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Aerothermal heat pump, designed for air conditioning and water heating for residential use.
Latest generation heat pump with new natural R290 refrigerant.
Temperature up to 75°C, with maximum efficiency.
The Aquapura Inverter has a DHW function, 100% hydraulic installation, ultra compact and innovative design.
The Aquapura Inverter HT Heat Pump consists of an outdoor unit, in the heating and air conditioning versions, and an indoor unit, the water heater for the DHW version.
The INVERTER 14HT is compatible with the Aquapura THERMOBOX range of equipment! These models, part of ENERGIE’s ALL-IN-ONE line, consisting of just 2 units, one outer and one inner, are 100% hydraulic. All the components of the equipment are housed in the inner unit, resulting in a versatile and compact solution. Ideal for multi-family homes and dwellings.
All that is needed is to have a substructure of water termi- nals, namely radiators, invisible radiant heating or fan coils, to be able to enjoy this new solution for Heating & Cooling and Domestic Hot Water production.
There is a refrigerant fluid that is pumped into an external heat exchanger (evaporator). Here the fluid absorbs energy from the environment due to the temperature differential achieved outside. During this process, the fluid changes state and becomes vapour. The gaseous fluid is aspirated by the mechanical part of the system, the compressor. Here it is compressed, the pressure rises and consequently the fluid temperature rises. The fluid then travels to a second internal heat exchanger (condenser) and transfers the heat it transports to the house’s heating system. The fluid goes back to the liquid state by cooling. The fluid pressure is reduced due to throttling that occurs in the expansion valve and the process starts over again.
Heat pumps are prepared for heating and cooling as well as domestic water heating. These solutions stand out for their high energy efficiency, which makes them capable of achieving an energy rating up to A+++ for heating. They also stand out for their ability to integrate with other heating systems and easy installation.
The heat from the environment is indirect solar energy, stored in water, air and soil. The heat pump will extract heat precisely from these heat sources for later use in your home’s climate. Air/Water heat pumps with high energy efficiency INVERTER technology are a modern, efficient and clean solution that guarantees the comfort of your home, always respecting the environment.
It’s a smart way to use nature’s resources to improve your quality of life. By adopting one of these solutions, you will be making a serious commitment to the issue of reducing harmful emissions to our atmosphere, thus contributing to the planet’s natural balance. The Air/Water heat pumps with INVERTER technology were developed to meet the needs of both domestic and industrial use, for climatization (heating and cooling) and Domestic Hot Water solutions (DHW).
DC INVERTER technology is different from any other technology existing on the market because it has a compressor with the capacity to vary the operating frequency, meeting the exact needs of climatization comfort at home. This achieves greater savings in energy consumption.
Use a natural refrigerant with less global warming potential.
Generates low levels of noise, almost imperceptible from a few metres away when in operation.
The system contains no fluorinated gases, it is 100% hydraulic.
Guaranteed high performance regardless of the use: heating, cooling or production of DHW.
The equipment can reach temperatures up to 75°C making it the ideal solution for replacing boilers.
Efficiency class A+++ give the equipment one of the highest levels of efficiency on the market.
The equipment has an ABS polymer-coated exterior designed to provide protection against corrosion.
TECHNICAL DATA (Outdoor Unit) | AQUAPURA8HT (INVERTER P3-10) | AQUAPURA 14HT (INVERTER P6-16) | AQUAPURA14HT-T (INVERTER P6-16) |
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---|---|---|---|---|---|---|---|---|
Power Supply | - | 230V~/50Hz | 230V~/ 50Hz | 230V~/ 50Hz | ||||
Power supplied | Heating (Nom./Max) | kW | 7.2~10.3 | 11.85~15.75 | 11.85~15.75 | |||
Cooling (Nom./Max) | kW | 5.7~8.51 | 7.85~11.61 | 7.85~11.61 | ||||
Power consumed | Heating (Nom./Max) | kW | 1.5~2.9 | 2.36~4.67 | 2.36~4.67 | |||
Cooling (Nom./Max) | kW | 1.64~2.95 | 1.98~4.98 | 1.98~4.98 | ||||
COP (1) | Nominal | - | 4.8 | 05.02 | 5.02 | |||
EER (2) | Nominal | - | 3.46 | 3.96 | 3.96 | |||
Energy efficiency class at 35°C (3) | Medium climate | - | A+++ | A+++ | A+++ | |||
SCOP(2) - Seasonal efficiency at 35°C (3) | - | 5.02 | 5.13 | 5.13 | ||||
Energy efficiency class at 55°C (3) | Medium climate | - | A++ | A+++ | A++ | |||
SCOP(2) - Seasonal efficiency at 55°C (3) | - | 3.73 | 3.97 | 3.97 | ||||
Maximum consumption power | kW | 3 | 5,3 | 5,3 | ||||
Maximum consumption current | A | 13,5 | 24,5 | 10,5 | ||||
Refrigerant (R290) / CO2 Eq. | Kg / Ton | 0,5 / 0,0015 | 0,85 / 0,00255 | 0,85 / 0,00255 | ||||
Compresor | - | DC Inverter | DC Inverter | DC Inverter | ||||
Sound power at 1m | dB(A) | 43 | 42 | 42 / 33 | ||||
Sound power | dB | 57 | 58 | 58 | ||||
Hydraulic Connections Diameter | Inches | 1” | 1” | 1” | ||||
Circulator | - | Integrated | Integrated | Integrated | ||||
Water flow (min) | m3/h | 1 | 1,7 | 1,6 | ||||
Hydraulic circuit load loss | kPa | 20 | 45 | 30 | ||||
Dimensions | (AxLxP) | 795x1167x455 | 1287x928x500 | 1287x928x485 | ||||
Weight | Kg | 80 | 160 | 160 | ||||
(1) Air temperature (DB/WB) 7ºC/6ºC; Water temperature (inlet/outlet) 30ºC/35ºC | (2) Air temperature (DB/WB) 35ºC/24ºC; Water temperature (inlet/outlet) 12ºC/7ºC | (3) In compliance with EN14825 and Delegated Regulation (EU) No. 812/2013 | ||||||||
TECHNICAL DATA THERMOBOX DHW (Indoor Unit) | 160 | 200 | 200 | 270 | ||||
AQUAPURA INVERTER 8HT | AQUAPURA INVERTER 14HT | 14HT-T | |||||||
Heating Time ( Δt=35ºC) | hh:mm | 00:54 | 01:13 | 00:28 | 00:37 | |||
COP / SPF (4) | 3,31 | 3,32 | 3,32 | 3,36 | ||||
Consumption Profile (4) | L | L | L | XL | ||||
Energy-Efficiency (4) | % | 138 | 139 | 139 | 140 | |||
Quantity of Hot Water Available (40ºC) (4) | L | 205 | 257 | 258 | 332 | |||
Energy Class (4) | A+ | A+ | A+ | A+ | ||||
DHW Maximum Temperature | °C | 55 | 55 | 55 | 55 | |||
(4) A14/W10-54, in compliance with EN16147 and Delegated Regulation (EU) No. 812/2013 |
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