Beretta IDRA DS 200, Installation And Operation Manual And Parts

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GENERAL INFORMATION
4
6 TECHNICAL SPECIFICATIONS
DESCRIPTION
IDRA DS
200 300 430 550 750 1000
Type of storage cylinder Vertical, glazed
Heat exchanger layout Vertical, with elliptical section
Storage cylinder capacity 208 301 442 551 731 883 l
Useful non-solar volume (Vbu)* 68 117 182 175 251 312 l
Solar usable volume (Vsol)** 140 184 260 376 480 570 l
Diameter of storage cylinder with insulation 604 604 755 755 1000 1000 mm
Diameter of storage cylinder without insulation - - - - 790 790 mm
Height with insulation 1338 1838 1644 1988 1846 2171 mm
Height without insulation - - - - 1745 2070 mm
Insulation thickness 50 50 50 50 100 100 mm
Total net weight 86 108 131 171 222 245 kg
Quantity/diameter/length of magnesium anode 1/33/450 1/33/450 1/33/520 1/33/520 1/40/600 1/40/600 mm
Flange internal diameter 130 130 130 130 130 130 mm
Diameter/length of sensor sockets 18/180 18/180 18/180 18/180 16/180 16/180 mm
Top coil water capacity 3,4 4,5 6,0 6,0 9,1 9,1 l
Top coil heat exchange surface area 0,7 0,8 1,0 1,0 1,6 1,6 m
2
Bottom coil water capacity 3,4 5,1 7,5 9,0 11,8 12,3 l
Bottom coil heat exchange surface area 0,7 1,0 1,4 1,8 2,3 2,7 m
2
Maximum operating pressure of storage cylinder 10 7 bar
Maximum operating pressure of coils 10 7 bar
Maximum operating temperature 99 °C
Discharges according to EN 12897:2006 ∆T=45 °C (ambi-
ent 20°C and storage at 65°C)
62 69 60 68 94 101 W
Discharges according to UNI 11300 1,38 1,53 1,33 1,51 2,09 2,24 W/K
Energy class B B B B B B
PERFORMANCE RELATING TO INTEGRATION COIL
Upper coil continuous efficiency (ACS 10-45°C) (Vbu reference volume)
Coil delivery temperature
80°C
∆T 20°C
16,1 23 31,4 31,4 50 50 kW
400 572 774 774 1240 1240 l/h
70°C ∆T 20°C
10,3 17 20,7 20,7 38 38 kW
247 425 505 505 930 930 l/h
60°C ∆T 20°C
6,5 11 15,5 15,5 25 25 kW
160 277 375 375 620 620 l/h
50°C ∆T 20°C
2,4 5 7 7 15 15 kW
57 130 170 170 380 380 l/h
Set-up time required to heat the heater to 60°C, referred to the integration coil probe, to the different upper coil inlet tem-
peratures with a coil outlet/inlet delta (∆) of 20°C (Vbu reference volume)
Upper coil delivery temperature
80°C ∆T 20°C 25 27 24 24 26 28 min
70°C ∆T 20°C 33 34 32 32 34 40 min
60°C ∆T 20°C 66 65 65 65 65 67 min
NL thermal efficiency coefficient according to DIN 4708. The NL index, referred to the integration exchanger, indicates a
number of apartments having 3.5 people that can be fully supplied, with a 140 l bathtub and two other drawing points.
Upper coil delivery temperature
80°C 1,12 1,64 2,2 2,23 3,63 3,79
70°C 0,86 1,34 1,66 1,69 2,88 3,19
60°C 0,65 1,04 1,37 1,42 2,17 2,47
Vbu (*)
The non-solar usable volume indicates the quantity of water (in litres) heated directly by the thermal integration coil. It is
calculated as the volume between the upper part of the heater and the lower part of the thermal integration element (inte-
gration coil lower turn).
Vsol (**)
The usable solar volume indicates the quantity of water (in litres) heated directly by the solar coil (placed in the lower part
of the heater) minus the non-solar volume (Vbu).