AQUAPURA INVERTER HEAT PUMP - energie.pt · AQUAPURA INVERTER HEAT PUMP. UNDERFLOOR HEATING ....
Transcript of AQUAPURA INVERTER HEAT PUMP - energie.pt · AQUAPURA INVERTER HEAT PUMP. UNDERFLOOR HEATING ....
350CA++
A Q U A P U R A
AQUAPURA INVERTERHEAT PUMP. UNDERFLOOR HEATING . HEATING AND COOLING WITH FAN ASSISTEDCONVECTORS
. HEATING WITH RADIATORS
W W W . E N E R G I E . P T
AIR TO WATER HEAT PUMPS
H E A T I N G A N D C O O L I N G
02 ENERGIE
THE RANGE OF AQUAPURAAIR TO WATER HEAT PUMPS INCLUDES4 TO 18 kW MODELS
COMPONENTS BRANDS
KEY FEATURES. Heating and/or Cooling. Reduced Maintenance and low operating noise. Operating with external temperatures down to – 25°C. Construction with anodized coating resistant to natural
corrosion. Domestic Hot Water function (Control Box)
H O T W A T E R
C E N T R A L H E A T I N G
03ENERGIE
GREATER HEAT PRODUCTION WITH LESS ENERGY CONSUMPTION
The environment’s heat is commonly attributed to indirect solar energy,
stored in water, air and soil. The heat pump will remove heat from these
heat sources to, later, be used for heating your home.
The highly efficient INVERTER Air to Water heat pump is a modern,
efficient, and clean solution that guarantees your home’s comfort, while
giving consideration to the environment.
A smart way to use natural resources in order to improve your quality of
life. With this solution you will be making a serious commitment to the
reduction of harmful emissions into our atmosphere, thus contributing to
the planet's green agenda.
The INVERTER Air to Water heat pump has been developed to meet both
domestic and industrial needs, for heating, cooling and Domestic Hot
Water solutions (DHW).
UN
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04 ENERGIE
F A N A S S I S T E D C O N V E C T O R
FUNCTIONING PRINCIPLE
There is a refrigerant that is pumped to an outdoor heat exchanger
(evaporator). The refrigerant, with the help of a fan, absorbs the energy
from the atmosphere to the temperature differential obtained outdoors.
During this process, the liquid changes to a gaseous state. The gaseous
state is sucked in by the mechanical part of the system, the compressor
where it is compressed. The pressure goes up and, consequently, the
liquid temperature increases. After that, the liquid travels to a second
inside heat exchanger (condenser) and transfers heat to the water in the
cylinder. The fluid goes into liquid state by cooling down. The liquid
pressure is reduced due to a strangulation that happens in the expansion
valve and the process starts again.
AQUAPURA INVERTER. The ideal heat pump for underfloor heating. Efficient and quiet solution. Attractive and compact design. Heat Pump with the capability to heat hot water. Facilitates heating and cooling in certain situations
HEAT PUMPS THAT GIVEYOUR HOME MORE COMFORTAND ECONOMY
EVAPORATOR>>>>
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<<<< CONDENSER
1. A refrigerant ispumped to the
evaporator.
2. Where it turns fromliquid to gaseous through
the external heatexchanger.
3. The refrigerantis sucked into
the compressor.
5. The heat is transferredto the home´s heating
system through theinternal heat exchanger.
6. The refrigerant turns into liquid again and the
pressure drops.
4. Where it iscompressed,
increasing thetemperature.
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6
2 3
4
5
AIR INTAKETHE ENVIRONMENT
ELECTRICITY 25% 7
5% TH
ERM
AL
ENER
GY
4.1COP
UP TO 55OCWATER
TEMPERATURE
-25OCOUTDOOR
TEMPERATURE
05ENERGIE
PRIMARY ENERGYCONSUMPTION
THE INVERTER HEAT PUMPS STAND OUT FOR THEIR HIGH PERFORMANCE
The INVERTER heat pumps are capable of heating and cooling as well
as domestic hot water. Those solutions stand out for their high energy
efficiency. They can reach an energy classification up to A++ for
heating. They also stand out for their ease of integration with other
heating systems and easy installation.
ENERGY CONSUPTION GRAPHIC
Heating oil
Natural gas
Propane gas (GPL)
Heat pumps
DC INVERTER TECHNOLOGY
The DC INVERTER technology differs from many other existing
technologies in the market since it possesses compressors with the
capacity to vary the frequency of operation according to the exact
comfort needs of the house HVAC. There is therefore lower energy
consumption.
Operating PeriodINVERTER VS TRADITIONAL
F A N A S S I S T E D C O N V E C T O R
Th
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W E L L - B E I N G
HEAT PUMP FOR DOMESTIC HOT WATER
(DHW)
HEAT PUMP WITHOUT BUFFER + DHW
HEAT PUMP WITH BUFFER + DHWHEAT PUMP WITH BUFFER
THE PRESENCE OF A BUFFER TANK IN THE INSTALLATION GARANTEES SEVERAL ADVANTAGES:. Energy saving. Available thermal outputs increase. Smaller operating periods
CYLINDERS TO PRODUCE DOMESTIC HOT WATER (DHW):. Capacities of 200, 250, 300 and 500 litres. Stainless steel tub AISI 444. 5 years warranty. Serpentine xl of high efficiency
INVERTER 8-12Features INVERTER 5-18
kW 14.50 17.009.20 15.10 4.20~12.30
1) Heating Mode • Ambient temperature DB / WB 7°C / 6°C; • Outlet / inlet water temperature: 35°C / 30°C.
2) Cooling mode • Ambient temperature DB / WB 35°C / 24°C; • Water temperature (inlet / outlet): 7°C / 12°C.
3) Power of the electrical heater (backup): 3kW.
Power supply
Refrigerant type
Heating capacity
Electric consumption
Power supplied (heating)1
Electrical consumption (heating)1
COP1
Cooling capacity
Electrical consumption
Power supplied (cooling)2
Electrical consumption (cooling)2
EER2
Maximum water temperature
Electrical heater (Backup)
Max current input
Number of Compressors
Compressor type
Water pump
Minimum flow
Number of Fans
Hydraulic connections (inlet/outlet)
Sound
Net weight/ Packaged weight
Net dimensions (L/ A/ P)
Packaged dimensions (L/ A/ P)
Energy e�ciency (ErP 35°C)
Energy e�ciency (ErP 55C°)
Energy e�ciency class (ErP 35°C)
Energy e�ciency class (ErP 55°C)
TECHNICAL CHARACTERISTICS
07ENERGIE
/
/
kW
kW
kW
kW
/
kW
kW
kW
kW
/
0C
/
A
/
/
/
m3/h
/
Pol.
dB(A)
Kg
mm
mm
%
%
/
/
220-240V~/50Hz
R410A
4,20 – 12,30
0,80 – 3,40
11,60
2,76
4,21
2,8 – 10,0
1,0 – 4,0
9,5
2,66
3,57
55
Integrated (3kW)
18,0 + 13,0 (Electical heater backup)
1
DC Inverter
Integrated
1,6
1
1’’ / 1’’
54
110/ 123
960/ 910/ 440
1010/ 920/ 470
153
122
A++
A+
220-240V~/50Hz
R410A
5,40 – 18,50
1,20 – 5,10
17,30
4,18
4,14
5 – 14,5
1,6 – 6,0
14,10
4,01
3,52
55
Not Integrated
27,0
1
DC Inverter
Integrated
2,8
2
1’’ ¼ / 1’’ ¼
58
163/ 180
990/ 1320/ 395
1040/ 1440/ 450
157
128
A++
A++
W W W . E N E R G I E . P T
Zona Industrial de Laúndos
Lote 48, 4570-311 Laúndos
Póvoa de Varzim, Portugal
EMAIL [email protected]
Project co-financed by:
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This brochure was only made to inform and it doesn’t constitute a contractual offer to ENERGIE EST Lda. ENERGIE EST Lda. Compiled the content of this brochure using its best knowledge. It is not given any guarantee expressed or implied with regard to the totality, precision, reliability or suitability to a certain end of the substance and of the products and services presented. The specifications are subjected to changes without notice. ENERGIE EST Lda. explicitly rejects any direct or indirect damages, in its broadest sense, result or related with the use and/or interpretation of this brochure. R0V1/02/2019