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•'All,valves and float gauges are,centefed under dome
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General Specifications
Conforms to the latest edition of the ASME code for
Pressure Vessels, Section VIII, Division 1. Complies with
NFPA 58.
Rated at 250 psig from-20°,,F. to 125" F. All tanks may be
evacuated to a full (14.7 psi) vacuum.
Vessel Finish: Coated with epoxy red powder. ( Tanks coated
with the epoxy powder must be buried). For Aboveground use,
tanks may be coated with TGIC powder.
Applicable federal, state or local regulations may contain
specific requirements for protective coatings and cathodic
protection. The purchaser and installer are responsible for
compliance with all federal, state or local regulations.
nVIEMA1 1 I CAW-M
- - WITHDRAWAL
VALVE
FLOAT �� �PncCasE ,` ANODE
®
GAUGE p� CONNECTION
BE]`` _ FILLER
' �VALVE
SERVICE / NAME
MULTIVALVE PLATE
RELIEF
VALVE
FITTINGS LAYOUT UNDER DOME
AGUG VESSEL DIMENSIONAL INFORMATION
All vessels dimensions are approximate
WATER
OUTSIDE
HEAD
OVERALL
OVERALL
LEG
LEG
WEIGHT
QUANTITY
FULL
PER
CAPACITY
DIAMETER
TYPE
LENGTH
HEIGHT WIDTH SPACING
LOAD
STACK
120 wg.
24"
Ellip
5'- 5 13/16"
3' - 0"
10 1/8"
3' - 0"
245 lbs.
96
12
454.2 L
609.6 mm
1671.3mm
911.4 mm
257.2 mm
914.4 mm
111.1 kg.
250 wg.
31.5"
Hem!
7'- 2 1/2"
3' - 7 1/2"
12 3/4"
3' - 6"
472 lbs.
63
9
946.3 L
800.1 mm
2197.1 mm
1164.9 mm
323.9 mm
1066.8 mm
214.1 kg.
320 wg.
31.5"
Hemi
8' -11 3/4"
3' - 7 1/2"
12 3/4"
4' - 0 1/4"
588 lbs.
45
9
1211.2 L
800.1 mm
2736.9 mm
1104.9 mm
323.9 mm
1225.6 mm
266.7 kg.
500 wg.
37.42"
Hemi
9' -10"
4' -1 7/16"
15"
5' - 0"
871 lbs.
30
6
1892.5 L
950.5 mm
2997.2 mm
1255,7 mm
381,0 mm
1524.0 mm
395.1 kg
1000 wg.
40.96"
Hemi
15' -10 13/16"
4' - 4 5/16"
16 1/4"
9' - 0"
1729 lbs.
15
5
3785.0 L 1
1040.4 mm
4846.6 mm
1344.6 mm 1
412.8 mm
2743.2 mm
784.3 kg
Rev: Jan. 27, 2016
Pa
Why Tanks Corrode
Underground steel tanks corrode due to an electrochemical reaction
between the tank and the surrounding soil. The process of corrosion
occurs due to small voltage differences on the steel surface that result
in the flow of DC current from one location to another. Where current
flows from the tank into the soil corrosion occurs. This location is called
the anode in a corrosion circuit. Where current flows from the soil to the
tank, no corrosion occurs. The progress of corrosion is determined by
the amount of current flowing between the anode and the cathode and
whether the locations of the anode/ cathode remain constant over time.
Corrosion rates are generally higher in wet soil environments since the
conductivity of the soil promotes the flow of DC current in the corrosion
circuit.
Corrosion generally exhibits itself on underground tanks in either a
general overall rusting or more commonly, a pitting attack. Pit locations
may result from metallurgical conditions of the steel suraface or soil
variations such as rocks, salts, fertilizer, moisture concentration, oxygen
concentration, etc.
Preventing corrosion
Protecting underground
tanks from corrosion is
easily achieved by the use
of two commonly applied
protection methods:
external coating and
? cathodic protection.
These two methods
are complementary
---�M_ and should be used in
conjunction with the
other. An effective
external protective
coating insulates the steel from the soil environment, thus preventing
the flow of corrosion current from the anode to the cathode. An effective
external coating can protect over 99% of the tank surface area. However,
no coating is perfect. Damage from construction or soil stresses create
tiny defects, which may result in accelerated corrosion at the defect.
Cathodic protection prevents corrosion at those defects by applying
DC current from an external source,. forcing the tank to become
cathode. Application of sufficient DC current to the tank will prevent any
corrosion from occurring. The two general types of cathodic protection
systems are sacrificial and impressed current Sacrificial systems are
used when the amount of current required for the protection is small,
such as in underground propane tanks. Impressed current systems
are more commonly used for large structures such as large diameter
pipelines. Electrical isolation of the tank from. metallic piping systems
and electrical grounds is critical for the cathodic protection system's
effectiveness.
How Sacrificial Cathodic Protection Works
Sacrificial systems work by creating a galvanic connection between two
different metals. The most common anode material is magnesium,
which when coupled to steel results in DC current flow from the
magnesium to the steel. The open circuit potential of steel is about
-0.50 volts referenced to a copper sulfate electrode. The open circuit
potential of magnesium is about -1.55V to-1.80V. By connecting the
two metals together, the difference of 1 to 1.25V volts results in current
flow to the tank that overcomes the natural corrosion cells that exist on
the tank. With this current available to the tank, no corrosion occurs.
Magnesium Anodes
There are a variety of anode sizes and alloys used for cathodic
protection. The two primary alloys are designed as H-1 (or AZ63) and
High Potential. The H-1 alloy is produced from recycled magnesium
and has an open circuit potential of approximately—1.55V. This alloy
is well suited for protection of underground propane tanks. The High
Potential alloy is 99% pure magnesium having an open circuit potential
up to -1:8V. This alloy should be used for soil applications over 10,000
ohm -cm resistivity.
The two most common anode sizes used for underground propane
tanks are 9 lb. and 171b. The size designation relates to the metal weight.
10' of #12 TW insulated wire is attached to the anodes. Anodes are
then backfilled in a mixture of gypsum, bentonite, and sodium sulfate
to lower the electrical resistance of the anode to soil. The mixture is a
low cost, nonhazardous, electrically conductive backfill. The anode and
backfill is then packaged in a cotton bag and either a cardboard box or
paper bag. Actual shipping weight of these anodes with backfill is 27
lb. and 45 lb.
Application Recommendations
Magnesium anodes can protectunderground tanks in most soil
conditions. The H-1 alloy is generally very effective. The following chart
provides size and quantity recommendations forvarious size tanks based
on conservative design assumptions. This chart covers soil conditions
up to 10,000 ohm -centimeter resistivity. Resistivities higher than
10,000 ohm -centimeter generally represent very dry soils. Verification
of soil resistivity can be performed through soil analysis. Contact us
for design recommendations in locations where soil resistivities exceed
10,000 ohm -cm, or if there is no effective external coating on the tank.
The propane service line from the tank to the house also must be
considered in the cathodic protection design, unless the service line
is plastic. All underground steel pipe should be externally coated with
a corrosion resistant material. The service line should be electrically
isolated at the house with an insulating fitting or union. If service pipe
is less than 50' in length, the tank anodes will provide sufficient current
to protect both tank and pipe. For longer lengths of pipe, an additional
anode may be required at the house connections.
If another metallic material such as copper is used for service piping,
the pipe should be electrically isolated from the tank at the fill pipe
connection. Copper and steel create a galvanic couple that will accelerate
corrosion of the steel tank when directly connected to copper piping.
Generally, copper piping does not require cathodic protection.
Soil Type.
esl'pI S®ils; clay
L,- AMMEoa N ' 2,
Sand, Gravel, Rocky
Areas
Tank Cap.
(gal.)
5000 to 10000 ohm -cm
SizeTQy
lA
Size
Qty.
Alloy
120
9�#
� ;:1,S
9#
1
H-1
150
9�. __'
Efl, � 4EH`
_
9#
1
H-1
250
L"r s
L_ff R
9#
2
H-1
325
L 9#V
L' `'l
j; H 1[ ,'
9#
2
H-1
500
LO��
= H
9#
2
H-1
1000
I 1
;
[ Fi
9#
4
H-1
1500
t7#,2�,
L,!,21'_
H`-1
9#
4
H-1
2000
,1#' !
31 `
, H77t `.f
9# 1
6
H-1
"Based on 90% effective external coating, 2 malft2 current density, and 30-
yearAnode life.
Anode Installation
1. Determine size and quantity of anodes from application chart.
2.When a single anode is installed, it should be located near the
tank center on either side of tank.
3.When multiple anodes are installed, space them evenly around
the tank. See examples below.
1 anode 2 anodes 4 anodes
O O O
4.Anodes are shipped in either cardboard .boxes or multi -wall
papersacks. Remove outer container and bury the cloth bagged
anode. If anode is supplied in plastic bag, remove plastic bag
before installing.
5. Install anodes approximately two to three feet from the tank and
at least as deep as the center line of the tank. Anodes work best
in locations with permanent moisture, so generally the deeper
the better.
6. After placing the anode, stretch out the anode connection wire
and extend over to a connection point on the tank fill pipe.
7. Cover the anode with approximately six inches of backfill and
pour 5 gallons of water on the anode to saturate the prepared
backfill. Water is necessary to activate the anode.
8. Connect the anode wire to the tank with a low electrical
resistance connection. Examples are threaded stud on the
tank fill pipe or any accessible metallic connection point to the
tank. All connections should be coated with a moisture -proof
material.
9. Ideally, the tank connection is made in the area of the tank fill
pipe within the covered dome. With access to the anode wire,
subsequent testing of the tank can include measurement of
anode output and verification of performance.
10.Verify performance of the anode using an appropriate test
procedure.
Mechanical Connection Under Dome
Cathodic Protection Testing Procedure
Equipment Needed: Digital Voltmeter, Red Test Lead Min.12' Long
& Black Lead Min. 2' Long, Reference Electrode (Copper/Copper
Sulphate Half -Cell)
STEP 1: Using a digital voltmeter insert the red test lead into the Volt
jack of the meter and select the 2 or 20 volt DC scale. Clip red test
lead connector to an uncoated metallic area of the tank, preferably
to the fill pipe multivalve. A good solid connection is very important.
(DO NOT connect to shroud).
STEP 2: Insertthe blacktest lead into the Common jack on the meter,
and connect the opposite end of the lead to a charged reference
electrode (% cell).
STEP 3: Remove protective cap from the porous plug at bottom end
of electrode. Place porous plug end into native soil (remove grass if
necessary) at four locations around the tank (one on each side of the
tank, and one at. each end of the tank). -If difficulty is encountered
obtaining readings, moisten soil with water or dig 1/2 cell deeper into
the soil.
STEP 4: Record all four meter readings on an appropriate form. The
least of all four readings should be a minimum of-0.850v or more
negative. (Note: If any of the four readings are below (less negative)
-0.850v then the tank is not fully protected}.
Charging Reference Electrode
STEP 1: Unscrew and remove porous plug end of new reference
electrode. Add deionized or distilled water to the copper sulfate
crystals, filling electrode completely. The solution will turn blue in
color and there should always be excess crystals at the bottom of
the tube. DO NOT USE TAP WATER.
STEP 2: Replace porous plug end of electrode and place in an upright
position so that the porous plug end is facing in the down position
and let stand for 1 hour before use. This will allow the porous plug
to become completely saturated before use.
Caution: Do not allow electrode to contact oil, road salts, or other
substances that may contaminate the solution by absorption
through porous plug. Do not allow electrode to freeze.
Distributed By:
Ideal for use as a first stage regulator on any domestic size ASME or
DOT container in propane gas installations requiring up to 1,500,000
BTU's per hour. The regulator is factory set to reduce container
pressure to an intermediate pressure of approximately 10 PSIG.
• Compact design can be connected to a service valve using either
a POL adapter or a RegO product pigtail.
• Large threaded'/" F.NPT bonnet vent can easily be piped -away
underground installations without the need of glue kits or extra
adapters.
• Non Adjustable
• Large flow orifice resists freeze ups due to water concentration in
LPG vapor.
• Design provides for good flow regulation at both high and low
container pressures.
• Built in relief valve and travel stop comply with NFPA 58 over
pressure requirements.
• Incorporates %" F.NPT downstream pressure tap for an easy
inline check of the regulator's delivery pressure.
• Molded diaphragm provides an o-ring type seal between the
body and bonnet.
l
• Body and bonnet are assembled in the USA using the unique,
patented RegUlok seal system.
• Fully painted in brilliant red for complete corrosion protection.
• Mounting bracket available as an accessory: part number 2302-31.
WSJ WWROMPS
Body............................................................................................Zinc
Bonnet.........................................................................................Zinc
Spring........................................................................................ Steel
Seat Disc.................................................................Resilient Rubber
Diaphragm...........................Integrated Fabric and Synthetic Rubber
U' 6t11rla1m,a1¢MliZH�.vL'�'ci
U�
LISTED
0
s
LV3403TR
arum. sso,000 smooa I...= t=.om t�soAoo t,sm000 t.r50."m
FLOW PROPANE
1-I
' ;'
x
I
Delveryto
•
I
- VapoioCa[iaaLyBT[9ihr
_PartNmnlier
Llrilet�Connecho�
O�tletyGo n lionl
OrihcelSrzej
;Qressure
s
BoruletpVeotPos�hon
bpane
t
• Maximum flow based on inlet pressure 20 PSIG higher than the regulator setting and delivery pressure 20 % lower than the regulator setting and delivery pressure 20 % lower than the setting.
A14 ���AN. 1110 Rego Dr. Elon. NC 27244 USA www.regoproducts.com +1 (336) 449-7707
Designed to reduce first stage pressure of 5 to 20 PSIG down to
burner pressure, normally 11" w.c. Ideal for medium commercial
installations, vapor meter installations and normal domestic loads.
Feahwas
• 90 degree right angle inlet to outer connection for meter or
standard installations.
• Large vent helps to prevent blockage and has F. NPT for vent
piping.
• With 15 PSIG inlet pressure, regulator is designed to not pass
more than 2 PSIG with the seat disc removed.
• Replaceable valve orifice and valve seat.
• Straight line valve closure reduces wear on seat disc
• Unique bonnet vent profile minimizes vent freeze over when
properly Installed..
• Large molded diaphragm is extra sensitive to pressure changes.
• Built in pressure tap has plugged '/" F. NPT outlet. Plug can be
removed with a 3/16" hex alien wrench.
• Select Brown Finish
Can mount directly to vapor meter. It is also suitable for mounting
directly to the house piping. It will retrofit into existing installations that
are currently using a 90 degree, right angle regulator.
Body........................................................................... Die Cast Zinc
Bonnet........................................................................ Die Cast Zinc
NozzleOrifice......................................................................... Brass
Spring...................................................................................... Steel
Valve Seat Disc ...................................................... Resilient Rubber
Diaphragm ......................... Integrated Fabric and Synthetic Rubber
0k, f, 10s nS; l=�1ulfaR,H,0, au
D
w/MounitingBracket
CFWhr. 0 50 100 150 200 250 300 350 400 450 500
M/hr. 250,00D 5DD,ODO 750,ODO 1,OMODD 1,250,ODO
- ,•Y --,_ -.
Part_Number Tn]etConnechonl
� Outlet
{Connection I
Onfi e)
S e?
e e_ry7
e fi
'Adjus'hiient�sl
R Vie'
' Bonn�'Uent��
Posion�
VapoYCap'aa`tyiBTU/fi,
Propane F.
,
®®PSIG
Inlet
==�.
111 111
• Maximum flow Is based on 10 PSIG inlet and 9• w.c. delivery pressure.
"Mounting Bracket Included.
100 Rego Dr. Elon, NC 27244 USA www.regoproducts.com +1 (336) 449-7707 MUMER
A21
ES-D-GAC Generac InstaIISmart
Job Name _
Job Location
Engineer
Approval
Generac _ t4;^;Pll,.a� iJul
Flexible Fuel Lihes
The flexible connection between the gas supply and the gas inlet
of a Generac® Stationary Outdoor Backup/Standby Generator
Features
• Operating Temperature -40°F to 150°F (-40°C to 65.6°C)
• Operating Pressure
MAX 0.5psi (3.45 kPa)
• Hydrostatic Burst Pressure
MIN 250psi (1725 kPa)
• Flexible Tube Material
Annealed 304 Stainless Steel
• Flare Nut Material
Carbon Steel with Zinc Trivalent
Chromate Plating
• Flare Adapter Material
Carbon Steel with Zinc Trivalent
Chromate Plating
• PVC Dip Coating
Gray Heavy Duty, Antimicrobial,
UV Stabilizer
CSA Group Certificate of Compliance to
Product Standards .
ANSI Z21.75/CSA 6.27 — Connectors for Outdoor Gas
Appliances and Manufactured Homes
Scope states "...intended for exterior use above ground for
making non -rigid connections... between the gas supply and
the gas inlet of an appliance for outdoor installation that is not
frequently moved after installation." In addition section 1.5.4
states the connector is designed for occasional movement after
installation. Repeated bending, flexing or extreme vibration must
be avoided. Normal operation of a clothes dryer, rooftop HVAC
unit or SIMILAR OUTDOOR APPLIANCE DOES NOT constitute
extreme vibration or movement.
ANSI Z21.24/CSA 6.10 — Connectors for Gas Appliances s�,
(Excluding 60/61 Series)
c us
Product Configurations
Contractor
Approval
Contractor's P.O. No.
Representative
SKU
For use with Generac stationary outdoor backup/
standby generators.
Applicable Codes
ANSI Z223.1/NFPA 54 National Fuel Gas Code Section 9.6
International Fuel Gas Code (IFGC) Section 411.1
B149.1 — Natural Gas and Propane Installation Code (CSA
Group) Section 6.21
Uniform Mechanical Code (UMC) Section 1313.0
Uniform Plumbing Code (UPC) Section 1212.0
Additional Approvals
Commonwealth of Massachusetts Board of State Examiners of
Plumbers and Gas Fitters
Additional Testing
UL2200-2015: Stationary Engine Generator Assemblies Section
66B Vibration Test.
a1
I in. I
UL
I in.
10000009793
1 CAN41-4141-24GEN 1
41
3/
1
'A
24
10000009776
CAN41-4141-48GEN
41
3/
1
3/
48
10000009777
CAN41-4141-72GEN
41
3/
1
%4
72
10000000498
CAN51-5151-24GEN
51
1
1'/4
1
24
10000000499
CAN51-5151-48GEN
51
1
1'/4
1
1
48
10000000500
CAN51-5151-72GEN
51
1
1'/4
1
72
Dormont product specifications in U.S. customary units and metric are appmodmate and are provided for reference only. For precise
measurements, please contact Dormont Technical Service. Dormont reserves the right to change or mod'dy product design, construction,
specifications, or materials without prior notice and without incurring any obligation to make such changes and modifications on Dormont
products previously or subsequently sold. Refer to the owner's manual for warranty information.
A WATTS Brand
Minimum Flow Capacity at Specified Pressure Drop
Straight Length BTU/hr. NATURAL GAS, 0.64 SG, 1000 BTU/cu.ft.
CONFIGURATION
PRESSURE ,,COLUMN)
Generao
Part Number
Dormont°
Part Number
SERIES
I
Nominal ID
In
Nominal Lenght
In
0.50 in
0.75 in
1.00 in
1.25 in
1.50 in
1.75 In
2.00 in
10000009793
CAN41-4141-24GEN
1 41
3/a
24
290,900
356,278
411,395
459,953
503,854
544,224
581,800
10000009776
CAN41-4141-48GEN
41
%a
48
217,000
265,770
306,884
343,107
375,855
405,970
434,000
10000009777
CAN41-4141-72GEN
41
3/
72
173,900
212,983
254,932
247,960
301,204
325,337
347,800
10000000498
CAN51-5151-24GEN
51
1
24
581,800
712,557
822,789
919,907
1,007,707
1,088,448
1,163.600
10000000499
CAN51-5151-48GEN
51
1
48
442,700
542,195
626,072
699,970
766,779
828,216
885,400
10000000500
CAN51-5151-72GEN
51
1
72
347,800
425,966
491,863 1
549,920
602,407
650,674 1
695.600
Straight Length BTU/hr. LP GAS, 1.55 SG, 2500 BTU/cu.ft.
CONFIGURATION
PRESSURE ,•,•
,
Generac°
Part Number
Dormonr
Part Number
SERIES
I
Nominal ID
In
Nominal Lenght
In
0.50 In
0.75 In
1.00 in
1.251n
1.50 in
1.75 in
2.0D in
10000009793
CAN41-4141-24GEN
41
3/
24
465,400
569,996
658,175
735,852
806,096
870,684
1 930,800
10000009776
CAN41-4141-48GEN
41
3/
48
344,000
421,312
486,489
543,912
595,825
643,565
1 688,000'
10000009777
CAN41-4141-72GEN
41
3/
72
278,240
340,773
393,491
439,936
481,926
520,539
1 556,480
10000000498
CAN51-5151-24GEN
51
1
24
930,880
1,140,091
1,316,463
1,471,851
1,612,331
1,741,517
1,861,760
10000000499
CAN51-5151-48GEN
51
1
48
708,320
867,511
1,001,716
1,119,952
1,226,846
1,325,145
1,416,640
10000000500
CAN51-5151-72GEN
51
1
72
556,480
681,546
786,982
879,872
963,852
1,041,079
1,112,960
�[Lt1rm
Generac part number 10000000498 (Dormont part number CAN51-5151-24GEN)
can supply a minimum of 581,800 BTU/hr.of natural gas ® 0.50 in. water column
pressure drop to the generator.
.'I I -
All installations must completely comply with all Dormonto manufacturing company warnings
and instructions, national, state and local codes and all applicable ANSI standards.
7TR e
�,; •
��I .
A WATTS Brand USA: T: (600) 367-6668 • F: (724) 733-4808 • Donnont.com
Canada: T. (905) 332-4090 • F: (905) 332-7068 • Dormont.ca
Latin America: T. (52) 81-1001-8600 • F: (52) 81-8000-7091 • Dormont.com
ES-D-GAQGenerac InstaIISmart 1703 0 2016 Dormont
Maximum Capacity of PE Pipe in Thousands of BTU per. Hour of Ligyeffed Pptroleum Gas
wiii-t a Gas Pressure o'• 11.0 in. WC and a=a Pressure Crop of 0.5• in. WC
(based on a 7.52 specific gravity -gas)
—
113
IV
102
IV io I II I Y Y d
86 76 68 63 58 54 51 48
d
46
a
44
7
42
7
40
147
209
132
188
112 99 89 81 75 70 66 63
160 140 126 116 107 100 94 89
60
85
57
81
54
78
52
75
376
569
338
516
287 252 227 208 192 180 169 160
441 391 354 326 303 285 269 255
152
244
146
233
140 .
224
134
216
1061
956
810 712 642 587 544 508 478 453
431
471
394
379
2516BTUh=
Maximum Capacity of PE Pipe in Thousands of BTU per Flour of Liquefied Petroleum Gras
7 CFH
with ca Gas Pressure of 2.0 psi and a Pressure Drop of 1.0 psi
(based on a 1.62 specific gravity gas)
1966
1319
1045
886
779
595
523
477
431
399
�,R of
373
11300
7586
6008 •
5092
4479
4033
3418
30D7
2707
2478
2295
2144
74652
9836.
7791)
6602
5807
6229
4432.
3898
3510
3213
2975
2780
20877
14014
11100
'94DB
8275
7451
6315'
5555
5002
4578
4239
3962
37514
25183
19946
169D5
14869
13389
11348
9982
8988
8226
7618
7119
43429
29848
23969
20515
18182
16474
14700
12496
11322
10477
9691
9092
105963
711.31
56339
47760
42000
37B20
32054
28194
26388
23234
27517
2D108
187 158 139 125 li5 106 99 93 88
84
80 77
74
1355
1192
1073 910 800 720 659 611 571 537 508
484
462
443
425
7757
1545
1391 1179 1037 934 855 792 740 696 659
627
599
574
551
2503
2202
1983 1680 1478 1331 1218 1128 1054 992 939
893
853
818
786
4498
3956
3563 3019 2656 2397 2189 2027 1894 1783 1688
1605
1533
1469,
1412
5903
5232
4740 4057 3596 3258 2997 2788 2676 2471 2347
2239
2144
2060
1985
12705
11175
10063 8529 7502 6755 6182 5726 5350 5036 4767
4535
4331
4150
3988
2516BTUh=ICFH
Maximum Capacity of PE Pipe in Thousands of BTU per Hour of Liquefied Petroleum Gas
with a Gas Pressure of 10.0 psi sand a Pressure Drop of 7.0 psi
(based on a 7.52 specific gravity gos)
2476
1662
1316
1116
98]
884
749
659
593
,.643
503
470
442 389
14234
18455
9555
12388
7568
6414
5642
5080
4306
3787
341.0
3127
2890
2707
2542
2236
350
50
2014
26296
77652
9812
13981
8316
11849
7315
10423
6587
9385
6583
4910
4422
4047
3747
3502
3296
2899
2611
47252
31720
25723
21293
18729
16865
7954
14294
6997
12572
630D
17321
5766
10367
5340
9595
4990
8967
4697
8440
4731
3720
53960
37087
29782
25469
22591
20469
17519
:15527
14068
12943
12041
11297
10671
7423
9458
6685
8569
133476
89601
70967
60148
52905
47640
40376
35514
3198D
29267
27104
25329
23840
20970
78882'
297 261
1707 1501
2213 1946
3153 2778
5665 4983
7334 6500
16004 14077
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