ML20215C283
| ML20215C283 | |
| Person / Time | |
|---|---|
| Site: | Vogtle  |
| Issue date: | 09/26/1986 |
| From: | Bailey J GEORGIA POWER CO. |
| To: | Youngblood B Office of Nuclear Reactor Regulation |
| References | |
| GN-1088, GN-108821, IEB-79-21, NUDOCS 8610100210 | |
| Download: ML20215C283 (58) | |
Text
Georgia Fbwer Company Pbst Offico Box 282 Waynesborn Georgio 30830 Telephone 404 554 9961 404 724 4114 Southern Company Services, Inc.
Pbst Office Box 2625 Birmingham, Alabama 35202 Telephone 205 8706011 Vgtle Project September 26, 1986 Director of Nuclear Reactor Regulation File: X7BC35 Attention:
Mr. B. J. Youngblood Log:
GN-1088 PWR Project Directorate #4 Division of PWR Licensing A U. S. Nuclear Regulatory Commission Washington, D.C.
20555 NRC DOCKET NUMBERS 50-424 AND 50-425 CONSTRUCTION PERMIT NUMBERS CPPR-108 AND CPPR-109 V0GTLE ELECTRIC GENERATING PIANT - UNITS 1 AND 2 REQUEST FOR ADDITIONAL INFORMATION:
IE BULLETIN 79-21
Dear Mr. Denton:
In our response to question 430.5 a commitment was made to provide the results of our analysis of level measurement errors resulting from temperature effects on level instrument reference legs. This analysis was specifically to address the questions detailed in IE Bulletin 79-21.
The results of this analysis are attached and have been integrated in our setpoint methodology report which will be sent to your staff under separate cover.
If your staff requires any additional information, please do not hesitate to contact me.
Sincerely,
(.
/
J. A. Bailey Project Licensing Manager JAB /sm Attachment xc:
R. E. Conway (w/o att.)
NRC Regional Administrator R. A. Thomas (w/o att.)
NRC Resident Inspector J. E. Joiner, Esquire D. Feig B. W. Churchill, Esquire R. A. McManus (w/o att.)
M. A. Miller (2)
L. T. Gucwa B. Jones, Esquire Vogtle Project File G. Bockhold, Jr. (w/o att.)
3 6j/
0744V 8610100210 860926 DR ADOCK 0500 4
L
Response to NRC Request for Additional Information on Level Measurement Errors Resulting From Temperature-Effects on Level Instrument Reference Legs Ref:
IE Bulletin No. 79-21 The attached information addresses the questions raised in IE Bulletin No. 79-21 concerning the effects of increased containment temperature on level instrumentation systems employing reference legs on Plant Vogtle.
~
84700:10/062086
Question 1:
Describe the liquid level measuring systems within containment that are used to initiate safety actions or are used to provide post-accident monitoring informat' ion.
Provide a description of the type of reference leg used, i.e.,
open column or sealed reference leg.
Resocnse 1:
The following liquid level measuring systems inside containment are used for safety actions.
A.
Steam Generator Narrow Range Level Each steam generator has four narrow range level instrumentation channels
~
which consist of a condensate pot, reference leg, differential pressure transmitter and associated fittings for connection to the stear generator.
Each level channel employs an open column reference leg with a condensing pot to ensure that the leg remains water filled. Plant Vogtle utilizes the layouts shown in Figures 1 and 2.
When the level in the steam generator is high, the differential pressure between the upper and lower taps is the smallest, and as the stean, generator level decreases, the differential pressure increases.
The narrow range level channels perform the following functions:
1)
Reactor trip on low-10x steam generator water level I
l ii)
Auxiliary feedwater pump initiation on low-low steam generator water i
level iii) Turbine trip and feedwater isolation on high-high steam generator water level iv)
Post-accident monitoring.
8470Q:10/062086
The maximum vertical elevation from the condensate pot to the rigidly installed capa11ary line is 35 hches.
The, narrow range level channel reference legs have been insulated with two inches of Nu-K-on insulating material. The narrow range high pressure legs are insulated from the junction of the flexible hose and the rigid capillary line below the condensing pot to the transmitter high pressure port. The low pressure legs are insulated from the junction of the i
flexible hose and the rigid capillary line to the transmitter low pressure port. A stainless steel jacket acts as a protective cover over the insulation and provides a means for holding the insulation in place during various postulated accidents.
In addition, the insulation jacket is sealed at the ends to resist water entry under spray conditions.
B.
Steam Generator Wide Range Water Level Each steam generator has one wide range level instrumentation channel which consists of a condensate pot, reference leg, differential pressure transmitter and associated fittings for connection to the steam generator.
Each wide range channel shares an upper tap and open column reference leg with a narrow range level channel. A typical installation orientation is shown in Figure 2.
The principles of operation for the wide range level channels are equivalent to those described for the narrow range channels.
i
~
The wide range level channels perform the following function:
1)
Post-accident monitoring.
C.
Pressurizer Water Level The pressurizer has three level instrumentation channels which consist of a condensate pot, reference leg, differential pressure transmitter and associated fittings for connection to the pressurizer.
8470Q:10/062086
When tha 1Gv21 in the pressurizer is high, tha differential prsssure between the upper and lower tap is the smallest, and as the steam generator level decreases, the differential pressure increases. A typical sketch of the layout..is shown in Figure 3.
The pressurizer level channels are used for the following:
1)
Reactor trip on high water level 11)
Post-accident monitoring.
D.
Containment Water level (Wide Rance)
The containment water level (wide range) is measured by two level instrumentation channels which each consist of two sealed oil filled reference legs, a differential pressure transmitter and associated fittings for interconnection. A typical layout drawing is shown in Figure 4.
When the containment water level is low, the differential pressure between the high and low pressure ports of the transmitter is the largest. As the containment water level increases, the differential pressure decreases.
If the containment air temperature and containment water temperature are equivalent, the differential pressure is zero when the containment level is at the elevation of the upper sensor.
Containment water level (wide range) is used for post-accident monitoring.
E.
Containment Water Level (Narrow Range)
The containment water level (narrow range) is measured by two level instrumentation channels, one in the east sump and one in the west sump.
Each channel consists of two sealed oil filled reference legs, a differential pressure transmitter and associated fittings for interconnection. A typical layout is shown in Figure S.
84700:10/062086
Tha cantainment water level (narrow range) channals work identically to the wide range channels.
The,only safety function that containment water level (narrow range) provides is post-accident monitoring.
i l
=i 84700:10/062086
Ouestion 2:
Provide an evaluation of the effect of post-accident ambient temperatures on the indicated water level to determine any change in indicated level relative
~
to actua1 water level. This evaluation must include other sources of error including the effects of varying fluid pressure and flashing of reference leg to steam on the water level measurements.
Response 2:
1.
The following calculations apply to the steam generator and pressurizer level measurements.
A.
Reference lec Heatup High energy line ruptures inside containment can result in heatup of the level measurement system reference legs.
Increased reference leg water column temperature results in a decrease of the water column density with a consequential apparent increase in the indicated water level.
The following equation is used to calculate the magnitude of the apparent level error due to reference leg heatup:
H Temp. = d. (pic
)
t E
H P
~
y Level error due to reference leg heatup (fraction of E
=
temp span)
Vertical distance from lower tap to water level in H
=
g condensing pot Vertical distance between upper and lower tap H
=
pLC Water density at containment temperature and ' process
=
pressure at which level indication system was calibrated.
84700:1D/062086
g Water density in reference leg at specified temperature p
=
and pressure conditions
, fg Saturated water density for process pressure at which p
=
level indication system was calibrated Saturated steam density for process pressure at which p
=
level indication system was calibrated.
The following parameters are applicable to the Plant Vogtle level measurement systems:
Narrow range steam generator level H = 128.1 inches Hg = 128.1 inches Calibration conditions:
P j = 1053 psia T,j = 120*F c
where T,j = temperature of reference leg during calibration g
Wide range steam generator level H = 560.7 inches H = 560.7 inches Calibration conditions:
P,j = 14.7 psia g
T,j = 120*F g
TDcal = 120*F where TDcal - temperature of water in downcomer during calibration l
Pressurizer water level H = 521.9 inches Hg = 533.9 inches Calibration conditions:
P,j = 2250 psia c
T,j = 120*F c
8470Q:10/062086
B.
Process Density Deviation An error occurs in the level measurement system due to changes in the
. density of the fluid in vessel that is being monitored. The following equation is used to calculate the magnitude of the apparent level error due to the process density changes:
H f(p Gc) +
(#"#)
F f
G
-(
g Ep=
4,,g _,9c)
H where E
Level error due to density changes (fraction of span)
=
p pf Saturated water density at specified process pressure
=
Saturated steam density at specified process pressure
=
pg L
Actual water level in the vessel
=
C.
Reference Leo Insulation The reference legs associated with the narrow range steam generator water level measurement system has been insulated with 2 inches of Nu-K-on material to delay the time of reference leg heatup following a high energy line rupture inside containment. The insulation is installed as shown in Figures 1 and 2.
The high pressure leg of the j
narrow range is insulated from the junction of the flexible hose and j
the rigid capillary line below the condensate pot to the high pressure port of the transmitter. The low pressure leg is insulated from the junction of the flexible hose and the rigid capillary line to the low pressure port of the transmitter.
A heat transfer calculation was performed to verify that the reference leg heatup is delayed such that the resulting level measurement error does not exceed 5 percent of span for at least five minutes following the initiation of the accident. This calculation assumes the worst case containment temperature calculated in section 6.2.1.4 of the Plant Vogtle FSAR.
8470Q:10/062086
D.
Reference Lee Boilina The steam generator level instrumentation legs are open column and could conceivably boil if the vessel pressure dropped below the saturation pressure of the reference leg. Boiling could cause a major indicated level error such that, in the extreme case, an empty steam generator would have an indicated full level.
Recognizing that Plant Vogtle has a dry containment design and the vessel cannot depressurize below containment pressure, calculations were performed to determine if reference leg boiling would occur.
Using a generically conservative containment temperature profile, heat transfer calculations demonstrated that boiling would not occur in the non-faulted steam generator following the initiation of the accident.
Analysis did predict that boiling may occur in the reference legs of the faulted steam generator.
2.
The following calculations apply to the containment water level (wide and narrow range) measurements:
(1-h)(p p
)+
(p p
+p+p)g g
g ctm ctm ctm ctm L~
c c
(p
_p ctm Icts where Level error due to containment air and water temperature changes E
=
t and containment pressure changes C
Density of oil in reference leg at calibration containment
=
p 8ctm air temperature Density of oil in reference leg at containment air temperature
=
pg C
p Density of oil in reference leg at calibration containment
=
C water temperature Density of oil in reference leg at containment water temperature
=
p 8470Q:1D/062086
pf Density of calibration containment water
=
pf Density of containment water
=
Actual containment water level L
=
Vertical distance between upper and lower sensor H
=
The following parameters are applicable to the Plant Vogtle containment water level measurement systems.
Containment Water Level p,$) = 1.08235 - 0.000421 T
~
H = 120 inches (wide range)
H = 48 inches (narrow range)
Calibration conditions: Containment air temperature = 90*F Containment water temperature = 90*F j
Containment pressure = 14.7 psia 3.
Utilizing the equations presented in the previous sections, errors in indicated level measurement systems were calculated as a function of process and containment conditions.
Table I demonstrates the narrow range steam generator indicated level errors as a function of reference leg temperature and process pressure at five actual levels (0, 25, 50, 75 and 100 percent of span).
Table II demonstrates the wide range steam generator indicated level errors as a function of reference leg temperature and process pressure at five actual levels (0, 25, 50, 75 and 100 percent of span).
Tabic III demonstrates the pressurizer indicated level errors as a function of reference leg temperature and process pressure at five actual l
1evels (0, 25, 50, 75 and 100 percent of span).
l 84700:1D/062086
Table IV demonstrates the ccatainment water laval (wide and narrow range) errors as a function of containment water temperature, containment air temperature and containment pressure at five actual levels (0, 25, 50, 75 and 100 percent of span).
l l
8470Q:10/062086
Ouestion 3:
Provide an analysis of the impact that the level measurement errors in control and protection systems have on the assumptions used in the plant transient and accident analysis. This should include a review of all safety and control setpoints derived from level signals to verify that the setpoints will initiate the action required by the plant safety analysis throughout the range of ambient temperatures encountered by the instrumentation, including accident temperatures.
If this analysis demonstrates that level measurement errors are greater than assumed in the safety analysis, address the corrective action to be taken. The corrective actions considered should include design changes that could be made to ensure that containment temperature effects are automatically accounted for. These measures may include setpoint changes as an acceptable corrective action for the short-term. However, some form of temperature compensation or modification to eliminate or reduce temperature errors should be investigated as a long-term solution.
Response 3:
A.' Steam generator water level initiates the following actions:
1)
Reactor trip and initiation of auxiliary feedwater at the low-low level setpoint of 18.5 percent of narrow range span.
ii)
Turbine trip and feedwater isolation at the high-high level setpoint of 78 percent of span.
The only high energy line rupture within containment for which the steam generator water level measurement system provides the primary trip function is the main feedline rupture. Deviations in steam generator process variable changes prior to reactor trip on low-low steam generator level are incorporated into the process measurement accuracy channel error component.
The determination of low-low steam generator narrow range water level setpoint is as follows:
8470Q:10/062086
Bottom of span (5) 0 Normal channel accuracy (5) 3.5 Post-accident transmitter error (%)
11 0 Reference leg heatup (5)
+5. -0 4
Total Error (5) 18.5, -13.5 s
The reference by heatup error is limited to +5, -0 percent of span due to the installation of insulation.
As stated above, the low-low steam generator water level setpoint is currently set at 18.5 percent of span; hence, sufficient margin is provided to account for all post-accident errors prior to reactor trip.
As described above, the steam generator level post-accident monitoring errors due to reference leg heatup and process variable changes are presented in Table I and II for narrow range an wide range, respectively.
i B.
Pressurizer water level initiates the following actions:
1)
Reactor trip on high level setpoint of 92 percent of span.
No credit is taken for the reactor trip function actuated on pressurizer water level following a high energy line rupture inside containment.
As discussed above, the pressurizer level post-accident monitoring errors due to reference leg heatup and process variable changes are presented in l
Table III.
i l
8470Q:1D/062086 I
'9snLia!Li:
Review and revise, as necessary, emergency procedures to include specific information obtained from the review and evaluation of Items 1, 2, and 3 to ensure that the operators araiinstructed on the potential for and magnitude of erroneous level signals. All tables, curves, or correction factors that would be applied to post-accident monitors should be readily available to the operator. If revisions to procedures are required, provide a completion date for the revision and a completion date for operator training on the revisions.
Response 4:
Vogtle Electric Generating Plant Emergency Operating Procedures include the Westinghouse Statistical Setpoint Methodology for adverse containment indication.
Licensed Operators are trained in the fonnat usage of emergency operating procedures.
This training includ.es defining Advarse Containment Condition, and when and how to use the setpoints listed in the emergency operating procedures.
The magnitude of err,or and how the adverse containment condition setpoint is derived are dis:ussed in the training text for emergency operating procedures.
The procedures give the normal and adverse setpoints, and tell the operator which setpoint to use under a given condition.
This eliminates the tables, curves and correction factors an operator would have to use during an emergency.
k l
8470Q:1D/031985
t CGCENu1E m
sum IEIGEM k)
N
/
)
/
v n
v v
A A
i/
V h
h i/
V
>L g
~
(
naar a ass :
~
vaum enPaunr tne IG-INELATED CAPRDRY LDE l
STEAMGENERATORNARROWRANGELEVELINSTRUNENTATION l
FIRE i l
l l
l
axemm m
sua N
/
o 1,
m s: k n a ar m em e
=
,aum _
a,aum cw1usnoe am" STEAMGENERATOR NARROWANDWIDERANGE LEVELINSTRUMENTATION FI m 2 i
G v-E
~
l k
arxasame mms:
y IN INELATED N LDE PRESSURIZER LEVEL INSTRUENTATION FIRJE 3 l
l l
P O
NATER LEVEL k
X conumen tnes
///
_ _ _ _ _ _ conumen g___ /
m Lava.
/
seem /
m
/
O
/
muumen seem m
CONTAINMENTWIDERANGEWATERLEVEL nam t
m CDirAMENT U
FLOGI LONER
!ENER O coNTAMeir SW l
l CONTAINMENTNARROWRANGEWATERLEVEL FIRE 5 l
r
l INPUT DOTO NARROW RANGE STEAM GENERATOR LEVEL REFERENCE LEG ERRORS 1053.00 -PRESSURE IN STM GEN OR PRZ DURING CALIBRATION PCAL
=
120.00 -TEMPERATURE OF REFERENCE LEG DURING CALIBRATION 1
TCAL
=
0.00 -TEMPERATURE OF DOWNCOMER (SG) DURING CALIBRATION TDCAL
=
10.68 -SPAN (FEET) t H
=
HLH 1.0000 -RATIO OF REFERENCE LEG LENGTH TO SPAN
=
i i
1
)
4 1
i 1
I i
l i
i i
I l
Narrow Range Steam Generator Reference Leg Errors Table I i
.-N-,n n,.
888.858.gO$.858.g,.e-.-
03 8 E.. 5.n E.. m, m.. -, g n m e n -
8 8. 5 8.8.3 8. 8 8 8.. ". ".*.*. *.
n-...
M L
,no...snm.m.,sn 8
C. O. 0 0 0 0 0 0 0 0 0 0. =. ~. ~. =.=..
o OO=-ne eneO-o e
. =.
y a
C M vmemkomeneen*
G InemO. O.O.
.O..C.0 0 0 0 0 0 0.=. =.=.=w.=e O -Nmwekem-aw J
~
1 G
y i
g enom eeOnmenkmObe G
ann =
-nveewoonemo b
0 0 0 0... 0 0 0 0,0 0 0. *. *. =. =.=.-
G G
g ComOM MMwehOneMemM-nann = O=nnw@neO=n 0 0 0 0 0.
0 0 0 0 0 0 0 0. *. =. *. =e n O m
. =.
m G L e m
G D mmRneOn a R n e e M e w R,a b 8
C. O. 0 0 0 0 0.
0 0 0 0 0 0 0.=.=.=.=e h
p*.
nn
-O mese-e 4
m Omemme MwebOweMmeMN G
TMMnN-O*NMcWe@
O. O. O. C. O. O..0 0 0 0 0 0 0 0. =O n v e
. =. =. =.
m m,
J w
w wemv>Oe= -Memvem-me C
e wwmenn-O newcoconne w
w C. 0 0 0 0 0 0 0.
0 0 0 0 0 0.*.*.*.=.
W a
a J
w N
,e>wenee m
g we=,m.ew8mee
. w O
,,nnn-
-n e
ne b
u a O C. 0 0 0 0 0 0.. 0 0 0 0 0 0. ~.~.e e
g w,
Z m
wa J
nNonweOO NwhomOwn*m a w a
emwennn- -nmewee-nv 4
w C. 0 0 0 0 0 0 0.
0 0 0 0 0 0 0 =. *. *.
W J
w
&n w
g
~.n--e,m On...n 8 8.8 8 3 3.8 8 5.E..8 8. 3 8 5 8. g -.
8
=...:
8 o.
n w -
WR I
y-g
.~Onne...
noen.n....
. 8 888.8388.5.5.85838.8..::.:.:
II w
O dW I
g" 8. 8 8. 8 8. 8 8. 8 8 8. 8 8. 8 8 8. 8. 8. 8. 8 m
4 wrOOO 0000 0000 00000 e
a ogswa nwee newe aveeO Da
--===nnnnnnnnenw i
w 3 mw O @b W
J
& wa J w k
.a w 4
ter, s.aos l
i
~
0.
7627076667926050742 1110001234578013468 0 0000000000000.t91111.
3 4
1 0.
7627076667926050742 111000t234578013468 0 000000.O000000111111 J
2 1
7627086668026051753 0
0001234678013468 111 0 0000000000,000111111 1
1 s
r 7516087678036161854 0
1180001234678013468 o
0 0000000000000111111 rr l
0 1
E g
. 6416197789147272965 e
0 1110001234678013468 L
0 0000000000000111111.
e 9
cn
. 5305208890258383086 e
0 111001 235678013568 r
1 0 000000000000011tl11 e
8 fe R
. 3283310901360495298 0
1100012245679013568 r
0 0000000000000111111 o
7 t
a I
r 2072531123582617410 e e S 0 00012345679023579 n
l 11 R 0 0000000000000111111 e b O 6 G a R
T R
m L
E 9851754345704839642 a
E V
G 0 0000012345689023579 e
E E
0 0000000000000111111 t
L L 5 S
L E
e A
C U
N 7523087678037162"76 g
T E
0.
0000112345789124579 n
C R 0 00000,0000000D111111 a
J R
A E 4 F
E w
R O
L 3127410012471506310 r
N E
L 0 0000123456780134680 A
V E 0 0000000000001191112 r
P E
V 3 a
S L E
N L
F D
O E R
. 247297556792606296*
T O 0 000112345679023568*
T A T
0 000000000.O0.O111411*
N C A 2 J
J E
I R
C D E
R N N
E I
E 125175434581494****
P G 0 111223456780124* ***
0 00000000000,1111*
M 1
N A
D E
0 I
T 0 T S
0 C A
E E0O00000000000000000 f
5 R G
R 0.O.0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2
F N
U A ET0000000000000000000
=
R RA4680246802468024680 L R UR 1111122222333334 E
O W SE V R O SP E R R EM L E R RE A PT 1lj4l
- j 1'
,)'
,j1;i i.Iliii.
- 1
2061572t23581506208 0 3322100t23457801356 0 0000000.O00000011t11 3
1 6415917789147162864 0 2221000823567902357 0 pD.00000000000011119 2
1 sr 08S9354345703728520 o
0 21t0001234578912468 rr 0 0 0. O. 0 0 0 0 0 0 0 0 0 0 0.I 1 1 1 3 E
1 1
ge 42833t0901363495187 L
0 00012245679013568 11 0 00000000000001I1143 e
0 1
c n
e 7523086678036161854 r
0 0000112345789124579 e
0 0000000000000111111 f
9 e
R 0251753345703839531 r
0.
0009123456790134680 o
I 0 0000000000001111112 t
8 a e r l e b 8938521113581506319 n a 0 001123456789i245790 e T 0 000000000000.t11t112 G
7 m
ae
. 6816319901369495198 t
S 0 1122344578901346891 R 0 0000000000011111112 S
t O 6 R
e R
g L
E n
57052088902593849t7 a
E f
V G 0 2233455679012457902 R
E E 0 0000000000111111122 L
L 5 w
L E
o A
C r
U N
5706209890259384198 r
T E
0 3344566780123568013 a
C R 0 0000000001111111222 N
A E 4 F
E R
L 7927420012479597310 N
E L 0 4455670901235689135 A V E 0 0000000011111111222 P i V 3 S L E
L F 3 O E R
247297556792606286*
T O 0 666778901235689124*
T A T
0 000000011111111222.*
N C A 2 E
I R
C D E
R N N
E I
E 348307666803796****
P G 0 888900123467801* * *
- 0 000011111111122.******
M 1
N A
O E
0 I
T 0 T S
0 C 0 M E
E0000000000000000000 G
U.0 0 0 0 0 0 0 0 0 0 0.C.0 0 0 0 0 0 R0 5 F NA ET0000000000000000000
=
R RA4680246802468024680 L R UR 1111122222333334 E O W SE V R O SP E R R EM L E R RE A PT ll i'i; j3
.i
.!i i' i
-l 4i!It 1i,iiI 1i\\i4 i!ii, I
.!l i
i Ii!,
- !.i,
l l
t LEVEL = 75.000 PERCENT OF SPAN ERROR FRACT!DN = INDICATED LEVEL - ACTUAL LEVEL ARROW RANGE STEAN GENERATOR LEVEL REFERENCE LEG ERRORS PRESSURE 100.
200.
300.
400.
500.
600.-
- 700, 800.
900.
1000.
1100.
1200.
1300.
TEMPERATURE 40.00
.156
.122
.098
.077
.060
.044
.029
.015
.002
.010
.023
.034
.046 60.00
.157
.123
.099
.079
.061
.045
.031
.017
.004
.009
.021
.033
.044 80.00
.160
.127
.103
.082
.065
.049
.034
.020
.007
.005
.017
.029
.041 100.00
.165
.t32
.108
.088
.070
.054
.039
.026
.012
.000 012
.024
.036 120.00
.172
.139
.114
.094
.077
.061
.046
.032
.019
.006
.006
.017
.029 140.00
.180
.146
.122 102
.084
.068
.054
.040
.027
.014
.002
.010
.021 160.00
.189
.155
.131
.111
.093
.077
.062
.049
.035
.023
.011
.001
.013 180.00
.198
.165
.140
.120
.103
.087
.072
.058
.045
.033
.020
.009
.003 200.00
.209
.175
.151
.131
.113
.097
.083
.069
.056
.043
.031
.019
.008 220.00
.220
.187
.162
.142
.125
.109
.094
.080
.067
.054
.042
.030
.019 240.00
.233
.199
.175
.154
.137
.121
.106
.092
.079
.066
.054
.042
.031 e
260.00
.245
.212
.187
.167
.150
.134
.119
.105
.092
.079
.067
.055
.043 280.00
.2L9
.226
.201
.181
.163
.147
.132
.119
.105
.093
.080
.069
.057 300.00
.274
.240
.216
.195
.478
.162
.147
.133
.120
.107
.095
.083
.071 320.00
.289
.255
.231
.210
.193
.177
.162
.148
.135
.122
.110
.098
.086 340.00 *******
.271
.247
.226
.209
.193
.178
.164
.t50
.t38
.125
.113
.102 360.00 *******
.288
.264
.243
.225
.209
.194
.180
.167
.154
.f42
.130
.118 380.00 *******
.306
.281
.261
.243
.227
.212
.198
.184
.172
.159
.147
.135 400.00 **************
.300
.280
.262
.246
.230
.216
.203
.190
.178
.165
.154 9
E 4
i-Narrow Range Steam Generator Reference Leg Errors Table I
i Ommone>>>weenbN>w-m ememenN-Oo-NweseONn
- o. 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0.*.*.=.
eeeeeeeee n*eneeO *NwkOwme-me 8
wwnnN--
-NnwoneONne O 0 0 0 0 0 0.
0 0 0 0 0 0 0..=...
N 8'l e e e
eea
. mwome-eeee-wen >nmen 8 NNN-OOO-NncommONnm>
m b
C.0 0 0 0 0 0 0 0 0 0 0 0 0.*.=.=.*.*.
O I 4 0 8 9 0 g
gW W
NnObseemeNWOp-hen
~
- 8. 8 8. C.0 0 0 0 0 0 0 0.*.
-*Nngmeem-Nem>m O
W 9 0 9 a
3 W
d neNeweseweewswmenN N
- -NNngmemeO-Nwomme g
O. O. O. O. O. O. O. O. O. O. O... *.*.. *.. N.
gg 4-ONm*Newngm>Owemmen-W MnnwwmebemONeweb m
8 O. O O. O. O. O. O. O O. O. *. *.. *. *.. *m - n e
. N. N.
g p m M
= *Nw*Mmengm>OwemmenN m W 8
O.O.O. O.O.O.O.O.w.*..~.~.e m m - m m memesmemoenve L
r.
n
. *. N. N. N.
W m c m g g C
NMWNeenemem-mewomen m O >>>eemo-NnvemeONnm>
E m
a o C.O. O. O. O. O.e * * - - ~ ~ ~ N.N.N.N.N.
D e W
E u
a M
J w
w
= meme*mekomegeN>ncee W
c memo *-Nngch O. O. O. *. *.. *. ~. *. *. =. e m - N w e m m O
w w
- - N. N.N.N.N.N.
C a
J m
J w
E b
O*woewnNnweenknemnN H
w O NNNnnemehemONnmeeON h
U g O
- . *. *. w. w. =. ". *.. *. N. N. N. N. N. N.a. n.
g g
w w b
6 I
w m
a E
J emMewNw--mme*e-hwNO 2 w J
wwmmekemO-Nnceem-mm a
4 >
w
- *.~.*..*.*.N. N. N. N.N.N.N.N.n.n.n.
& w W J w
J h A O W W
NnNNeemechmNWOp-ee t*
O O enemmO-NngmoeO-nww h (T
> 0
... *. *. N. N. N. N. N. N. N. N. n. n. n. e. n.
g U q N w w S
W9 I
w w s
t 8 NNnn, men.n emnewN-**
eNew
-n,.
m N. N. N. N. N. N. N. N. N. N..n.n.e.n.
1E w
M U
8' a 3
- 8...
"g 888888888888888888 m
g wwoOO 0000 0000 00000 s
a awwee Nwee Nwee NweeO e
f DE
- -NNNNN nenne h
J 3 mw
>e O es W E
emne muse
I WIDE RANGE STEAN GENERATOR LEVEL REFERENCE LEG ERRORS SDATAIN PCAL=14.70.
TCAL=120..
TDCAL=120.0. H=46.73 HLH=1.000.
SEND SITERAT PSTART=100..
PDELTA=tOO.,
PSTOP=13OO.,
TSTART=40.0.
TDELTA=20..
TSTOP=400..
SEND Wide Range Steam Generator Reference Leg Errors Table If
I NMoowOWmoewmeceemon mmmwwcowomemo-nnswo C.00000000000........
emNmOmnewwN====nwom 8 annngwe@wmemO-NewmWQQ O. O. O. O. O. O. O. O. O. O... ~. ~. ~. ~. ~.
n d
wee-enewNoe>>>>mONm 8 NannmewcommemO*nece g
O. 0 0 0 0 0 0 0.,0 0 0 0 0. *.. *. *.. ~.
g 6
L
. O*wenew-owmemmweken 62 nnnnnmvecomemO-nnww C.0 0 0 0 0 0 0 0 0 0 0 0..*.*....
m g
8 J
NeOwmwomen-OOOO*mes W
==nnnessownemO*nnwe U
0000000000000.......
Cg 6
W mwmOmOMM-awwwemeONp 4"
--=nnmmemcomemo-men W
00000000000000.-..*.
% w m L
O W O-mbnkmommemmmmeemn N3 8 ~ ~0 0 0 0 0 0 0 0 0 0 0 0 0...*...
g g
--nnmevewmemO-nme C.
g g W
G MOvewObwN-OmeO-mem m O O--*NmmweenneO=nns 5
m O 0 0 0 0 0 0 0 0 0 0 0 0 0.~.~.~..=.
O e m
g a
4 J
w M
w m NOpOhmam>>WebeONw 0
0 0--nnnwecomemonnw W
O. 0000000000000.....
m w
w J
J c
J w
M i
4 u
x 3
2
-MkN>mOmegennv@hmm w O OOO-~nenwmWMemO-Nw u
a O 00000000000000.....
V.e=
y w g a
e 3
i e
w a
l J
mn v womem-DOO*nwho 2 m J
OO O ~nnnwvene@O-nw w
O. O.. O.
0 0 0 0 0 0 0 0 0 0.. ~. ~..
& w M J w
I I
\\
J
% R O W 3
m*
-Hvemekkkem=we 0 O 00 ~ ~ n n ev c e k e m-N e
- O
. 0 0.
0 0 0 0 0 0 0 0 0 0 0.*.*.e*
2 u e n w =
a eae e
ME y
w =
w Mn w*eepvwwmeese G O 00 *nnnwmedeeese l
4 O.. 0 0.
0 0 0 0 0 0 0 0 0..*
- e e J e 3
- e. e. e E
e aeea w
.e.
I~-
eoee u
6.3 E
5"8.88888888.888.8.88.8888 4 w>O000000000000 00000 e
a meseeOnweeOnwee neweO J
Da
- --**nNNNNmmmmew W
W ww
> a O ma w k w
WS J
W 3 mm&M l
res =so.
-ce,m,.-,
8 883388885.5.nn--nn,-m8.5.88.388.B.8 n-........,,
-Oe, 8 ee,,m,e-,
n n - - n,n e n O-nn..-
nnnn-000000000. 00000000..
n-...,,,,,,.
-Oe,m,e-n 8 885588885.5.nn~nnnemo m
8.5.88.3.8.858 u
Ok
- O N,,m,5 - n o n N n - N,,c e =
di ec
,nnnn-OO-~n ee-m C.000000000000000000
- eeeeeeeeea W
a O,m n,n,e n n o n
,nnnn,we-e
- 8. 9 9 9. 9 9 0 9 0. 8. - n n, e 8.n m nnnn-u o9o90 o9 cg W
Om
,nn,comN 4
O,e,neNeen,
,nnN-*O
-Nn,e@mm e >.
0000000000 -00000000 e
g m ae e e ee eaea g g O
e.
mem-m-ce-n e,,c,WeOn M E3 8 C.000000000. 00000000
,,,,nnn--O
-nn wem m M L
F-o g
8 I l 9 9 9 e 8 I l g
W WW,O,WO,60N5eeeeemNe O
M nnn--OO-an,cwee a
0000000000000000000 5
O w
=
m a
ee e e eeeeee g
J w
medkem-,5 W
w e,n,e,m n W e w>
0 nnnn-O O-Nn, ewe @
w w
000000000 000000000 W
J J p m
I eI
's eeI I 9 C
J w
q 6
,,nc,hn>O, NOOmeO*nem E
3
, nnnn-O-onne.sem w
u a o 00000000. 0000000000 W
q w
g T
h 8 i f t e I l l e e
.w 3
m
- O e,m,e - n e n N N n,n,@ m n J
2 w J
,,nnnn--OO-nn cWheo 4 >
w C.00000000000000000..
a w M J w
eeaeeaeee J
E O
bb*Owo,5 O w a
e> Wee,meON.
I 0 C nnnnnn-O O-nn c@em+
i
> O 00000000 000000000..
2 g a n w -
a ee eeeeee M9 E
w n-meOe.-
,n~Num....
a a
nnann-OO
-nnnew 000000....
o 00000000 aB w
~
e u
g W8888.8.8.88.8888888.888.8 6
o w O
w>OOOOO,OOO C00000,000 e
e a
me,weOn ee N,eeOn ee J m Da
-*---NNNNNnnMen, w 0 w
> a O eg w a w
W3 l
J w 3 mWa-tess smooe
a mw-ene-eme-nnNN-m>
nnnnn--Omee>
= * = = = = * - 0 0 0 0. W. e v n - O000000..
- eaea eeeI eeaeeeeeee
-Omven>*nckeemeneno 8 MnNN-*OOmemwownn-O-
..*.=.*...*. O. 0 0 0 0 0 0 0 0 0 0 n
eAeeeeeeeeeaeaeaee kommmen e=nnevnN-nm 8
=Nnn~*OO emWwevnN-O-
.=. =.=.....C. 0 0 0 0 0 0 0 0 0 0 m
eeeee eeI eeeeeseee g
u N*meOceNewemmmme m
6 NN-*-OmmenwewnN-
~~~~~*O000000000 O
W s i s s i l e* i i i i i i i i i i ~ '
o W
e J
n o,0 8 8,e s e N n,m,e nO n--
we n n-O- e4 W
- ....~.0000000000000 u
.eeeeeeeeeeeeeeeee gg n = r,c - m m N e h e m o m e vem W
8 ~~~OOOmeekemwwn-0-n b
.. ~.~.. 0 0 0 0 0 0 0 0 0 0.
0 0 0 W
e m w eeeeeseeeeeeeeee L
NevomOwkm-newwnNONp 8 OOOOmmenewmenn-O*nn O""
w**O.00000000000000
=
6 L m eeeeeI eseeeeeeI e W H c
-Oewswe-vebeseevem-W M
OOmmee>>weenn-OO-nv c
a
..00000000000000000 O
g m
eeeeeeeeeeee eee 9
m W
J w
M w
mw-ene-mke--NN*ONee M
O mmmeemowmegnn-O-nne C.000000000000000000 c) w w
. a a
eeeeI eeeeaeeeee m
a w
g E
e>wowev>Onnen, emNe Em w 0 eeeemowmewnn-O -Nvm o
a
,o C.0000000000000. 0000 W
y w
t.c=
aeeeeeeeI eeeee e
wm 3
J mewNNNemence wmwe*T 2 w J
6>>>wemwwnn-O-nnme 4 >
w 000000000000. 000000 m w M J w
eeeI eeeI eeaee d
4 A O w a
memNNNee-nWeweckm**
=
w O O wwwenownnn-OO-Nnwee
> e
> 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0..*
2 d g a W =
m eeeeeeeI eeee e
W9 I
W =
w vn->
O O mem,,Nk=9ee OmmO nnn-O
--nwsee*
eee 8
O 0000000000. 0000.***.*
3 I
.w
-I eeeeeeeee Io-M M
2n "3
"8.88.88.888.888.88888888
~
g m
4 wwCOOOOOOO 0000000000 C
a aggweOngwe neweOnveeO J
Da
- -***NNnnNnnnnnT w
W Mw 0 M&
a w
w wE J w 3 mwa>
esse sesed
J m>c->*ce-mwegepwm*e
OOmem>WewmN-Om>
N.N.N.N.N.N..w.w.e,- w w w - - O.O.
8 eeeeeeeee8 eeee eeee OmemeMMOmewheemewNm 8 -OOOmmeenwewmN-OmewN.N.N.N.....*..
.~.~.~.~.~.O. O.O.
N t ee eeeeaeeeeB eI aeee
- N-ecomenweemmmmeew-8 N. N...*..~.~.~.~....*.*.O.O.O.O.
OOmmmemoememn-Omede w
- ee eeaeaeeeeeeee ee et Mb M N 8 @. N @ O m @ e m O - = 8 m > m N.
f
- e..... e... e.
,m. m N... e n.
6
............... o. 0 0 0 W
t eeeeeB eaeeeeeeeaei F
cm*>m>*wkmO-NN-Omem a
membewemenmN*OmeWow
.....*.....=....0 0 0 0 0 W
eea eeeeeeeaeeeeeee e OCW mwNeMcNWeO-NNNN-men L
>>>wWopwmmn-Omehown g
....*.........000000 g.
e g_
eeeeseeseee.ee,ee ea mwNeweNeeO*NMNN= men L
8 ww.w.mewwmNN-OmemewmN o g
. -.~.~.~.~.~.~.~..0 0 0 0 0 0 0 u
r.
g eeee eeeeeae eeaeeeee g g W
F-menemenebe-NNN* Omen C
e O memwwnmN-OOmeb@ con-W a 0
-**--------00000000 O
O e a
eea eaee eeeeeee e e e s' E
I a
g 1
J w
w wmosuwOwee O--Omkw-W c
wwwmmNN-Om eksemN-O 4
D
- ..*...*..*.O..C.0 0 0 0 0 0 0 w
w
=
J J
.eeee.eeeeeeeeeeeeee g
a w
w N
C
-kevowbOmenwegmN-O*
webemeNewn-9 H
w O M
NNN-u a o
- ...*...00000000000 g
w w E
eeeeeeel e6 eeel eeei e
w T
t 5
2 w J
O-howOcowkm*MwwwmN me J
-~~~OOmemowcwmN-
-N 4
w o e-----0000000000.
00 i
a w
> m l
e a w
I ea e eeeeeeeI eeee l
J f
E O
OmemembONve@bh 50+
O w 0 O Omemeekowowmn-
-me
> O -0000000000000 OOe 2 u 4
N w =
m eeeeeeeeeeeeeee e
u o w
a 2 2
+
w =
w wmmmmmmWe*Nmmmee.e+
a o
b>>eweegmmN-OO-ee. e 000000000000000..+**+
e E
ee,eeee..
e.e w
au e
h
"$8.8888888.8.888.888.888.8 e:
n a 4
w>OOOOOOOOOOOOO 0000 e
a neweeONvweONwee NwWe J $
3E
--~~-NNNNN mmmmt w O w OW O Ma w k w WE i'
M w M Uw
{
A>
see me.
9 N*emomenweemmO@eeva OOmmee>>wwwnNNomeke n.n.N.N. N.N.N. N.N. N. N.N.N.N.N.=.*.*.*.
4 0 0 5 4 4 0 0 8 8 0 e8 1 8 1 8 4 6 OmenenwCNewh=>>wwne 8 memebMewmvMN=Omebwe N. N. N. N. N.N.N.N.N. N.N.N.N.N.*.*.*.*.
N 8 0 4 6 0 G O I 0 0 8 8 0 0 8 0 0 t e MewCcOv>ONnvecen-me 8 bbbhow@wenN-Omekeen m
g N.N.N.N.N.N.N. N. N.N.N.N.N.=..*.=..*.
O t
m evakn>=v>mO*NN= Omen weemcwwnN==OmehownN m
N.N. N. N. N. N.N. N. N. N. N.N.*.*. *..=.*. *.
g 0 eI I I 8 8 0 0 4 1 0 0 0 8 I I S I W
N-evows-wwhommenenO V
cowwwnNN=OmenweenN-C N.N.N. N. N.N.N.N.N. N..=....*..*.*.
g e9 eeeeaeeaeaeeeaeee g
ekwaw-meONwmemenNm W
8 N. N. N. N. N.N.N. N. N. =.~. e - - e e e -
nnnnNN~OOmenwewnNO M **
we e
L eeeeeeaeae6 eaeeeeee O W M
e.
wnONNkoweeO*==Omben E$
8
.N. N. N. N. N.N.N. *. *. *.*.=.=.*..~.~.O.O.
NNN-=OOme>> ween-Ome W H C
eeeeaee0 ea eeeaeee ee W
G mecNNNem-newwwcwNow m
COOOmmenmecenN-Omme Ee aC N. N. N. N... ~. ~. ~. ~. ~. ~. ~. ~. ~. ~. O. O. O.
g e
eeeeaeeeeaeeeeeeeea s
a D
J w
w MNew-wenchemOOmeenO W
U menemowemwnNN-menwe m
W w
- *...=.=.......=.O.0 0 0 0 c
d J
g 8 8 I $ 0 0 0 9 0 8 0 0 8 9 0 0 8 4 0 J
w W
4 0
3 2
penenenchm=NNN*Oewn W
w
>>>weccenNN-Omencen
-n T
U a
- ....*... =..*.*..0 0 0 0 0 0 q
w 3
k I I 0 0 0 0 0 8 0 0 0 0 0 0 0 0 6 0 0 0
wE J
WwNeneNWMe-NNN-Omen 2 w J
cpowennN=OOmemeenN=
4 >
w
- = - = = * * * * - = O.0 0 0 0 0 0 0
& w W J w
eeeeaeeeeeeeoeeeeee d
b A O w a
-Oewswe=nchememewee O
nnNN**OOmeowcwnN-Oe
> 81
- * =.=.*..*.. 0 0 0 0 0 0 0 0 0 0.e 2 o 4
w =
a eeeeaeeeaeeeee eese M9 y
w =
w ecNM-ce=nvece eese L
G O emmeenewcwnN= seee 8
O
.C.O.O.O.O.O.O.O.O.O.O.O.O...e e e e 3
eee a=E 4
0 $ $ $ e$ 1 8
- 0. 0 9 0 0 E l e e.e.e w
eeee o
"$.8.88.8.8.8.8.88.8.8.8.8.88.88.8 8
l 8' 8 W
E w
4 wkOOOOOOOO 000000000 a W4weeONwee NweeONews I
- NNNNNnnnnnw Q
W WW s
O M&
b k
= wa d w 3 kW
[
&M I
tas mese
[
=
1
i INPUT DATA PRESSURIZER LEVEL REFERENCE LEG ERRORS 2250.00 -PRESSURE IN STM GEN OR PRZ DURING CALIBRATION PCAL
=
120.00 -TEMPERATURE OF REFERENCE LEG DURING CALIBRATION TCAL
=
,0.00 -TEMPERATURE OF DOWNCOMER (SG) DURING CALIBRATION TDCAL =
43.49 -SPAN (FEET)
H
=
1.0230 -RATIO OF REFERENCE LEG LENGTH TO SPAN HLH
=
i 1
1 i
i 4
e 4
I l
l a
a 8
I 1
i j
Pressurizer Reference Leg Errors t
Table III I
l LF O.000 PERCENT OF SPAN ERROR FRACTION e IDCICATED LEVEL - ACTUAL LEVEL s
PRES $URIZER LEVEL REFERENCE LEG ERRORS PRESSURE 100.
300.
500.
700.
900.
- 1900, 1300.
1500.
1700.
1900.
2900.
2300.
2500.
7EMPERATURE 40.00
.215
.203
.190
.176
.162
.f47
.130
.112
.093
.071
.046
-l018
.015 60.00
.214
.201
.188
.974
.160
.145
.128
.180
.090
.069
.044 O15
.018 1
80.00
.209
.196
.183
.169
.155 a.139
.123
.105
.085
.063
.038
.010
.024 100.00
.201
.188
.175
.162
.147
.132
.115
.097
.077
.055
.031
.002
.032 120.00
.192
.179
.166
.152
.138
.122
.106
.088
.068
.046
.021
.008
.041 140.00
.180
.168
.155
.141
.126
.111
.094
.076
.057
.035
.0f0
.089
.052 160.00 168
.155
.142
.128
.114
.098
.002
.064
.044
.022
.003
.031
.065 180.00
.154
.141
.128
.114
.100
.084
.068
.050
.030
.006. 016*
.045
.079 j
200.00
.138
.125
.112
.099
.084
.069
.053
.035
.015
.007
.032
.060
.094 220.00
.122
,109
.096
.082
.068
.053
.036
.018
.001
.023
.048
.076
.110 i
240.00
.104
.091
.078
.065
.059
.035
.019
.001
.018
.040
.065
.093
.127 260.00
.085
.072
.060
.046
.032
.017
.000
.017
.037
.058
.083
.111
.145 280.00
.065
.053
.040
.027
.012
.003
.019
.037
.056
.078
.102
.131
.164 300.00
.044
.032
.019
.006
.008
.023
.040
.057
.076
.098
.123
.951
.t84 320.00
.022
.010
.003
.016
.030
.045
.061
.079
.098
.119
.144
.172
.205 6
i 340.00 *"*"*
.094
.026
.039
.053
.068
.084
.109
.120
.142
.166
.194
.227 360.00 '*****
.038
.050
.063
.077
.092
.108
.125
.144
.165
.190
.218
.251 380.00 ""*"
.064
.076
.089
.102
.197
.133
.150
.169
.190
.2 14
.242
.275 400.00 *******
.091
.t03
.116
.129
.444
.i59
.576
.595
.216
.240
.268
.300 1
i 5
l I
f I
1 l
a
=
j Pressurizer Reference Leg Errors i
Table III h
l LEVEL = 25.000 PERCENT OF SPAN l
ERROR FRACTION = INDICATED LEVEL - ACTUAL LEVEL PRESSURIZER LEVEL REFERENCE LEG ERRORS 13'0.
1500.
1700.
1900.
2100.
2300. 2500.
I PRESSURE 100.
300.
500.
700.
900.
- 1100, 0
TEMPERATURE 40.00
.004
.027
.036
.042
.045
.046
.046
.045
.042
.038
.032
.023
.012 60.00
.006
.025
.034
.039
.043
.044
.044
.042
.040
.035
.029
.020
.009 80.00
.001
.020
.029
.034
.037
.039
.038 037
.034
.030
.023
.015
.004 100.00
.006
.013
.022
.027
.030
.031
.031
.029
.027
.022
.016
.007
.004 120.00
.016
.003
.012
.017
.020
.022
.021
.020
.017
.013
.006
.002
.014 140.00
.027
.008
.001
.006
.009
.010
.010
.009
.006
.001
.005
.013
.025 160.00
.040
.021
.012
.007
.004
.002
.002
.004
.007
.011
.017
.026
.037 180.00
.054
.035
.026
.021
.018
.016
.016
.018
.021
.025
.031
.040
.051 200.00
.069
.050
.041
.036
.033
.031
.032
.033
.036
.040
.046
.055
.066 220.00
.086
.067
.058
.052
.049
.048
.048
.049
.052
.056
.063
.071
.082 240.00
.103
.085
.075
.070
.067
.065
.065
.067
.069
.074
.080
.088
.099 260.00
.122 103
.094
.089
.085
.084
.084
.085
.088
.092
.098
.106
.117 280.00
.142 123
.114
.108
.105
.103
.103
.404
.107
.111 117
.125
.136 300.00
.163
.144 135
.129
.126
.124
.124
.125
.127
.131
.137
.146
.157 320.00 185
.166
.157
.151
.147
.146
.145
.146
.149
.153
.159
.tG7
.178 340.00 *******
189
.180
.174
.170
.168
.168
.169
.171
.115
.181
.189
.200 360.00 *******
.214
.204
.198
.194
.192
.192
.193
.195
.199
.204
.212
.223 380.00 *******
.239
.230 223
.220
.218
.217
.218
.220
.223
.229
.237
.247 400.00 *******
.267
.257
.250
.246
.244
.243
.244
.246
.249
.255
.262
.273 l
i i
I i
r i
I 1
Pressurizer Reference Leg Errors Table III
4 4
9 s
On-mwnOwmen amoneon wmen~O~Nnen Onenens 0 0 0 0 0 0 0 0 0 0 0..*.*.*.*.*.N. n.
n eeaeee ewone -moon *OOnwbN>
nnN-O nemmeOnweeOmm 0 0 0 0 0.. O.O. O. O.O..~.~. ~..n.n.n.
n Qeee e
E ONewkenNNwomwO
- kw
- 8
- 0.. O.. C.O.O. O. O. O.
.*.c o e - w m* *
- N. n. n.
O newommen 0
a eeee N
==nmew hommeenks I
.8...newe>0 0 0 0 0 0.
.*.*.*.*.*.N.N.N.n.
OnweeOmme
=>wwmeN>mOmeeONo->
8
~~nmembeONme>Onwho
.D.O.O. O.O.O.O.O....~.~.n.N.N.N.M.
me-eemne->wmamwnOmn m
annmembeO*mpbmenee-L O. O. O. O. O.O.O.O. *. *.*.*.*.. n.n.N.n. M.
o LW OOwnewk-WNeekeONe=e mwememeO*mweeOMe>On m
C.O.O. O.O.O.O.e * = = *
- N N.n.n.M.m.
O y
C WNNOS m>Neewwpemmen u
M 8
mem>>00000......eeOnwom=w.. n. n. n. N. N. M. M.
W M
O-mv C
M 1
e L
W W
% m w
mmOeWe**ObwmNmmeN>w D
>>eemONnmeeOnewe-me E 4 O. O. O. O.O..*.*. *.*.*.N.N. N. n.N.M.M.M.
H w
L J
I E
J N
4 w=
3 m
- M*Oehm*p*>mmmwommem L
O meOO*NwekeONewcomme s
U O
O. O.*. *.*...*.*.*.N.N. N.N.n.M.M.M.M.
e n
,m l
- +-
W e
w L
J o
>OWNnmeOmemedeOmenO L
2 W w
- NnMwesem*Nwee-mes*
4 >
J
- * * * * * - -
- n.n.N.N.M.M.M.M.m.v.
g m M J w
& O O w w
m-emmwwwenomeOnomen R
womeme9*NweM&Nwee*v
> e W
..*.*. *.*.*.N.N. a.n.n.N.m. M.M.M.w.w.
l 3 y g
W m w
l w -
J o*
mm >-em-mmOm w O mO anmwome-Nwom...
1
,O
- N.
- n. n.N.N. N. N. n.M.e.n.M.M.....
w I~E J
w U
N a
g " 3.8.8.8 8.8.8 8. 8 8 8 8.8.8 8.8 8 8 8 "8
~
i am l
- 3.:?S282?S282?S2 R?S2,8 w
mnNNN MMMe
- w S
- w aw b
esse suas
,,.y
.,n_---_---,---------,-
n-
9 T
hwm--Oew-hwn*NmmeNe wemmen- -NeweONwom-0000000..O.O.O. O. O.- -. - - N N,seeseeae v=ceenemw-eemmemnen 8 mmN-OO-Newom-ncoONm O.O. O. O.O.O. O. O. O. O. O. O...*.*. N N. N n
N e ees N-wem>*WN e>>e-wmm 8 8.8..O.O.O.O.O.O O..-..- N. N. N N
-Nmvemm Nwee*mme e
N a
mNomweeN>mommeONWOW NenwewomONwcomNwem-O O O. O.O. O.O O..~.~..*..N.N. N N.M.
e
. OnemmemNew-mem-mm-e 8 w w @O. O.O. O.*.*
- .*.*.*.N N.N.N.N.M.M.
de@ONmmbeOncomnw O O.
m M
O L
- *me m>mmeenOOONeemm b
8 mem "NammeONweeONem kJ C O O *....~ ~.N N N N.N.o. n n n m
g W
J NmOeWe*cocenNNwWomN 8
- N N e m w m b e O - n o b e - M W e,*
W
.N N.N.N.N.N.M M.M.M.
U we n
g p.
W we L
chmOO-wenemmem>Owmm 0 W 8 meenemO-MweeOnwom-w 4-F.
..e e e - N.N N.N.N.N n n.n.n.n.w w W D g g H
w NomwemNew-OOONemwe mmO-NmeweONweeONoe w
.N.N.N. N.N.N.N.M.M.M.M M.v.w.T.v.
"L a
3 d
M i
43 m
- e emNmW mNeemeOnemo m
NMmmmh g
4 N
mwm@M U
O N.N.N.N N.N.N.N..M.M.M M n.g,e @ m,N L
q g e 1
E a
w J
O W"Me@c mMecM--Nvh*bw 2 w w
hbem *mweeONwee-me 4
J N. N.N.N.N..M.M.M.M M.w.v T.w.e.m m o.
a w m J W
6 O
N O w w
ve*meONhne@meWe*c-e e
a NNmmvemeO a.n.n.e.n.n.n.n.,.,.,m e,m - w e m.
m,.,meme.
w
, U w
w -
w U O N
N Z
- 8. 88M*R*wew8e--e8...v.v w w w w w w w m.e m.e.m......
w -
a W
-N wmee
-em-w
\\
J
(
a>
w U
N W=
a W8.8.8.88.8.8.888.888888888
-w O
O m wkOOO 0000 0000 0000 e
e a4wwe Newe Newe Neem J &
W OR
- -*-NNNNNnMMnne f
w O a mw
> a
& mg w R wa J w SW e
seBB seeOf
_, _ _, _ _.. _ ~ _ -
I L*'***=100.000 PERCENT OF SPAN En w FC'CTION = IpeICATED LEVEL - ACTUAL LEVEL PRES $URIZER LEVEL REFERENCE LEG ERRORS PRESSURE
~ 100.
300.
500.
700.
900.
1100.
1300.
1500.
1700.
1900.
- 2100, 2300.
2500.
TEMPERATURE 40.00
.694
.500 425
.363
.307
.256
.207
.158
.111
.062
.083
.039
.095 60.00
.615
.502 427 365
.310
.258
.209
.161
.113
.065
.016
.036
.092 80.00
.620
.507
.432
.370
.395
.263
.214
.tG6
.119
.070
.021
.030
.086 100.00
.628
.515 439
.378
.322
.279
.222
.174
.926
.078
.029
.023
.078 120.00
.637
.524
.449
.387
.332
.280
.231
.183
.136
.088
.038
.013
.069 140.00
.649
.535
.460
.398
.343
.292
.242
.194
.147
.099
.050
.002
.058 160.00
.E69
.548
.473
.411
.356
.304
.255
.207
.159
.itt
.062
.010
.045 180.00
.676
.562
.487
.425
.370
.318
.269
.221
.173
.125
.076
.024
.03t 200.00
.691
.578
.502 440
.385
.333
.284
.236
.188
.140
.091
.039
.016 220.00
.707
.594
.519
.457 401
.350
.301
.252
.205
.156
.107
.055
.000 240.00
.725
.612
.536 474 419
.367
.318
.270
.222
.174
.124
.073
.017 260.00 744
.631
.555 493 437
.386
.336
.288
.240
.192
.143
.098
.035 280.00 764
.650
.575
.513
.457
.405
.356
.308
.260
.211
.162
.110
.054 300.00
.785
.671
.596
.533
.478
.426
.376
.328
.280
.232
.182
.130
.074 320.00
.807
.693
.618
.555
.499 448
.398
.350
.301
.253
.203
.151
.095 340.00 *******
.717
.641
.578
.522 470
.421
.372
.324
.275
.226
.174
.117 360.00 *******
.741
.665
.602
.546 494
.444
.396
.348
.299
.249
.197
.141 380.00 *******
.767
.691
.628
.572
.519
.470
.429
. 372
.324
.274
.229
.tG5 400.00 *******
.794
.718
.655 -
.598
.546 496
.447
.399
.350
.299
.247
.190 i
I 1
Pressurizer Reference Leg Errors 1
Table III i
g j
+9 i
l GISTANCE BETWEEN SENSORS
- 10.000 FEET i
Ca FERENCE CONTAIDS8ENT AIR TEMP = 90.000 DEG REFERENCE CONTA!fS8ENT WATER TEMP
- 90.000 DEG'
- ~
CEFERENCE CONTA!>S8ENT PRE 55URE = 14.T00 PSIA
- '3s
- i OIL DENSITY = 1.0023500.0004210T(CTMTAIR)
G88/CC 1
CCTUAL LEVEL
- O.000 ' PERCENT OF SPAN
^
i
.i l
1-
. ~y A
sr
..x
.~
>r.
v 9 7-
. < ~gy
-.fi i
n i
s
]
I I
1 i
~c v
e q -
1 i
2 E
I I
i l
Containment Water Level Instrument Errors Table IV i
f q W 4j
- ,j
,. o.
,4
-[
tc w.
s
,*4" g_
gs s
T
+
a s
- s.
y s
p' t*
c.
.m' i'
f,
y~
s a
v; s
6 e'
C'.-
7,
?
V-A
.i -
r, s
n y
,3s s
s srorr E
l t
nem u
0 2 0 3 5 4
.1 3 s 9 2 4 7 0 r
0 1
2 3 5 6 7 8 0 1
1 2 4 t
0 0 0 0 0 0 0 0 0 0 t.
s 1
1 t
- 5 n
- 1
- 0 I
3 0 3 5 8 1
3 s 9 2 4 7 0 l V 0
1 0
1 2 2 5 6 8 0 i 2 4 eI 0 0 0 0 u.
0
- 0. 70 0 v
5 1
t 1
1 3
ee 1
- 0 ll b
3 0 3 5 8 1
3 6 9 2 4 7 0 ra 0
t 2 4 eT 1
0 1
2 3 5 6 7 8 0 0 0 0 0 0 0 0 0 0 0 t
1 s
1 1
2 a
1
- 0 W
1 3 6 9 2 4 7 0 t
0 3 0 3 5 8 n
0 1
2 3 5 6 7 8 0 1
t 2
4 1
s 1
e 5 0 0 0 0 0 0 0 0 0 m
0 1
- 0 n
i L
a 0 3 0 3 5 8 1
3 s 9 2 4 7 0 E
t V
1 0
1 2 3 5 6 7
8 0 1
2 4
n E
0 0 0 0 0 0 0 0 0.
0 1
1 1
t O
L E
9 C
R
- 0 O
N U
E A
S 0
3 0 3 5 8 s1 3
T P
S 9 2 a 7 0 s
.8 A
S E
1 0
1 2 3 5 6 0
t 2 4 7
C R
5 0 0 0 0 0 0 0 0 0 i.
1 1
t I
F P
7 D
O
. 0 N
T I
T N
E 0
M
- 0 3 0 3 5 8 : 3 6 9 2 4 7 0 N
E 1
0 1
2 3 9 6 7 8 0 1
2 4 C
0 N
0 0 0 0 0 0 0 0 0.
0 1
1 t
L R
0 I
6 A
- 0 E
E V
P 0
T E
9 N
3 0 3 5 8 1
3 6 9 2 4 7 0 L
O 0
0 1
2 3 5 6 7 8 0 2 4
=
C 1
L 0
5 0 0 0 0 0 0 0 0 0 1
t 1
t A
0 P
4 U
0 M
- 0 T
E C
0 T
A 0
3 0 3 5 8 1
3 s 9 2 4 7 0 R
1 0
1 2 3 5 6 7 8 0 s
2 4
e E
0 0 0 0 0 0 0 0 0 0 1
t t
T 3
N
=
A
- 0 O
W I
L 0
3 0 3 58 1
3 s 9 2 4 7 0 T
E T
C V
N 0
1 2 3 5 6 7 8 0 t
2 4
1 A
E E
5 0 0 0 0 0 0 0 0 0 i.
1 1
1 R
L M
1 F
N
- 0 L
I R
A A
T O
U T
N P 0 0 0 0 0 0 0 0 0 0 0 0 0 R
T N
TRM R
C O
NIE 0 0 0 0 0 0 0 0 0 0 0 0 0 E
A C
CA7 6 9 2 5 8 1
4 7 0 3 6 9 2
1 1
1 2 2 2 3 3 3 3 4 E. [-
~
l i
l
),-
l j-
)l Iij!
j;,
- 1.
1:
{!a
,,1j1ill jj
sy,
- ?* *
(p j.
r;
's
- ~:.
n v -~
g,
- 7g:
r sr
<e p,
ey s
f>..
+..
(;.,.
a i.
s s
- p. -
C g.,
N
^.
f:,
.t i
i V
+
r
/
en L
~
L La n
n m e - n o e n'
w.*
O.
O.
- n n e e no O e.n c
O O..
s-O.
O.
O.
O.
O.
O.
O.
O.
e 6
n'ecm n'w<>
0 O.
n.
n e e -
- n n e e p e 0e n,
C p
O...0 0
C.
O.
O.
O O.
e
=
- n 4
M e
e 3 m>
0 m o e e - n e e n w > 0
- n M e es e e O
- n w O
O. '
-* e O.
.O O. ' O.
O.
O.
O.
O.
=.
.J r=
= **
n J3 b @
@ >==
0 m n o e - n e m n w > 0 y
e*
- n
(*)
e W > e O
- N w b
O.
O.
O.
O.
O.
O.
O.
O *.*
- e O w
O n M
n eri e - n e e n.M N O ec
- n n p e e e O
- N w g
O.
O.
O.
O.
O.
O.. O.
O.
. ~ ~.
c w
a w
e e O O
2-O 9
w en N
a e
o.
n n en - e - n to e N w > 0 C
4 en w
- n es c w n e O
- n w O
.u a
e O. -
O e
O.
O.
O.
O.
O.
O.
O.
O.
u g
a p
g
~
>2 w
O.
n n eri e - n e m N w > 0 i
e w
a
- n n m e > e 0 e
n v u
2 g
O. ~.
O.
O.
O.
O.
O.
O.
O.
'^
,,s a
w w
4 e O a
w 2
.a e
O O. - n n m e e
n e e n 4 > O a
u e
n n e w n e O -* N w
.J e,
O.
O.
O.
O.
O.
O.
O.
O.
=.
e a
3 3
e O M
'w u
O O.
n n en e e
n e m N w > O e
- N n c w e e O e
n 9 e
w o
O.
O.
O.
O.
O.
O O.
O.
gr3 2
e 4
e O O
3 ea
.J w
O n n e e -
r's e m N w > O u
2
- n M e e o e O
- N w e
w e
O.
O.
O.
O.
O.
O.
O.
O.
a
.a w
ta.
e O
.J e.
s 4
O O.
O O O.
O O O.
O O O O O 3
N k m.. I
- 0 0 0 O O O O O O O 2
2 w 0
a u
O w
e u
v ot e e m n e - w 5 '
n e m n e
== N N M n fi e"t
("a w
l w.
s<
e r.~ ~m
- .m
?"
p.
3 f 3-X.
7 -rr:~
+-
7 p_
r.
s
.9 c--
e.
L v
a
+s v-j
.)
s a
s 1
a 5
ir 6
n e#n
~
L OL L
n ' e ' e. N -wn O'
W O.
n' n e e e
- N n e b
e O - >N w-O O... ' O.
O.
O.
O.
O. - O.
O.
S s
e g
e O'
O n-
' n e-e - n o e N" w' O-
- N n e t '
9-e O
- .N w
e' O.
O.
O.
O.. O.
O.
O.
O.
e n
ess
- e O c
\\
M O n n e e
- n w e N w > 0 N n e W > e O
--N
- O O. -.
O.
O.
O.
O.
O.
O.
O.
~.
>8" N-e O-W&
J r-D C.
n n e e
- n e e N w > 0 L egy N n e e > e O
- N w gg e
O.
. O O O.
O O.
O O.
y O* e 4
g
- a w
O n-n ese
- n e e N w > O w
~ ~
N-e e W 5 e O
- N w g
(.
w O
O.
O O.
O.
O.
O.
O.
O.
a w
e
' O 2
C w
g en a
en O.
n.
- M e e - n e e N
- 6 O 80 e
en w. e N e ui e o e O e
N w w
O..
' O.
O.
O.
O.
O.
O.
O.
c u
a a
E
-2 w
O.
n n e e
- n e e N w e o e
w E
~
~
N n e e s e O
- N w 2
O O.
O.
O.
O.
O.
O.
O.
O.
u
~ *
- a m
e e-O g
w w
a O.
>g w
e J
N o
O.
n.
n e e - n e m N w & O
- N n e W W e O e
u
- N w.
3 R
e O.
O O.
O. O O - O O
.a e
O.
4 a
w ku C-w>
O n n e W
= n e e N w > O e
N n c w 5 e O
- N
- O.
O.
O.
O.
O.
O.
O.
O.
a w
p g
g a
e. O-
.J w
O n e e e - n w e N * > O u
2 N n e W W e O
- N w 4
w c
O.
O.
O.
O.
O.
O.
O.
O.
g a
w E
e O
.J E
g O.
O.
O.
O O.
O.
O.
O.
O O O.
O O.
3 3
par u
2== w O O O O O O O-O O
w 4
u e.-
e mN e -
9 6
e N
e
- *= N N N n n n w w.
l s
J '.
O!5TANCE BETWEEN SENSORS
- 10.000 FEET REFERENCE CONTAi WENT AIR TEMP = 90.000 DEC
~ ' ' ' '
REFERENCE CONTAINMENT WATER TEMP
- 90.000 DEG
"'r ?
r REFERENCE CONTAIMENT PRES 5URE'*' 14.700' ' PSIA
~l 1.0823500.OOO4210T(CTNTAIR)
GN/CC OIL DENSITY
=
)
ACTUAL LEVEL = 25.000 PERCENT OF SPAN ~
'~2-'
'.4 1
1
~
a 5
h
.}
)
s
- e.. m
>. p i
+
v 4
n
.w l
4 1
?
L Containment Water Level Instrument Error 5 Table IV
I
. ERROR FRACTION = AC7DAL LEVEL - INDICATED LEVEL ACTUAL LEVEL =
25.000 PERCENT OF SPAN CONTAINNENT WATER TERIP = 90.000 I
CNTMT
~'
AIR CONTA1988ENT PRESSURE e'
T Eber 1s.0 30.0 45.0 60.0 75.0 90.0 105.0 120.0 135.0- 150.0 60.0
.010
.0f0
.009
.009
.009
.009
.009
.009
.009
.009,
90.0
.000
.000
.000
.000
.000
.000
.000
.000
.000-
.000
^
120.0
.010
.010
.010
.050
.010
.010
.010
.010
.010
.010 150.0
.019
.019
.059
.019
.019
.019
.019
.019
.019
.019 4
180.0
.029
.029
.029
.029
.029
.029
.029
.029
.029
.029 210.0
.038
.038
.038
.038
.038
.038
.038
.038
.038
.038 240.0
.048
.048
.048
.048
.048
.048
.048
.048
.048
.048 270.0
.0s7
.Os?
.0s7
.Os7
.Os?
.Os?
.Os?
.Os7
.Ost-
.Os7 300.0
.067
.067
.067
.067
.067
.067
.067
.067
.067
.067 330.0
.076
.076
.076
.076
.076
.076
.016
.076
.076
.076
~
360.0
.086
.086
.086
.086
.086
.086
.086
.086
.086
.086' 3
390.0
.09s
.09s
.09s
.09s
.09s
.09s
.09s
.09s
.09s
.09s 420.0
.tos
.tOs
.iOs
. sos
. sos
. sos
.tos
.tOs
.iOs.
.iOs r
. e y---
l s
4 4
E I
1 Containment Water Level Instrument Errors i
Table IV
l 7.;
s
- EERost FRACTION = ACTUAL LEVEL - IpetCATfD LEVEL ACTUAL LEVEL =
25.000 sPERCEN7 DF SPAN s
+;
4 CONTAIPERENT ff4TER TEMP = t50.000 s
CNTWT AIR CDNTAIPettNT PRESSURE'
' ' N TEMP 15.0 30.0 45.0 60.0 75.0 90.0 105.0 120.0 135.0 150.0 60.0
.007
.007
.007
.007
.007
.007
.007
.007
.007
.007 4cg 90.0
.003
.003
.003
.003
.003
.003
.003
.003
.003
.002 O
s 120.0
.012
.012
.012
.012
.012
.012
.012
.012
.012
.012 a
150.0
.022
.022
.022
.022
.022
.022
.022
.022
.022
.022
- y, m
1eO.O
.031
.031
.031
.03
.031
.031
.031
.031
.031
.031
' 210.0
.041
.041
.041
.049
.041
.041
.041
.041
.041
.041 i
240.0
.050
.050
.050
.050
.050
.050
.050
.050
.050
.050 e
270.0
.060
.060
.060
.060
.060
.060
.040
.060
.060
.060 300.0
.069
.069
.069
.069
.069
.069
.069
.069
.069
.069 330.0
.079
.079
.079
.079
.079
.079
.079
.079
.079
.079 n
360.o
.Osa
.Ose
.Oes
.Osa-
.Osa
'.Oes
.Oes
.Oes
.Oes
.Oes 390.0
.09s
.09e
.09s
.09e
.09e
.09s '
.09e
.09e
.09s
.09e 420.0
.107
.to?
.107
.107
.107
.107
.107 107
.107
.107 s.,
s.
2
(
l 3
3 J
1 3
4 I
I I
I i
i Containment Water Level Instrument Errors Table IV l
I
'4 s
ERROR FRACTION
- ACTUAL LEVEL - I W ICATED LEVEL
~
ACTUAL LEVEL =
2s.OOO PERCENT OF SPAN
'r CONTAINMENT WATER TEMP =210.000 s
s CNTNT v'!!
~
6 ^ '
AIR CONTAllsetNT PRES $URE TEMP
~
e l 15.0 30.0 45.0 60.0 75.0 90.0 sos.O 120.0 13s.O 150.0 60.0
.006
.006
.006
.006
.006
.006
.006
.006
.006
.006 4
90.0
.004
.004
.004.
.004
.004
.004
.004
.004
'.004
.004 e
120.0
.013
.C13
.013
.013
.013
.083
.013
.013
.013
.013 1s0.0
.023
.023
.023
.023
.023
.023
.023
.023
.023
.023 I
teO.O
.032
.032
.032
.032
.032
.032
.032
.032.
.032
.032-
,f
. w; 210.0
.042
.042
.O.12
.042
.042
.042
.042
.042
.042
.042 240.0
.Ost
.Ost
.Ost
.Osi
.Ost
.Ost
.Ost
. cst
.Ost
.Ost s
., 7,
270.0
.06:
.Ost
.Ost
.06:
.061
.Ost
.Ost
.061
.Osi-
.Ost 300.0
.070
.070
.070
.070
.070
.070
.070
.070
.070
.070 330.0
.000
.080
.080
.000
.080
.080
.000
.080-
.080~-
.000 -
, y: y...;
360.0
.08s
.Oes
.Oes
.08s
.Oes
.One
.Oe9
.08s
.Oes -.Oes i
i 390.0
.099
.099
.099
.099
.099
.099
.099
.099
.099
.099 1
420.0
.108
.108
.108
.106
.108
.108
.108
.108
.108
.108
.n.
.9 a r..
~
- )
'l 1
n,
,.v m v.
x E
3 e
COntainsment Water Level Instrument Errors Table IV
I t
s s:
DISTANCE BETWEEN SENSORS
- 10.000 FEET REFERENCE CONTAINMENT AIR TEMP = 90.000 DEG d
T^#
i REFERENCE CONTAINNENT WATER TEW '= '90.000 DEG l
REFERENCE CONTA!seENT PRES 5URE.=.14.T00.
PSIA
.s w.
OIL DENSITY = 1.0823500.00042'OT(CTNTAIR)
GM/CC
'5 - ' '
ACTUAL LEVEL
- 50.000 PERCENT OF SPAN a
s +
w,
- ~
i 1
r~<:t 2
i 1
4 1
?
l 3
P 1
4 I
i
)
i I
a 1
Containment Water Level Instrument Errors Table IV
e
~ -
~
s
.V N
v s
g 4
J
+
3 V
O
/
e f
b O6L w
4 C
~ $
g O
R,. - $.. N8 5. 5 8 8 8 3. 8. 8 8. B.
n e e n e m - > w O O
b e
M O
~ O o n'
m e a e c - >, O E
E.'8 8. 5.~5 8. 8. 8. 3 8. 8 8. 5
'v;
- m..
O e M e e n e c - > w 0 6 $. O8. 8. 5 5. 8. 8. 8. 3. 8.'8. 8 5 m
um n-,.
.w 9
O.
n e e ~ a
, O e,
e
- - ~ e n
. o o 9o o o 9o 8. 9 8... ~
ec a
O.
w n
e n e c - r
,O e
- - n n n v ee e o e
w 0
0 0 0 0 C.
O O.
O.
O.
O g
a w
e y
O 2
8 CO w
e M
n m o n.a m - M v C:
U o.
dL m
4 M
taa N
M M T b
.u at c
O.. O.
O.
O.
O.
O.
O.
O.
O.
O.
g a-p g
o E
-1 w
O n a e ~ e, - n, O 4
w E
N M n v O O e b u
2 J
g e.e O.
O.
O.
O.
O.
O.
O.
O.
O.
O W
r 6
w Z
.J o
O.
M e e N e *
- b w O a
u
.- n n n, e c e o g'.
W
.J e,
O.
O.
O O.
O.
O.
O. -
O.
O O g
g ku O
m O.
n -e e n.e w - e m O E
- N M M 9
6 b
a w
O O.
O.. O.
O O.
O.
O.
O.
O.
O n.
b 0
O M m o n a w - > m O w
u 2
p N
M n T O @ e 5
w m
R
.J s.
O.
O.
O O.
O.
O.
O.
O.
O O.
e6 e
J me er a
w 0
3 I CL 0
C.
O.
O.
O.
O.
O.
O.
O O.
O.
O O.
ar 2
was a
u O
2-w O O O O O O O O O O O
ena e
u uge e e n e e - w >
m e a
e N N n n n M M v g
eue m.oe
t',
v r
- U4 G '.W~
p;,
f ;^ '
['^
r
^'
f^
l h;.
~
^
}.
^-
y a
b ss k-f,,
s
/
v s
r n'-
v
?
s e
d ML OLL nd v
S C
O n eg== > w e~ M m e 8
O.
O.
O.
O.
O.
O.
O.
O.
. O.
O.
6
- N ti M T O @
e M p
I e
C O
N e * * > m W' n m en L
.** O N
f5 ts i e e e e O.,
O.
O.
O.
O.
O..
O.
O.
O.. O.
O.
"g w>e n
e.
G G O
- 8. E. n5. 5 8. 8 8. 3. 8 8.~8. 8. B.
3,t_
e~w * > n O e a e m ci 2
-3 O 8. $. 5 5. 8 8 8. 3. g e8 8 8. B.
~e t,
8 0
- e
- a g
d
' ' N e g - > 19 O w n e o E
- O O
= - N E9 E9 9 cW- @
w O O O.
O.
O.. O.
O.
O.
O.
O.
O.
O.
O sg a
w e
y O
2 B
O w
v EL en O
n e v'*
> ' f4 O e n e m 4
e w
- O
- - '. N-f5 m v e c w W W
u u
a O.
O.
O.
O.
O.
O.
O.
. O.
O.
O.
O.
O g.
gg g
O e
b w
e2 w
O.
N e w - 6 #9 Se
.n m e w
O
- - o e e,
2
.O O...
u O.
O.. O.
O.
O. ' O O.
O.
O. - O.
O-a w
w
=
4 e-2
~EO W 8.. E. a5 5. 8 8 8 8 8 8. 8 8 5 e, -
w.e O.~..
s.
3
'k a
e w
M R
~
O n O....
E
- O bo e, -
- - n ti 19 4 c W W W
a w
o O.
O.
O.
O.. O.
O.
O.
O.
O.
O.
O.
O.
O.
+
p e
E i
a F
w k
O
- N e w - > E9 O W N - m e u
2
- O
- - N E9 m 9 0 e W W W
w
.m O.
O O O.
O O O an.
e
- O O O O O a
a J~
e-a e
4 O
3 3
a o O O O O O O O O O O O O a
2 kmE
- 0 0 0 0 0 0 0 0 0.O O-a u
o 2 *= w 0 - - - - - - - - -
w 4
u uww e e n o e - w
- O m n
e
- N N n M M M M v seas moos
e vyi s
y p e:
gu
~,
s
- ~,
5T;E'Y ' '
r;:'
,,, )
y::
~
VA e'
p I;
+
>.s s
,a p
/
6 s
o I
M6 O
LL LaJ C
3' O
- *.* O e n m e N e e*
M
- N N n M M M
~ O.
O.
O.
O.
O.
O.
O-
- c Me e n m e N e..~
72
- --, O -
.O*
N N fi fi T b
W' O.
O.
O.
O.
O.
O. -... -O.
O G G n -.
- =
J r=
.O L= 80 O'.e n m e N e o.-
- gp 0
N N fi ti 9 5 5 y
O
- O O.
O.
O.
O.
O
'O O
N
}
O
- *
- O e n m e N e w a-5 c
N N
fi ti T M b e
O.
O.
O.
O.
O.
O.
O.
O.
O
.J f5 w
O
- > v O e ti e e n e * * >
W
- O O
- N N fi ti g e c w > >
c O.
O.
O O.
O.
O.
O, O. ' O.
O. : O.
O.
O o
w
.J w
y a
O 2
3 w
as M
sk e
O
'*
- O w #9 m e n e w * *.
4 M
W
=
N N
fi fi N O O e k
M me a6 g
6
. - O O O.
O O O.. O O.
O.
O O u
a e
9 E
-x w
O
- --, O e n e. N e, * -
0 W
X N
fi fi T O O e b M
u 2
'O O.
O.
- O O O o O.
O O.
O
.J g
' =
4 me W
W sk O
>g w
.J N
O O
- 5
- O e ei e e N e * * >
ag
- O O e
Q
==
N N ti ti v e c w 5 6 e O O.
O O O.
O O O O O.
O.
O.
O.
.J as g
D a
w u
4 O
- 6 9 O w n m m N e w *- 5 m
N N n n v e c w 5 m O.
O.
O.
O O O.
O.
O.
O.
O O a
w>
b.
" >'v O.e f9 me N e w * *.
w O
u N
N fi ti 9-O w 5 5 w
e O.
O.
O.
O.
O.
O.
O O.
O.
O O a
.J
==..
as.
.J F
a u
O E =o w O O O
. O.
O.
O.
O.
O.
O.
O.. O.
O.
e z
rgE O.
O.
O.
O D
I a
O O O O O O O O O w
as u
ve>
w th N e *
- e O fi e m N
====== N N N fi ti ti fi 4
,s r p-q v-y-
-._v>
g.-
r.' ' -
t ; ^- '
g f
v.
~
t.
v.'.
lk. -
- s. :-
~
V 7
^
\\
A g-v 4.
4 j
i M,,
4
^
a t
^
w L
O 6L IM Wc 3L
~
W
,o c
j a.a.a.a.a.a.a.a.aa.a.a.a.
G G an n
e p
r 845" a l. a. a l. l a. l. l. a. a.-l a. a.
g
.n.
E O
cO d
u s........'...'
a l
0 3
3k 5
a E. $. $. $.' $. E. $. ' $. ~ a. E. $. E a.
g g
e 9
E a
W had a
(
a I
g a.l.al.a.a.l.l.a.a.ll.a
+
W g
u a a. $. a. E. '$. E. $. E. $ a. $. a. a 7
n p
E.
a.
1 N
E a
g 3
I a O O O O O O O O O O O O O b
f h.h 0 hh0he;0b
- Rn 2
a u
a
=
u va-a n n I
v -
3:.-,
.s, y; ~>.r
- .~, '
p,. -
(
i.s s
-(
i, J..
- i. '
+..
?.,
- 4 s-
- g I'.
h,
'o d'
4 ML O
LL laJ
+4 C
I L
M s
O e
- e a -
w>
0 v > O e 8.
O.
O O.
O.
O.
O.
O.
O.
O.
.O.
O.
N N N m n a w w C
M F >
0
- e - * > O w > O M
=
= = = N N N n n n w w y y
'm O.
O.
O.
O.
O.
O.
O.
O O.. O.
O.
ae n
L e G&
O*
- *
- N N
N n n n w w
- e - w > 0 m >
'O n
u O
O.
O.
O.
O.
O.
O, O.
O.
O.
O O.
N M
C 0
- w e
- w > O M N O M G
- N N N M M M w w E
O O
O-O O O.
O O O.
O.
O O.
,c O
=
J V
-
- e - * > O M N O M C
w O
a
= *
- N N N m n m w w-O m
o O.
O O.
O O.
O.
O.
O.
O.
O.
O.
u a
w - e 2
0 2
3 W
4 s
M a
u O
- ee
- * > 0 m > 0 m e
e W
- N N
N M M M w w u
a e=
- *. O.
O O.
O.
O.
O.
O.
O O.
O.
O.
g a
g O
E t
- w > *
- 6.
O n'N O m I
Z w
O*
- *'* N N N M M M w w I
O w
S2 O
O.
O.
O.
O.
O.
O.
O.
O.. O.
O.
O.
I u
,a m
w w
4 w
2 e
w >
- w > O M e O M
.J O
O.
.J
' a u
- **- N N
N n M m w e e
O O.
O.
O O.
O.
O.
O.
O.
O.
O.
q g
g 3
a w3
>u e
O ne O m
[
e 0
e = * >
- w
>'n u
O N
n n w w
- N N a
w O
O.
O.
O.
O.
O.
O O.
O.
O.
O.
O O.
n 2
e e
O 3
e=
.J w
0 m w.>
- * > 0 m o O M u
2
- O
- *
- N N
N m m m w w 4
w e
O.
O O O.
O.
O O.
O.
O.
O..O O.
g a
w m
.J h
a e
e R
2 mal
- O
.O O.
O.
O O O O O.
O.
O O c
3 E
a o
m o
O 2*w O
O O O O O O O O O
w 4
u ude e
N e e
- w >
n e N
- *
- N N N M M n M w-I W.
o
- e 7
- r y
-r :
< r -a *
-e y p-7 f >; y
, yp -
c.<..
s y ;. -
.g,,
s t
5 s
s~
4
~
v
^.
l.._
y s
1
.J.
s
~
r s
i k '.[
s
- ~.
m L
'c..
O6 L
LaJ Gc 3L O
- e = w N".O m >- 0-e e
W
- *
- M N n
(*)
m M w w w SO O.. O.
O.
O.
O.
O.
.O.
O.
O.
O.
O.
O.
C s
- ll>
'~w >- '
- N' O m > 0 m e
.O-
, ' O.. O O.
O. ' O.
O.
O.
O.
O.
O.
O.
O.
=
n-n n m a m w w w m
-.M a
r.-
n L r0 N
C-e
,e
>
- w > 0 m e
,O M e O
- - - N N n m m e w w O
O.
O.. O.
O, O.
O.
O O. ' O.
O.
O.
O.
O.
2*
N M
C O-e - '
- 5 = v 5 0 m e O m e a2 O * *
- N n n m m M wv v g
e O O O O O O OO O O O O O c
.O.
e m
.J M
w O
- w > * * > 0 m e O M e c
e
- = n n n m m n w w w o
s w
O.
O.
O.
O.
O.
O.
O.
O.
O-O.
O.
O.
t,,s w
E O
2 3
w e
en
. -' *= > -' w > 0 m o a
e O.
. *=
,O m e 4
m W
O.'. =O.O. ' O. - N N m M m
- -N
. O.
O. ~ O.
O.
O.
O. - w w
.u.
a m
O.
O in.
a p
9 E
-2 w
- w > O w > O M e o m e
(
0 W
S
-O.
- - *
- N N
N m m M w w w
\\
u 2
O O.
O.
O.
O.
O O.
O. : O.
O.
O.
-O.
O.
,J m
q w
w 4
a O
>2 w
J
- M O
. O.
- - w 5 O w 5 O M e e M e l'
a u
- - = a N n m m m m v v J
m q
g w
O.
O.
O.
O O.
O.
O.
O.
O O.
O.
O.
3 E
w U
~ O e
>-O w > 0 m e e m e m
- = = N n n m e m m, v O.
O.
O.
O.
O.
O O.
O.
O O.
O.
O a
w 2
e e
O 3
.J
' * > O w > 0 m e e m e w
O
==
U 2
-.. O.
O. O. - 0 0 0 0. 0 0 0 0 o.
- - - N N N m m m m v v e
w m
a J
e e6
.3 e.e a
e e
3 g
smE O. ' O.
O.
O. ' O O.
O.
O O O.
O.
O.
O.
D 3
x
~
m u
w 2%
O O O O O
O.O O O O O w
g u
uww e a n in
- e o m e e n e -* N N N m n M M v f
w.
~
yy.
,,.2 p-a n.
,n y>.
- e..,.a p.
4...
e<
- a. r 4
y,;
e-
,.,.n.
r
': y s.
v y
- r=
j
,y v.'. -....-
s..
M; u
e
- s...,
v, p
^
.s
^
C X - _
~
r f
4 4
y y.
s c< '
+
+
s..,
>?
s.
s v
a.
.)
/-
^,
/
en v
s.
s Lo 6L LM M
C 3L an C
. O * *'.* *-* -=
=.
- * =.
e e -
~
O.
O.
O.
O.
O.. O O O.
O.
O.. O. '. O.
O.. -
gg GG s
o.
e e
=.~ e%.
.E m e
e
.e e
e
- e. -
.o e COO gg M
O O.
O.
O O.
O.
O0 0 0-Lg Mg
^
3 O.
- - = *
=
= *'*
. '. -
e e
e O O c
N.
- O O.
O.
O.
O.
O.
O.
O.
O.
O.
O.
O.
M O.
=* * =*
=.
- * * = * =
- e e
O.
O O.
O.
O.
O.
O.
O.
O.
O.
O.
O.
O N
eo M
e cO d
U O.
e e
e w
o O O.
O.
O.
O.
O.
O.. O.
O.
O.
O.
O.
O
.J an e
- O 2
w e
in
-e e
n in o.
e e. e e
e.
e e
.e e
e I
- 4 in na
. o O.
O.
O.
O.
O. :- O.
O O.
O O. O.. -.-
~ =.- =.. - -.
U m
e.
g O O O
I g
E
- * * = * * *
- e 2
w O.
i e
w l
u O O O O.
O.
O.
O.
O.
O O.
O O O.
O
.J g
g i
I w
w l
n 1
w 3
' - * * * = * * =
l
.J O
O.
- * * = -
- e u
- = *.- - = * - = = = - -
a g
g e,
O.
O.
O O O.
O.
O.
O.
O O.. O.
O.
O.
3 3
k
' w u
k O
6
- g e
=.
e a
w O.
o.
- o. o o.
o.
o.
- o. o o.
o.
o.
o.
l e
6 3
I e
s i
k w
O.
O O O O
.O O O O O O
.O O O u
2
- * - = -
e
- - - - - - =
w e O
. a
.J e
O.
O O O.
O.
O.
O.
O O.
O.
O.
O g
a 6.
m e
4 0
er 3
E ^
O O.
O.
O.
O.
O.
O.
O.
O O O.
O O..
+-
- mE m
u 2 *= w O O O O O O O O O O O
w e
u U4W W th n o e
- T 5
m te n
I
- * *- N N N ti M di - M T l
a., -, - - -, - -,
4
.s ERROR FRACTION = ACTUAL LEVEL - I MICATED LEVEL ACTUAL LEVEL = 100.000 PERCENT OF SPAN I
CONTAIPAGENT WATER TEMP =210.000 m.
CNTMT
<.v"'- 'M
'L'O AIR CONTAINMENT PRES $URE TEMP 15.0 30.0 45.0 60.0 T5.0 90.0 105.0 120.0 135.0 150.0 60.0
.014
.015
.015
.015
.315
.015
.015
.015
.015
.015 l
.M, >
oO.0
.014
.015
.Ois
.015
.015
.015
.015
.015
.015 -
.015-7 120.0
.014
.015
.015
.015
.015
.015
.015
.015
.015
.015 150.0
.014
.015
.015
.015
.015
.015
.015,
.015
.015
.015 180.0
.014
.015
.015
.015
'. 015 -
.015
.015.
.015
.015 :.015 y
210.0
.Old
.015
.015
.015
.015
.015
.015
.015
.015
.015 240.0 014
.015
.015
.015
,.015
.015
.015
.015
.015
.015, L.,..,
270.0
.014-
'.015
.015
.015
.015
.015
.013
.015
.015
'. 015 '
x 300.0
.014
.015
.015
.015
.015
'.C15
'.015
.015
.015'
.dt5' 330.0
.014
.015
.015
.015
.015
.015
.015
.015,
.015
.015,,
360.0
.014
.015
.015
.Olil
.015
.085
.015
. 015 '-
.O15
.015-.
~
390.0
.014
.015
.015
.dt5
.095
.015
.015'
.015
.015
. O t'5 420.0
.014
.015
.015
.015
.015
.015
.015
.015
.015
.015 4
v I
Ec:
-l f
\\
e
+
r I
I Containment Water Level Instrument Errors Table IV t
l s.i
,, TW: $
.svy 5
S*
?%
w f.
.r.
e i
4-c,,
g<
{x' i
+:
{'
y-s
'+
p x
g.-
^
Y R
k p.
4 e
ML O
6 bW y
C E
=6 v-M
~O
- 9 f9 >
O~
E9 e ' ti t9 e-e'N m'
M 8
- 8. 8...- O O.
O.
O.
O.
O.
O.
m ll>
- ~ ~ ~ m n O
O.
- e eee f",
E9 >
O.M e a n e-a n m O.
O O O -- -- *- - n rv n 9 19 m
O..
O.
O.
O.
O.
O.
O.
O.
O.
O.. 'O.
O O.
L fu n
'e e :.
eH
&j
-O.
M
' E9 5 O E9 ee N e'e N in O
O O
-- *- = *- N n N E9 S-O O,
. ' O.
O.. O.
O.
O.
O O.
O. ^ O O.
'O.
y n
- e
~
e e - o e e a N
- e.. ~ c O.
.c,.
O O O
- - * *- n n n 9
(9 m
o.
O.
O.
O.
O.
O.
O.
O.
O.
O.
O.
O.
m O
y c
O
,,J
. O m
- e. a e e o a in u
w O M -
m 5 0
0 0
== = -
- c' n n fi m O.
O.
O.
O.. ' O.
O.
O.
O.
O.
O.
O.
O.
w g
un E
e O
2 3
au 4
m O.
M f9 O n e m H e.. m n m EL M
O O
N N n m ti 4
m ad
.u.
a e
O.
O.
O.
- O.
O.
O.
O.
O.
O.
O.
O.
g a
n
. g O
8
=
f9 f4 O E9 e S n e e N e O.
Z w
a w
st O
O
- .n n n t9 n 2
5 O.
O.
O.
O.
O.
O.
-O.
O.
O.
O.
O
^
u a
a tu w
4 0
O w
e 2
- 9 r9 O es e a N e e n e a
O O.
a u
O O
- - - -
- N N n n n
.J m
O.
O.
O.
O.
O.
O.
O.
O.
O.
O O
.g g
g 3
3 8
w u
e s.
4 r*
O e9 m
- O fi e e n mO n e
- - - - N n N f8 19 a
0 0
O.
O O.
O.
O.
O.
O.
O.
O.
O O a
eu>
2 e
4 e
O 3
.,J w
v.
O #9 e9 O es e e f5 m e n m u
2
- 0 0
. *- - - - a n n
'9 89 e
w -
e o.
O.
O.
O.
O.
O.
O.
O O O O g
a l
.J en a
,2_ g -R 0 0 0 C.. O.
O.
O.
O.
O O.
O.
O O.
c 3
g m
u Z=w O O O O O O O O O O O
- w e M
~
w e
u ver e e N e e e-
=- *- ~ N N N E9 19 E9 w 1
.u..
i a
+
- ~.
p_
DISTANCE BETwtEN SENSORS =
10.000 FEET REFERENCE CONTAINMENT AIR TEMP = 90.000 DEG REFERENCE CONTAINMENT WATER TEMP =
90.000- DEG n
7 REFERENCE CONTAINMENT PRES 5URE a 14.700 PSI A -
l 1.0823500.OOO42 TOT (CTNTAIR)
GM/CC OIL DENSITY
=
ACTUAL LEVEL = 75.000 PERCENT OF SPAN 1
y
- g.
1 I
s v,. jye
^ f l-
.s
.....y.,
3.
. r
._4 a
4 s
. p.
1 E
I 4
1 i
Containment Water Level Instrument Errors Table IV
t l
s l
s DISTANCE BETWEEN $EN50R5 =. 10.000. FEET
,, 4; REFERENCE CONTA!> STENT.tIR TEMP = 90.000 DEG REFERENCE CONTAIfe#ENT WTER TEMP
- 90.000 ~ DEG
^
^
' -~ 7.t REFERENCE CONTAIMitENT PRESSURE = 14.T00 PSIA' s
1.0823500.0004210T(CTMTAIR)
GM/CC OIL DENSITY
=
's -
^'
ACTUAL LEVEL = 100.000 PERCENT OF SPAN i
v 4
~.
..,,... r,,,
g 1
s v ' 4.l?
Y
.k I
- ?+.
. <s.
<4 t
l
)
t m,
}
[ '%
p E
Ir Containment Water Level Instrument Errors Table IV