Aquapura THERMOBOX was developed with the intention of simplifying and reducing the installation costs of technical systems for Heating/Cooling and Domestic Hot Water (DHW) in the residential sector. Uncomplicated and intelligent, only requires the use of adequate piping and electrical cabling to interconnect the units.

  • CLIMATIZATION + DHW IN A COMPACT UNIT
  • MODULE INTEGRATION 60 X 60 CM. IDEAL FOR SMALL SPACES
  • COMPATIBLE WITH AQUAPURA INVERTER 8-12 AND 5-18 AEROTHERMAL HEAT PUMPS
  • REDUCED INSTALLATION COSTS
  • INTEGRATED 200L STAINLESS STEEL DHW TANK
  • IDEAL FOR THE RESIDENTIAL SECTOR

Heat pumps are systems that use the principle of thermodynamics to extract natural heat from ambient air into your home. ENERGIE heat pumps are the ideal solution to increase energy efficiency, taking advantage of the environment as the main source of energy. There is a cooling liquid that is pumped to an outdoor heat exchanger (evaporator). Here the liquid, 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. Here it is compressed, the pressure goes up and consequently the liquid temperature increases. After this, 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.

OUTDOOR UNIT    

INVERTER R 8-12

INVERTER R 5-18 INVERTER R 8-12
Electric Supply     1~/ 230V/ 50Hz 3N~/ 400V/ 50Hz
Heating Capacity Heating (Nom./Max) kW 8,25 / 12,52 15,36 / 18,51
Cooling (Nom./Max) kW 7,01 / 11,31 13,92 / 16,23
Electric Consumption Heating (Nom./Max) kW 1,71 3,21
Cooling (Nom./Max) kW 1,94 3,88
COP (1) Nominal - 4,82 4,79
EER (1) Nominal - 3,61 3,58
Energy Class at 35°C Average climate - A++ A++
SCOP(2) - Seasonal efficiency at 35°C / ns - / % 4,73 / 186 4,67 / 184
Energy Class at 55°C - A++ A++
SCOP(2) - Seasonal efficiency at 55°C / ns - / % 3,86 / 151 3,72 / 146
Maximum consumption (Power / current)   kW / A 4,6 / 21,5 7,2 / 33,2 7,2 / 1,2
Maximum current of operation   A 21,5 33,2 12,0
Refrigerant (R32) / CO2 Eq.   Kg / Ton 1,7 / 1,15 2,0 / 1,35
Compressor   - DC Inverter DC Inverter
Sound power(3)   dB(A) 42~55 44~58
Diameter of hydraulic connections Inlet / Outlet Pol. 1” 1” 1/4
Recirculation pump   - Integrated Integrated
Water flow (min)   m3/h 1,7 2,9
Load loss hydraulic circuit   kPa 32 45
Dimensions   (AxLxP) 915 x 953 x 460 1315 x 997 x 437
Weight   Kg 108 157
(1) According to EN14511; Air temperature DB/WB 7ºC/6ºC; Return water / flow temperature 30ºC/35ºC | (2)According to EN12511; Air temperature DB/WB 35ºC/24ºC; Return water / flow temperature 7ºC / 12ºC
(1) COP and EER were calculated based on the EN14511-2 norm | (2) SCOP was calculated according to EN14825 norm | (3) Sound power was calculated according to the 12102-1 norm
INDOOR UNIT  

THERMOBOX 200

DHW Capacity   L 200
Tank / Insulation     Stainless steel / High-density polyurethane 60mm
Coil capacity (55/50ºC), DHW (10-54ºC) kW 28,60
Warm-up tune (Δt=35ºC)   hh:mm 00:42 00:28
COP/SPF DHW     3,25 3,26
Consumption Profile     L L
Efficiency   % 136 138
Amount of hot water available (40ºC)   L 272
DHW Energy Class     A+
Maximum temperature in Heat Pump mode   °C 60
Electrical Support     Yes
Climatization Hydronic KIT / DHW     Yes / Yes
Unit Management     Tactile LCD Control
Weight   kg 138
UNIT INTERCONNECTION  

 

Connection Type     Hydraulics with adequate piping (see manual)
Max. Distance without refrigerant addition     (See manual)


Company, Products, Associates, Co-Funded Project

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