reset values on data sheet 5.
7.9.6 Adjust the transmitter simulator so that cor?arator L3-115D is reset (OUTPUT 2 LED is on).
7.9.7 Slowly decrease the input fr=m the trans-mitter simulator and record the AS FOUND value at which the comparator trips (as indicated by the OUTPUT 2 LED turning off) on data cheet 5.
7.9.8 Slowly increase the input from the trans-mitter simulator and record the AS FOUND value at which the ccmparator reset (as indicated by.the OUTPUT 2 LED turning on).
7.9.9 If necessary, adjust the NAL card as instructed in Attachment A7.
7.9.10 Record FINAL trip and reset values on data sheet 5.
- 7.10 Functional Test of AC Controller (NAS) Card, LY/ll5A Style 2838A89G01, Location C5-436.
7.10.1 With ccmparator LIS-115A, Circuit 1 (location C5-143) TRIPPED (OUTPUT LED off),
verify that annunciator DS2, VCT INLET FLON DIVERTED TO RHT ON VCT LEVEL HI (MCB) r is actuated.
7.10.2 With camparator LB-ll5A Circuit 1 RESET (OUTPUT LED on) verify the.t annunciator D52, (MCB) is cleared.
Rev. 0
FNP-1-IMP-202.9 7.10.3 If the controller card malfunctioned, remove the card in accordance with FNP-0-IMP-4 42. 3, 7300 Series NAS Card Removal, Replace the card and repeat
' 7.10.
7.10.4 Record verification of AC controller card function on data sheet 3 (initial).
- 7.11 Functional Test of AC Controller Card (NAS) , LY/115B Style 2838A89G01,. Location C5-436.
7.11.1 With Comparator LB-ll5B, Circuit 1 (location C5-14 4) TRIPPED (OUTPUT LED off')' verify with a multimeter, verify
- that 0 VAC exists at Aux. Safeguard Cabinet A TD-929 terminals 1 and 2.
7.11.2- With-Ccmparator LB-ll5B, Circuit 1 RESET (OUTPUT LED on), verify that 120VAC exists at Aux. Safeguard Cabinet A, TB-929, terminals 1 and 2.
7.~ 11. 3 If the controller card malfunctioned, remove the card in accordance with FNP-0-IMP-442.3, 7300 Series NAS Card Removal, Replace the card and repeat 7.11.
7.11.4 Record verification of AC controller card function on data sheet 4.
- 7.12 Functional Test of AC Controller Card (NAS),LY/115C Style 2838A89G01, Location C5-436.
7.12.1 With comparator LB-115C Circuit 1 (location C5-145) TRIPPED (OUTPUT LED off)
- and HS-21000 (VCT auto make-up . selector) located on the MC3, is any position other than AUTO, verify that annunciator D93 AUTO MAKZ-UP START SIGNAL 3 LOCKED (MC3 ) -
is in an alarm sratus.
7.12.2 With comparator LB-115C Circuit 1 RESET (OUTPUT LED on) - and HS-21000 (VCT auco make-up selector) located on the MC3, in any position - other than AUTO, verify that annunciator D93, is cleared.
Rev. 0
=
c
- h. M' FNP-1-IMP-202.9 s
7.12.3 If the controller. card malfunctioned, removeLthe card in accordance with FNP-0-IMP-442.3,-7300 Series NAS Card Removal, Replace the card and repeat
. 7.12. .
U 7.12.4 Record verification of AC controller card functions on data sheet 4.
7.13.1 With comparator LB-ll5D Circuit 1 (location Mi -~ C5-142) TRIPPED ( OUTPUT LED off) and Circuit 2 RESET ( OUTPUT LED on) verify that annunciator- D53, VOLUME CONTROL TANK LEVEL HI-LO (MCB) is actuated.
ac *
- -7.13.2 With comparator LS-ll5D Circuit 1 RESET
(" OUTPUT" LED on) and Circuit 2 RESET
(" OUTPUT" LED on) verity that annunciator D53 (MCBl is cleared.
7.13.3 If the controller card malfunctioned, re-
- move-the car. in accordance with
..m FNP-0-IMP-4 4 2. 2, 7300 Series NAI Card v Removal, Rerlace the card and repeat 7.13.
7.13.4 Record verif cation of DC centroller card funct ons en data sheet 5.
i
- 7.14 Functional. Test of DC ControllerCard (NAI) , LY/115E Style 2837A88G06, Location C5-442 7'.14.1 With comparator L3-ll50, Circuit 1 (location C5-4 22)- Reset ( ccTPUT LED on) and Circuit
- i, ~2-TRIPPED ( CUTPUT LED of f) verify that annunciator D5 3, VOLUME .Cou"ROL TANK LEVEL HI-LO, (MC3) ' is actuated.
7.14.2 If the contro?.ler card malfunctioned, remove the card in accordance with FNP-0-IMP-442.2, 7300 Series NAI Card Removal, Replace the card and repeat 7.14.
, 7.14.3 Record verification of DC controller card functions on data sheet 5.
Rev. O
- n c
~
+
w
, VOLUME _8 FNP-1-IMP-202.9 7.1.5 Card Calibration Restoration. -
- 7.15.1 Pull the NLP card in location C5-141 far enough forward to de-energi=e the card.
- 7.15.2 Disconnect the transmitter simulator from terninals 19 and 20 of TBA in PCC cabinet 5 and reconnect the field leads from the transmitter to terninals 19 and 20 of TBA in PCC cabinet 5.
- 7.15.3 Reinsert the NLP card.
- 7.15.4 . On computer console enter LO 209S=0.
This will return computer point LO 112A to Scan and Limit Check.
=*7.16 Notify the Shift Foreman that" the test is complete.
NOTE: Installation error will result in 1%
indicated level when actual level is '
less than or equal to 1%. ,
a.
W I*
e I
Rev. 1 ,
k
- ~
- VOL. 8- FNP-1-IMP-202.9A FARLEY NUCLEAR PLANT UNIT 1 INSTRUMENT MAINTENANCE PROCEDURE DATA PACKAGE IMP-202.9A VOLUME CONTROL TANK LEVEL-LT-115 1.0 Purpose -
. This data package is to be used in conjunction with
_ procedure FNP-1-IMP-202.9 te. record calibration data and provide calibration setpoints and tolerances.
2.0 References 2.1 Farley Nuclear Plant Precautions, Limitations
-and Set Points for Nuclear Steam Supply Systems.
2.2 Farley Nuclear Plant Process Instrumentation Accuracy Requirements and Guidelines, E-PCS-8327.
3.0 Procedure' Sign-Off Sheet and Alteration Log
- 3.1 Initial the appropriate space in Table 1 as each
, step-or section is completed in IMP-202.9.
3.2. Record any temporary alteration directed by attach-ments to IMP-443.1 on Table 2.
t 4.0 Test Results 4.1 [] Test completed satisfactory 4.2 II Deficiencies occurred (see data sheets for er. plana-
~~~
tion) 4.3 Time required for test Procedure Rev. naed 4.4 Test performed by Date 4.5 Test reviewed by Date This data package consists of 7 pages. Rev. O y
y- -- - - , + --+-g ,
lHP-1-1 W-202.9A,- PNE 2 '
VOf1PE 8 VCr IEVEL LT-ll5 7 2
iTEP OR SECTION INITIALS STEP OR SECTION INITIALS DESCRIPTION OF AI.TERATION ALTEREL RESTOREI 6.0 Initial Corw11tions 7.3 NIP Cal.
7.1 XPfrR Cal. 7.4 Indicator Cal.
- ~
7.1.1 Open Valve 7. 5 ' Commter Cal.
7.1.2 IIP Valve 7.6 NAL Cal.
7.1.3_ 'IP Valve 7.7 ~ NAL'al.
C 7.1.4 Vent Inj 7.8 NAL Cal.
7.1.5 Open Drain 7.9 NAL Cal. -
7.10
~
7.1.6 Test Source NAS Cal.
7.1.7 Close Valve 7.11 NAi Cal.
7.1.18 Close Valve ,
7.12 NAS Cal.
7.1.19.1 Open valve 7.13 NAI Cal.
7.1.19.2 IIP Valve 7.14 NAI Cal.
7.1.19.3 IP Valve 7.15.1 Pull NIP Canl '
7.1.19.4 Close Valve 7.15.2 Itx:onnect Trans. -
7.1.19.5 Vent Icg 7.15.3 Reinsert NIP Can1 ,
7.2.1 Pull NIP Cani 7.15.4 Retum to SCAN I 7.2.2 Lift I m is 7.16 tbtify Shif t Foronan
- 7.2.3 lbinsert inP cani _
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