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Aquapura Booster domestic hot water, water-water heat pump
The Aquapura Booster is a highly efficient dhw heat pump that works in combination with a district heating system or domestic heat network.
The Booster is a highly efficient water-water heat pump for the prodution of domestic hot water that works in combination with a district heating system or domestic heat network. Both in district heating systems and heat networks, the temperature offered is normally insufficient for the production of domestic hot water. However, the Aquapura Booster water-to-water heat pump uses low-temperature water as a heat source for the production of domestic hot water up to 60°C. Low temperature systems are becoming increasingly important in the house market. In such a system, a centrally located heat pump provides low temperature water up to 35°C to multiple apartments or single houses. The high efficiency and limited heat loss mean that these types of systems achieve a very favorable energy rating in collective or single housing projects. The low temperature water can be used directly for the radiant floor of the residential units.
The Booster has a high coefficient of performance (COP), meaning that it is extremely efficient at converting energy into heat. This translates into lower energy bills and a reduced carbon footprint for homeowners.
When integrated with the house heating system, this product has the added benefit of cooling the house during the hot summer months. The Booster produces minimal noise during operation, ensuring that it won’t disturb the peace and quiet of your home.
The Booster is designed with horizontal transportation and easy installation in mind, making it a convenient and hassle-free option for households of all sizes.
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1. Storage Water Heater. 2. Block. 3. Photovoltaic Panels. 4. Inverter.
DIMENSIONS mm | Ø Pol. | 120I | 200I | 300I | |
---|---|---|---|---|---|
A | - | Cold water inlet | 1400 | 1667 | 1968 |
B | G ¾” M | Recirculation | - | 131 | 131 |
C | G ½” F | PT Valve | - | - | 840 |
D | G ½” F | Hot water outlet | - | 905 | 1205 |
E | G ¾” M | - | - | 1030 | 1325 |
F | - | - | Ø530 | Ø580 | Ø580 |
G | G ¾” M | Heat source connections | 3/4” | 3/4” | 3/4” |
H | - | - | 720 | - | - |
I | - | - | 826 | - | - |
J | - | - | 220 | - | - |
K | - | - | 100 | - | - |
L | G ¾” M | Cold water inlet | - | - | - |
M | G ¾” M | Hot water outlet | - | - | - |
TECHNICAL DATA | BOOSTER 120I | BOOSTER 200I | BOOSTER 300I | ||
---|---|---|---|---|---|
Type of equipment | - | Water/water heat pump for DHW | |||
DHW capacity | L | 120 | 200 | 270 | |
Empty weight | Kg | 41 | 58 | 98 | |
Dimensions (height/ø) | mm | 1400/530 | 1667/580 | 1968/580 | |
Storage water heater material | - | Stainless steel | |||
Max running temperature cylinder | 0C | 80 | |||
Max working pressure cylinder | bar | 7 | |||
Heat loss | kWh/24h | 0,95 | 0,99 | 1,01 | |
Protection index | - | IPX1 | |||
Power supply | - | 220-240 Vac / Single-Phase / 50 Hz | |||
Absorbed power (med / max) | W | 280/350 | 350/650 | 350/650 | |
Absorbed power electrical support | W | 1500 | 1500 | 1500 | |
Thermal power supplied Heat Pump (med / max) | W | 1470 / 1800 | 1800 / 2750 | 1800 / 2750 | |
Max running current (Heat Pump + Electrical Heater) | A | 1,5+6,5 | 2,9 + 6,8 | 2,9 + 6,8 | |
Max DHW temperature (Heat Pump) | 0C | 60 | |||
Max DHW temperature (Backup) | 0C | 75 | |||
Refrigerant | -/Kg | R134a / 1.2 | |||
Load profile | - | M | L | XL | |
COP 1) / 2) | - | 4,0/4,3 | 5,4/ 6,2 | 5,4 / 6,4 | |
Heating time 1) / 2) | - | 3:55/3:32 | 3:15/3:03 | 4:38/4:21 | |
Amount of useful water 400<7sup>C 1) / 2) | - | 138/138 | 260/262 | 332/335 | |
Energy efficiency class 1) / 2) | - | A+++/A+++ | A+++/A+++ | A++/A+++ | |
Energy efficiency 1) / 2) | - | 166/180 | 226/280 | 226 / 265 | |
Annual electricity consumption 1) / 2) | - | 310/285 | 453/366 | 742 / 632 | |
Sound power level indoor 3) | - | 45 | |||
1) Heat source at 25° and DHW temperature from 10°C-53°C, according to EN16147 and regulamentation (EU) Nº812/2013 | 2) Heat source at 35° and DHW temperature from 10°C-53°C, according to EN16147 and regulamentation (EU) Nº812/2013 | 3) According with EN12102 |
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