Technical sheet - Atlantic-comfort.com

AIR TO WATER HEAT PUMP
ALFÉA M
• Four models: 6 to 12 kW single phase
• Monobloc inverter heat pump
• COP (coeffi cient of performance) up to 3.85
• Suitable for new-build or renovation
Monobloc hydraulic module and inverter unit

Alféa M
ALL THE POWER OF ALFÉA IN ONE UNIT
Except Alféa M12.
Alféa M combines the power of the Inverter technology with the simplicity of a monobloc, in 4 single-phase models.
It offers a wide range of options (2-zone control, split system, etc.) and high COPs with the particular advantage of
being easy to installation.
PERFORMANCE COEFFICIENT (COP)
COP is an indicator of the heat pump performance. It corresponds
to the difference between the amount of heat generated by the heat
pump and the energy consumed for the equipment to work. A COP of
4 means that the heat pump generates four times what it needs to
function. So the higher COP is, the more performant the heat pump is.
AN INVERTER UNIT AND HYDRAULIC MODULE, IN A COMPACT UNIT
Inverter and hydraulic units
CHARACTERISTICS
• Monobloc system with built-in hydraulic module saves space
inside the home
• Water curve control, directly managing the compressor
conditions and condensation temperature.
• COP up to 3.85
• Floor drying programme
• 2-circuit management for 1 or 2 different emitter types
• Optional DHW production
SUPPLIES
• Monobloc heat pump assembled on chassis
• Twin Rotary compressor
• Copper coaxial immersion exchanger in buffer tank
• 6 litres expansion vessel
• Pressure gauge
• Vibration-proof studs and adjustable feet.
• Circulating pump
• Auxiliary electrical supply included
• Remote control with ambient temperature adjustment
2

HYDRAULIC MODULE
A dedicated hydraulic conception
for improved performances
The Alféa range beneficiates from a coaxial heat
exchanger, a technology developed and patented by
Atlantic to maximize the heat pump performance.
It provides the heat pump with significant advantages:
• Low heat losses
• Not sensitive to the loaded water
• Resistance to clogging
• Stainless steel buffer tank: no corrosion
• Built-in additional electrical heater
• Maintenance trap in the upper section of the buffer tank
Electrical cabinet
PATENTED
EXCHANGER
Heating circuit circulating
pump
Condenser
Refrigerant unit
Hydraulic module
Expansion vessel
Refrigerant fluid
Hot heating circuit
INVERTER UNIT
An optimized control to maximize savings
The inverter control adapts its power supply according to
outside temperature in order to provide the exact amount
of energy for a constant and economical heat. The inverter
control allows savings up to 30% compared to a conventional
regulation system.
Hot
Comparison between inverter
and traditional heat control
Temperature remaining stable
Temperature
desired
Inverter
Cold
Traditional
Time
Control:
VPAM inverter
3

Technical characteristics and performances
UNIT ALFÉA M6 ALFÉA M8 ALFÉA M10 ALFÉA M12
R410A R410A R410A R410A
MAIN CHARACTERISTICS
Heating capacity +7°C/+35°C – Floor Heating W 6 480 8 000 9 800 11 122
Input power +7°C/+35°C – Floor Heating W 1 723 2 076 2 606 2 927
COP +7°C/35°C - Floor Heating 3.76 3,85 3.76 3.80
Heating capacity -7°C/+35°C – Floor Heating W 3 864 5 474 7 618 8 924
Input power -7°C/+35°C – Floor Heating W 1 610 2 164 3 122 3 863
COP -7°C/+35°C - Floor Heating 2.40 2,53 2.44 2.31
Heating capacity +7°C/+45°C – Low T°radiators W 6 100 7 400 8 350 10 300
Input power +7°C/+45°C – Low T°radiators W 2 234 2 531 2 781 3 571
COP +7°C/45°C – Low T°radiators 2.73 2.92 3.00 2.88
Heating capacity -7°C/+45°C – Low T°radiators W 4 136 5 687 6 721 7 896
Input power -7°C/+45°C – Low T°radiators W 2 303 2 836 3 430 3 576
COP -7°C/+45°C – Low T°radiator 1.80 2.00 1.96 2.21
Additional integrated electric backup W 3 000 3 000 4 500 4 500
PHYSICAL CHARACTERISTICS
Dimensions h x w x d mm 855 x 1 360 x 386 855 x 1 360 x 368 918 x 1 420 x 436 918 x 1 420 x 436
Net weight/filled weight kg 115 / 130 115 / 130 135 / 150 135 / 150
Noise level* dB(A) 39 40 41 41
Sound pressure according to EN 12102 dB(A) 64 66 68 68,5
HYDRAULIC CHARACTERISTICS
Buffer tank capacity l 15 15 15 15
Expansion vessel capacity l 6 6 6 6
Max. pressure bar 3 3 3 3
Max. available pressure kPa 684 621 581 445
Heating system min./max. flow for 4°< T

Alféa M
INSTALLATION SCHEMES
A - Alféa M : 1 heating zone
Monobloc heat pump
Room control unit
B - Alféa M : 2 heating zones
Monobloc heat pump
Room control unit
Room radio control unit
2 nd zone kit
C - Alféa M : 2 heating zones + DHW
Monobloc heat pump
Room control unit
Room radio control unit
2 nd zone kit
DHW kit
Water tank
5

Alféa M
POWER CURVES
Available pressure curves
Speed
Standard circulateur
See installation manual for pressure curves with backup and 2 zones kits applications
Heating and absorbed power curves
9,00
1,00
8,00
Heating floor
Heating power
0,00
Heating floor
Heating power
7,00
Low temperatures radiators
9,00
Low temperatures radiators
8,00
Power (kW)
6,00
5,00
4,00
Power (kW)
7,00
6,00
5,00
4,00
3,00
Absorbed power
3,00
Absorbed power
2,00
2,00
1,00
-20 -15 -10 -5 0 5 10 15 20
Outside Temperature (°C)
Power curves Alféa M6
1,00
-20 -15 -10 -5 0 5 10 15 20
Outside Temperature (°C)
Power curves Alféa M8
12,00
13,00
11,00
10,00
Heating floor
Low temperatures radiators
Heating power
12,00
11,00
Heating floor
Low temperatures radiators
Heating power
9,00
10,00
Power (kW)
8,00
7,00
6,00
5,00
Power (kW)
9,00
8,00
7,00
6,00
4,00
5,00
3,00
Absorbed power
4,00
Absorbed power
2,00
3,00
1,00
-20 -15 -10 -5 0 5 10 15 20
Outside Temperature (°C)
Power curves Alféa M10
2,00
-20 -15 -10 -5 0 5 10 15 20
Outside Temperature (°C)
Power curves Alféa M12
6