COMPACT06

COMPACT06 (NORMAL MODE)

Heating capacity

Total for transmission

Nominal air flow rate at conditions:: fresh air 7°C DB (6,1°C WB),

exhaust and recirculation air 20°C DB

kW

5,08

Total for transmission + Ventilation

Nominal air flow rate at conditions:: fresh air 7°C DB (6,1°C WB),

exhaust and recirculation air 20°C DB

kW

5,52

Total for transmission

Nominal air flow rate at conditions:: fresh air – 5 °C DB (- 5,8 °C WB),

exhaust and recirculation air 20°C DB

kW

4,5

Total for transmission + Ventilation

Nominal air flow rate at conditions:: fresh air – 5 °C DB (- 5,8 °C WB),

exhaust and recirculation air 20°C DB

kW

5,3

Cooling

capacity

Total for transmission

Nominal air flow rate at conditions:: fresh air 35 °C DB (23,8 °C WB),

exhaust and recirculation air 26°C DB (20,3 °C WB)

kW

4,81

Total for transmission + Ventilation

Nominal air flow rate at conditions:: fresh air 35 °C DB (23,8 °C WB),

exhaust and recirculation air 26°C DB (20,3 °C WB)

kW

5,15

Nominal supply air flow rate

*Nominal air flow for consumption calculation

m³/h

600

Nominal fresh air flow rate (up to 200 m³/h)

Fresh air

m³/h

100

Nominal recirculating air flow rate

m³/h

500

Maximum air suction flow rate from outside

m³/h

800 (100 fresh air)

Maximum air exhaust flow rate to outside

*Nominal air flow for consumption calculation

m³/h

800 (100 di exhaust air)

Useful static pressure supply fan

At nominal air flow rate of 600 m³/h

Pa

330

Useful static pressure exhaust fan

At nominal air flow rate of 800 m³/h

Pa

260

Fans type

-

Constant air flow EC centrifugal fan

Fresh air filter efficiency

-

F7 ISO e PM1 > 65 %

Other filter efficiency

-

G4 ISO COARSE > 65 %

Compressor type

R32

-

BLDC Brushless Rotary Inverter

DHW storage

litri

200

DHW storage temperature

°C

from 40 to 60

Post heating electric coil

kW

0,5

DHW storage electric battery

kW

2,0

Power supply

V/f/Hz

230/1/50

SCOP THERMODYNAMIC

Only transmissions

Bivalent temperature = -5°C

Project temperature = -5°C

With absorption of fans (useful static pressure at nominal flow rates * equal to 100 Pa)

2,6

Bivalent temperature = -5°C

Project temperature = -5°C

Without absorption of fans

2,9

Bivalent temperature = -10°C

Project temperature = -10°C

With absorption of fans (useful static pressure at nominal flow rates * equal to 100 Pa)

2,8

Bivalent temperature = -10°C

Project temperature = -10°C

Without absorption of fans

3,2

Bivalent temperature = -15°C

Project temperature = -15°C

With absorption of fans (useful static pressure at nominal flow rates * equal to 100 Pa)

3,0

Bivalent temperature = -15°C

Project temperature = -15°C

Without absorption of fans

3,4

Transmissions + ventilation +

domestic hot water

Bivalent temperature = -5°C

Project temperature = -5°C

With absorption of fans (useful static pressure at nominal flow rates * equal to 100 Pa)

3,2

Bivalent temperature = -5°C

Project temperature = -5°C

Without absorption of fans

3,7

Bivalent temperature = -10°C

Project temperature = -10°C

With absorption of fans (useful static pressure at nominal flow rates * equal to 100 Pa)

3,7

Bivalent temperature = -10°C

Project temperature = -10°C

Without absorption of fans

4,2

Bivalent temperature = -15°C

Project temperature = -15°C

With absorption of fans (useful static pressure at nominal flow rates * equal to 100 Pa)

3,9

Bivalent temperature = -15°C

Project temperature = -15°C

Without absorption of fans

4,4

Note

The SCOP relative to the project / bivalent temperature equal to -10 ° C equal to that of a casing that at the temperature is -5 ° C has a dissipation for only transmissions equal to 3.23 kW

and a total requirement of 4.42 kW (transmissions + ventilation + domestic hot water)

The SCOP relating to the project / bivalent temperature equal to -15 ° C is equal to that of a casing which at a temperature of -5 ° C has a dissipation for transmissions only of 2.47 kW

and a total requirement of 3.625 kW (transmissions + ventilation + domestic hot water)

SEER THERMODYNAMIC

Only transmissions

Project temperature = 35°C

With absorption of fans (useful static pressure at nominal flow rates * equal to 100 Pa)

3,6

Without absorption of fans

4,6

Transmissions + ventilation + domestic hot water

Project temperature = 35°C

With absorption of fans (useful static pressure at nominal flow rates * equal to 100 Pa)

4,1

Without absorption of fans

5,2