ML20100B743
| ML20100B743 | |
| Person / Time | |
|---|---|
| Site: | Vogtle  |
| Issue date: | 09/19/1995 |
| From: | AFFILIATION NOT ASSIGNED |
| To: | |
| References | |
| OLA-3-I-MOS-262, NUDOCS 9601220295 | |
| Download: ML20100B743 (5) | |
Text
.
l r ayosAs - zG -
Am@unt of Water in Humid Airroto
" ~
any Pressure
'95 0:7 20 P4 :50 O R ' C E " ' c r : ~ wg m.
- i. '
b.
Il 1 cubic foot of humid air k
i At Any Pressure
/
Dewpoint Vapor Pressure g
/
Temp. F Water (in. Ha. )
- 95 1.66 90 1.42 86 1.25 80 1.03
+
60
.522 50
.362 EQUATIONS FROM EGG MANUAL 35
.204 SECTION 7 :
Parts Per Million by Volume = PPM y
- Perry's Chemical Engineer's Hdbk.
Partial pressure H 0 vapor Fourth Edition 2
x 10 E6 PPM
=
Partial Pressure of Dry Air Partial pressure Water Vapor = Vapor pressure of Water at given temperature Partial Pressure Dry Air = Total pressure - Vapor Pressure of Water at given Temp.
Parts Per Million by Weight = PPM W Mol wt. of H, O PPM PPM x
=
Mol. Wt. Air Docket No. 50-424/a25-OLA-3 EXHIBITNO. T 7% %
in the matter of Georala P.wer Co et al., Vontie Units 1 & 2 9601220295 950919 O staff O Apolicant 91fitervonor 0 0ther PDR ADOCK 05000424 O ldentified Etnoceived O Rejected Reporter fD G
% c,//c/f( witn 14, a d._.,,_g, Ago _
r
SECTION 7 GENERAL DEW POINT MEASUREMENT INFORMATION Dasic numicit ce~1 noons DALTON'S LAW RELATIVE HUMIDITY PPM BY VOLUME John Dalton was the first to surmise Relative Humidity is the ratio of the ac.
Parts per million (PPM) by volume is the that the total pressure, pm, exerted by a tual vapor pressure (as defined by the ratio of the partial pressure uI the water mixture of gases or vapors is the sum of Tables) in the mixture to the saturation vapor to the partial pressure of the dry the pressures of each gas if it were to oc-vapor pressure, with respect to water, at gas.
cupy the same volume by itself. The the prevailing dry bulb temperature.
pressure which each gas component of a Example 1. (Metric Units) multiple constituent gas (such as air) ex-Example 1. (Metric Units)
If frost point = -60*C and system total erts is ralled its partial pressure, if pA'.
If dew point = 10*C and dry bulb = 25'C: pressure is 1013 mb (14.7 PSI A) p, and p represent the respective par y
g Parts tial pressures of gases X, Y, arid Z in a RH = Vapor Pressure at 10*C PPMv = Million mixture, Dalton's Law states:
Vapor Pressure at 25*C
~
pm
- Px + Py *Pz +
,12.272 mb = 38 7%
= Total Pressure - Water Vapor 31.671 mb Elamentary as.t may seem, the concept Pressure at - 60*C i
of Dalton's Law is often overlooked in if frost pomt = - 45,C 10.80 x 10-3mb x 106
- onsidering problems in humidity, be, cause one forgets that the " water" in a and dry bulb a - 40*C.
( 1013 - 10.80 x 10- 3)mb gas is actually a gas itself and must be RH = Vapor Pressure at -45'C ( Actual)
= 10.7 PPM (by volume) treated m accordance with the gas laws.
Vapor Pressure at - 40'C Air must be considered a mixture of (with respect to water)
Example 2. (English Units) gases oxygen, nitrogen, and water vapor (neglecting the minor constituents). All
,0.07198 mb = 38.1%
If frost point = -70*F and system total discussions of humidity can then be re-0.1891 mb pressure is 14.7 PSI A (29.92"Hg):
duced to discussions of water vapor Parts pressure, and all definitions encountered Example 2. (English Units)
PPM, =
Million in humidity can be expressed in terms of If dew point = 50.F and dry bulb = 90*F:
vapor pressure.
" Vapor Pressure at - 70*F 6
4 RH = Vapor Pressure at 50*F Tmi Prm '- Water Vap r Pressure at 90*F Vapor Pressure at - 70'F DEW POINT Dew Point is that unique temperature to
=.3624" Hg = 25.5%
- 4.974X10- 4" Hg 6
which the air (or any gas) must be 1.422" Hg (29.92.0049741"Hg cooled m order that it shali be saturated with respect to water.
If frost point = - 50*F Y ' '"*
and dry bulb = - 40*F:
FROST POINT RH = Vapor Pressure at - 50*F ( Actuall Frost Point is that unique temperature Vapor Pressure at -40'F (with respect to water) to which the air (or any gas) must be cuuled in order that it shall be saturated
,1.990X 10- 3"He = 35.7%
with respect to ice.
5.584X 10~ THg
- ('
The dew point or frost point DEFINES the partial pressure of the water vapor NOTE: RH is arbitrarily defined with re.
in the gas, from the Smithsonian Meteo-spect to water even though it seems that rological Tables.
it should be with respect to ice at -40*C
(- 40*F ).
7.1
.=,
yEGaG PPM BY WEIGHT DEW POINT / FROST POINT RELATIONSHIPS PPM by weight of dry gas is identical to Below 0*C (32*F), dew point hygrometers measure the frost point temperature PPM by volume except that the weight rather than the dew point. The tables below permit conversion from dew to frost ratio changes with the molecular weight point. For a more accurate conversion, consult Table 102 of Smithsonian Meteo.
of the carrier gas.
rological Tables.
Example 1. (Metric Units)
If frost point = -60*C, system total c Unb N pr ssure is 1013 mb, and the carrier gas F.P.
D.P.
F.P.
D.P.
F.P.
D.P.
F.P.
D P.
is hydrogen:
0 0
- 12
- 13.4
- 24
- 26.6
- 36
-1
- 1.2
- 13
- 14.5
- 25
-27.7
- 37
-40.5 y
Mol. wt of carrser gas
-2
- 2.3
- 14
- 15.6
- 26
-28.8
- 38
- 41.6
-3
- 3.4
- 15
- 16.7
- 27
- 29.9
- 39
- 42.6
= 10.7 X.18 = 96.3 PPM
-4
- 4.5
- 16
- 17.8
- 28
- 30.9
- 40
- 43.7 2
(by weight)
-5
- 5.6
- 17
-18.9
- 29
- 32.0
- 41
- 44.7
-6
- 6.8
-18
-20.0
- 30
- 33.0
-42
- 45.8 E= ample 2. (English Units)
-7
- 7.9
- 19
-21.1
-31
- 34.1
-43
- 46.8 If frost point = - 70*F, system total
~
~ ~
~
~- 36.'2
-45 49.0
~
~
~
~
~
-9
-10.1
- 21
-23.3
- 33 pressure is 14.7 PSI A. and the carrier gas
-10
-11.2
- 22
-24.4
- 34
-37.3
- 46
- 50.0
'Sh d'09'";
-11
-12.3
- 23
-25.5
- 35
- 38.4 Y
l Mol. wt of H O 2
PPM, a PPM, X Mol. wt of carrier gas i
= 17 X 18 = 153 PPM English Units (*F) 2-(by weight)
F.P.
D.P.
F.P.
D.P.
F.P.
D.P.
F.P.
D.P.
+32
+ 32
+10
+ 7.4
- 12
- 16.7
- 34
-40.3 MOLECULAR WElGHT
+ 31
+ 30.8
+9
+ 6.3
- 13
- 17.8
-35
-41.4 OF COMMON GASES i
+30
+ 29.7
+8
+ 5.2
- 14 18.9
- 36
-42.4 Acetylene 26 Helium 4
+29
+ 2 8.6
+ 7
+ 4.1
- 15 20.0
- 37
-43.5 Air 29 Hydrogen 2
+28
+ 27.5
+6
+ 2.9
- 16 21.1
- 38 44.5 1
Ammonia 17 Methane 16
+27
+ 26.4
+5
+ 1.8
- 17 22.2
- 39 45.6 Argon 40 Nitrogen 28
+26
+ 2 5.2
+4
+ 0.7
- 18 23.3
- 40
+25
+ 2 4.1
+ 3
- 0.4
- 19
-24.3
- 41
-47.7 CO 28 Sulfur Dioxide 64
+24
+ 2 2.9
+2 1.5
-20
-25.4
- 42
-48.7 Ethylene 28 Water 18
+23
+ 21.8
+ 1
- 2.6
-21
-26.4
- 43 49.8
+ 22
+ 2 0.7 0
- 3.7
-22
-27.5
- 44
-50.8 1
+21
+ 19.6
- 1 4.8
-23
-28.6
- 45
-51.9 I
+20
+ 18.5
-2
- 5.8
-24
-29.6
- 46
-52.9 1
+ 19
+ 17.4
-3
- 6.9
-25
- 3 0.6.
- 47
-54.0
+ 18
+ 16.2
-4
- 8.0
-26
-31.7
- 48
-55.0 5
- 9.1
-27
-32.8
- 49
-56.1
+ 17
+ 15.1
+ 16
+ 14.0 6
-10.2
-28
-33.9
- 50
-57.1
+ 15
+ 12.9 7
-11.3
-29
-35.0
-51
-58.2
+ 14
+ 11.8
- 8
-12.4
-30
-36.1
- 52
-59.2
+ 13
+ 10.7 9
-13.5 -37.2
-53
-60.3
+ 12
+ 9.6
-10
-14.6
-32
-38.2
+11
+ 8.5
-11
-15.6
-33
-39.3 REFE RENCE: Smithsonian Meteorological Tables. Simth Revised Edition', t.ist, Robert J.,
Publication No. 4014, Smithsonian institution, Washington, D.C.
i
)
4 Table 15-1. Thermodynamic Properties of Motst Air (Standard Atmo8pheric Pre 8sure,29.931 in. Eg) co. a.uer n.4 Unti%.
Enu..pr, Enlursuen a ft /fl dry or 11l u./us. dry sw 11 t.u./N.rlb. dry airl i hmen Vapw A.W. d..m.
ga, 7n
- 17. 3.
4.
l lm l'
& I6 6
~
4.
~
. x lo i
~- 16 6 ~0 2iW f T20-0 000 7 $20 GMT04 ~~T0f4 18V-010100 0 00a00 -010im 12f56-ITWOTE 01009~ -~ifir j
- 155
.180s t 7 647
.000 7 647
- 11 N6 l
.000
- 17 296 - 0 09901
.0lxx10 !-0 OWul! -220 40
-0 485) =
1842
- 135 l
- 150 6912 ' 7 775 Ol;0 7 775
- % 048 !
.000
- % 088 - 0 09508 000u0
- 0 09508. - 218 77
- 0 4800 3301
- 150
- 145 1.219 7 902
.000 7 902
~ 34 891 '
.000
- 14 881
- 0 09128 00000
-0 095 21l -717. 8 2
- 0 4747
.5807
- l45
- 140 2.109 8 029 000 8 029
- 3) 674
.000
- 33 674 - 0 06740.00000
- 0 08740: - 215.44
- 0 4695 1 004
- 140 I
- 135 3 586 l 81%
.000 8lu
- 12 468 mo
- 12 468 - 0 08 % S 00000
- o 08 % 5 - 2i) 75
- 0.4642 I 707
- 135
- 130 6 000 l 8 281 000 8 281
- 31 262 000
- 31 262 - 0 07997; DIN 100
- 0 07997: - 212 03
-0 4590 f 2 858
- 130 1
I i s. x 10-T/. x le :
~0 67W4l. 00000 ITOW4Ml0 28
- 0 45).6 0 4TiO~
- 125 Wf
'T 94.{ 8 411 000 8 ell
- 10 057]
000 216'0V
- l JO 1 60h 8 537 000 8 567
-28 852l 000
- 28 852 - 0 07277!.0lxWlo
- 0 07277; - 208 52
- 0 4485 7651
- l20
- 115 2 571 6 664 000 8 M4
- 27 648 000i - 27 648 -0 069J4
.0u000
~0 00924' -2%73
-0 441) 1 226
-lli I
- 116 4 06) I 87s2
.000 8 792
- 26 444 000
- 26 444 -0 Oh%77:. INNN10
-0 06577, ~ 204 92
- 0.4181 1 959
- 110
- 0 06234 - 203 09
- 0 4329 3 026
- 105
-0 06214l.00000
- 105 6 140 8 919
.000 8 919
- 25 240
.001
- 25 239 l
I i
- 100 9 772 9 04 000 9 04o
- 24 017 001
- 24 0 % - 0 05897 00000
-0 05897' ~ 201 21
- 0 4277 4 M6
- 100
!p.XIF
~~
U. X 108 l
~0 6TE5 ~~199T -0 4225 IO fill ~ ~W
- 95 1 489 7 T?i~
DIN) 9 171~ Iffi1T
.00IM li - 0 05560 000no 90 2 242 9 300 000 9 100
- 21 611 002 -216N - 0 05217! 00001
- 0 052 %
- 197 44
- 0 417): 1 071
- 90
-0 40o9 l:
- 0 4121 1 197
- 85
- 85 3 142 9 426 ciNI 9 426
- 20 428 001
- 20 425 - 0 049111.0000I
- o 04912' - 195 51 l
- 80 4 910 9 551
.000 9 155
- 19 225
.005
- 19 220 -o 04595i 00001
- 0 04594 - 191 55 23%
- 80
- 75 7 196 9 680 000 9 680
- l8 022 007
- 18 015 - 0 04280.00002
- 0 04278 - 198 57
- 0 4011
- 3. 441
- 75
- 70 10 40 9 806 000 9 806
- 16 820 011
- 16 809 - 0 01 % 9'
.00003 -0 01%6 - 189 %
- 0 3965 4 976
- 70
- 65 14 91 9 912 000 9 912
- 15 617 015
- 15 602 - 0 0 % 6): 00005 -0 OE58; -187 55
- 0 3913 7 110
- 63 N. X 10s l
l
- p. x los 7
- 60 2 118 to 059
.000 10 059
- 14 416 022
- 14 394 - 0 05160 00006 - 0 01154 - 181 47
- 0 3861 1 0127
- 60
- 55 2 982 i 10 186 000 50 186
- 11 214 0 11
- 13 181 -0 0106t OINNP3 - 0 01052' - 18) 39
- 0 3810 1 4258
- 55
- 50 4 16)
- 10 31) 001 10 314
- 12 012 041' - 11 9h9 - 0 02766; 00012 - 0 02754 -tal 29
- 0 1758 : 1 9910
- 50
-01707 l 2 7578
~45
- 45 5 766 10 440 001 10 446
- 10 811
.Ono, -10 Fil - 0 02474 00015 - 0 024591 - 179 16
- 0 % 55 3 N06
- 40
- 40 1 925 10 5 %
001 to %7
- 9 609 081 - 9 526 - 0 02186 00021 - 0 02165 - 177 06 3
J I
.- 35 10 si 10 691 002 10 695
- 8 408 Illli - 8 295 - 0 01902' 00028 - 0 01874 - 174 84
-0 3n04 ' 5 1713
- 35
' 'J6 E iOI
)
I i
j j
l
- $ [108
- 10 1 deJ~ ~IO 511 002 10 8ff' 71~J67 i~li4Q W700lN 00018 -0 Ol58W17f 64 70 M2 ~0 706E
- 10
~
~I
~
- 6 005 2071 - 5 798' - 0 01142 00051
-0 Ol291i ~ 870 42
-0 3 iou
.94212
- 25
-4 804 l.
.277i - 4 527' - 0 01067
.00068
- 0 OIPM - 168 17
- 0 1449 1.7587
- 20
- 25 1 %4 s 10 946 1 004 10 950
- 20 2 610 11 071 005 II 078
- 15 3 491 il 200 006 ll 206
- 3 601
.%8
- 3 215 - 0 00796
.00089
- 0 00707 - 165 90
-0 3198 l l 6706
- 13 I
- 10 4 60h 11.126 008 11 314
- 2 402
. 487 l - l 915 - 0 00529.00115 - 0 00414 - 161 60
- 0 3146 2 20)$
- 10
^
l~ i4T o00iC i W
~-0Jh5-2 8886
-5 il 452 Oil 11 401
- 1.201 6 19, -0 %2 - 0 00261 00149 -0 00114, -len 28
-5 6 040 i
3 l
' N. x 108 -
i 00
~0124i TP6W 0
~0 ' ~0 78)J~ Ti?8 '
015' Ybi~ ~6 000 sil 0 elf 0 OlN100 1 020 11 705 019 11 724 1 201 1085l 2 2Ne 00260' 002 %
0050h ' - l M 17
- 0 3195 4 8779 5
t 10
- 1. 11 5 Il ell 025 1184 2 402 1 401 l
) 801 00518 00114 00n12: - 154 17
- 0 1141 - 6 28M 30 01171 - 111 76
- 0 1090 80%5 15 j
15 16s?
11 958 012 Il 990 3 601 1 800' S 40) 00772 00199 20 2 452 12 084
.042 12.126 4 804 2 102-7 10h 0102) 00504 '
.01527.' - 149 il - 0 1019 10 272 20 I
l t
25 2 Fil l 12 211
.0M 12 265 6 005 2 929 8 934 01271 00n15 Ol'm3 -le 85
- 0 2988: 11 032 25 t
10 3 454 I' 12 118
. 0h8 12 406 7 206 1 709 10 9151 01519' On196 02315 - l44 %
-0 294 l 16 452 30 3
18 011 32
- 0 1916; 18 017 32 1 788 12 M8
.075 12 465 7 686 4 072) 117M I 06617; 00870
.02487; - l41 %
0 olNNA.
12*
32*'
3 758 l 12 M6
.075 12 461 7 686 4 072 il FMI 01617! 00870 02487 0 04 i
i 14 4 107 t 12 418 082 12 520 4 167 4 418 I 12.585}
.0171); 00940 02655
-. 0041-19 Se 34 2 On 4 450
~ff489 089 f 2~$28 8 647 4 79I 11418 7tiiI61016 e282il; 4 07' ~06ilT ~6711E 7 18 4 818 12 540
.097 12 617 9 128 5 191 14 119 0190*.01097 0100d 6 08 0122
. 2N04 38
{
40 5 215 12 590 105 12 695 9 6ml 5 622 IS 250 02005l 08181
- 01188, 8 09
.0162
.24767 40 42 5 618 12 641 114 12 155 10 068 6 084 16 172 02101' 0I275 01176l 10 09
.0202
.26761 42 cg 44 6 091 12 696
.124 12 8IS 10 % 9 6 580 17.149 02197.01173
.01570:
12 to
.0242
.28899 44 6 578 12 742
.114 12 876 11.049 7.112 18 161 02291'.01478 01771 14 10
.0282
.31185 46 48 1.l00 12 792
.1 %
12 938 11.510 7 681 19 211 02187; 01591
- 01978, 16 11 0121
.3 % 29 48 i
50 7 658 12 84)
, lia Il 001 12 010 8 291 20 301 02481! 01711 04197 18 11 0%l
. % 240 50 52 82%
12 844 170 11 064 12 491 8 945 21 4M 02570 01819 04414' 20 11 0400
.39028 52 54 8 894 12 944
.l85 13.129 12 971 9 644 22 615
.026o9 04976
.0445 22 I2 0439 42004 54 9 575 12 995
.200 13 195 Il 452 10 39 21 84 02762'.02121 04881' 24 12 0478 45176 58 10 30 13 045
. 216 13 261 13 932 11.19 25 12 02855! 02276 05111i 26 12
.0517 48558 58 60 11 08 13 096
. 23) 13 129 14 ell 12 05 26 46 02948
.02441 051894 28 I2
.0555
.52859 60 I
62 Il 96 Il 147 25l Il 399 14 891 12 96 27 85 01040' 02616 0%i6I 30 12
.0594
.55994 62 0280)
.05915 32.12 0632
.60073 64 64 12 86 13.197
.271 13 468 15 374 Il 94 29 31 0)l12j 66 11 74 11.247
.292 13 519 15 855 14 98 30 81 012231 01002 06225' 14 11 0670
.64411 66 68 l4 75 13 298
. 315 13 613 16 335 16 09 32 42
.03314,.03213
.06527'
% 11
.0708
.69019 68 I
i i N. X ip l
~~T
~)0 I3dI 11148 7W 13 687 16 $le 17.27 34 04~
.01405 OIF~06f41 38 il ~6%
7 71915 72 0.697 11 398
.%4 13 762 17.297 18.51 35 83
.01495
.0 % 75 078701 40 11
.0784
.79112 72 07511 42 10
.0821 8M24 I4 74 1.819 11 444
.392 83 841 17.778 19 88 37 66
.01585 01928 76 9 948 il 499 42J 13 921 18 259 21 11 39 57
.0 % 75 04197
.07872' 44 10
.0859 90470 76 I
78 2 086 11 550 451 14 001 68 740 22 84 41 M 01765' 04482 08247 46 IO 0896 96665 78_
Aw.l.o K.u.n.od K.Q".Timeem,mlyn.mie l'topertse. of Aar," n iley, N.w Yo,k.1945.
Mphi gary.a,A. G.off nd 8. Gmuli.
Joh
. 32 1 u..s.i,yi.i.4 w.
m.is.i,., lio. a e.i.,
r..i
. i.6.
0r
. law.
.a ow 4
7, j
rsrcirnourTar 15-7 as.s2t in. n,3 Table 15-1.
Thermodynamic Properties of Moist Air (Standard Atmospheric Pressure,29.921 in. Hg)-
w-,-
y-e n
m m...
m, y;n,,, y
~ ui+
- li-w mn mw m%.
54 -
- 7.,
w"."3 y
M M
d
,8,, k
- '; m -g 6
8.
4.
s
~M T01D~
80 c69) 4 004
"'~~86 ~7235 ll 601 07 16~ 'If0W 19 221 24 4f 45 69
~0 018T4 T04W TOENI 48.10 c747 Sw 0 00
~
82 2 189 il 651
.523 14 174 19 702 26 20 45 90
.0394)
.05105
.00048 50 09
.0970 1.1017 82 G42 I 207
_ n3 84 25%
0 702
.%0 14 262 20 181 28 04 46 22 04031
.05446
.09477 52 09 5007 1.1752 84 M901 2 858
- 1)0 86 2 731 13 752
.602 14 154 20 661 30 00 50 66
.04119 05807
. lW926 54 08 6041 1 2129 86
' - j gg---.
88 2 969 13 80) 645 14 448 21 144 32 09 53 23
.04207
.06189 30196 56 08 1080 1.3351 88 E51% 64fl0 W 90 3 118 il all 692 14 545 21 625 34 34 51 91
.04295
.06596
.108 %
$8 08
.6116 1.4219 90 c445 765)
- 120 92 3 350 l) 904
.741 14 645 22 106
% 67 58 74
.04182
.07025
.11407 60 07
. t lll i 5115 92 44 H I 214
- 115 94 35%
13 954 795 le 749 2J 587 59 la 61 77
,04469
.07480
.11949 62 07
.6188 1 6102 94 441 1 999 a lle 46
) 79.
14 00) 858 148%
25 003 41 85 64 92
.045 %
07961
.12519 64 06
.1224 1 712) 96 4H9, 1 026
- 805 98 4 049 14 0 %
vil 14 967 25 548 44 68 68 23
.0464) 08474
.33117 u 06
.1200 1 8199 98 4 %4
- 103 500 4 119 le 10h 975 IS 081 24 029 47 70 71.7)
.04729
.09016 11745 68 06
.1296 191H 100 E277l Q W "R
60 2 4 00u le 157 1 041 15 200 24 ho 50 91 75 42 04815
.09591 14406 70 05
. l H2 2 0528 102 4
le 207 1 117 6 324 24 W
$4 M N 31 04 % 0
.10N HW 72 M D67 2 1786 IM D$ ! ' O f fH~'"'.T
_ l.04 _n,.,,,H IxW ol15 ; i 078 90
~ dWI4 3T 7 84-7 04
.1401 TiiF 106 4121 l 1 597
- 85 76i ~0114~
le 2io Tif4" TW
~} M 77W 81 42 0
NI 234
- 80 100 5578 64 108 127F 15 586 25 955 61 80 87 76 05070
.115) 1660 76 04
.1413 2 4iO2 108
<017 I ) 448
- 75 110
.5944 14 M9 1 %$
15 724 26 414 65 98 92 34
.0515)
.1226
.3742 78 01
.1472 2 59 %
110 I
til 61H 14 409 I 460 15 869 26 915 70 27 97 18
.05239
.1302 1826 80 03
.3508 2 1505 112 1965 t 4 976
- 70 114
. 67 %
le ee0 8 560 16 020 27.397 74 91 102 31
,05323
.1584
.1986 82 03
.1543 2 9121 114 1911' 7 122 I i.E0s~
~65 116
.7145 14 510 l 668 16 178 27 878 79 85 107 73
.05407
.1470
. 2011 84 02
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