HomeMy WebLinkAboutHEAT PUMP PAPERWORKPEN
ULTRATIMP
HIGH PERFORMANCE HEAT PUMP
Simply the most economical way to heat your pool and spa
pentairpool.com
;LASS PERFORMANCE AND EFFICIENCY.
FNVIRONMFNTALLY SUPERIOR:
M'ORF STANDARD FFATURFS THAN ANY OTH R.
With today's record energy costs, there's never been a better time to invest in a heat pump. Compared to gas, oil or electriheaters,
c
UltraTemp° High Performance Heal Pumps use just a fraction of the energy to generate the same amount of heat. In fact, just1204 worth
of electricity produces $1.00 worth of heat generated by other methods. That means more comfortable water temperatures and longer
swimming seasons for you and your family.
Why should you choose an UltraTemp heat pump? That's easy. It offers the longest list of standard features available.
• The UltraTemp heat pump provides
an AutoSetT” Temperature Control
feature as standard. It monitors water
temperature and turns the pump on and
off as needed, overriding the time clock
to maintain desired temperature. It s
the ultimate in convenient, hands -free
comfort control.
• The UltraTemp heat pump features the
legendary Emersone Copeland Scroll"
Compressor that's more efficient, durable,
reliable and quieter than any piston -driven
compressor. It's the best of the best.
• Pentair heat pumps have been using
the EPA -recognized, environmentally
safe, non -ozone depleting R-410A
refrigerant for over 10 years. This
has allowed the UltraTemp heat pump
to be awarded the Eco Seleclm Brand
for environmental responsibility.
• 100% titanium heat exchanger assures
corrosion -free performance for extra long
life and value.
• LCD control board displays an intuitive,
menu -driven readout with easy to follow, full
word messages —no codes to memorize.
• Self -diagnostic software continuously
monitors system for peak performance.
• Thermostatic Expansion Valve ITXVI
controls refrigerant flow for optimum
efficiency and BTU output over a wider
operating temperature range.
• Automatic defrost feature senses
refrigerant temperature and helps
prevent the UltraTemp heat pump from
freezing, allowing the unit to operate
effectively at even lower temperatures
than many competing products.
Perfect companion to IntelliTouch" or
EasyTouchO Control Systems —all heat
pump instructions and displays can
be transferred to a centralized control
system that manages all your pool/spa
operations and poolscape features.
ETL listing is your assurance of safer,
dependable operation.
• BTU and efficiency independently
certified by the Air Conditioning, Heating,
and Refrigeration Institute IAHRII. The
AHRI Certified mark is applied only to
HVACR equipment and components that
have been independently tested to certify
that manufacturers' performance claims
are accurate.
• 10-year compressor parts al labor
warranty and lifetime warranty on the
titanium heat exchanger. Seel limited
warranty for details.
Clearly, a heat pump is the best choice for pool heating. Also clear is the best -in -class performance and value of the
UltraTemp heat pump. Contact your pool professional today to learn which model is right for your pool.
4
Vic°
Select
+.>PENTAIR
The UltraTemp heal pump has earned the Eco Select brand, indicating
it is one of our -greenest- and most efficient equipment ehaides.
Aqua Pill: SolarPill I Page Number. 2 of 6
INGESTION: Not likely to be hazardous by ingestion.
CHRONIC EXPOS.URE/CARCINOGENICITY: None of the components present in this material at concentrations
of equal to or greater than 0.1 % are listed by ARC, NTP, OSHA or ACGIH as a carcinogen. A component may
affect genetic material (mutagenic) and may cause adverse reproductive effects and birth defects (teratogenic)
based on animal test data.
AGGRAVATION OF PRE-EXISTING CONDITIONS: None known.
POTENTIAL ENVIRONMENTAL EFFECTS: Ndne known.
FIRST AID PROCEDURES
EYE CONTACT: Remove contact lenses (if applicable), flush with water for 15 minutes. Call a physician. .
SKIN CONTACT: Cleansing the skin after exposure is advisable.
INHALATION: If large amounts of fumes are inhaled, remove to fresh air and consult a physician.
INGESTION: Consult a physician if necessary.
NOTE TO PHYSICIANS: None.
FLASH POINT: >93°C (>20WF)
UPPER FLAMMABLE LIMIT: Not available
FLAMMABLITY CLASS (OSHA): Not applicable
UNIQUE FIRE PROPERTIES: None known or expected.
AUTOIGNITION TEMPERATURE: Not available
LOWER FLAMMABLE LIMIT: Not available
FLAME PROPAGATION/BURNING RATE: Not available
HAZARDOUS COMBUSTION PRODUCTS: Releases carbon monoxide when burned.
EXTINGUISHING MEDIA: Water spray, CO2 (carbon dioxide), foam or dry chemical.
PROTECTION OF FIREFIGHTERS: Water can be used to cool fire -exposed containers, to protect personnel and to
disperse vapors and spills. Water run off from chemical fires can cause environmental damage. Dike and collect water
used to fight chemical fires. Fire fighters should wear normal protective equipment and positive -pressure self-contained
breathing apparatus.
PERSONAL PROTECTIVE EQUIPMENT: See Section B (Personal Protective Equipment).
ENVIRONMENTAL PRECAUTIONS: None known.
METHODS FOR CLEANING UP: Spilled material should be absorbed onto an Inert material and scooped up. Flush
spill areas thoroughly with water and scrub to remove residue. If slipperiness remains apply more dry -sweeping
compound.
k,HALOSOURCE
Manufacturers Name:
Corporate Address:
Manufacturers Telephone:
Emergency Telephone (24 Hours):
Material/Trade/Product Name:
Synonyms:
Chemical Name:
Chemical Formula:
CAS No.:
EPA Registration #:
Product Use:
Material Safety Data Sheet
AquaPiU: SolarPill
Date: 1 /10/2011
Revision: 00
1631 220"' SL SE, Suite 100, Bothell, WA 98021
(425) 881-6464 (Monday -Friday, 8AM-5PM..PDT)
800-424-9300 CHEMTREC (Domestic, North America)
703-527-3887 CHEMTREC (International, collect calls accepted)
AquaPill: SolarPill
None
Not applicable'
Not applicable
Not applicable
Not applicable
Reduces heat and chemical loss by preventing water evaporation.
CAS NO.
COMPONENT
%
OSHA
HAZARDOUS?
Trade Secret
Trade Secret
Trade
YES
Secret
All other components are either non -hazardous or below de
minimus quantities.
NO
NOTE: See Section a for permissible exposure limits.
Yellow liquid with a slight.fattyAvaxy odor.
---Maybe: mildly irritating to:eyes.. Not likely to be hazardous to skirt; respiratory tract, or by ingestion_
POTENTIAL HEALTH EFFECTS
EYE: May be mildly irritating to eyes..
S KIN: Not likely to be hazardous to skin.
INHALATION: Not likely to be hazardous by inhalation.
. , "1
AquaP.11l: SolarPill
SAFE HANDLING RECOMMENDATIONS
VENTILATION: General ventilation should be sufficient.
FIRE PREVENTION No uniquenazarus Known.
SPECIAL HANDLING REQUIREMENTS: No special handling requirements.
SAFE STORAGE RECOMMENDATIONS
CONTAINMENT: Keep container closed whep not in use.
STORAGE ROOM RECOMMENDATIONS: Store at room temperature.
Page Number: 3 of 6
INCOMPATIBLE MATERIALS: To avoid product degradation and equipment corrosion, do not use iron, copper or
aluminum containers or equipment.
ENGINEERING CONTROLS: General ventilation should be sufficient
PERSONAL PROTECTIVE EQUIPMENT (PPE)
EYEIFACE PROTECTION: Eye protection is recommended.
SKIN PROTECTION: Special skin protection should not be needed.
.HAND PROTECTION: Gloves are recommended any time handling chemicals.
RESPIRATORY PROTECTION: A respiratory protection program that meets OSHA's 29 CFR 1910.134 and ANSI
Z88.2 requirements must be followed whenever workplace conditions warrant a respirator's use.
GOOD HYGEIENEIWORK PRACTICES: Always follow good hygieneNvork practices by avoiding dusts, vapors,
or mists and contact with eyes and skin. Thoroughly wash hands after handling and before eating or drinking.
EXPOSURE GUIDELINES
PERMISSIBLE EXPOSURE LIMITS
-INGREDIENT—
OSHA
WISHA
ACGIF Evj
CAS NO.
I
EL—
NotApplicable
Not
Not
Not
Not
Not
Not
Applicable
Applicable
Applicable '
Applicable
Applicable
Applicable
COLOR: Yellow SHAPE: Not applicable, liquid
PHYSICAL FORM: Liquid ODOR: Mild fatty -waxy
pH: 6 — 8 VAPOR PRESSURE: Not available
AquaPilh SolarPill
VAPOR DENSITY: Not available
MELTING POINT: Not available
SOLUBILITY IN WATER: Incomplete
Page Number: 4 of 6
BOILING POINT: Not available
FREEZING POINT: Not available
SPECIFIC GRAVITY OR DENSITY: 0.98 —1.02
NOTE: These physical data are typical values based on material tested but may vary from sample to
should not be construed as a guaranteed analysis of any specific lot or as specifications.
CONDITIONS TO AVOID: None known.
MATERIALS TO AVOID (INCOMPATIBILITY): Aluminum, copper, iron, strong oxidizers, and acids.
HAZARDOUS DECOMPOSITION PRODUCTS: Carbon monoxide, carbon dioxide.
HAZARDOUS POLYMERIZATION: Will not occur.
ORAL L050 (rat): Not available.
DERMAL LD5o (rabbit): Not available.
SKIN IRRITATION: Not available.
EYE IRRITATION: Not available.
ADDITIONAL INFORMATION: None.
CIJU I UAKA I Y: Not available.
MOBILITY: Not available.
PERSISTENCE AND DEGRADABILITY: Not available.
BIOACCUMULATIVE POTENTIAL: Not available.
Values
If this product as supplied becomes a waste, it does not meet the criteria of a hazardous waste as defined under the,
Resource Conservation and Recovery Act (RCRA) 40 CFR 261. Please be advised that state and local requirements
for waste disposal may be more restrictive or otherwise different from federal regulations. Consult state and local
regulations regarding the proper disposal of this material.
AquaPifl. SolarPill
Page Number: 5 of 6
(VOTE: Chemical additions, processing or otherwise altering this material may make the waste management
information presented in this MSDS incomplete, inaccurate or otherwise inappropriate.
U.S. DEPARTMENT OF TRANSPORTATION (DOT):
-Proper-Shipping-Name.----------Nx)t-Regaidted
Hazard Class:
- --- —Identification
Not Regulated
Number (UN Number):
Not Regulated
Packing Group (PG):
Not Regulated
TSCA STATUS: All components are listed.
CERCLA REPORTABLE QUANTITY (RQ):
CHEMICAL NAME RQ
Not applicable Not applicable
SARA TITLE III SECTION 302 EXTREMELY HAZARDOUS SUBSTANCES (EHS):
CHEMICAL NAME TPQ RQ
Not applicable Not applicable Not applicable
SARA TITLE III SECTION 311/312 HAZARD CATEGORIES: Does this productimaterial meet the definition of the
following hazard classes according to the EPA'Hazard Categories' promulgated under Sections 311 and 312 of SARA
Title III?
ACUTE HEALTH
HAZARD
CHRONIC HEALTH
HAZARD
FIRE HAZARD REACTIVE HAZARD
SUDDEN RELEASE
OF PRESSURE
YES
NO
NO NO
NO
SARA TITLE III SECTION 313 TOXIC CHEMICALS INFORMATION:
CHEMICAL NAME
CAS NO.
CONCENTRATION (%)
Not applicable
Not applicable
Not applicable
C-ALIPORNI PROPOSITtON-66-7h—e following c emica s is are Known to the state ot California to cause cancer or
reproductive toxicity.
CHEMICAL NAME
CAS NO.
CONCENTRATION (%)
Not applicable
Not applicable
Not applicable
INSTALLATION•AND LOCATION
Cnly a qualified service person should Igstall the
UltraTemp° Heat Pump, Before Installing this product,
refer to the important Warning and safety instructions
on page 11.
Materials Needed for Installation
The following Items are needed and are to be supplied
by the Installer for all heat pump lnslallallons:
1. Plumbing connections (2 Inch).
2. Level surface for proper drainage, '
S. • Sultable electrldal supply line, See rating plate on
unit forelectdcal speclncatlons.A)uncllon box is not
needed at the heat pump; connecgons'ere made
Inside of the heat pump eldclrlcal.compartment
Conduit may be attached directly to the heat pump
jacket.
4. Electric cutout switch that will Interrupt all power to
the unit. This switch must be within line of eight of
• the heat pump. Check local codes forrequlremente.
S. Watertight conduit to run the electrical supply line.
Equipment Pad
For proper drainage of•condensation and rain wale,
. place Vie heal pump on a gat slightly pitched sddace,
. ; such -as a concrete or fabricated slab (pad).
IFpossible, place the pad at the same level or Slightly
.. higher than the filler system equipment pad, '
Note: Be sure that the pad Is pitched not more than 1/4
. In. per foot In any direction as needed for rung,
Heat Pump Dimensions
MODELS DIMENSION -A'
70, 90, 901 1 33,5' (e51 ram)
1001 41,5' (1054 ram) .
110,120,1200,14pC_ gs:5"(fisemm--
120FIIC,140,140.WC;
Drainage and Condensation
Condensation occurs from the evaporator coll while the
Wile running, and drains at a steady rate (usually three
to Me gallons per hour), depending upon ambient air
temperature and humidity. The more humid the ambient
conditions, the more condensation will be produced. '
The bottom of the unit acts as a hey to catch rainwater
and condensation. Keep the drain holes, located on the
bottom pan o) tha base of the unit, clear of debris.
Roof Run -oil ,
-Make sure the hdat pump Is not located where large .
Amounts of water may ran -off from a roof lhto the unit. .
Sharp sloping roofs without guitars will allow massive
amounts of rain water, i6ed with debris ffam the roof
to be forced througli the unit. A gutter or down spout
may be needed to protect the heat pump.
Lawn Sprinklers
Avoid placing lawn sprinkler near the heater
they can'spray water Into the heater and vold the
warranty. Be sure to direct any spraying water away .
from the heater. Note the wind direction to be sure.
water from sprinklers Is not 6lown Coward the heater.
Sprinkler heads can produce high water pressure and
spray at an angle, different from typical rain and humid
weather. Also, sprinklers connected to a well water
system can cause mineral build up on the evapomlor
rolls and electronics. Sall water can also be an Issue If
located near the coast.
Locatlon and Clearance's
AO cdlerlagivan.lnthafollowing sacllons rellectminlmum
Clearances. However, each Installatlon'must also be
.evaluated, taking' Into ticcourifthe.prevailing local
eonddons such as proxlmlty and height of walls, and
proximity to public acchss areas.
The UltraTemp• Heal Pump must be placed to provide
clearances on all sides formaintanance and Inspection.
I. Atleasl24In. [616mm]Recess most beavallablain
the front and 121n. [305 mm] on all the other sides
of the heat pump for service and proper air flow.
(Manufacturers recommendation).
SLAB
2. If the heat pump Is to be Installed under it cove
Blunder a vertical overhang, the unit must hav
a minimum of Me (6) feet [1,52 m] clearance
from the top of the heal pump. (Manufacturer's
recommendation).
3. Install a minlmulp of five) (5) feet [1.52 m] from
the Inside wall of the pool or spa unless the
heat pump Is separated from the pool or spa b)
a Ilve (5) foot [1.52 m] high solid fence or other
pefmanent barrier. Canadian Installatlons•requl
a Mnimum of three (3) meters [9.e4 h] from po,
water,
4. Install heat pump a minimum of a in. [153 mmj h
the wall of the house,
EVAPORATCa
SEawcE
ACCESS
—24'ern-
(rtamn)
3'
SLAB
• Heat Pump Location and clearances
l . Anchor Clamp Installation
i Installation of the anchor clamps Is recommended In '
(' all Instaltatlons. Installation of the anchor clamps Is
' 1 requlied In Fladda(see Florida Building Code 301.13).
.: Anchor clans hold the heat pump to the equipment
I Pad In order to withstand high winds caused during
I extreme weather (I.e. hdrdcanes),•
1 To Iristall the anchor clamps:
So sure the heat pump Is In Its permanent location
t On. the equipment pad. '
2. Place the clamps at the base of the heat pump In
the four (4) locations, shown In the Image to the
right,-
I Nd/e:8oltsandboltanchorsarenolInducedwllh
)` the he
I tI Ta° stainless steel anchor boils and the appro. .
Pd*ateslzecohcreleahchortomount-theclampto;'','
the equl*ent pad Be sure to check local cbdes,
�1 3. Fit the hookpf each clamp over the lip on the
',••I' base panel of the heat pump. The hookshould 111
• between the 116ofthe base nanota,,,r,6,'
AIaROwaer
Anchorclamp installation'' _
0
Water Pressure Switch Adjustment,
Continued
4. 'Remove the UltraTemp° Heal Pump's•left front
panel and remove remaining right front panel,
• The water pressure switch Is located In the water
plumbing In the lower Tight center of the heat
pump.
5. Slowly rotate the adjustment wheel on the water
pressure switch Id a counterclockwise direction
until Ike "LOW WATER FLOW Alarm and•Red
Sdrvlcs LED vanish, time delay countdown will
slam.
6. Once the heat pump Is running, turn off the filter
pump.The heat pump should turn off immediately.
7. It the heat pumppon0nues to operate when the
filter pump Is off, turn the adjustment wheal on the
water pressure switch In a clockwise direction until
' the °LOW WATER FLOW" Alarm shows on the
Lob, the Red Service LED turns ON, and the heat
pump slops.
B. Check the setting of the water pressure switch by
starting and slopping the filter pump and checking
the control panel andoperalton of the healer
between each flow change,
9. It the water pressure switch cannot be adjusted
to accommodate the conditions listed above,
an external flow switch must be added to the
plumbing system to ensure that the heat pump wlll
not operate without the proper flow through the
heal exchanger.
HEATER
L
POOL
RETURN
EPA
MAxE+1P
POOL CHECK
INTAKE VALVE
SPA FILTER
PEfuRN '
POOL
ORAw
Multiple Unit Installation
1. Heat Pump, Heater-andfor Solar Combinadon
In certain regions of the colinlry It may be more
economical to run aheat pumpduring the wasnermonths
and a gas heater dudng the cooler months. In some
elludllons It may be'desliable to run tha heatpump N the
'Chiller"mode, Itso equipped, during the hottest portion
or the year and a heater during the cooler months, The
Pentair heat pump may be used In conjunction with a
-gas or electric heaterorany combination of heat sources
Including s'olen All heat sources must be plumbed In
seines to work correcdy and efficiently.
A recommended, plumbing layout for a heal pump /
hatter/ solar comb(natlon heating system for a pool /
spa combination Is shown below. Your system may not
mnlaln all of lhese'componenls, but the basic plumbing
will apply by eliminating the coinponanl In the Illustration
that Is not a pam of your system.
2. Multiple Heat Pump Connections
All plumbing on multiple heat pump Installations must be
done In parallel (see Image l elotv).An equal flow of water
to each heat pump Is Important for optimum operation.
Note: It may be necessary to adjust the water pressure
switch If a unit Is Installed below the water level. Refer
back.to page 6.far details on when and how to adjust
the pressure switch.
Each heat pump In a multiple unit Installation
allows a maximum flow rate of 100 gpm (3801pm)
and requires a minimum of 30 gpm (1101pm).
CHECK
VALVE
FROM SOUR
TO SOLAR
I
I
e
I
Multiple Unit' Installation
To Pad
...+S
aP(etam Inh
demrcelof
eeofceeo:es&
E4%dtr
MORAL
rPvcPbe
Two Heat Pump Plumbing Layout
balar<hg
`Emud Ir (ao5mm)
Feel ardhealer -
hhtrorhydratAc '
balacke
60 GPM (2201pm)
Minimum
no Pool Pump
120 GPM (456 Ipm)
Minimum
Pool PUMP .
PUMP Multiple UnitInsta6adom
Heater and/or Solar Combination
Four Heat Pump Plumbing Layout
— -•- ...r- 61i0L01J4LJUJJ, continued
4. Mark the Position oflhehole Ineach Clamp onthe
equlpmenl pad,
1 Use a masonry drill bit and dell a hole In the
cement with a diameter as determined by the con•
crete anchor, at each Of the marks on the a ui .
S.
Water Connections arid Plumbing''
The Image below shows the standard plumbtnglayoul j
with a single UIIraTemp• Heat Pump unit. Follow the
Image from right to left for the standard plumbing
sequence.
mantpad, The holaShould beapproximately' 134
In. deep,
Arrangement ofPool System Components (otherthanthe
standard plumbing Image below), and the fdcallon
Insert a bolt anchor Into each ollhe holes. Be sure-
me
of the
affect opemtlon Oft e heat above or below the pump'-,00l 'stardpressue
anchors are set domplefely Into the holes,
switch,
Position the anchor clamps so that the holes In1he
damps are over the boll anchors,
The pressure switch can be adjusted to accommodate
this effect If the heat pump water
Be sure that the clamp hooks are over the ffp of
connection areno
mare than six (6) feet 11,82 mj below the pcoi water
the heat pump base,
sudace.
Insadenanchorholttiirougheach clamp lnlothe
gee Instructions itch
anchor and tighten to secure the clamp and heal
next Pago,Itthe heatrpump 19Inessure
dstalleoutsideofthis
PUMP to the equipment pad.
range, an exte mal pressure awlteh,may need to be
Installed In the plumbing upstream
•,nayl�Jl,��--• aawa.awo.
of the heat pump.
Note; Be advised that when pool equipment 19local ed
below Ihe.pool surface a leak can result In large-scale
wa ry'I
waterlossor0ooding.Pentalrlsnotresponslblaforsuch
I.
luwaterless
Meµ
or flooding or damage,
Anchor Cramp lnslettatron
III TRATpuo• u.,, o,,.,.
Automatic Flow Control Valve
The Inlel/oullel header of the heat pump comas
equipped with an Internal automatic flow control valve.
The automatic flow control valve maintains the proper,
flow through the heat pump at rates up to 120 gpm
(4561pm), If the filter system Pow rule Is higher than
120 gpm (456 Ipm), Install a manual bypass valve, see
Image below.
Note -'Be advised that II yourcirculailon pump le over
2 He erlf the total flow exceeds 120 gpm (4561pm),
You will have to add an external bypass valve. Excess
Waterfiow wI0 damage the heat exchanger.
Standard Plumbing Layout
Water Connections to the Heat Pump
21n. Quick Conned h111ngs have been Installed on the
Water Inlet and outlet connscdons, F@ered cool water
Is plumbed to the Inlet, located on the right side of the
UIIraTemp• Heat Pump, Heated waterfl,ws through the
outlet, located on the left side of the heat pump..
Plastic plping{PVC Schedule 46) should be connected
to the heat pump. The union,, provided with the unit,
accept 21n. PVC pipe,
WA
OURENRON
WATER
INLEruNION
Heat Pump Water Connections
ANaeya he awe Nal sow re4ulremenh endpool
water lumovhr retessan he malnlalnedMN Ne
ImlaGadwa(eddlgonelhaelpumpaendp'umOEag
msabVont
Water Pressure Switch Adjustment
The pressure switch Is preset at the factory for
activation at 1.5 psi 110 kPaj, This factory setting
works for most basic installations, Only adjust the
water pressure switch If the hedt pump does net
operate when the proper flow is applied to unit
.or It the heal pump does not shut off, when the
filter pump Is off. Occaslonafly, unusual plumbing
configurations ornecessary restrict[,,, In the
Plumbing may Cause pressure spriOng problems,
In these rare situations, the plumbing system
configuration may require adjustment of the water
pressure switch,
'Adlusiment of the pressure switch may be necessary
If any part of the filtersystem piping is 3 feet (0,61 m)
-or more above the top of the heat pump.
In general, If the heat pump is Installed -more than a
feet (1,83 m) below the pool surface, an exlemal water
Vowawitch must be added to the plumbing system,
On some Inslaitatl,ns, the piping from the heatpump
me!"
tapazsae ssadh dodo 6e ed)sled Whealmadtrhen NepumphoftSedLpNe
Gowan damage Ne epDreroa, AdNsl Ne
ote,
to the pool Is very short. The back pressure cowl
100low•loiriggerthe pressure switch. If this hapi
Install a dirscllonal filling or elbow where the Tell
line enters the pool, This will Increase back pre=
the heat pump to operate properly. Be sure to chat
the system Bow Is above the minimum requirement
9Pm (f 101Pm) after the directional fitting Installatlr
• Be sure the pool filter Is dlean before making any
• pressure swtch adjustment: A dirty filler will resin
the water Row and1he pressure switch cannot be
edjusledpropedy.
io adjust the pressure awltch;
The following adjustment Is for Installations wl
the heat pump is belowpool water level.
1. Be sure that all valves InPICsyslamare set toa
water Vow through the heat pump. Start the I
Pump.
2. Set the heat pump temperature above the so
, temperature to call for heal.'Ptrnth9heat pump I
3. Once the heal pump Is running, turn off the it
pump, The heal pump should turn Off Immediate
4. If the heat pump continues to operate when the fll
'Pump Is off, then the waterpressure switch needs
tie adjusted,
5. Remove the heatpump'slefliranipanelendremo
remaining dghtlrontpanel,Tha waterpressure swift
Is located In the water plumbing In the lower rig
corner of the heat pump,
6, Slowly rotate the adjustment wheel on the watr
pressure switch In a clockwise direction tinlil th
'LOW WATER FLOW' Alarm shows on the LCC
the Red Service LED turns ON, and the heat puml
stops,
7. Check the setirng-of the water pressure switch by
starling and slopping the filter pump and checking
Ihecontrolpanelandoperetlon ofleheaterbetween
eachflowchangs, ,
S. If the water pressure switch cannot be adjusted to
accommodate the conduons llstedabove, an external
Pow switch must tie added to the plumbing system
to ensure that the heat pump will not operate without
the properflow through the heat exchanger.
The following adjustment Is for Installatlone where
the heat pump is above pool water level,
1, Be•siirs ihat ail valves In the system are set 10
allow water flow through the hest pump. Start the
filterpump.
2. Set the heat pump temperature above the actual
temperature to call for heat. Turn the heat pump
ON.
If the LCO shows a'LOW WATER FLOW°Alarm
and Red Service LED is present then the water
qlpX.
INTERNATIONAL
CODE COUNCIL®
FLORIDA
BUILD.ING
Curou u�o �
WIfJN 00.10 NA� Y
CODE Sixth Edition
(2017)
Energy
Conservation
N.W G�YR
zv V){W
NOW
$L'�TQ ROOP
item No. 5681
■
IIII��������A�■ I�.._1..I��..L-�J �W��u.�Tunv�'ivnoi..v....... ...._.._.______..
R403.5.6 Water heater efficiencies (Mandatory).
R4035.6.1 Storage water heater temperature con-
trols.
t 403.5.6.1.1 Automatic controls. Service water-heat-
in.- systems shall be equipped with automatic tem-
perature controls capable of adjustment from the
1 lowest to the highest acceptable temperature settings
for the intended use. The minimum temperature set-
ting range shall be from 100°F to 140OF (38°C to
1 60°C).
1 R403.5.6.1.2 Shut down. A separate switch or a
1 clearly marked circuit breaker shall be provided to
1 permit the power supplied to electric service sys-
tems to be turned off. A separate valve shall be pro-
vided to permit the energy supplied to the main
1 burner(s) of combustion types of service water -heat-
ing systems to be turned off.
1 R403.5.6.2 Water -heating equipment Water -heating
1 equipment installed in residential units shall meet the
minimum efficiencies of Table C404.2 in Chapter 4 of
1 the Florida Building Code, Energy Conservation,
Com-mercial Provisions, for the type of equipment installed.
1 Equipment used to provide heating functions as part of a
1 combination system shall satisfy all stated requirements
for the appropriate water -heating category. Solar water
1 heaters shall meet the criteria of Section R403.5.6.2.1.
1 R4035.6.2.1 Solar water -heating systems. Solar
1 systems for domestic hot water production are rated
1 by, the annual solar energy factor of the system. The
1 solar energy factor of a system shall.be determined
from the Florida Solar Energy Center Directory of
1 Certified Solar Systems. Solar collectors shall be
1 tested in accordance with ISO Standard 9806, Test
1 Methods for Solar Collectors, and SRCC Standard
TM-1, Solar Domestic Mot Water System and Com-
ponent Test Protocol. Collectors in installed solar
1 water -heating systems should meet the following
criteria:
1. Be installed with a tilt angle between 10
degrees and 40 degrees of the horizontal; and
2. Be installed at an orientation within 45
degrees of true south.
R403.6 Mechanical ventilation (Mandatory). The building
shall be provided with ventilation that meets the requirements
of the Florida Building Code, Residential, or Florida Building
Code, Mechanical, as applicable, or with other approved
RESIDENTIAL ENERGY EFFICIENCY
means of ventilation including: [Natural, Infiltration or
Mechanical means. Outdoor air intakes and exhausts shall 1
have automatic or gravity dampers that close when the venti-
lation system is not operating.
R403.6.1 Whole -house mechanical ventilation system
Can efficacy. When installed to function as a whole -house
mechanical ventilation system, fans shall meet the efficacy
requirements of Table R403.6.1.
Exception: Where whole -house mechanical ventilation
fans are integral to tested and listed HVAC equipment,
they shall be powered by an electronically commutated
motor.
R403.6.2 Ventilation air. Residential buildings designed t
to be operated at a positive indoor pressure or for mechan- 1
ical ventilation shall meet the following criteria: 1
1. The design air change per hour minimums for resi-
dential buildings in ASHRAE 62.2, Ventilation for 1
Acceptable Indoor Air Quality, shall be the maxi-
mum rates allowed for residential applications. 1
2. No ventilation or air-conditioning system make-up 1
air shall be provided to conditioned space from 1
attics, crawlspaces, attached enclosed garages or 1
outdoor spaces adjacent to swimming pools or spas. 1
3. If ventilation air is drawn from enclosed space(s), 1
then the walls of the space(s) from which air is
drawn shall be insulated to a minimum of R-I I and 1
the ceiling shall be insulated to a minimum of R-19, 1
space permitting, or R-10 otherwise. 1
R403.7 Heating and cooling equipment (Mandatory). t
R403.7.1 Equipment sizing. Heating and cooling equip- r
ment shall be sized in accordance with ACCA Manual S 1
based on the equipment loads calculated in.accordance 1
with ACCA Manual J or other approved heating and cool-
ing calculation methodologies, based on building loads for
the directional orientation of the building. The manufac-
turer and model number of the outdoor and indoor units (if 1
split system) shall be submitted along with the sensible 1
and total cooling capacities at the design conditions
described in Section R302.1. This Code does not allow 1
designer safety factors, provisions for future expansion or 1
other factors that affect equipment sizing. System sizing 1
calculations shall not include loads created by local inter-
mittent mechanical ventilation such as standard kitchen 1
and bathroom exhaust systems. New or replacement heat- 1
ing and cooling equipment shall have an efficiency rating
equal to or greater than the minimum required by federal
TABLE R403.6.1
WHOLE -HOUSE MECHANICAL VENTILATION SYSTEM FAN EFFICACY
FAN LOCATION
AIRFLOW RATE MINIMUM
(CFM)
MINIMUM EFFICACY'
(CFWWATT)
AIRFLOW RATE MAXIMUM
(CFM)
Range hoods
Any
2.8 cfm/watt
Any
In -line fan
Any
2.8 cfm/watt
Any
Bathroom, utility room
10
L4 cfm/watt
<90
Bathroom, utility room
90
2.8 cfm/watt
Any
For SI: l cfm = 28.3 Undn.
a. When tested in accordance with HVI Standard 916
FLORIDA BUILDING CODE — ENERGY CONSERVATION, 6lh EDITION (2017) R-25
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RESIDENTIAL ENERGY EFFICIENCY
law for the geographic location where the equipment is
installed.
R403.7.1.1 Cooling equipment capacity. Cooling
only equipment shall be selected so that its total capac-
ity is not less than the calculated total load but not more
than 1.15 times greater than the total load calculated
according to the procedure selected in Section 403.7, or
the closest available size provided by the manufac-
turer's product lines. The corresponding latent capacity
of the equipment shall not be less than the calculated
latent load.
The published value for AHRI total capacity is a
nominal, rating -test value and shall not be used for
equipment sizing. Manufacturer's expanded perfor-
mance data shall be used to select cooling -only equip-
ment. This selection shall be based on the outdoor
design dry-bulb temperature for the load calculation (or
entering water temperature for water -source equip-
ment), the blower CFM provided by the expanded per-
formance data, the design value for entering wet -bulb
temperature and the design value for entering dry-bulb
temperature.
Design values for entering wet -bulb and dry-bulb
temperatures shall be for the indoor dry bulb and rela-
tive humidity used for the load calculation and shall be.
adjusted for return side gains if the return duct(s) is
installed in an unconditioned space.
Exceptions:
L Attached single- and multiple -family residen-
tial equipment sizing may be selected so that
its cooling capacity is less than the calculated
total sensible load but not less than 80 percent
of that load.
2. When signed and sealed by a Florida -regis-
tered engineer, in attached single- and multi-
ple -family units, the capacity of equipment
may be sized in accordance with good design
practice.
R403.7.1.2 Heating equipment capacity.
R403.7.1.2.1 Heat pumps. Heat pump sizing shall
be based on the cooling requirements as calculated
according to Section R403.7.1.1. and the heat pump
total cooling capacity shall not be more than 1.IS
times greater than the design cooling load even if the
design heating load is 1.15 times greater than the
design cooling load.
R403.7.1.2.2 Electric resistance furnaces. Electric
resistance furnaces shall be sized within 4 kW of the
design requirements calculated according to the pro-
cedure selected in Section R403.7.1.
R403.7.1.2.3 Fossil fuel heating equipmenL The
capacity of fossil fuel heating equipment with natu-
ral draft atmospheric burners shall not be less than
the design load calculated in accordance with Sec-
tion R403.7.I.
R403.7.1.3 Extra capacity required for special 1
occasions. Residences requiring excess cooling or I
heating equipment capacity on an intermittent basis,
such as anticipated additional loads caused by major
entertainment events, shall have equipment
'sized or
controlled to prevent continuous space co
ling or I
heating within that space by one or more of7the
fol-
lowing options:
1. A separate cooling or heating system is utilized
to
provide cooling or heating to the major entertain-
ment areas.
2. A variable capacity system sized for optimum
1
performance during base load periods is utilized.
1
R403.8 Systems serving multiple dwelling units (Manda-
tory). Systems serving multiple dwelling units shall comply
with Sections C403 and C404 of the IECC—Commercial
Provisions in lieu of Section R403.
R403.9 Snow melt and ice system controls (Mandatory).
Snow- and ice -melting systems, supplied through energy ser-
vice to the building, shall include automatic controls capable
of shutting off the system when the pavement temperature is
above 50°F (10°C), and no precipitation is falling and an
automatic or manual control that will allow shutoff when the
outdoor temperature is above 40°F (4.8°C).
R403.10 Pools and permanent spa energy consumption
(Mandatory). The energy consumption of pools and perma-
nent spas shall be in accordance with Sections R403.10.1
through R403.IO.5.
R403.10.1 Heaters. The electric power to heaters shall be
controlled by a readily accessible on -off switch that is an
integral pan of the heater mounted on the exterior, of the
heater, or external to and within 3 feet (914 mm) of the
heater. Operation of such switch shall not change the set-
ting of the heater thermostaL Such switches shall be in
addition to a circuit breaker for the power to the heater.
Gas -fired heaters shall not be equipped with continuously
burning ignition pilots.
R403.10.2 Time switches. Time switches or other control
methods that can automatically turn off and on according
to a preset schedule shall be installed for heaters and pump
motors. Heaters and pump motors that have built-in time
switches shall be in compliance with this section.
Exceptions:
1. Where public health standards require 24-hour
pump operation.
2. Pumps that operate solar- and waste-heat-tecov-
cry pool heating systems. I
3. Where pumps are powered exclusively from on -
site renewable generation. 1
R403.103 Covers. Outdoor heated swimming pools and
outdoor permanent spas shall be equipped with a vapor- 1
retardant cover on or at the water surface or a liquid cover 1
or other means proven to reduce heat loss.
Exception: Where more than 70 percent of the energy
for heating, computed over an operation season, is from I
site -recovered energy, such as from a heat pump or
R-26 FLORIDA BUILDING CODE— ENERGY CONSERVATION, 6th EDITION (2017)
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solar energy source, covers or other vapor -retardant
means shall not be required.
R403.10.4 Gas- and oil -Fred pool and spa heaters. All
gas- and oil -fired pool and spa heaters shall have a mini-
mum thermal efficiency of 82 percent for heaters manu-
factured on or after April 16, 2013, when tested in
accordance with ANSI Z 21.56. Pool heaters fired by natu-
ral or LP gas shall not have continuously burning pilot
lights.
R403.10.5 Heat pump pool heaters. Heat pump pool
heaters shall have a minimum COP of 4.0 when tested in
accordance with AHRI 1160, Table 2, Standard Rating
Conditions -Low Air Temperature. A test report from an
independent laboratory is required to verify procedure
compliance. Geothermal swimming pool heat pumps are
not required to meet this standard.
R403.11 Portable spas (Mandatory). The energy consump-
tion of electric -powered portable spas shall be controlled by
the requirements of APSP-14.
R403.12 Residential pools and permanent residential
spas. Residential swimming pools and permanent residen-
tial spas that are accessory to detached one- and two-family
dwellings and townhouses three stories or less in height
above grade plane and that are available only to the house-
hold and its guests shall be in accordance with APSP-15.
SECTION R404
ELECTRICAL POWER AND LIGHTING SYSTEMS
R404.1 Lighting equipment (Mandatory). Not less than 75
percent of the lamps in permanently installed lighting fixtures
shall be high -efficacy lamps or not less than 75 percent of the
permanently installed lighting fixtures shall contain only
high -efficacy lamps.
Exception: Low -voltage lighting.
R404.1.1 Lighting equipment (Mandatory). Fuel gas
lighting systems shall not have continuously burning pilot
lights.
SECTION R405
SIMULATED PERFORMANCE ALTERNATIVE
(PERFORMANCE)
R405.1 Scope. This section establishes criteria for compli-
ance using simulated energy performance analysis. Such
analysis shall include heating, cooling and service water heat-
ing energy only.
R405.2 Mandatory requirements. Compliance with this
section requires that the mandatory provisions identified in
Section R401.2 be met All supply and return ducts not com-
pletely inside the building thermal envelope shall be insulated
to a minimum of R-6.
R405.2.1 Ceiling insulation. Ceilings shall have an insu-
lation level of at least R-l9, space permitting. For the pur-
poses of this code, types of ceiling construction that are
considered to have inadequate space to install R-19
RESIDENTIAL ENERGY EFFICIENCY
include single assembly ceilings of the exposed deck and t
beam type and concrete deck roofs. Such ceiling assem-
blies shall be insulated to at least a level of R-10. r
R405.3 Performance -based compliance. Compliance based
on simulated energy performance requires that a proposed
residence (proposed design) be shown to have annual total t
normalized Modified Loads that are less than or equal to the
annual total loads of the standard reference design as calcu- t
fated in accordance with Appendix RC of this standard.
R405.4 Documentation. Documentation of the software
used for the performance design and the parameters for the
building shall be in accordance with Sections R405.4.1
through R405.4.3.
R405.4.1 Compliance software tools. Computer software t
utilized for demonstration of code compliance shall have I
been approved by the Florida Building Commission in 1
accordance with requirements of this code.
R405.4.2 Compliance report. Compliance software
tools shall generate a report that documents that the pro-
posed design complies with Section R405.3. A compli-
ance report on the proposed design shall be submitted
with the application for the building permit. Upon com-
pletion of the building, a compliance report based on the
as -built condition of the building shall be submitted to
the code official before a certificate of occupancy is
issued. Batch sampling of buildings to determine energy
code compliance for all buildings in the batch shall be
prohibited.
Compliance reports shall include information in
accordance with Sections R405.4.2-I and R405.4.2.2.
Where the proposed design of a building could be built on
different sites where the cardinal orientation of the
building on each site is different, compliance of the
proposed design for the purposes of the application for the
building permit shall be based on the worst -case
orientation, worst -case configuration, worst -case building
air leakage and worst- case duct leakage. Such worst -case
parameters shall be used as inputs to the compliance
software for energy analysis -
R405.4.2.1 Compliance report for permit applica-
tion. A compliance report submitted with the applica-
tion for building permit shall include the following:
1. Building street address, or other building site
identification.
2. A statement indicating that the proposed design
complies with Section R405.3.
3. An inspection checklist documenting the building
component characteristics of the proposed design
as indicated in Table R405.5.2(1). The inspection
checklist shall show results for the proposed
design with user inputs to the compliance soft-
ware to generate the results.
4. A site -specific energy analysis report that is in
compliance with Section R405.3.
FLORIDA BUILDING CODE — ENERGY CONSERVATION, 6th EDITION (2017) R-27
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RESIDENTIAL ENERGY EFFICIENCY
5. The name of the individual performing the analy-
sis and generating the report.
6. The name and version of the compliance software
tool.
t Exception: Multiple orientations. When an other-
wise identical building model is offered in multiple
1 orientations, compliance for any orientation shall be
1 permitted by documenting that the building meets
the performance requirements in each of the four
1 cardinal (north, east, south and west) orientations, or
1 the "Worst" orientation. Compliance software tools
1 may calculate the "Worst Case" orientation by rotat-
1 ing the building through the 4 or 8 cardinal orienta-
tions.
R405.4.2.2 Compliance report for certificate of
occupancy. A compliance report submitted for obtain-
ing the certificate of occupancy shall include the fol-
lowing:
1. Building street address, or other building site
identification.
2. A statement indicating that the as -built building
complies with Section R405.3.
3. A certificate indicating that the building passes
the performance matrix for code compliance and
listing the energy saving features of the build-
ings.
4. A site -specific energy analysis report that is in
compliance,with Section R405.3.
5. The name of the individual performing the analy-
sis and generating the report.
6. The name and version of the compliance software
tool.
R405.43 Additional documentation. The code official
shall be permitted to require the following documents:
L Verification that an EPL display card signed by the
builder providing the building component character-
istics of the proposed design will be provided to the
purchaser of the home at time of title transfer.
2. Documentation of the component efficiencies used
in the software calculations for the proposed
design.
R405.5 Calculation procedure- Calculations of the perfor-
mance design shall be in accordance with Sections R405.5.1
through R405.5.3.
R405.5.1 General. Except as specified by this section, the
standard reference design and proposed design shall be
configured and analyzed using identical methods and tech-
niques.
R405.5.2 Residence specifications. The standard refer-
ence design and proposed design shall be configured and
analyzed as specified by Table R405.5.2(t). Table
R405.5.2(l) shall include, by reference, all notes con-
tained in Table R402.1.2.
R405.53 Calculation requirements for glazing-
R405.5.3.1 Glass areas. All glazing areas of a resi-
dence, including windows, sliding glass doors, glass in
doors, skylights, etc., shall include the manufacturer's
frame area in the total window area. Window measure-
ments shall be as specified on the plans and s eciftca-
tions for the residence.
Exception: When a window in existing exterior
walls is enclosed by an addition, an amount equal to
the area of this window may be subtracted From the
glazing area for the addition for that overhang and
orientation.
R405.5.3.2 Overhangs. Overhang effect is pleasured
by Overhang Separation, which is the vertical measure
of the distance from the top of a window to the. bottom
of the overhang. The overhang for adjustable exterior
shading devices shall be determined at its most
extended position. Nonpermanent shading devices such
as canvas awnings shall not be considered overhangs.
Permanently attached wood and metal awnings may be
considered overhangs.
R405.5.3.3 Doors with glazing. For doors that are
opaque or where the glass is less than one-third of the
area of the door, the total door area shall be included in
the door calculation. For unlabeled sliding glass doors
or when glass areas in doors are greater than or equal to
otie-third of the area of the door, the glazing portion
shall be included in the glazing calculation and the
opaque portion of the door shall be included in the door
calculation. When glass areas in doors are greater than
or equal to one-third of the area of the door, the door
shall be included in the glazing calculation as a total
fenestration using the tested U-factor and solar heat
gain coefficient.
R405.5.3.4 Maximum fenestration SHGC. The Pro-
posed Design must have either an area -weighted aver-
age maximum fenestration SHGC of OSO or a window
area -weighted average overhang depth of 4.0 feet or
greater (all conditioned space windows must be
included in the calculation). The area -weighted average
maximum fenestration U-factor permitted using
tradeoffs from Section R402.1.5 or R405 shall be 0.48
in Climate Zones 4 and 5 and 0.40 in Climate Zones 6
through 8 for vertical fenestration, and 0.75 in Climate
Zones 4 through 8 for skylights. The area -weighted
average maximum fenestration SHGC permitted using
tradeoffs from Section R405 in Climate Zones 1
through 3 shall be 0.50.
R-28 FLORIDA BUILDING CODE— ENERGY CONSERVATION, 6th EDITION (2017)
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RESIDENTIAL ENERGY EFFICIENCY
TABLE R405.5.2(1)
SPFr.IrIcnTtONS FOR THE STANDARD REFERENCE AND PROPOSED DESIGNS
BUILDING COMPONENT
STANDARD REFERENCE DESIGN
PROPOSED DESIGN
Above -grade walls
Type: mass wall if proposed wall is mass; otherwise wood frame
As proposed
Gross area: same as proposed
As proposed
U-factor as specified in Table R402.1.4
As proposed
Solar absorptance = 0.75
As proposed
Emitmnce = 0.90
As proposed
Basement and crawl space
walls
Type: same as proposed
As proposed
Gross area: same as proposed
As proposed
U-factor. from Table R402.1.4, with insulation layer on interior side of walls
As proposed
Above -grade floors
Type: wood frame
As proposed
Gross area: same as proposed
As proposed
(1-factor as specified in Table R402.1.4
As proposed
Ceilings
Type: wood frame
As proposed
Gross area: same as proposed
As proposed
U-factor. as specified in Table R402.1.4
As proposed
Roofs
Type: composition shingle on wood sheathing
As proposed
Gross area: same as proposed
As proposed
Solar absorptance = 0.75
As proposed
Emittance = 0.90
As proposed
Attics
Type: vented with aperture = 1150 per 300 DO ceiling area
As proposed
Foundations
Type: same as proposed
As proposed
Foundation wall area above and below grade and soil characteristics: same as
proposed
As proposed
Opaque doors
Area: 40 fr
As proposed
Orientation: North
As proposed
U-factor same as fenestration from Table R402.1A
As proposed
Vertical fenestration other
than opaque doors
Vertical fenestration area" =
(a) The proposed vertical fenestration area, where the proposed fenestration
area is less than 15 percent of the conditioned floor area, or
(b) The adjusted vertical fenestration area, where the proposed fenestration
area is 15 percent or more of the conditioned floor area. The adjusted
vertical fenestration area shall be calculated as follows:
AVFI = AVF • 0.15 • CFAIAF
where:
AVF„t= adjusted vertical fenestration
AVF = proposed vertical fenestration area
CFA = conditioned floor area
AF = proposer. total fenestration area
As proposed
Orientation: equally distributed to four cardinal compass orientations
(N,E,S&W)
As proposed
U-factor. as specified in Table R402. to
As proposed
SHGC: as specified in Table R402.1.2 except that for climates with no
requirement (NR) SHGC = 0.40 shall be used
As proposed
Interior shade fraction: 0.92 - (0.21 x SHGC for the standard reference
design)
0.92 - (0.21 x SHGC as pro -
posed)
External shading: none
I As proposed
(continued)
FLORIDA BUILDING CODE — ENERGY CONSERVATION, 6th EDITION (2017) R-29
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140
140 H/C
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50000/40
60
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230
90 BLK 460l961
— —
90.000/5.7
84,000/5.5
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60.000/4.0
60
.40
50
_;
1
8
230
.:
230
110 BLK 4:60962
108 000/6A „
101,000/5.8
72 000 4.6 :',,
_ 60_ . '
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< ,1. _ ,
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230
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120 BLK 460963
127,000/5.7
120.000/5.5
82.000/4.0
60
50
1
8
230
270
120
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-127000 Heal/5.6
7T,000Cool/4.1
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120,000/5.4
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123,000/5.6
115,000/5.3
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280
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140 H/C 460959
140 000 He81
132,000/5.4
85 000/4 0
60
50
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8
230
320
80,000 Co wU
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132,000/5.6
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