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AIR-FIT ®
Active Chilled Beam
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HC Barcol-Air - 06.09
Changes w/o notice or obligation
HC Barcol-Air is continuously aiming to optimize construction and quality for all equipment. HC Barcol-Air has the right to adjust the product
specications without any obligation and/or is not obliged to provide information in advance.
Copyright Barcol-Air B.V. / 06.09
This catalog may not be reproduced in any form without previous written permission from HC Barcol-Air.
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HC Barcol-Air - 06.09
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1
Subject Page
Index 1
General description 2-3
Product presentation 4-5
Dimensions
- AIR-FIT® 300 6 - AIR-FIT® 600 7
Performance data
- AIR-FIT® 300 – cooling 8-9
- AIR-FIT® 300 – heating 10-11 - AIR-FIT® 600 – cooling 12-16 - AIR-FIT® 600 – heating 17-21 Selection examples 22
Installation & maintenance 23
Multi-nozzle technique 24
Coil connections 25
Applications with active chilled beams:
- System A: Mechanical ventilation with analogue temperature control 26-27
- System B: Mechanical ventilation with digital temperature control 28-29
- System C: Mechanical constant air volume control with analogue temperature control 30-31
- System D: Mechanical constant air volume control with digital temperature control 32-33
- System E: DDC constant air volume and temperature control 34-35
- System F: DDC constant air volume and temperature control, with CO2
measurement for meeting rooms 36-37
Specication description 38
Order examples 39
Options 40
Certicates 41-42
Symbol index 43
Index
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General description
Introduction
The AIR-FIT® : creating a comfortable indoor climate with
minimal energy usage and low installation space.The active chilled beam has been developed for HVAC
systems where the air handling installation supplies ne-cessary ventilation air, while cooling and heating energy
is mainly transported by water. As a result the required airhandling unit and duct work can be reduced.The installed height makes the AIR-FIT® most suitablefor projects with limited ceiling. This application can leadto a lower ceiling void height in the case of new building
constructions.
System technology
The system technology is based on the venturi effect ofthe special shaped nozzles causing induction of room airinto the primary airow.
The conditioned air from the central air handling unit willbe injected by the nozzles into the mixing section of theunit. The room air directly beneath the unit will be gui-ded through a perforated plate or linear bar and the heat
exchanger. The mixture of conditioned primary air andheated or cooled room air will be transported along theceiling by two integrated slot diffusers.
Relatively large quantities of room air are being guided
through the heat exchanger by this induction technology. A small difference between supply water temperatureand room air temperature is required. This will prevent
condensation during the cooling mode.
Application area
The active chilled beam is especially suited for ofces.
Two ventilation air changes will do for standard ofce
spaces (occupation 8 to 10 m2 per person). With thisprimary air volume, sufcient air will be induced to
compensate the typical sensible cooling load of approxi-mately 50 W/m2.Even when heating is needed, ventilation in winter time
will be no problem for the chilled beams.Generally meeting rooms need more ventilation air than
ofces. This can be achieved by using multiple and/or
larger models. However with more than 5 air changes
(circulation) per hour, the risk of draught increases. In
that case different solutions are recommended.
Other applications are:
- schools- hospitals- warehouses- laboratories- dormatories
Application for meeting rooms
Realization of a comfortable indoor climate needs extraattention. This will be illustrated in the next example.
We assume a meeting room with following dimensions:L x W x H = 6.0 x 3.6 x 2.7 m (total volume of 58 m 3).Based on a maximum occupation of 12 persons and aminimum fresh air ow of 30 m3/h, primary air ow will be
360 m3/h. With an induction factor of only 2, there will be
720 m3/h supplied into the room. This results in 12 airchanges (circulation) per hour.When covering cooling and heating load, there will be
no problem; however the room air supply principle of
the active chilled beam (compared to well operating slot
diffusers) is less suitable for 12 air changes (circulation)per hour.In this case we recommend the use of high performance
diffusers combined with one of our conventional systems.
In this document, different system applications are
described. The system on page 36 combines active
chilled beams in ofces, with fan coil unit systems in
meeting rooms. In these cases it will not be necessaryto adjust the overall system.
Our technical staff will be able to assist with project
specic applications.
Figure 1: operating principle of the AIR-FIT ®
conditioned
ventilation air
nozzles
mixing section
heat
exchange
room air perforated screenor linear bar grill
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Air distribution in the room
The specic shape of the supply slot diffusers create two,
opposite air patterns from the active chilled beam along
the suspended ceiling.These air patterns (throw) provide good distribution of
supply air into the room. The velocity of the supply air
along the suspended ceiling creates the Coanda-effect;velocity differences in the cool air stream will press this
air stream against the suspended ceiling, thus preventing
the cool air from entering the comfort zone prematurely.
It is important, with similar air patterns, that the suspen-ded ceiling is at and free of any obstacles. Especially
light xtures situated close to the slots, can inuence the
necessary Coanda-effect.
Figure 3: AIR-FIT ® application perpendicular to the facade
Figure 4: AIR-FIT ® application parallel to the facade
General description
Figure 2: air distribution AIR-FIT ®
comfort zone
Facade-orientation
Provided the earlier mentioned aspects are taken into
account, orientation of the active chilled beam with regard
to the facade has no inuence on the operation.
There are two different applications for the active chilled
beam in ofces with regard to the facade: perpendicular
or parallel to the facade.The choice between perpendicular and parallel to thefacade will be determined by:
• Aesthetics (tting into the pattern of the suspended
ceiling).• Level of exibility to create ofces within the oor plan
• Number of active chilled beams (purchase and instal-
lation).
• Available distance for the throw; the air must have theopportunity to mix before it reaches the comfort zone
• Disturbances in suspended ceiling which might inu-ence air pattern, like lighting xtures.
• Disturbances in the facade or oor, like radiators or
oor convectors, that might inuence the air pattern.
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4
Product presentation
Features of the AIR-FIT® active chilled beam
High capacity:
The active chilled beam has a high cooling and hea-ting capacity and is suitable to ventilate, cool and heat
(mainly) ofces.
Compact in size:
With a chilled beam size of only 1500 x 300 mm, 10 m2 is supplied with sufcient ventilation air, cooling and
heating. In addition the active chilled beam is relatively
light weight and needs minimal installation space.
Simplicity in mounting:
With a width of 295 or 595 mm, the active chilled
beam can be perfectly integrated into suspended
ceilings with exposed T or bolt-slot systems for inter-mediate mounting.
Multi-nozzle technology:
The active chilled beam is provided with three nozzle
positions. The primary air volume of every single unit
can easily be adjusted, even after mounting into the
suspended ceiling. A complete shut-off at one side is anavailable option.
Low noise:
The efciently shaped nozzles create maximum
induction at a minimum sound level.
Low maintenance:
The active chilled beam has no lter, no fan or any
other moving parts, therefore maintenance is limited to
cleaning the heat exchanger every 1-2 years depending
on the dust concentration in the room by using a simplesoft vacuum cleaner. The heat exchanger can be acces-sed simply by removing the perforated front, which is
equipped with a safety catch.
Controls:
The active chilled beam can be controlled in many
different ways. HC Barcol-Air Controls Division can
provide a solution for every (integrated) application.
Facade orientation:
The active chilled beam will supply air into the roomthrough 2 opposite slots. In ofce applications the unit
can be located in the middle of the room, either perpen-dicular or parallel to the facade.
Flexibility:
The active chilled beam is available in different
lengths. This makes it possible to select the necessarycapacity for every installation.
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Product presentation
Available Models:
• AIR-FIT® 300
• AIR-FIT®
600
Maintenance:
- Removable perforated
screen
- Linear bar on request
Safety catch:
- Wire connection
between perforated
screen and unit
Multi-nozzle adjustment
- Position 1, 2 or 3
- Complete shut-off on request
Air distribution plenum:
- Galvanized steel, uninsulated
- Collar(s) for duct connection
(other air connections on request)
Heat exchanger:
- Tubes: copper
- Fins: aluminium
- Pressure tested: 15 bar
Heat exchanger:
- Waterside connection- 4-pipe system
- 2-pipe system on request
Frontview:
- Epoxy coating, RAL 9010, 70% gloss
(other colour nish on request)
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Dimension AIR-FIT ® 300
Table 1: Dimensional data AIR-FIT ® 300
Size 1200 1500 1800 2400 3000
A 1194 1494 1794 2394 2994
B 295 295 295 295 295
C 109 109 109 109 109
C1 140 140 140 140 140
D 1x Ø98 1x Ø98 1x Ø98 2x Ø98 2x Ø98
D1 1x Ø98 1x Ø98 1x Ø98 1x Ø123 1x Ø158
E 915 1215 1515 2115 2715
F 200 200 200 200 200
K 210 210 210 210 210
K1 191 191 191 191 191
Weight (kg)4 15 18 21 29 36
1. Dimensions in mm.
2. On request, HC Barcol-Air can manufacture airside connections on the short side of the plenum.
3. Intermediate lengths are available on request.
4. Weight in kg including water content.
AIR-FIT ® with spigot connection at long side (standard)
AIRFIT
2 circular connections for
size 2400 and 3000
AIRFITV
AIRFITB AIR-FIT ® with top connection
AIR-FIT ® with reduced height optional: extra circular connectionfor sizes 2400 and 3000
Product Codes:4-pipe system: AIRFIT (standard)
AIRFITB (top connection) AIRFITV (reduced height) AIRFITR (heating/cooling partial by radiation)2-pipe system: AIRFITK (standard)
AIRFITKB (top connection)
AIRFITKV (reduced height)
AIRFITKR (cooling partial by radiation)
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Dimension AIR-FIT ® 600
Table 2: Dimension AIR-FIT ® 600
Size 1200 1500 1800 2400 3000
A 1194 1494 1794 2394 2994
B 595 595 595 595 595
C 116 116 116 116 116
C1 153 153 153 153 153
D 1x Ø123 1x Ø123 1x Ø123 2x Ø123 2x Ø123
D1 1x Ø123 1x Ø123 1x Ø123 1x Ø158 1x Ø198
E 915 1215 1515 2115 2715
F 416 416 416 416 416
K 242 242 242 242 242
K1 198 198 198 198 198
Weight (kg)4 25 30 34 44 54
1. Dimensions in mm.
2. By request, HC Barcol-Air can manufacture airside connections on the short side of the plenum.
3. Intermediate lenghts are available on request.
4. Weight in kg including water content.
2 circular connections
for size 2400 and 3000
AIR-FIT ® with spigot connection at long side (standard)
AIRFIT
AIR-FIT ® with top connectionAIRFITB
AIRFITV AIR-FIT ® with reduced height optional: extra circular connection
for sizes 2400 and 3000
Product Codes:4-pipe system: AIRFIT (standard)
AIRFITB (top connection) AIRFITV (reduced height) AIRFITR (heating/cooling partial by radiation)2-pipe system: AIRFITK (standard)
AIRFITKB (top connection)
AIRFITKV (reduced height)
AIRFITKR (cooling partial by radiation)
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8
Performance data AIR-FIT ® 300 Cooling
Multi
Nozzle
position 7 8 9 10
PA,7K PA,8K AL,9K PA,10K Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K
nozzle-position m3 /h l/s Pst PA,7K PA,8K AL,9K PA,10K kPa l/h Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K T LpA LpA LpA
1,7 70 80 1,0 95 1,1 105 1,3 115 1,4
4,9 130 110 0,7 125 0,8 140 0,9 155 1,0
9,3 190 125 0,6 145 0,7 160 0,7 180 0,8
1,7 70 95 1,2 110 1,3 125 1,5 135 1,7
4,9 130 120 0,8 140 0,9 155 1,0 170 1,1
9,3 190 140 0,6 160 0,7 180 0,8 195 0,9
1,7 70 110 1,3 125 1,5 140 1,7 155 1,9
4,9 130 135 0,9 150 1,0 170 1,1 190 1,2
9,3 190 150 0,7 170 0,8 190 0,9 215 1,0
1,7 70 105 1,3 115 1,4 130 1,6 145 1,8
4,9 130 125 0,8 145 1,0 165 1,1 180 1,2
9,3 190 145 0,7 165 0,7 185 0,8 205 0,9
1,7 70 115 1,4 130 1,6 145 1,8 160 2,0
4,9 130 140 0,9 155 1,0 175 1,2 195 1,3
9,3 190 155 0,7 175 0,8 195 0,9 220 1,0
1,7 70 125 1,5 145 1,8 160 2,0 180 2,2
4,9 130 150 1,0 170 1,1 190 1,2 210 1,4
9,3 190 165 0,7 185 0,8 210 0,9 230 1,0
1,7 70 115 1,4 130 1,6 145 1,8 160 2,0
4,9 130 140 0,9 155 1,0 175 1,2 195 1,3
9,3 190 155 0,7 175 0,8 195 0,9 220 1,0
1,7 70 125 1,5 140 1,7 160 1,9 175 2,2
4,9 130 145 1,0 165 1,1 185 1,2 205 1,4
9,3 190 160 0,7 185 0,8 205 0,9 230 1,01,7 70 135 1,6 150 1,9 170 2,1 190 2,3
4,9 130 155 1,0 175 1,2 200 1,3 220 1,4
9,3 190 170 0,8 195 0,9 215 1,0 240 1,1
nozzle-position m3 /h l/s Pst PA,7K PA,8K AL,9K PA,10K kPa l/h Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K T LpA LpA LpA
2,1 70 115 1,4 130 1,6 145 1,8 165 2,0
6,0 130 150 1,0 170 1,1 190 1,2 210 1,4
11,4 190 170 0,8 195 0,9 220 1,0 245 1,1
2,1 70 130 1,6 145 1,8 165 2,0 180 2,2
6,0 130 160 1,1 180 1,2 205 1,3 225 1,5
11,4 190 185 0,8 210 0,9 235 1,1 260 1,2
2,1 70 140 1,7 160 2,0 180 2,2 200 2,4
6,0 130 170 1,1 195 1,3 220 1,4 245 1,6
11,4 190 195 0,9 220 1,0 250 1,1 275 1,2
2,1 70 145 1,8 165 2,0 185 2,2 205 2,5
6,0 130 175 1,1 200 1,3 225 1,5 245 1,6
11,4 190 195 0,9 225 1,0 250 1,1 280 1,3
2,1 70 155 1,9 175 2,2 200 2,4 220 2,7
6,0 130 185 1,2 210 1,4 235 1,6 260 1,7
11,4 190 205 0,9 235 1,1 260 1,2 290 1,3
2,1 70 165 2,0 190 2,3 210 2,6 235 2,9
6,0 130 195 1,3 220 1,5 245 1,6 275 1,8
11,4 190 215 1,0 245 1,1 275 1,2 300 1,4
2,1 70 160 2,0 180 2,2 205 2,5 225 2,8
6,0 130 190 1,2 215 1,4 240 1,6 270 1,8
11,4 190 210 0,9 240 1,1 265 1,2 295 1,3
2,1 70 170 2,1 190 2,4 215 2,6 240 2,9
6,0 130 195 1,3 225 1,5 250 1,7 280 1,8
11,4 190 215 1,0 245 1,1 275 1,2 305 1,4
2,1 70 180 2,2 205 2,5 225 2,8 250 3,1
6,0 130 205 1,3 235 1,5 260 1,7 290 1,9
11,4 190 225 1,0 255 1,1 285 1,3 315 1,4
nozzle-position m3 /h l/s Pst PA,7K PA,8K AL,9K PA,10K kPa l/h Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K T LpA LpA LpA
2,5 70 150 1,8 170 2,1 190 2,3 210 2,6
7,3 130 190 1,3 215 1,4 245 1,6 270 1,8
13,9 190 220 1,0 250 1,1 280 1,3 310 1,4
2,5 70 160 2,0 185 2,3 205 2,5 230 2,8
7,3 130 200 1,3 230 1,5 260 1,7 285 1,9
13,9 190 230 1,0 265 1,2 295 1,3 330 1,5
2,5 70 175 2,1 200 2,4 220 2,7 245 3,0
7,3 130 215 1,4 245 1,6 275 1,8 305 2,0
13,9 190 240 1,1 275 1,2 310 1,4 345 1,5
2,5 70 175 2,1 200 2,4 225 2,7 250 3,0
7,3 130 215 1,4 245 1,6 275 1,8 305 2,0
13,9 190 245 1,1 275 1,2 310 1,4 345 1,6
2,5 70 185 2,3 210 2,6 240 2,9 265 3,2
7,3 130 225 1,5 255 1,7 285 1,9 320 2,1
13,9 190 250 1,1 285 1,3 320 1,5 355 1,6
2,5 70 195 2,4 225 2,7 250 3,1 280 3,4
7,3 130 235 1,5 265 1,8 300 2,0 330 2,2
13,9 190 260 1,2 295 1,3 335 1,5 370 1,7
2,5 70 190 2,3 215 2,6 240 2,9 265 3,3
7,3 130 225 1,5 260 1,7 290 1,9 320 2,1
13,9 190 255 1,1 290 1,3 325 1,5 360 1,6
2,5 70 200 2,4 225 2,8 255 3,1 280 3,4
7,3 130 235 1,5 270 1,8 300 2,0 335 2,2
13,9 190 260 1,2 295 1,3 335 1,5 370 1,7
2,5 70 205 2,5 235 2,9 265 3,2 295 3,6
7,3 130 245 1,6 275 1,8 310 2,0 345 2,3
13,9 190 270 1,2 305 1,4 345 1,5 380 1,7
q1 q1 T LpApst LpA LpA
1,6 29 24 26
1,5 27 22 24
1,8 33 28 30
1,7 31 26 28
1,5 30 25 27
1,4 33 28 30
1,3 31 26 28
1,1 27 22 24
1,0 33 28 30
0,9 30 25 27
0,7 26 21 23
1,3 25 20 22
1,2 27 22 24
1,1 24 -- 21
0,9 21 -- --
0,8 28 23 25
0,7 24 -- 21
28
0,6 -- -- --
1,0 27 22 24
0,9 24 -- 21
0,9 29 24 26
0,7 25 20 22
0,6 -- -- --
0,6 25 20 22
0,5 -- -- --
0,4 -- -- --
26880 22 188 214
235
75 21 176 201 251
70 19 164 188
201
65 18 152 174 218
60 17 141 161
168
55 15 129 147 184
50 14 117 134
107 134
45 13 106 121 151
121
136
152 174 218
70 19 164 188 235
196
211
129 147 184
60 17 141 161 201
166
181
106 121 151
50 14 117 134 168
136
151
94 107 134121
117 134
82 94
AIR-FIT ®
chilled beam model 300 - size 1500
106 117
1,1 31 26
94 107
168
30 8 70 80 101
50 14
82 94
134
45 13 106 121 151
40 11
70 80
117
40 11 94 107 134
35 10
67 84
101
30 8 70 80 101
30 8
(l/s)
20 6
AIR-FIT ®
chilled beam model 300 - size 1200
8 9(Pa) (kPa)
47
(NR)(m)
TAC = Troom - T1 (K) TWK = Troom - Twater,in(K), Twater,in > dew point air + 2 Kpw qw
Cooling capacity water PW (W)Cooling capacity air PA (W)
(l/h)7
(dB(A)) (NC)10
1
(m3 /h)
54 67
25 7 59
2
79
64
44
99
69
96
54
73
3
1
54
97
7435 10
40 11
2
67
83
100
45 13
55 15
3
62
73
85
65 18
59
67
AIR-FIT ®
chilled beam model 300 - size 1800
1
58
73
91
40 11 94
50
60
84
71
3
51
2
151
90
60
75
90
90
106
121
121
136
151
166
181
196
211
226
241
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9
Performance data AIR-FIT ® 300 Cooling
Multi
Nozzle
position 7 8 9 10
PA,7K PA,8K AL,9K PA,10K Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K
q1 q1 T LpApst LpA LpA
(l/s)8 9
(Pa) (kPa) (NR)(m)
TAC = Troom - T1 (K) TWK = Troom - Twater,in(K), Twater,in > dew point air + 2 Kpw qw
Cooling capacity water PW (W)Cooling capacity air PA (W)
(l/h)7
(dB(A)) (NC)10
(m3 /h)
nozzle-position m3 /h l/s Pst PA,7K PA,8K AL,9K PA,10K kPa l/h Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K T LpA LpA LpA
1,4 130 255 1,7 290 1,9 325 2,2 360 2,4
2,7 190 295 1,3 340 1,5 380 1,7 420 1,9
4,4 250 330 1,1 375 1,3 420 1,4 470 1,6
1,4 130 280 1,8 320 2,1 355 2,4 395 2,6
2,7 190 320 1,4 365 1,6 405 1,8 450 2,0
4,4 250 350 1,2 400 1,4 445 1,5 495 1,7
1,4 130 300 2,0 340 2,3 385 2,5 425 2,8
2,7 190 340 1,5 385 1,7 430 1,9 480 2,2
4,4 250 370 1,3 420 1,4 470 1,6 520 1,8
1,4 130 285 1,9 325 2,2 365 2,4 405 2,7
2,7 190 325 1,5 370 1,7 415 1,9 460 2,1
4,4 250 355 1,2 405 1,4 455 1,6 505 1,7
1,4 130 305 2,0 350 2,3 390 2,6 435 2,9
2,7 190 345 1,5 390 1,8 440 2,0 485 2,2
4,4 250 375 1,3 425 1,5 475 1,6 530 1,8
1,4 130 325 2,1 370 2,4 415 2,7 460 3,0
2,7 190 360 1,6 410 1,8 460 2,1 510 2,3
4,4 250 390 1,3 440 1,5 495 1,7 550 1,9
1,4 130 305 2,0 345 2,3 385 2,6 430 2,8
2,7 190 340 1,5 385 1,7 435 2,0 480 2,2
4,4 250 370 1,3 420 1,4 475 1,6 525 1,8
1,4 130 320 2,1 365 2,4 410 2,7 450 3,0
2,7 190 355 1,6 405 1,8 455 2,0 500 2,3
4,4 250 385 1,3 435 1,5 490 1,7 545 1,91,4 130 335 2,2 380 2,5 430 2,8 475 3,1
2,7 190 370 1,7 420 1,9 470 2,1 520 2,4
4,4 250 395 1,4 450 1,5 505 1,7 560 1,9
nozzle-position m3 /h l/s Pst PA,7K PA,8K AL,9K PA,10K kPa l/h Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K T LpA LpA LpA
1,7 130 315 2,1 360 2,4 405 2,7 445 2,9
3,2 190 365 1,7 420 1,9 470 2,1 520 2,4
5,1 250 410 1,4 465 1,6 525 1,8 580 2,0
1,7 130 340 2,2 385 2,5 435 2,9 480 3,2
3,2 190 390 1,8 445 2,0 495 2,2 550 2,5
5,1 250 430 1,5 490 1,7 550 1,9 605 2,1
1,7 130 360 2,4 410 2,7 460 3,0 510 3,4
3,2 190 410 1,8 465 2,1 520 2,4 580 2,6
5,1 250 445 1,5 510 1,7 570 2,0 635 2,2
1,7 130 365 2,4 415 2,7 465 3,1 515 3,4
3,2 190 410 1,9 470 2,1 525 2,4 585 2,6
5,1 250 450 1,5 510 1,8 575 2,0 635 2,2
1,7 130 380 2,5 435 2,9 490 3,2 540 3,6
3,2 190 430 1,9 485 2,2 545 2,5 605 2,7
5,1 250 465 1,6 530 1,8 595 2,0 660 2,3
1,7 130 400 2,6 455 3,0 510 3,4 565 3,7
3,2 190 445 2,0 505 2,3 565 2,6 630 2,8
5,1 250 480 1,6 545 1,9 615 2,1 680 2,3
1,7 130 390 2,6 440 2,9 495 3,3 550 3,6
3,2 190 435 2,0 495 2,2 555 2,5 615 2,8
5,1 250 470 1,6 535 1,8 600 2,1 665 2,3
1,7 130 405 2,7 460 3,0 515 3,4 570 3,8
3,2 190 445 2,0 510 2,3 570 2,6 635 2,9
5,1 250 480 1,7 550 1,9 615 2,1 685 2,3
1,7 130 420 2,8 475 3,1 535 3,5 595 3,9
3,2 190 460 2,1 525 2,4 590 2,7 650 2,9
5,1 250 495 1,7 565 1,9 630 2,2 700 2,4
3,4 33 28 30
3,1 31 26 28
2,9 29 24 26
2,6 31 26 28
2,3 28 23 25
2,0 25 20 22
1,8 26 21 23
1,5 23 -- 20
1,3 -- -- --
2,6 34 29 31
2,3 30 25 27
2,0 26 21 23
2,0 32 27 29
1,8 27 22 24
1,5 23 -- 20
1,5 28 23 25
1,3 24 -- 21
1,0 -- -- --
328 375 469
150 42 352 402 503
422
452
281 322 402
130 36 305 348 436
362
392
235 268 335
110 31 258 295 369332
268
90 25 211 241 302
80 22 188 214
352
115 32 270 308 385
105 29 246 281
318
95 26 223 255 318
95 26 223 255
176 201 251
85 24 199 228 285
226
256
152 174 218
75 21 176 201 251
196
226
55 15 129 147 184
AIR-FIT ®
chilled beam model 300 - size 2400
1
56
104
7865 18
91
57
73
3
48
59
70
2
75 21
AIR-FIT ®
chilled beam model 300 - size 3000
1
53
70
88
70 19 164 188 235
2
60
72
86
100 28
120 33
3
53
61
70
140 39
166
286
286
317
347
211
241
271
302
Comments:1. All data is based on 2-way discharge air pattern.2. Throw data refers to chilled beams mounted in a ceiling,
2.7-3.0 m above the oor, and on a horizontal discharge.3. Throw data is based on primary air temperature 8°C below room
temperature.4. Throw data is based on supply water temperature 8°C below
room temperature.5. When several chilled beams are connected together to create a
continuous line and air is supplied along the entire length of the
beam, the throw will be increased by a maximum of 10% based on the throw of a single beam, size 1200, handling the equivalentair volume.
6. Throw will also be extended if one end of the chilled beam ismounted close to a sidewall or a similar construction.
7. Sound pressure levels are based on a room absorption of 10dB,levels less than NC 20 are indicated by “--”.
8. For non standard applications and/or selections, please contact ourtechnical staff.
9. For explanation of the symbols see page 43.
7/21/2019 Airfit Uk Fase2 Email_jan2011
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HC Barcol-Air - 06.09
Changes w/o notice or obligation
10
Multi q1 q1 T1 LpA LpA
Nozzle
position 10 15 20
PA,10K PA,15K PA,20K Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K
nozzle-position m3 /h l/s Pst PA,10K PA,15K PA,20K kPa l/h Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K T LpA LpA
0,5 50 205 3,5 255 4,4 305 5,3 355 6,1
1,0 75 260 3,0 320 3,7 385 4,4 450 5,2
1,6 100 295 2,5 370 3,2 445 3,8 515 4,40,5 50 230 4,0 290 5,0 345 5,9 405 6,9
1,0 75 290 3,3 360 4,1 435 5,0 505 5,8
1,6 100 330 2,8 415 3,6 495 4,3 580 5,0
0,5 50 255 4,4 320 5,5 380 6,6 445 7,7
1,0 75 320 3,6 400 4,6 475 5,5 555 6,4
1,6 100 365 3,1 455 3,9 545 4,7 635 5,5
0,5 50 245 4,2 305 5,2 365 6,3 425 7,3
1,0 75 305 3,5 380 4,4 455 5,2 535 6,1
1,6 100 350 3,0 435 3,7 520 4,5 610 5,2
0,5 50 265 4,5 330 5,7 395 6,8 460 7,9
1,0 75 330 3,8 410 4,7 495 5,7 575 6,6
1,6 100 375 3,2 470 4,0 565 4,8 660 5,7
0,5 50 285 4,9 355 6,1 425 7,3 495 8,5
1,0 75 355 4,0 440 5,1 530 6,1 620 7,1
1,6 100 405 3,5 505 4,3 605 5,2 705 6,1
0,5 50 265 4,5 330 5,7 395 6,8 460 7,9
1,0 75 330 3,8 410 4,7 495 5,7 575 6,6
1,6 100 375 3,2 470 4,0 565 4,8 660 5,7
0,5 50 280 4,8 350 6,0 420 7,3 495 8,5
1,0 75 350 4,0 440 5,0 525 6,0 615 7,0
1,6 100 400 3,4 500 4,3 600 5,1 700 6,0
0,5 50 300 5,1 375 6,4 445 7,7 520 9,0
1,0 75 370 4,2 460 5,3 555 6,4 645 7,4
1,6 100 420 3,6 525 4,5 630 5,4 735 6,3
nozzle-position m3 /h l/s Pst PA,10K PA,15K PA,20K kPa l/h Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K T LpA LpA
0,7 50 290 5,0 365 6,3 440 7,5 510 8,8
1,3 75 365 4,2 460 5,3 550 6,3 645 7,4
2,0 100 420 3,6 525 4,5 630 5,4 735 6,3
0,7 50 315 5,5 395 6,8 475 8,2 555 9,5
1,3 75 400 4,6 495 5,7 595 6,8 695 8,0
2,0 100 455 3,9 570 4,9 680 5,9 795 6,8
0,7 50 340 5,9 425 7,3 510 8,8 595 10,3
1,3 75 425 4,9 535 6,1 640 7,3 745 8,5
2,0 100 485 4,2 610 5,2 730 6,3 850 7,3
0,7 50 345 6,0 435 7,5 520 8,9 610 10,4
1,3 75 435 5,0 540 6,2 650 7,4 760 8,7
2,0 100 495 4,3 620 5,3 745 6,4 865 7,4
0,7 50 370 6,3 460 7,9 550 9,5 645 11,1
1,3 75 460 5,2 570 6,6 685 7,9 800 9,2
2,0 100 520 4,5 655 5,6 785 6,7 915 7,9
0,7 50 385 6,7 485 8,3 580 10,0 680 11,6
1,3 75 480 5,5 600 6,9 720 8,3 840 9,6
2,0 100 550 4,7 685 5,9 820 7,1 960 8,2
0,7 50 375 6,5 470 8,1 565 9,7 660 11,3
1,3 75 470 5,4 585 6,7 705 8,1 820 9,4
2,0 100 535 4,6 670 5,7 805 6,9 935 8,0
0,7 50 395 6,8 490 8,5 590 10,2 690 11,8
1,3 75 490 5,6 610 7,0 735 8,4 855 9,8
2,0 100 555 4,8 695 6,0 835 7,2 975 8,4
0,7 50 410 7,0 515 8,8 615 10,6 720 12,3
1,3 75 510 5,8 635 7,3 760 8,7 890 10,2
2,0 100 580 5,0 725 6,2 870 7,5 1015 8,7
nozzle-position m3 /h l/s Pst PA,10K PA,15K PA,20K kPa l/h Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K T LpA LpA
0,8 50 385 6,6 480 8,2 575 9,9 670 11,5
1,5 75 480 5,5 605 6,9 725 8,3 845 9,7
2,4 100 550 4,7 690 5,9 830 7,1 965 8,3
0,8 50 410 7,0 510 8,8 615 10,5 715 12,3
1,5 75 510 5,9 640 7,3 770 8,8 895 10,3
2,4 100 585 5,0 735 6,3 880 7,6 1025 8,8
0,8 50 435 7,4 540 9,3 650 11,2 755 13,0
1,5 75 540 6,2 675 7,7 810 9,3 945 10,8
2,4 100 620 5,3 775 6,6 925 8,0 1080 9,3
0,8 50 435 7,5 545 9,3 650 11,2 760 13,1
1,5 75 545 6,2 680 7,8 815 9,3 950 10,9
2,4 100 620 5,3 775 6,7 930 8,0 1085 9,3
0,8 50 455 7,8 570 9,8 685 11,8 800 13,7
1,5 75 570 6,5 710 8,1 855 9,8 995 11,4
2,4 100 650 5,6 810 7,0 975 8,4 1135 9,8
0,8 50 475 8,2 595 10,2 715 12,3 835 14,3
1,5 75 595 6,8 740 8,5 890 10,2 1040 11,9
2,4 100 675 5,8 845 7,3 1015 8,7 1185 10,2
0,8 50 460 7,9 575 9,9 690 11,9 805 13,9
1,5 75 575 6,6 720 8,2 860 9,9 1005 11,5
2,4 100 655 5,6 820 7,0 985 8,5 1150 9,9
0,8 50 480 8,2 600 10,3 715 12,3 835 14,4
1,5 75 595 6,8 745 8,5 895 10,2 1040 11,9
2,4 100 680 5,8 850 7,3 1020 8,8 1190 10,2
0,8 50 495 8,5 620 10,6 745 12,8 865 14,9
1,5 75 615 7,1 770 8,8 925 10,6 1075 12,32,4 100 700 6,0 875 7,5 1055 9,0 1230 10,6
50
60
84
71
3
51
2
59
67
40 11 134
45 13 151
3
62
73
85
65 18
60 17
70 19
2
67
83
100
45 13
55 15
50 14
1
54
97
7435 10
40 11
2
79
64
44
99
69
96
54
73
3
(dB(A)) (NC)35
1
(m3 /h)
100 133
25 7 83
(m)
TAH = T1 - Troom (K) TWH = Twater,in - Troom (K)pw qw
Heating capacity water P W (W)Heating capacity air PA (W)
(l/h)20
pst
(l/s)
20 6
AIR-FIT ®
chilled beam model 300 - size 1200
25 30(Pa) (kPa)
67
125 167
200
30 8 100 150 200
30 8 100 150
233
40 11 133 200 266
35 10 117 175
266
45 13 150 225 300
40 11 133 200
333
30 8 101 151 201
50 14 167 250
117 176
AIR-FIT ®
chilled beam model 300 - size 1500
235
1,1 31 26
134 201 268
151 226 302
168 251 335
184 276 369
201 302 402
218 327 436
235 352 469
201 268
AIR-FIT ®
chilled beam model 300 - size 1800
1
58
73
91
226 302
335
369
50 14 168 251
55 15 184 276
402
65 18 218 327 436
60 17 201 302
469
75 21 251 377 503
70 19 235 352
53680 22 268 402
0,4 -- --
0,5 -- --
0,6 25 20
0,6 -- --
0,7 25 20
0,9 29 24
0,9 24 --
1,0 27 22
0,6 -- --
0,7 24 --
0,8 28 23
0,9 21 --
1,1 24 --
1,2 27 22
1,3 25 20
1,5 27 22
0,7 26 21
0,9 30 25
1,0 33 28
1,1 27 22
1,3 31 26
1,4 33 28
1,5 30 25
1,7 31 26
1,8 33 28
1,6 29 24
Performance data AIR-FIT ® 300 Heating
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HC Barcol-Air - 06.09
Changes w/o notice or obligation
11
Multi q1 q1 T1 LpA LpA
Nozzle
position 10 15 20
PA,10K PA,15K PA,20K Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K
(dB(A)) (NC)35
(m3 /h) (m)
TAH = T1 - Troom (K) TWH = Twater,in - Troom (K)pw qw
Heating capacity water PW (W)Heating capacity air PA (W)
(l/h)20
pst
(l/s)25 30
(Pa) (kPa)
nozzle-position m3 /h l/s Pst PA,10K PA,15K PA,20K kPa l/h Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K T LpA LpA
1,8 75 670 7,7 835 9,6 1005 11,5 1170 13,4
3,2 100 765 6,6 955 8,2 1150 9,9 1340 11,5
4,8 125 840 5,8 1050 7,2 1260 8,7 1470 10,11,8 75 730 8,4 910 10,4 1095 12,5 1275 14,6
3,2 100 835 7,2 1040 9,0 1250 10,7 1460 12,5
4,8 125 915 6,3 1145 7,9 1370 9,4 1600 11,0
1,8 75 785 9,0 980 11,2 1180 13,5 1375 15,7
3,2 100 895 7,7 1120 9,6 1345 11,6 1570 13,5
4,8 125 985 6,8 1230 8,4 1475 10,1 1720 11,8
1,8 75 750 8,6 940 10,8 1125 12,9 1315 15,1
3,2 100 860 7,4 1075 9,2 1290 11,1 1500 12,9
4,8 125 940 6,5 1175 8,1 1410 9,7 1650 11,3
1,8 75 800 9,2 1000 11,5 1200 13,8 1405 16,1
3,2 100 915 7,9 1145 9,8 1370 11,8 1600 13,8
4,8 125 1005 6,9 1255 8,6 1505 10,3 1755 12,1
1,8 75 850 9,7 1060 12,2 1275 14,6 1485 17,0
3,2 100 970 8,3 1210 10,4 1450 12,5 1695 14,6
4,8 125 1060 7,3 1325 9,1 1590 10,9 1855 12,8
1,8 75 790 9,1 990 11,3 1185 13,6 1385 15,9
3,2 100 905 7,8 1130 9,7 1355 11,6 1580 13,6
4,8 125 990 6,8 1240 8,5 1485 10,2 1735 11,9
1,8 75 835 9,5 1040 11,9 1250 14,3 1460 16,7
3,2 100 950 8,2 1190 10,2 1425 12,3 1665 14,3
4,8 125 1040 7,2 1305 9,0 1565 10,7 1825 12,5
1,8 75 875 10,0 1090 12,5 1310 15,0 1530 17,5
3,2 100 995 8,6 1245 10,7 1495 12,8 1745 15,0
4,8 125 1090 7,5 1365 9,4 1635 11,2 1910 13,1
nozzle-position m3 /h l/s Pst PA,10K PA,15K PA,20K kPa l/h Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K T LpA LpA
2,3 75 860 9,9 1075 12,3 1290 14,8 1505 17,3
3,9 100 985 8,5 1230 10,6 1480 12,7 1725 14,8
5,7 125 1085 7,4 1355 9,3 1625 11,2 1895 13,0
2,3 75 925 10,6 1155 13,2 1385 15,9 1615 18,5
3,9 100 1055 9,1 1320 11,3 1585 13,6 1845 15,9
5,7 125 1160 8,0 1450 10,0 1740 11,9 2025 13,9
2,3 75 980 11,2 1225 14,0 1470 16,9 1715 19,7
3,9 100 1120 9,6 1400 12,0 1680 14,4 1960 16,8
5,7 125 1230 8,4 1535 10,6 1845 12,7 2150 14,8
2,3 75 990 11,3 1240 14,2 1485 17,0 1735 19,9
3,9 100 1130 9,7 1415 12,2 1700 14,6 1980 17,0
5,7 125 1240 8,5 1550 10,7 1860 12,8 2175 14,9
2,3 75 1040 11,9 1300 14,9 1560 17,9 1820 20,9
3,9 100 1190 10,2 1485 12,8 1780 15,3 2080 17,9
5,7 125 1305 9,0 1630 11,2 1955 13,4 2280 15,7
2,3 75 1090 12,5 1360 15,6 1635 18,7 1905 21,8
3,9 100 1240 10,7 1555 13,3 1865 16,0 2175 18,7
5,7 125 1360 9,4 1700 11,7 2040 14,0 2380 16,4
2,3 75 1060 12,1 1325 15,2 1585 18,2 1850 21,2
3,9 100 1210 10,4 1510 13,0 1810 15,6 2115 18,2
5,7 125 1325 9,1 1655 11,4 1985 13,6 2315 15,9
2,3 75 1100 12,6 1375 15,7 1650 18,9 1925 22,0
3,9 100 1255 10,8 1565 13,5 1880 16,2 2195 18,9
5,7 125 1375 9,4 1715 11,8 2060 14,2 2405 16,5
2,3 75 1140 13,1 1425 16,3 1710 19,6 1995 22,8
3,9 100 1300 11,2 1625 13,9 1950 16,7 2275 19,5
5,7 125 1425 9,8 1780 12,2 2135 14,7 2490 17,1
3
53
61
70
140 39
2
60
72
86
100 28
120 33
AIR-FIT ®
chilled beam model 300 - size 3000
1
53
70
88
70 19 235 352 469
91
57
73
3
48
59
70
2
75 21
1
56
104
7865 18
AIR-FIT ®
chilled beam model 300 - size 2400
55 15 183 275 366
216 325 433
75 21 250 375 500
250 375 500
85 24 283 425 566
633
95 26 316 475 633
95 26 316 475
699
115 32 383 574 766
105 29 350 524
536
90 25 302 452 603
80 22 268 402
335 503 670
110 31 369 553 737
402 603 804
130 36 436 653 871
469 704 938
150 42 503 754 1005
1,0 -- --
1,3 24 --
1,5 28 23
1,5 23 --
1,8 27 22
2,0 32 27
2,0 26 21
2,3 30 25
2,6 34 29
1,3 -- --
1,5 23 --
1,8 26 21
2,0 25 20
2,3 28 23
2,6 31 26
2,9 29 24
3,1 31 26
3,4 33 28
Performance data AIR-FIT ® 300 Heating
Comments:1. All data is based on 2-way discharge air pattern.2. Throw data refers to chilled beams mounted in a ceiling,
2.7-3.0 m above the oor, and on a horizontal discharge.3. When several chilled beams are connected together to create a
continuous line and air is supplied along the entire length of thebeam, the throw will be increased by a maximum of 10% based on the throw of a single beam, size 1200, handling the equivalentair volume.
4. Throw will also be extended if one end of the chilled beam is
mounted close to a sidewall or a similar construction.5. Sound pressure levels are based on a room absorption of 10dB,
levels less than NC 20 are indicated by “--”.6. For non standard applications and/or selections, please contact our
technical staff.7. For explanation of the symbols see page 43.
7/21/2019 Airfit Uk Fase2 Email_jan2011
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HC Barcol-Air - 06.09
Changes w/o notice or obligation
12
Performance data AIR-FIT ® 600 Cooling
Multi
Nozzle
position 7 8 9 10
PA,7K PA,8K PA,9K PA,10K Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K
nozzle-position m3 /h l/s Pst PA,7K PA,8K PA,9K PA,10K kPa l/h Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K T LpA LpA LpA
1,0 130 160 1,1 180 1,2 200 1,3 215 1,41,9 190 175 0,8 195 0,9 215 1,0 235 1,1
3,1 250 185 0,6 205 0,7 225 0,8 250 0,9
1,0 130 185 1,2 205 1,4 225 1,5 245 1,6
1,9 190 205 0,9 225 1,0 245 1,1 270 1,2
3,1 250 215 0,7 240 0,8 265 0,9 290 1,0
1,0 130 200 1,3 225 1,5 245 1,6 270 1,8
1,9 190 225 1,0 250 1,1 275 1,2 300 1,4
3,1 250 245 0,8 270 0,9 300 1,0 325 1,1
1,0 130 215 1,4 240 1,6 265 1,7 290 1,9
1,9 190 245 1,1 275 1,2 300 1,4 330 1,5
3,1 250 265 0,9 295 1,0 325 1,1 355 1,2
1,0 130 230 1,5 255 1,7 280 1,8 305 2,0
1,9 190 265 1,2 295 1,3 320 1,4 350 1,6
3,1 250 285 1,0 320 1,1 350 1,2 380 1,3
1,0 130 245 1,6 270 1,8 295 1,9 325 2,1
1,9 190 280 1,3 310 1,4 340 1,5 375 1,7
3,1 250 305 1,0 340 1,2 370 1,3 405 1,4
1,0 130 180 1,2 200 1,3 220 1,5 235 1,5
1,9 190 200 0,9 225 1,0 245 1,1 270 1,2
3,1 250 210 0,7 235 0,8 260 0,9 280 1,0
1,0 130 200 1,3 220 1,5 240 1,6 265 1,7
1,9 190 220 1,0 245 1,1 270 1,2 295 1,3
3,1 250 235 0,8 260 0,9 285 1,0 315 1,1
1,0 130 215 1,4 240 1,6 260 1,7 285 1,9
1,9 190 240 1,1 265 1,2 290 1,3 320 1,4
3,1 250 255 0,9 285 1,0 310 1,1 340 1,2
1,0 130 230 1,5 255 1,7 280 1,8 305 2,0
1,9 190 255 1,2 285 1,3 310 1,4 340 1,5
3,1 250 275 0,9 305 1,0 335 1,1 365 1,3
1,0 130 245 1,6 270 1,8 300 2,0 325 2,1
1,9 190 270 1,2 300 1,4 330 1,5 360 1,6
3,1 250 290 1,0 325 1,1 355 1,2 390 1,3
1,0 130 260 1,7 285 1,9 315 2,1 345 2,3
1,9 190 285 1,3 315 1,4 345 1,6 380 1,7
3,1 250 305 1,0 340 1,2 375 1,3 410 1,4
1,0 130 225 1,5 250 1,6 275 1,8 300 2,0
1,9 190 250 1,1 275 1,2 305 1,4 330 1,5
3,1 250 265 0,9 295 1,0 325 1,1 350 1,2
1,0 130 235 1,5 260 1,7 285 1,9 315 2,1
1,9 190 260 1,2 290 1,3 320 1,4 345 1,6
3,1 250 280 1,0 310 1,1 340 1,2 370 1,3
1,0 130 245 1,6 270 1,8 300 2,0 325 2,1
1,9 190 270 1,2 300 1,4 330 1,5 360 1,6
3,1 250 290 1,0 325 1,1 355 1,2 390 1,3
1,0 130 255 1,7 280 1,8 310 2,0 340 2,2
1,9 190 285 1,3 315 1,4 345 1,6 375 1,7
3,1 250 305 1,0 340 1,2 370 1,3 405 1,4
1,0 130 265 1,7 290 1,9 320 2,1 350 2,3
1,9 190 295 1,3 325 1,5 360 1,6 390 1,8
3,1 250 315 1,1 350 1,2 385 1,3 420 1,4
1,0 130 270 1,8 300 2,0 330 2,2 360 2,4
1,9 190 305 1,4 335 1,5 370 1,7 405 1,8
3,1 250 325 1,1 365 1,3 400 1,4 435 1,5
28
241 268 2,1 30
31 26
80 107 188 214
26
75 94 176 201 226 251 1,9
188 211 235 1,7
21
65 71 152 174 196 218 1,6 24
--
60 60 141 161 181 201 1,4
147 166 184 1,3
3
55 51 129
70 82 16419
21
22
27
196 218 1,6 3033 2865 139 152 174
25
60 119 141 161 181 201 1,4
147 166 184 1,3
--
50 83 117 134 151 168 1,1 22
--
45 68 106 121 136 151 1,0
107 121 134 0,9
2
40 59 94
55 101 129
14
15
17
28
151 168 1,1 30
136 151
50 200 117 13414
1,045 162 106 12113
21
40 128 94 107 121 134 0,9 24
106 117 0,735 98 82 94
--
30 72 70 80 90 101 0,6 --
--
AIR-FIT ®
chilled beam model 600 - size 1200
1
25 50 59 67 75 84 0,5 --
10(m) (NR)(dB(A)) (NC)(l/h)
7 8 9(m
3 /h) (Pa) (kPa)(l/s)
LpATAC = Troom - T1 (K) TWK = Troom - Twater,in (K), Twater,in > dew point air + 2 K
pw qw
Cooling capacity water PW (W)T LpA LpAq1 pst
Cooling capacity air PA (W)q1
-- --
24 --
27 22
31 26
33 28
-- --
22 --
25 20
28 23
30 25
22 --
24 --
27 22
29 24
33 28
7
8
10
11
11
13
18
15
17
18
Comments:1. All data is based on 2-way discharge air pattern.2. Throw data refers to chilled beams mounted in a ceiling,
2.7-3.0 m above the oor, and on a horizontal discharge.3. Throw data are based on primary air temperature 8°C below room
temperature.4. Throw data are based on supply water temperature 8°C below
room temperature.5. When several chilled beams are connected together to create a
continuous line and air is supplied along the entire length of the
beam, the throw will be increased by a maximum of 10% based on the throw of a single beam, size 1200, handling the equivalentair volume.
6. Throw will also be extended if one end of the chilled beam ismounted close to a sidewall or a similar construction.
7. Sound pressure levels are based on a room absorption of 10dB,levels less than NC 20 are indicated by “--”.
8. For non standard applications and/or selections, please contact ourtechnical staff.
9. For explanation for the used symbols see page 43.
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HC Barcol-Air - 06.09
Changes w/o notice or obligation
13
Performance data AIR-FIT ® 600 Cooling
Multi
Nozzle
position 7 8 9 10
PA,7K PA,8K PA,9K PA,10K Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K
10(m) (NR)(dB(A)) (NC)(l/h)
7 8 9(m
3 /h) (Pa) (kPa)(l/s)
LpATAC = Troom - T1 (K) TWK = Troom - Twater,in (K), Twater,in > dew point air + 2 K
pw qw
Cooling capacity water PW (W)T LpA LpAq1 pst
Cooling capacity air PA (W)q1
nozzle-position m3 /h l/s Pst PA,7K PA,8K PA,9K PA,10K kPa l/h Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K T LpA LpA LpA
1,2 130 250 1,6 275 1,8 305 2,0 330 2,22,3 190 275 1,2 305 1,4 335 1,5 365 1,6
3,7 250 290 1,0 325 1,1 355 1,2 390 1,3
1,2 130 265 1,7 295 1,9 325 2,1 355 2,3
2,3 190 300 1,4 330 1,5 365 1,6 395 1,8
3,7 250 320 1,1 355 1,2 390 1,3 425 1,5
1,2 130 285 1,9 315 2,1 345 2,3 380 2,5
2,3 190 320 1,4 355 1,6 390 1,8 425 1,9
3,7 250 345 1,2 385 1,3 420 1,4 460 1,6
1,2 130 300 2,0 335 2,2 365 2,4 400 2,6
2,3 190 340 1,5 375 1,7 415 1,9 450 2,0
3,7 250 370 1,3 410 1,4 450 1,5 490 1,7
1,2 130 315 2,1 350 2,3 385 2,5 420 2,8
2,3 190 360 1,6 400 1,8 435 2,0 475 2,1
3,7 250 390 1,3 430 1,5 475 1,6 520 1,8
1,2 130 325 2,1 365 2,4 400 2,6 435 2,9
2,3 190 375 1,7 415 1,9 460 2,1 500 2,3
3,7 250 410 1,4 455 1,6 500 1,7 545 1,9
1,2 130 265 1,7 295 1,9 325 2,1 355 2,3
2,3 190 295 1,3 330 1,5 365 1,6 395 1,8
3,7 250 315 1,1 350 1,2 385 1,3 420 1,4
1,2 130 285 1,9 315 2,1 345 2,3 375 2,5
2,3 190 315 1,4 350 1,6 385 1,7 420 1,9
3,7 250 335 1,1 375 1,3 410 1,4 450 1,5
1,2 130 300 2,0 335 2,2 365 2,4 400 2,6
2,3 190 335 1,5 370 1,7 410 1,8 445 2,0
3,7 250 355 1,2 395 1,4 435 1,5 475 1,6
1,2 130 315 2,1 350 2,3 385 2,5 420 2,8
2,3 190 350 1,6 390 1,8 430 1,9 465 2,1
3,7 250 375 1,3 420 1,4 460 1,6 500 1,7
1,2 130 330 2,2 365 2,4 405 2,7 440 2,9
2,3 190 365 1,6 405 1,8 445 2,0 485 2,2
3,7 250 395 1,4 435 1,5 480 1,6 525 1,8
1,2 130 345 2,3 385 2,5 420 2,8 460 3,0
2,3 190 380 1,7 420 1,9 465 2,1 505 2,3
3,7 250 410 1,4 455 1,6 500 1,7 545 1,9
1,2 130 320 2,1 355 2,3 390 2,6 425 2,8
2,3 190 355 1,6 395 1,8 430 1,9 470 2,1
3,7 250 380 1,3 420 1,4 460 1,6 505 1,7
1,2 130 330 2,2 365 2,4 405 2,7 440 2,9
2,3 190 365 1,6 405 1,8 445 2,0 485 2,2
3,7 250 390 1,3 435 1,5 480 1,6 520 1,8
1,2 130 340 2,2 375 2,5 415 2,7 450 3,0
2,3 190 375 1,7 420 1,9 460 2,1 505 2,3
3,7 250 405 1,4 450 1,5 495 1,7 540 1,9
1,2 130 350 2,3 385 2,5 425 2,8 465 3,1
2,3 190 390 1,8 430 1,9 475 2,1 515 2,3
3,7 250 415 1,4 465 1,6 510 1,7 555 1,9
1,2 130 360 2,4 395 2,6 435 2,9 475 3,1
2,3 190 400 1,8 445 2,0 485 2,2 530 2,4
3,7 250 430 1,5 475 1,6 525 1,8 570 2,0
1,2 130 365 2,4 405 2,7 445 2,9 490 3,2
2,3 190 410 1,8 455 2,1 500 2,3 545 2,5
3,7 250 440 1,5 490 1,7 540 1,9 585 2,0
30
105 96 246 281 317 352 2,7 31
28
100 87 235 268 302 335 2,5
255 286 318 2,4
25
271 302 2,2 27
28 23
90 70 211 241
23
85 63 199 228 256 285 2,1
214 241 268 1,9
3
80 56 188
95 78 223
22
24
25
28
85 141 199 228 256 285 2,1 30
26
80 124 188 214 241 268 1,9
201 226 251 1,8
22
211 235 1,6 2427 2270 95 164 188
--
65 82 152 174 196 218 1,5
161 181 201 1,3
2
60 70 141
75 109 17621
22
24
28
65 176 152 174 196 218 1,5 29
181 201 1,3 31 26
32 27
60 150 141 16117
22
55 126 129 147 166 184 1,2 25
151
--
168 1,150 104 117 134
22
20
--
45 84 106 121 136 151 0,9 --
107 121 134 0,8 -- --
AIR-FIT ®
chilled beam model 600 - size 1500
1
40 67 94
25
28 23
22 --
25 20
29 24
31 26
33 28
26 21
30 25
33 28
34 29
26
28
18
17
18
19
31 26
11
13
14
15
29
Comments:1. All data is based on 2-way discharge air pattern.2. Throw data refers to chilled beams mounted in a ceiling,
2.7-3.0 m above the oor, and on a horizontal discharge.3. Throw data is based on primary air temperature 8°C below room
temperature.4. Throw data is based on supply water temperature 8°C below
room temperature.5. When several chilled beams are connected together to create a
continuous line and air is supplied along the entire length of the
beam, the throw will be increased by a maximum of 10% based on the throw of a single beam, size 1200, handling the equivalentair volume.
6. Throw will also be extended if one end of the chilled beam ismounted close to a sidewall or a similar construction.
7. Sound pressure levels are based on a room absorption of 10dB,levels less than NC 20 are indicated by “--”.
8. For non standard applications and/or selections, please contact ourtechnical staff.
9. For explanation of the symbols see page 43.
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HC Barcol-Air - 06.09
Changes w/o notice or obligation
14
Performance data AIR-FIT ® 600 Cooling
Multi
Nozzle
position 7 8 9 10
PA,7K PA,8K PA,9K PA,10K Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K
10(m) (NR)(dB(A)) (NC)(l/h)
7 8 9(m
3 /h) (Pa) (kPa)(l/s)
LpATAC = Troom - T1 (K) TWK = Troom - Twater,in (K), Twater,in > dew point air + 2 K
pw qw
Cooling capacity water PW (W)T LpA LpAq1 pst
Cooling capacity air PA (W)q1
nozzle-position m3 /h l/s Pst PA,7K PA,8K PA,9K PA,10K kPa l/h Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K T LpA LpA LpA
1,4 130 315 2,1 345 2,3 380 2,5 415 2,72,7 190 345 1,6 380 1,7 420 1,9 455 2,1
4,4 250 365 1,3 405 1,4 450 1,5 490 1,7
1,4 130 330 2,2 370 2,4 405 2,7 445 2,9
2,7 190 370 1,7 410 1,8 450 2,0 490 2,2
4,4 250 395 1,4 440 1,5 485 1,7 525 1,8
1,4 130 350 2,3 390 2,6 430 2,8 465 3,1
2,7 190 390 1,8 435 2,0 480 2,2 520 2,3
4,4 250 420 1,4 470 1,6 515 1,8 560 1,9
1,4 130 365 2,4 405 2,7 450 3,0 490 3,2
2,7 190 415 1,9 460 2,1 505 2,3 550 2,5
4,4 250 445 1,5 495 1,7 545 1,9 595 2,0
1,4 130 380 2,5 425 2,8 465 3,1 510 3,4
2,7 190 435 2,0 480 2,2 530 2,4 575 2,6
4,4 250 470 1,6 520 1,8 575 2,0 625 2,1
1,4 130 395 2,6 440 2,9 485 3,2 530 3,5
2,7 190 450 2,0 500 2,3 550 2,5 600 2,7
4,4 250 490 1,7 545 1,9 600 2,1 655 2,2
1,4 130 350 2,3 390 2,6 430 2,8 470 3,1
2,7 190 395 1,8 435 2,0 480 2,2 525 2,4
4,4 250 420 1,4 465 1,6 510 1,7 555 1,9
1,4 130 370 2,4 410 2,7 450 3,0 490 3,2
2,7 190 410 1,8 455 2,1 505 2,3 550 2,5
4,4 250 440 1,5 490 1,7 535 1,8 585 2,0
1,4 130 385 2,5 430 2,8 470 3,1 515 3,4
2,7 190 430 1,9 475 2,1 525 2,4 570 2,6
4,4 250 460 1,6 510 1,7 560 1,9 610 2,1
1,4 130 400 2,6 445 2,9 490 3,2 535 3,5
2,7 190 445 2,0 495 2,2 545 2,5 595 2,7
4,4 250 480 1,6 530 1,8 585 2,0 635 2,2
1,4 130 415 2,7 460 3,0 510 3,4 555 3,7
2,7 190 460 2,1 510 2,3 565 2,5 615 2,8
4,4 250 495 1,7 550 1,9 605 2,1 660 2,3
1,4 130 430 2,8 480 3,2 525 3,5 575 3,8
2,7 190 475 2,1 530 2,4 580 2,6 635 2,9
4,4 250 510 1,7 570 2,0 625 2,1 680 2,3
1,4 130 425 2,8 470 3,1 520 3,4 565 3,7
2,7 190 470 2,1 525 2,4 575 2,6 625 2,8
4,4 250 505 1,7 560 1,9 615 2,1 670 2,3
1,4 130 435 2,9 480 3,2 530 3,5 580 3,8
2,7 190 485 2,2 535 2,4 590 2,7 645 2,9
4,4 250 520 1,8 575 2,0 630 2,2 690 2,4
1,4 130 445 2,9 495 3,3 540 3,6 590 3,9
2,7 190 495 2,2 550 2,5 605 2,7 660 3,0
4,4 250 530 1,8 590 2,0 650 2,2 705 2,4
1,4 130 455 3,0 505 3,3 555 3,7 605 4,0
2,7 190 505 2,3 560 2,5 615 2,8 670 3,0
4,4 250 540 1,9 600 2,1 660 2,3 720 2,5
1,4 130 460 3,0 510 3,4 565 3,7 615 4,1
2,7 190 515 2,3 570 2,6 630 2,8 685 3,1
4,4 250 555 1,9 615 2,1 675 2,3 740 2,5
1,4 130 470 3,1 520 3,4 575 3,8 625 4,1
2,7 190 525 2,4 580 2,6 640 2,9 700 3,2
4,4 250 565 1,9 630 2,2 690 2,4 755 2,6
30
135 97 317 362 407 452 3,5 31
28
130 90 305 348 392 436 3,4
335 377 419 3,2
26
362 402 3,0 27
29 24
120 76 281 322
25
115 70 270 308 347 385 2,9
295 332 369 2,7
3
110 64 258
125 83 293
31
29
105 131 246 281 317 352 2,6 3033
27
100 119 235 268 302 335 2,4
255 2,2
24
271 302 2,1 2629 24211 241
286 318
22
85 86 199 228 256 285 2,0
214 241
2
80 76 188
95 107 22326
90 96
251 1,7
268 1,8
75 143 176 20121 26
211 235 1,5 28 23
29 24
25
226
70 124 164 18819
--
65 107 152 174 196 218 1,4 22
181 201 1,360 91 141 16117
--
55 77 129 147 166 184 1,1 --
151 168 1,0 --
-- --
25 20
27 22
30 25
32 27
28
28 23
30 25
31 26
33 28
34 29
15
14
AIR-FIT ®
chilled beam model 600 - size 1800
1
22 --
25 20
--
18
50 63 117 134
22
24
25
35
36
28
29
32
33
38
Comments:1. All data is based on 2-way discharge air pattern.2. Throw data refers to chilled beams mounted in a ceiling,
2.7-3.0 m above the oor, and on a horizontal discharge.3. Throw data is based on primary air temperature 8°C below room
temperature.4. Throw data is based on supply water temperature 8°C below
room temperature.5. When several chilled beams are connected together to create a
continuous line and air is supplied along the entire length of the
beam, the throw will be increased by a maximum of 10% based on the throw of a single beam, size 1200, handling the equivalentair volume.
6. Throw will also be extended if one end of the chilled beam ismounted close to a sidewall or a similar construction.
7. Sound pressure levels are based on a room absorption of 10dB,levels less than NC 20 are indicated by “--”.
8. For non standard applications and/or selections, please contact ourtechnical staff.
9. For explanation of the symbols see page 43.
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HC Barcol-Air - 06.09
Changes w/o notice or obligation
15
Performance data AIR-FIT ® 600 Cooling
Multi
Nozzle
position 7 8 9 10
PA,7K PA,8K PA,9K PA,10K Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K
10(m) (NR)(dB(A)) (NC)(l/h)
7 8 9(m
3 /h) (Pa) (kPa)(l/s)
LpATAC = Troom - T1 (K) TWK = Troom - Twater,in (K), Twater,in > dew point air + 2 K
pw qw
Cooling capacity water PW (W)T LpA LpAq1 pst
Cooling capacity air PA (W)q1
nozzle-position m3 /h l/s Pst PA,7K PA,8K PA,9K PA,10K kPa l/h Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K T LpA LpA LpA
3,4 190 465 2,1 520 2,3 570 2,6 620 2,85,4 250 510 1,7 565 1,9 620 2,1 680 2,3
7,8 310 535 1,5 595 1,6 655 1,8 715 2,0
3,4 190 490 2,2 545 2,5 600 2,7 655 3,0
5,4 250 535 1,8 595 2,0 655 2,2 715 2,5
7,8 310 565 1,6 625 1,7 690 1,9 750 2,1
3,4 190 510 2,3 570 2,6 625 2,8 680 3,1
5,4 250 560 1,9 625 2,1 685 2,3 745 2,6
7,8 310 590 1,6 655 1,8 720 2,0 785 2,2
3,4 190 535 2,4 590 2,7 650 2,9 710 3,2
5,4 250 585 2,0 650 2,2 715 2,5 780 2,7
7,8 310 615 1,7 680 1,9 750 2,1 815 2,3
3,4 190 555 2,5 615 2,8 675 3,0 735 3,3
5,4 250 605 2,1 675 2,3 740 2,5 805 2,8
7,8 310 635 1,8 705 1,9 775 2,1 845 2,3
3,4 190 570 2,6 635 2,9 700 3,2 760 3,4
5,4 250 625 2,1 695 2,4 765 2,6 835 2,9
7,8 310 660 1,8 730 2,0 805 2,2 875 2,4
3,4 190 520 2,3 580 2,6 640 2,9 695 3,1
5,4 250 570 2,0 635 2,2 700 2,4 760 2,6
7,8 310 605 1,7 670 1,9 735 2,0 805 2,2
3,4 190 540 2,4 600 2,7 660 3,0 720 3,2
5,4 250 590 2,0 655 2,2 720 2,5 785 2,7
7,8 310 625 1,7 695 1,9 765 2,1 830 2,3
3,4 190 560 2,5 620 2,8 680 3,1 745 3,4
5,4 250 610 2,1 675 2,3 745 2,6 810 2,8
7,8 310 645 1,8 715 2,0 785 2,2 860 2,4
3,4 190 575 2,6 640 2,9 700 3,2 765 3,5
5,4 250 625 2,1 695 2,4 765 2,6 835 2,9
7,8 310 665 1,8 740 2,0 810 2,2 885 2,4
3,4 190 590 2,7 655 3,0 720 3,2 785 3,5
5,4 250 645 2,2 715 2,5 785 2,7 855 2,9
7,8 310 685 1,9 760 2,1 835 2,3 910 2,5
3,5 190 605 2,7 675 3,0 740 3,3 805 3,6
5,6 250 660 2,3 730 2,5 805 2,8 875 3,0
8,2 310 700 1,9 780 2,2 855 2,4 935 2,6
3,4 190 620 2,8 690 3,1 760 3,4 825 3,7
5,4 250 675 2,3 750 2,6 825 2,8 900 3,1
7,8 310 715 2,0 795 2,2 870 2,4 950 2,6
3,4 190 630 2,8 700 3,2 770 3,5 840 3,8
5,4 250 685 2,3 760 2,6 840 2,9 915 3,1
7,8 310 725 2,0 805 2,2 885 2,4 965 2,7
3,4 190 640 2,9 715 3,2 785 3,5 855 3,9
5,4 250 695 2,4 775 2,7 850 2,9 930 3,2
7,8 310 735 2,0 820 2,3 900 2,5 980 2,7
3,4 190 650 2,9 725 3,3 795 3,6 870 3,9
5,4 250 705 2,4 785 2,7 865 3,0 940 3,2
7,8 310 750 2,1 830 2,3 915 2,5 995 2,8
3,4 190 660 3,0 735 3,3 805 3,6 880 4,0
5,4 250 720 2,5 795 2,7 875 3,0 955 3,3
7,8 310 760 2,1 845 2,3 925 2,6 1010 2,8
3,4 190 670 3,0 745 3,4 820 3,7 890 4,0
5,4 250 730 2,5 810 2,8 890 3,1 970 3,3
7,8 310 770 2,1 855 2,4 940 2,6 1025 2,8
31
175 82 410 469 528 586 4,5 32
513 570 4,3170 78 399 456
29
165 73 387 442 497 553 4,1 30
482 536 4,0160 69 375 429
27
155 64 363 415 467 519 3,8 28
30
30
3
150 60 352 402 452 503 3,7
2
29
135 109 317 362 407 452 3,2 33 28
2,9 28
130 101 305 348 392 436 3,136
25
120 86 281 322 362 402 2,8 2730
24
115 79 270 308 347 385 2,6
110 73 2,5
125 94 293 335 377 419
32
33
35
28
95 116 223 255 286 318 2,0 29
271 302 1,990 104 211 241
23
85 93 199 228 256 285 1,8 25
241 268 1,680 82 188 214
--
75 72 176 201 226 251 1,5 21
211 235 1,4 21 --
24 --
26 21
28 23
31 26
32 27
27 22
28 23
25
31 26
32 27
25
31 26
32 27
33 28
34 29
35 30
19
AIR-FIT ®
chilled beam model 600 - size 2400
1
70 63 164 188
21
22
24
25
26
31
38
42
43
44
46
47
49
369258 295 332
Comments:1. All data is based on 2-way discharge air pattern.2. Throw data refers to chilled beams mounted in a ceiling,
2.7-3.0 m above the oor, and on a horizontal discharge.3. Throw data is based on primary air temperature 8°C below room
temperature.4. Throw data is based on supply water temperature 8°C below
room temperature.5. When several chilled beams are connected together to create a
continuous line and air is supplied along the entire length of the
beam, the throw will be increased by a maximum of 10% based on the throw of a single beam, size 1200, handling the equivalentair volume.
6. Throw will also be extended if one end of the chilled beam ismounted close to a sidewall or a similar construction.
7. Sound pressure levels are based on a room absorption of 10dB,levels less than NC 20 are indicated by “--”.
8. For non standard applications and/or selections, please contact ourtechnical staff.
9. For explanation of the symbols see page 43.
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HC Barcol-Air - 06.09
Changes w/o notice or obligation
16
Performance data AIR-FIT ® 600 Cooling
Multi
Nozzle
position 7 8 9 10
PA,7K PA,8K PA,9K PA,10K Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K
10(m) (NR)(dB(A)) (NC)(l/h)
7 8 9(m
3 /h) (Pa) (kPa)(l/s)
LpATAC = Troom - T1 (K) TWK = Troom - Twater,in (K), Twater,in > dew point air + 2 K
pw qw
Cooling capacity water PW (W)T LpA LpAq1 pst
Cooling capacity air PA (W)q1
nozzle-position m3 /h l/s Pst PA,7K PA,8K PA,9K PA,10K kPa l/h Pw,7K Tw,7K Pw,8K Tw,8K Pw,9K Tw,9K Pw,10K Tw,10K T LpA LpA LpA
4,3 190 520 2,3 575 2,6 630 2,8 690 3,1
6,8 250 565 1,9 630 2,2 690 2,4 755 2,6
9,7 310 595 1,6 660 1,8 725 2,0 795 2,2
4,3 190 575 2,6 635 2,9 700 3,2 765 3,5
6,8 250 630 2,2 695 2,4 765 2,6 835 2,9
9,7 310 660 1,8 735 2,0 805 2,2 880 2,4
4,3 190 625 2,8 695 3,1 760 3,4 830 3,7
6,8 250 680 2,3 760 2,6 835 2,9 910 3,1
9,7 310 715 2,0 795 2,2 875 2,4 955 2,6
4,3 190 670 3,0 745 3,4 815 3,7 890 4,0
6,8 250 730 2,5 815 2,8 895 3,1 975 3,3
9,7 310 770 2,1 855 2,4 940 2,6 1025 2,8
4,3 190 710 3,2 790 3,6 865 3,9 945 4,3
6,8 250 775 2,7 860 2,9 950 3,3 1035 3,5
9,7 310 815 2,3 905 2,5 995 2,8 1085 3,0
4,3 190 745 3,4 830 3,7 910 4,1 995 4,5
6,8 250 820 2,8 910 3,1 1000 3,4 1090 3,7
9,7 310 860 2,4 955 2,6 1050 2,9 1145 3,2
4,3 190 645 2,9 720 3,2 790 3,6 860 3,9
6,8 250 710 2,4 790 2,7 870 3,0 945 3,2
9,7 310 745 2,1 830 2,3 915 2,5 995 2,8
4,3 190 685 3,1 760 3,4 835 3,8 910 4,1
6,8 250 750 2,6 835 2,9 915 3,1 1000 3,4
9,7 310 790 2,2 880 2,4 965 2,7 1055 2,9
4,3 190 720 3,2 800 3,6 880 4,0 960 4,3
6,8 250 785 2,7 875 3,0 960 3,3 1045 3,6
9,7 310 830 2,3 925 2,6 1015 2,8 1110 3,1
4,3 190 755 3,4 835 3,8 920 4,1 1005 4,5
6,8 250 820 2,8 910 3,1 1000 3,4 1090 3,7
9,7 310 870 2,4 965 2,7 1065 2,9 1160 3,2
4,3 190 785 3,5 870 3,9 960 4,3 1045 4,7
6,8 250 850 2,9 945 3,2 1040 3,6 1135 3,9
9,7 310 905 2,5 1005 2,8 1105 3,1 1210 3,3
4,3 190 815 3,7 905 4,1 995 4,5 1085 4,9
6,8 250 880 3,0 980 3,4 1075 3,7 1175 4,0
9,7 310 940 2,6 1045 2,9 1150 3,2 1255 3,5
4,3 190 805 3,6 895 4,0 980 4,4 1070 4,8
6,8 250 875 3,0 970 3,3 1065 3,7 1165 4,0
9,7 310 925 2,6 1025 2,8 1130 3,1 1230 3,4
4,3 190 825 3,7 915 4,1 1005 4,5 1100 5,0
6,8 250 895 3,1 995 3,4 1095 3,8 1195 4,1
9,7 310 945 2,6 1050 2,9 1155 3,2 1260 3,5
4,3 190 845 3,8 935 4,2 1030 4,6 1125 5,1
6,8 250 915 3,1 1020 3,5 1120 3,8 1220 4,2
9,7 310 970 2,7 1075 3,0 1185 3,3 1290 3,6
4,3 190 865 3,9 960 4,3 1055 4,8 1150 5,2
6,8 250 935 3,2 1040 3,6 1145 3,9 1250 4,3
9,7 310 990 2,7 1100 3,0 1210 3,3 1320 3,6
4,3 190 880 4,0 980 4,4 1075 4,8 1170 5,3
6,8 250 955 3,3 1060 3,6 1170 4,0 1275 4,4
9,7 310 1010 2,8 1125 3,1 1235 3,4 1345 3,7
4,3 190 895 4,0 995 4,5 1095 4,9 1195 5,4
6,8 250 975 3,3 1080 3,7 1190 4,1 1300 4,5
9,7 310 1030 2,8 1145 3,2 1260 3,5 1375 3,8
31
245 97 575 657 739 821 6,4 32
34
31
235 89 551 630 709 787 6,1
603 678 754 5,7
28
215 75 504 576 648 720 5,4 29
28
205 68 481 549 618 687 5,1
523 588 653 4,8
3
195 61 457
225 82 528
60
63
65
31
558 620 4,5 32
528 586
185 109 434 496
4,2175 98 410 469
3,9 30
31 26
33
27
155 87 363 415 467 519 3,6 28
3,0 25
145 76 340 389 437 486 3,3
28
46
362 407 45238
442 497 553
30
2
135 66 317
165 98 387
40
43
377 419 2,7125 121 293 335
27
115 102 270 308 347 385 2,4 29
317 352 2,2105 85 246 28129
20
95 70 223 255 286 318 1,9 25
256 285 1,785 56 199 228
251 1,4 ---- --43 176 201 226
--
28 23
30 25
23
32 27
33 28
23
30 25
28
34 29
35 30
31 26
35 30
31 26
32 27
34 29
29
32
35
21
24
26
AIR-FIT ®
chilled beam model 600 - size 3000
1
75
68
49
51
54
57
Comments:1. All data is based on 2-way discharge air pattern.2. Throw data refers to chilled beams mounted in a ceiling,
2.7-3.0 m above the oor, and on a horizontal discharge.3. Throw data is based on primary air temperature 8°C below room
temperature.4. Throw data is based on supply water temperature 8°C below
room temperature.5. When several chilled beams are connected together to create a
continuous line and air is supplied along the entire length of the
beam, the throw will be increased by a maximum of 10% based on the throw of a single beam, size 1200, handling the equivalentair volume.
6. Throw will also be extended if one end of the chilled beam ismounted close to a sidewall or a similar construction.
7. Sound pressure levels are based on a room absorption of 10dB,levels less than NC 20 are indicated by “--”.
8. For non standard applications and/or selections, please contact ourtechnical staff.
9. For explanation of the symbols see page 43.
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HC Barcol-Air - 06.09
Changes w/o notice or obligation
17
Performance data AIR-FIT ® 600 Heating
Comments:1. All data is based on 2-way discharge air pattern.2. Throw data refers to chilled beams mounted in a ceiling,
2.7-3.0 m above the oor, and on a horizontal discharge.3. When several chilled beams are connected together to create a
continuous line and air is supplied along the entire length of thebeam, the throw will be increased by a maximum of 10% based on the throw of a single beam, size 1200, handling the equivalentair volume.
4. Throw will also be extended if one end of the chilled beam ismounted close to a sidewall or a similar construction.
5. Sound pressure levels are based on a room absorption of 10dB,levels less than NC 20 are indicated by “--”.
6. For non standard applications and/or selections, please contact ourtechnical staff.
7. For explanation of the symbols see page 43.
Multi
Nozzle
position 10 15 20
PA,10K PA,15K PA,20K Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K
nozzle-position m3 /h l/s Pst PA,10K PA,15K PA,20K kPa l/h Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K T LpA LpA LpA
0,5 50 290 5,0 360 6,2 435 7,5 505 8,7
1,4 75 330 3,8 415 4,8 500 5,7 580 6,7
2,5 100 405 3,5 505 4,3 605 5,2 705 6,1
0,7 50 315 5,4 390 6,7 470 8,1 550 9,4
1,4 75 360 4,1 450 5,2 540 6,2 630 7,2
2,5 100 435 3,8 545 4,7 655 5,6 765 6,6
0,7 50 335 5,7 420 7,2 500 8,6 585 10,1
1,4 75 385 4,4 480 5,5 575 6,6 670 7,7
2,5 100 465 4,0 580 5,0 700 6,0 815 7,0
0,7 50 350 6,1 440 7,6 530 9,1 615 10,6
1,4 75 405 4,6 505 5,8 605 6,9 705 8,1
2,5 100 490 4,2 610 5,3 735 6,3 855 7,4
0,7 50 370 6,3 460 7,9 550 9,5 645 11,1
1,4 75 420 4,8 530 6,0 635 7,3 740 8,5
2,5 100 510 4,4 640 5,5 765 6,6 895 7,7
0,7 50 380 6,6 475 8,2 575 9,8 670 11,5
1,4 75 440 5,0 550 6,3 655 7,5 765 8,8
2,5 100 530 4,6 665 5,7 795 6,8 930 8,0
0,7 50 315 5,4 395 6,8 470 8,1 550 9,5
1,4 75 420 4,8 525 6,0 630 7,2 740 8,5
2,5 100 475 4,1 590 5,1 710 6,1 825 7,1
0,7 50 330 5,6 410 7,1 495 8,5 575 9,9
1,4 75 440 5,0 550 6,3 660 7,6 770 8,8
2,5 100 495 4,2 615 5,3 740 6,4 865 7,4
0,7 50 340 5,9 425 7,3 510 8,8 595 10,3
1,4 75 455 5,2 570 6,5 685 7,9 800 9,2
2,5 100 515 4,4 640 5,5 770 6,6 895 7,7
0,7 50 350 6,1 440 7,6 530 9,1 615 10,6
1,4 75 470 5,4 590 6,8 710 8,1 825 9,5
2,5 100 530 4,5 660 5,7 795 6,8 925 8,0
0,7 50 365 6,2 455 7,8 545 9,3 635 10,9
1,4 75 485 5,6 610 7,0 730 8,4 850 9,7
2,5 100 545 4,7 680 5,9 820 7,0 955 8,2
0,7 50 370 6,4 465 8,0 560 9,6 650 11,2
1,4 75 500 5,7 625 7,1 750 8,6 875 10,0
2,5 100 560 4,8 700 6,0 840 7,2 980 8,4
0,7 50 365 6,2 455 7,8 545 9,4 635 10,9
1,4 75 435 5,0 545 6,3 655 7,5 765 8,8
2,5 100 515 4,4 645 5,5 770 6,6 900 7,7
0,7 50 375 6,4 465 8,0 560 9,6 655 11,2
1,4 75 450 5,1 560 6,4 675 7,7 785 9,0
2,5 100 530 4,6 660 5,7 795 6,8 925 8,0
0,7 50 385 6,6 480 8,2 575 9,9 670 11,5
1,4 75 460 5,3 575 6,6 690 7,9 805 9,2
2,5 100 545 4,7 680 5,8 815 7,0 950 8,2
0,7 50 395 6,7 490 8,4 590 10,1 685 11,8
1,4 75 470 5,4 590 6,8 710 8,1 825 9,5
2,5 100 555 4,8 695 6,0 835 7,2 975 8,4
0,7 50 400 6,9 500 8,6 600 10,3 700 12,1
1,4 75 480 5,5 605 6,9 725 8,3 845 9,7
2,5 100 570 4,9 710 6,1 855 7,3 995 8,5
0,7 50 410 7,0 510 8,8 615 10,5 715 12,3
1,4 75 490 5,6 615 7,0 740 8,5 860 9,9
2,5 100 580 5,0 725 6,2 870 7,5 1015 8,7
LpATAH = T1 - Troom (K) TWH = Twater,in - Troom (K)
pw qw
Heating capacity water PW (W)T
Heating capacity air PA (W)LpA LpAq1
(m3 /h)
q1 pst
(l/s) (NR)
AIR-FIT ®
chilled beam model 600 - size 1200
(l/h)20 25 30
(Pa) (kPa) (dB(A)) (NC)
30
35
35(m)
25 7 50 83
10 98 117
125 167 --
200 --
--
175 233 21
8 72 100 150
11 128 133 200 266 24
3113 162 150 225 26
27 22
14 200 167 250
200 266 --
1,0
1,1
300 28
333 3028
--
0,9
250 333 221,1
225
25 20
--
45
50
1,030013 76 150
167
11 60 133
14 94
40
45
50
40
--
-- --
24 --
--
22 --
33
0,5
0,6
0,7
0,9
275 366 1,355 15 113 183 28 23 25
60 17 135 200 300 400 1,4 30 25 27
65 18 159 216 325 433 1,6 33 28 30
55 15 51 183 275 366 1,3 22 -- --
60 17 60 200 300 400 1,4 24 -- 21
65 18 71 216 325 433 1,6 27 22 24
70 19 82 233 350 466 1,7 29 24 26
75 21 94 250 375 500 1,9 31 26 28
80 22 107 266 400 533 2,1 33 28 30
1
2
3
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HC Barcol-Air - 06.09
Changes w/o notice or obligation
18
Performance data AIR-FIT ® 600 Heating
Multi
Nozzle
position 10 15 20
PA,10K PA,15K PA,20K Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K
LpATAH = T1 - Troom (K) TWH = Twater,in - Troom (K)
pw qw
Heating capacity water PW (W)T
Heating capacity air PA (W)LpA LpAq1
(m3 /h)
q1 pst
(l/s) (NR)(l/h)20 25 30
(Pa) (kPa) (dB(A)) (NC)35
(m)
nozzle-position m3 /h l/s Pst PA,10K PA,15K PA,20K kPa l/h Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K T LpA LpA LpA
0,9 50 430 7,4 535 9,2 640 11,0 750 12,9
1,8 75 490 5,6 615 7,0 740 8,4 860 9,9
3,1 100 595 5,1 745 6,4 895 7,7 1045 9,0
0,9 50 450 7,7 560 9,7 675 11,6 785 13,5
1,8 75 515 5,9 645 7,4 775 8,9 905 10,4
3,1 100 625 5,4 785 6,7 940 8,1 1095 9,4
0,9 50 470 8,1 585 10,1 705 12,1 820 14,1
1,8 75 540 6,2 675 7,7 810 9,3 945 10,8
3,1 100 655 5,6 815 7,0 980 8,4 1145 9,8
0,9 50 485 8,4 610 10,5 730 12,6 855 14,7
1,8 75 560 6,4 700 8,0 840 9,6 980 11,2
3,1 100 680 5,8 845 7,3 1015 8,7 1185 10,2
0,9 50 505 8,6 630 10,8 755 13,0 880 15,1
1,8 75 580 6,6 720 8,3 865 9,9 1010 11,6
3,1 100 700 6,0 875 7,5 1050 9,0 1225 10,5
0,9 50 520 8,9 650 11,1 775 13,4 905 15,6
1,8 75 595 6,8 745 8,5 890 10,2 1040 11,9
3,1 100 720 6,2 900 7,7 1080 9,3 1260 10,8
0,9 50 450 7,7 560 9,7 675 11,6 785 13,5
1,8 75 605 6,9 755 8,6 905 10,4 1055 12,1
3,1 100 675 5,8 845 7,3 1015 8,7 1180 10,2
0,9 50 465 7,9 580 9,9 695 11,9 810 13,9
1,8 75 620 7,1 775 8,9 930 10,7 1085 12,4
3,1 100 695 6,0 870 7,5 1045 9,0 1215 10,5
0,9 50 475 8,2 595 10,2 710 12,2 830 14,3
1,8 75 635 7,3 795 9,1 955 10,9 1115 12,8
3,1 100 715 6,1 890 7,7 1070 9,2 1250 10,7
0,9 50 485 8,4 610 10,4 730 12,5 850 14,6
1,8 75 650 7,5 815 9,3 980 11,2 1140 13,1
3,1 100 730 6,3 915 7,9 1095 9,4 1280 11,0
0,9 50 495 8,5 620 10,7 745 12,8 870 14,9
1,8 75 665 7,6 835 9,5 1000 11,4 1165 13,4
3,1 100 745 6,4 935 8,0 1120 9,6 1305 11,2
0,9 50 505 8,7 635 10,9 760 13,1 885 15,2
1,8 75 680 7,8 850 9,7 1020 11,7 1190 13,6
3,1 100 760 6,5 955 8,2 1145 9,8 1335 11,50,9 50 510 8,8 640 11,0 770 13,2 895 15,4
1,8 75 615 7,1 770 8,8 925 10,6 1080 12,3
3,1 100 725 6,2 910 7,8 1090 9,4 1270 10,9
0,9 50 520 9,0 655 11,2 785 13,5 915 15,7
1,8 75 630 7,2 785 9,0 940 10,8 1100 12,6
3,1 100 740 6,4 925 8,0 1110 9,5 1295 11,1
0,9 50 530 9,1 665 11,4 800 13,7 930 16,0
1,8 75 640 7,3 800 9,2 960 11,0 1120 12,8
3,1 100 755 6,5 945 8,1 1130 9,7 1320 11,3
0,9 50 540 9,3 675 11,6 810 14,0 945 16,3
1,8 75 650 7,5 815 9,3 975 11,2 1140 13,1
3,1 100 765 6,6 960 8,2 1150 9,9 1345 11,5
0,9 50 550 9,5 685 11,8 825 14,2 960 16,5
1,8 75 660 7,6 825 9,5 990 11,4 1160 13,3
3,1 100 780 6,7 975 8,4 1170 10,0 1365 11,7
0,9 50 560 9,6 700 12,0 835 14,4 975 16,8
1,8 75 670 7,7 840 9,6 1005 11,5 1175 13,53,1 100 790 6,8 990 8,5 1185 10,2 1385 11,9
40
45
50
AIR-FIT ®
chilled beam model 600 - size 1500
11 67 134
14 104 168
201 268 --
13 84 151 226 302 --
--
251 335 22
15 126 184 276 369 25
17 150 201 302 402 28
28 23
436 29
17 70 201 302
18 176 218 327
19
18 82 218 327 436 22
22 17
95 235 352
402
469 2419
55
60
65
70
60
65
--
22 --
25 20
31 26
32 27
25 20
27 22
1,5
1,3
1,5
0,8
0,9
1,1
1,2
1,8
1,9
2,4
1,6
75 21 109 251 377 503
1,3
29 24 26
80 22 124 268 402 536 1,9 31 26 28
85 24 141 285 427 570 2,1 33 28 30
80 22 56 268 402 536 26 21 23
85 24 63 285 427 570 2,1 28 23 25
90 25 70 302 452 603 2,2 30 25 27
95 26 78 318 477 637 31 26 28
100 28 87 335 503 670 2,5 33 28 30
105 29 96 352 528 704 2,7 34 29 31
1
2
3
Comments:1. All data is based on 2-way discharge air pattern.2. Throw data refers to chilled beams mounted in a ceiling,
2.7-3.0 m above the oor, and on a horizontal discharge.3. When several chilled beams are connected together to create a
continuous line and air is supplied along the entire length of thebeam, the throw will be increased by a maximum of 10% based on the throw of a single beam, size 1200, handling the equivalentair volume.
4. Throw will also be extended if one end of the chilled beam ismounted close to a sidewall or a similar construction.
5. Sound pressure levels are based on a room absorption of 10dB,levels less than NC 20 are indicated by “--”.
6. For non standard applications and/or selections, please contact ourtechnical staff.
7. For explanation of the symbols see page 43.
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HC Barcol-Air - 06.09
Changes w/o notice or obligation
19
Performance data AIR-FIT ® 600 Heating
Multi
Nozzle
position 10 15 20
PA,10K PA,15K PA,20K Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K
LpATAH = T1 - Troom (K) TWH = Twater,in - Troom (K)
pw qw
Heating capacity water PW (W)T
Heating capacity air PA (W)LpA LpAq1
(m3 /h)
q1 pst
(l/s) (NR)(l/h)20 25 30
(Pa) (kPa) (dB(A)) (NC)35
(m)
nozzle-position m3 /h l/s Pst PA,10K PA,15K PA,20K kPa l/h Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K T LpA LpA LpA
1,0 50 540 9,3 680 11,6 815 14,0 950 16,3
2,1 75 625 7,1 780 8,9 935 10,7 1090 12,5
3,6 100 755 6,5 945 8,1 1135 9,7 1320 11,4
1,0 50 565 9,7 705 12,1 845 14,6 990 17,0
2,1 75 650 7,4 810 9,3 975 11,1 1135 13,0
3,6 100 785 6,8 985 8,4 1180 10,1 1375 11,8
1,0 50 585 10,1 730 12,6 880 15,1 1025 17,6
2,1 75 670 7,7 840 9,6 1010 11,6 1175 13,5
3,6 100 815 7,0 1020 8,8 1220 10,5 1425 12,3
1,0 50 605 10,4 755 13,0 905 15,6 1060 18,2
2,1 75 695 8,0 870 9,9 1040 11,9 1215 13,9
3,6 100 840 7,2 1050 9,0 1260 10,8 1470 12,6
1,0 50 620 10,7 780 13,4 935 16,0 1090 18,7
2,1 75 715 8,2 895 10,2 1070 12,3 1250 14,3
3,6 100 865 7,4 1080 9,3 1300 11,2 1515 13,0
1,0 50 640 11,0 800 13,7 960 16,5 1120 19,2
2,1 75 735 8,4 915 10,5 1100 12,6 1285 14,7
3,6 100 890 7,6 1110 9,5 1330 11,4 1555 13,4
1,0 50 585 10,0 730 12,5 875 15,0 1020 17,6
2,1 75 785 9,0 980 11,2 1175 13,5 1370 15,7
3,6 100 880 7,5 1095 9,4 1315 11,3 1535 13,2
1,0 50 595 10,3 745 12,8 895 15,4 1045 17,9
2,1 75 800 9,2 1000 11,5 1200 13,7 1400 16,0
3,6 100 895 7,7 1120 9,6 1345 11,6 1570 13,5
1,0 50 610 10,5 760 13,1 915 15,7 1065 18,3
2,1 75 815 9,4 1020 11,7 1225 14,0 1430 16,4
3,6 100 915 7,9 1145 9,8 1375 11,8 1600 13,8
1,0 50 620 10,7 775 13,3 930 16,0 1085 18,7
2,1 75 830 9,5 1040 11,9 1245 14,3 1455 16,7
3,6 100 930 8,0 1165 10,0 1400 12,0 1630 14,0
1,0 50 630 10,8 790 13,6 945 16,3 1105 19,0
2,1 75 845 9,7 1055 12,1 1270 14,5 1480 17,0
3,6 100 950 8,2 1185 10,2 1425 12,2 1660 14,3
1,0 50 640 11,0 800 13,8 960 16,5 1125 19,3
2,1 75 860 9,8 1075 12,3 1290 14,8 1505 17,2
3,6 100 965 8,3 1205 10,4 1445 12,4 1685 14,51,0 50 670 11,5 840 14,4 1005 17,3 1175 20,2
2,1 75 805 9,2 1010 11,6 1210 13,9 1410 16,2
3,6 100 950 8,2 1190 10,2 1425 12,3 1665 14,3
1,0 50 680 11,7 850 14,6 1020 17,5 1190 20,5
2,1 75 820 9,4 1025 11,7 1230 14,1 1435 16,4
3,6 100 965 8,3 1205 10,4 1450 12,4 1690 14,5
1,0 50 690 11,9 860 14,8 1035 17,8 1205 20,7
2,1 75 830 9,5 1035 11,9 1245 14,3 1450 16,6
3,6 100 980 8,4 1225 10,5 1465 12,6 1710 14,7
1,0 50 700 12,0 875 15,0 1050 18,0 1225 21,0
2,1 75 840 9,6 1050 12,0 1260 14,4 1470 16,8
3,6 100 990 8,5 1240 10,6 1485 12,8 1735 14,9
1,0 50 705 12,2 885 15,2 1060 18,2 1240 21,3
2,1 75 850 9,7 1065 12,2 1275 14,6 1490 17,1
3,6 100 1005 8,6 1255 10,8 1505 12,9 1755 15,1
1,0 50 715 12,3 895 15,4 1075 18,4 1250 21,5
2,1 75 860 9,9 1075 12,3 1290 14,8 1505 17,3
3,6 100 1015 8,7 1270 10,9 1520 13,1 1775 15,3
AIR-FIT ®
chilled beam model 600 - size 1800
14 63 168 251 335 ----
15 77 184 276
65
369 --
17 91 201 302 402 --22
18 107 218
21 143 251
327 436 22
19 124 235 352 469 25
25
503 26
22 76 268 402 536 2225 20
86 285 427
377
570 24
25 96 302 452 26603 29 24
50
55
60
90
70
75
80
85 24
115 32
--
-- --
20
--
28 23
29 24
27 22
1,3
2,1
2,2
2,7
3,2
2,9
2,0
1,5
1,7
1,8
1,0
1,1
95 26 107 318 477 637
1,4
30 25 27
100 28 119 335 503 670 2,4 32 27 29
105 29 131 352 528 704 2,6 33 28 30
110 31 64 369 553 737 28 23 25
70 385 578 771 29 24 26
120 33 76 402 603 804 3,0 30 25 27
125 35 83 419 628 838 31 26 28
130 36 90 436 653 871 3,4 33 28 30
135 38 97 452 678 905 3,5 34 29 31
1
2
3
Comments:1. All data is based on 2-way discharge air pattern.2. Throw data refers to chilled beams mounted in a ceiling,
2.7-3.0 m above the oor, and on a horizontal discharge.3. When several chilled beams are connected together to create a
continuous line and air is supplied along the entire length of thebeam, the throw will be increased by a maximum of 10% based on the throw of a single beam, size 1200, handling the equivalentair volume.
4. Throw will also be extended if one end of the chilled beam ismounted close to a sidewall or a similar construction.
5. Sound pressure levels are based on a room absorption of 10dB,levels less than NC 20 are indicated by “--”.
6. For non standard applications and/or selections, please contact ourtechnical staff.
7. For explanation of the symbols see page 43.
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HC Barcol-Air - 06.09
Changes w/o notice or obligation
20
Performance data AIR-FIT ® 600 Heating
Multi
Nozzle
position 10 15 20
PA,10K PA,15K PA,20K Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K
LpATAH = T1 - Troom (K) TWH = Twater,in - Troom (K)
pw qw
Heating capacity water PW (W)T
Heating capacity air PA (W)LpA LpAq1
(m3 /h)
q1 pst
(l/s) (NR)(l/h)20 25 30
(Pa) (kPa) (dB(A) (NC)35
(m)
nozzle-position m3 /h l/s Pst PA,10K PA,15K PA,20K kPa l/h Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K T LpA LpA LpA
3,0 75 875 10,0 1095 12,5 1310 15,0 1530 17,5
4,8 100 1060 9,1 1325 11,4 1590 13,7 1855 15,9
7,0 125 1120 7,7 1395 9,6 1675 11,5 1955 13,4
3,0 75 900 10,3 1125 12,9 1350 15,5 1575 18,1
4,8 100 1090 9,4 1365 11,7 1635 14,1 1910 16,4
7,0 125 1150 7,9 1440 9,9 1725 11,9 2015 13,9
3,0 75 925 10,6 1155 13,3 1390 15,9 1620 18,6
4,8 100 1120 9,6 1400 12,0 1680 14,5 1960 16,9
7,0 125 1185 8,1 1480 10,2 1775 12,2 2070 14,2
3,0 75 950 10,9 1185 13,6 1425 16,3 1660 19,0
4,8 100 1150 9,9 1435 12,3 1725 14,8 2010 17,3
7,0 125 1210 8,3 1515 10,4 1820 12,5 2120 14,6
3,0 75 970 11,1 1215 13,9 1455 16,7 1700 19,5
4,8 100 1175 10,1 1470 12,6 1765 15,2 2055 17,7
7,0 125 1240 8,5 1550 10,7 1860 12,8 2170 14,9
3,0 75 990 11,4 1240 14,2 1485 17,0 1735 19,9
4,8 100 1200 10,3 1500 12,9 1800 15,5 2100 18,1
7,0 125 1265 8,7 1585 10,9 1900 13,1 2215 15,2
3,0 75 1090 12,5 1365 15,6 1640 18,8 1910 21,9
4,8 100 1225 10,5 1530 13,1 1835 15,8 2140 18,4
7,0 125 1280 8,8 1600 11,0 1920 13,2 2240 15,4
3,0 75 1110 12,7 1385 15,9 1665 19,1 1940 22,2
4,8 100 1245 10,7 1555 13,4 1865 16,0 2175 18,7
7,0 125 1300 8,9 1625 11,2 1950 13,4 2280 15,7
3,0 75 1125 12,9 1410 16,1 1690 19,4 1970 22,6
4,8 100 1265 10,9 1580 13,6 1895 16,3 2210 19,0
7,0 125 1320 9,1 1650 11,4 1980 13,6 2310 15,9
3,0 75 1145 13,1 1430 16,4 1715 19,6 2000 22,9
4,8 100 1280 11,0 1600 13,8 1920 16,5 2240 19,3
7,0 125 1340 9,2 1675 11,5 2010 13,8 2345 16,1
3,0 75 1160 13,3 1450 16,6 1740 19,9 2025 23,2
4,8 100 1300 11,2 1625 13,9 1950 16,7 2275 19,5
7,0 125 1360 9,3 1700 11,7 2040 14,0 2380 16,3
3,0 75 1175 13,4 1465 16,8 1760 20,2 2055 23,5
4,8 100 1315 11,3 1645 14,1 1975 17,0 2300 19,8
7,0 125 1375 9,5 1720 11,8 2065 14,2 2410 16,63,0 75 1125 12,9 1405 16,1 1685 19,3 1965 22,5
4,8 100 1325 11,4 1655 14,2 1985 17,1 2320 19,9
7,0 125 1380 9,5 1725 11,9 2070 14,2 2415 16,6
3,0 75 1135 13,0 1420 16,3 1705 19,5 1985 22,8
4,8 100 1340 11,5 1675 14,4 2010 17,3 2345 20,1
7,0 125 1395 9,6 1745 12,0 2095 14,4 2445 16,8
3,0 75 1145 13,1 1435 16,4 1720 19,7 2010 23,0
4,8 100 1355 11,6 1690 14,5 2030 17,4 2365 20,3
7,0 125 1410 9,7 1765 12,1 2115 14,5 2470 17,0
3,0 75 1160 13,3 1450 16,6 1740 19,9 2030 23,2
4,8 100 1365 11,7 1705 14,7 2050 17,6 2390 20,5
7,0 125 1425 9,8 1780 12,2 2135 14,7 2490 17,1
3,0 75 1170 13,4 1460 16,7 1755 20,1 2045 23,4
4,8 100 1380 11,8 1725 14,8 2070 17,8 2415 20,7
7,0 125 1440 9,9 1795 12,4 2155 14,8 2515 17,3
3,0 75 1180 13,5 1475 16,9 1770 20,3 2065 23,7
4,8 100 1390 12,0 1740 14,9 2085 17,9 2435 20,9
7,0 125 1450 10,0 1815 12,5 2175 15,0 2540 17,4
21 375 499
AIR-FIT ®
chilled beam model 600 - size 2400
19 63 233 350 466 --70
2528 23
75
22 82 26680
72 250 21
425 566
2326 211,6
1,8
400 533
93 28385
450
24
300 2890 31 261,925 104 599
475 633 2932 272,0
120 33 86
31626 11695
31 73
32
110
383 574 766115 79
366 549 733 27 24
25
30 25
22
28 23
400 599 799 2,8 27
2,9 31 26 28
21 --
24 --
1,4
1,5
125 35 94 416 624 833
2,5
2,6
130 36 101 433 649 866 3,1 32 27 29
135 38 109 450 674 899 3,2 33 28 30
150 42 60 500 749 999 3,7 30 25 27
155 43 64 516 774 1032 3,8 31 26 28
160 44 69 533 799 1066 4,0 32 27 29
165 46 73 549 824 1099 4,1 33 28 30
170 47 78 566 849 1132 4,3 34 29 31
175 49 82 583 874 1166 4,5 35 30 32
1
2
3
Comments:1. All data is based on 2-way discharge air pattern.2. Throw data refers to chilled beams mounted in a ceiling,
2.7-3.0 m above the oor, and on a horizontal discharge.3. When several chilled beams are connected together to create a
continuous line and air is supplied along the entire length of thebeam, the throw will be increased by a maximum of 10% based on the throw of a single beam, size 1200, handling the equivalentair volume.
4. Throw will also be extended if one end of the chilled beam ismounted close to a sidewall or a similar construction.
5. Sound pressure levels are based on a room absorption of 10dB,levels less than NC 20 are indicated by “--”.
6. For non standard applications and/or selections, please contact ourtechnical staff.
7. For explanation of the symbols see page 43.
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Performance data AIR-FIT ® 600 Heating
Multi
Nozzle
position 10 15 20
PA,10K PA,15K PA,20K Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K
LpATAH = T1 - Troom (K) TWH = Twater,in - Troom (K)
pw qw
Heating capacity water PW (W)T
Heating capacity air PA (W)LpA LpAq1
(m3 /h)
q1 pst
(l/s) (NR)(l/h)20 25 30
(Pa) (kPa) (dB(A) (NC)35
(m)
nozzle-position m3 /h l/s Pst PA,10K PA,15K PA,20K kPa l/h Pw,20K Tw,20K Pw,25K Tw,25K Pw,30K Tw,30K Pw,35K Tw,35K T LpA LpA LpA
3,6 75 1035 11,9 1295 14,8 1555 17,8 1815 20,8
5,9 100 1255 10,8 1570 13,5 1885 16,2 2200 18,9
8,5 125 1325 9,1 1655 11,4 1985 13,7 2320 15,9
3,6 75 1100 12,6 1370 15,7 1645 18,9 1920 22,0
5,9 100 1330 11,4 1665 14,3 1995 17,1 2330 20,0
8,5 125 1405 9,6 1755 12,1 2105 14,5 2455 16,9
3,6 75 1150 13,2 1440 16,5 1730 19,8 2015 23,1
5,9 100 1395 12,0 1745 15,0 2095 18,0 2445 21,0
8,5 125 1475 10,1 1840 12,7 2210 15,2 2580 17,7
3,6 75 1200 13,8 1500 17,2 1800 20,6 2105 24,1
5,9 100 1455 12,5 1820 15,6 2185 18,8 2550 21,9
8,5 125 1535 10,6 1920 13,2 2305 15,8 2690 18,5
3,6 75 1245 14,3 1560 17,8 1870 21,4 2180 25,0
5,9 100 1510 13,0 1890 16,2 2265 19,5 2645 22,7
8,5 125 1595 10,9 1990 13,7 2390 16,4 2790 19,2
3,6 75 1285 14,7 1610 18,4 1930 22,1 2255 25,8
5,9 100 1560 13,4 1950 16,8 2340 20,1 2730 23,5
8,5 125 1645 11,3 2055 14,1 2470 17,0 2880 19,8
3,6 75 1380 15,8 1730 19,8 2075 23,8 2420 27,75,9 100 1550 13,3 1935 16,6 2325 20,0 2710 23,3
8,5 125 1620 11,1 2025 13,9 2430 16,7 2835 19,5
3,6 75 1420 16,3 1775 20,3 2130 24,4 2485 28,4
5,9 100 1590 13,7 1990 17,1 2385 20,5 2785 23,9
8,5 125 1665 11,4 2080 14,3 2495 17,2 2910 20,0
3,6 75 1455 16,6 1815 20,8 2180 25,0 2545 29,1
5,9 100 1630 14,0 2035 17,5 2445 21,0 2850 24,5
8,5 125 1705 11,7 2130 14,6 2555 17,6 2985 20,5
3,6 75 1485 17,0 1855 21,3 2230 25,5 2600 29,8
5,9 100 1665 14,3 2080 17,9 2500 21,5 2915 25,0
8,5 125 1740 12,0 2175 15,0 2615 18,0 3050 21,0
3,6 75 1515 17,4 1895 21,7 2275 26,0 2650 30,4
5,9 100 1700 14,6 2125 18,2 2550 21,9 2975 25,5
8,5 125 1775 12,2 2220 15,3 2665 18,3 3110 21,4
3,6 75 1545 17,7 1930 22,1 2315 26,5 2700 31,0
5,9 100 1730 14,9 2165 18,6 2595 22,3 3030 26,0
8,5 125 1810 12,4 2265 15,6 2715 18,7 3170 21,83,6 75 1455 16,6 1815 20,8 2180 25,0 2545 29,1
5,9 100 1715 14,7 2140 18,4 2570 22,1 3000 25,8
8,5 125 1785 12,3 2235 15,3 2680 18,4 3125 21,5
3,6 75 1475 16,9 1845 21,1 2215 25,4 2585 29,6
5,9 100 1740 15,0 2175 18,7 2610 22,4 3045 26,2
8,5 125 1815 12,5 2270 15,6 2725 18,7 3175 21,8
3,6 75 1500 17,2 1875 21,5 2250 25,8 2625 30,1
5,9 100 1770 15,2 2210 19,0 2650 22,8 3095 26,6
8,5 125 1845 12,7 2305 15,8 2765 19,0 3225 22,2
3,6 75 1520 17,4 1900 21,8 2280 26,1 2660 30,5
5,9 100 1795 15,4 2240 19,3 2690 23,1 3135 27,0
8,5 125 1870 12,8 2335 16,1 2805 19,3 3270 22,5
3,6 75 1540 17,6 1925 22,1 2310 26,5 2695 30,9
5,9 100 1815 15,6 2270 19,5 2725 23,4 3180 27,3
8,5 125 1895 13,0 2365 16,3 2840 19,5 3315 22,8
3,6 75 1560 17,9 1950 22,3 2340 26,8 2730 31,3
5,9 100 1840 15,8 2300 19,8 2760 23,7 3220 27,7
8,5 125 1920 13,2 2395 16,5 2875 19,8 3355 23,1
AIR-FIT ®
chilled beam model 600 - size 3000
375 499 --75 -- --1,421 43 250
425 566 2085 23 --1,724 56 283
475 633 2595 28 231,926 70 316
524 699 27105 30 252,229 85 350
574 766 29115 32 272,432 102 383
624 832 30125 33 282,735 121 416
674 899 25135 28 233,038 59 450
724 966 27145 30 253,340 68 483
1032 28155 31 263,643 77 516
165 46 87 549 824 1099 3,9
774
33 28 30
175 49 98 583 874 1166 4,2 34 29 31
185 51 109 616 924 1232 4,5 35 30 32
195 54 62 651 977 1302 4,8 31 26 28
205 57 68 684 1026 1368 5,1 31 26 28
215 60 75 717 1076 1434 5,4 32 27 29
225 63 82 750 1125 1501 5,7 34 29 31
235 65 89 783 1174 1565 6,1 34 29 31
245 68 97 816 1224 1632 6,4 35 30 32
1
2
3
Comments:1. All data is based on 2-way discharge air pattern.2. Throw data refers to chilled beams mounted in a ceiling,
2.7-3.0 m above the oor, and on a horizontal discharge.3. When several chilled beams are connected together to create a
continuous line and air is supplied along the entire length of thebeam, the throw will be increased by a maximum of 10% based on the throw of a single beam, size 1200, handling the equivalentair volume.
4. Throw will also be extended if one end of the chilled beam ismounted close to a sidewall or a similar construction.
5. Sound pressure levels are based on a room absorption of 10dB,levels less than NC 20 are indicated by “--”.
6. For non standard applications and/or selections, please contact ourtechnical staff.
7. For explanation of the symbols see page 43.
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Selection example & specifcation description
Specifed data:
Ofce (LxWxH) = 5.4 x 3.6 x 2.7 m
Supply air (two times ventilation) q1
= 29 l/sRequired active chilled beam sizes = 1800 x 300 mm (2 x)
Cooling capacity for design room temperature(Troom
) 25oC/55% RH Ttot
= 1150 W
Heating capacity for design room temperature(Troom
) 20oC Ttot
= 1100 WChilled water temperature T
W,in= 16oC
Heating water temperature TW,in
= 40oCSupply air temperature (summer) T
1= 17oC
Supply air temperature (winter) T1 = 17oC
The temperature differences of the supply air and the cooling water related to the room temperature are:
ΔT AC
= 25oC - 17oC (Troom
– T1) = 8K
ΔTWC
= 25oC - 16oC (Troom
– Tw,in
) = 9K
The cooling capacity can be extracted from the performance data for cooling (page 8, size 1800).
According to the performance data for heating (page 10, size 1800) the model meets the required heating capacity as welin which:
ΔT AH
= 17oC - 20oC (T1 – T
room) = -3K
ΔTWH
= 40oC - 20oC (TW,in
– Troom
) = 20K
Solution
2 x AIR-FIT 1800-300, primary airow 14.5 l/s (q1 = 15 l/s from table) per unit, multi-nozzles set at position 2, for cooling a
heating.
Selection criteria: coolingper unit
coolingtotal
heatingper unit
heatingtotal
Primary air capacity (P A) 147 294 -54* -108 W
Heat exchanger capacity (PW) 435 870 625 1250 W
Total capacity (Ptot
) 582 1164 571 1142 W
Water ow (qW) to achieve P
w190 - 100 - l / h
Difference between water temperature in-out (∆TW) 2.0 - 5.4 - K
Pressure drop, waterside (pW) 12.5 - 2.4 - kPa
Static pressure, airside (pst) 60 - 60 - Pa
Sound pressure level (LpA) 22 22 - NC
Throw (T) 1.1 - 1.1 - m
* P A = m•c
p• ∆T
AH
For non standard applications and/or selections, please contact our technical staff.
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Installation, Maintenance & Cleaning
Installation
There are two solutions for tting the AIR-FIT® active chil-led beam.
- Exposed Tee Systems- Bolt-Slot Systems
In both solutions the weight of the chilled beam must besecured by wire to the building construction, not loading
the false ceiling themselves.
Duct connection
The active chilled beam is equipped with 1 or 2 circular
spigots for duct connections. In the case of 2 INLETS
on one unit, we recommend a symmetric connection byusing equal connecting lengths or a T-connection.
Coil connection
The heat exchanger is equipped with multiple (separate)circuits for heating and cooling (4-pipe system).Connections are made of copper. The cooling andheating circuits are indicated by blue respectively red
marks.For further information we refer to page 25.
Connection can be executed by pressed or solder con-nection. As an alternative we recommend the use of
exible hoses with quick-lock connectors which can be
supplied as an accessory. (see page 25 and 40)
Changing the airside connection
Airside & Waterside connection:
As a standard the waterside connection is at the rightside looking at the air ow direction.
The construction of the chilled beam allows to demountthe plenum box easily and to rotate it 180º.
Maintenance
The perforated screen or linear bar needs to beremoved to clean the heat exchanger as per the
following instructions (see gure 7 on page 24):
Step 1: Push the perforated screen upward, close to one of the end caps.
Step 2: Push the whole panel aside simultaneously in a
linear direction to the end cap as mentioned instep 1.
Step 3: By this movement the perforated screen on the other side can now be removed. The panel will still be connected to the active chilled beam by
two safety catches.
Step 4: Use a conventional vacuum cleaner with a very
soft brush and clean the coil carefully.
Retting the perforated screen is done in reverse order.
lay-in
method
hanging-
method
Figure 5: mounting solutions AIR-FIT ®
Exposed Tee
System
Bolt-Slot
System
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The AIR-FIT ® active chilled beams are equipped with
multi-nozzle technology.
The AIR-FIT ® multi-nozzle technology consists of threenozzle groups on both sides with different diameters.The position (1, 2 or 3) of the nozzle can be adjusted.
At constant static pressure, the primary airow can be
changed.
Multi-nozzle technology
Adjusting multi-nozzles
The only tool needed to adjust the multi-nozzle is aPhilips head screwdriver.
Step 1: Remove the perforated screen (see gure 7).
Step 2: Unscrew all screws from the sliding plate.
(1 full turn)
Step 3: Move the sliding plate into the desired position.*
Step 4: Tighten all screws (hand tight).
Step 5: Replace the perforated screen.
*Factory setting: nozzle position 2.
Figure 8: nozzle adjustment (standard nozzle position 2)
1 2 3
1 2
3
Figure 6: multi-nozzle technology
12
3
Figure 7: removal AIR-FIT ® screen
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Water connections
Table 3: Dimensions connection
Width 300 600
Size 1200-3000 1200-1800 2400-3000
Ødcold
12 12 15
Ødwarm
12
Optional:
Flexible synthetic hoses tted with stainless steel casing
(RS 321-331). They combine with a connection withsecurity clips on both sides of the hose.
Remarks:
To ensure a leakage proof connection, copper pipe
must be undamaged, without sharp edges and perfectly
circular. Be aware of deviations in length as a result ofshrinking and expanding due to the temperature.
Figure 9: heat exchanger connections, copper,
length 40 mm
Note: Cold and warm water connections will be
marked with blue and red labels
2 pipe
Size 1200-3000
4 pipe
Size 1200-3000 2 pipe Size 1200-1500-1800 2 pipe Size 2400-3000
4 pipe Size 2400-3000 4 pipe Size 1200-1500-1800
MODEL 300 MODEL 600
1 2 6
1 2 6
5 6
20
5 6 , 7
5
5 6 , 7
5
5 6
20
4 0
4 0
8 5
1 0 0
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Applications, system A:
Mechanical ventilation with analogue temperature control
Active chilled beam, suitable for cooling and heating
ofce spaces.
The amount of fresh air is controlled by a manual
setting on mechanical air dampers. The temperatureis controlled by a simple 230 V AC analogue controlthermostat.
The actuators for the cooling and heating valves are
connected to the 230 V AC thermostats. The set pointroom temperature is controlled by opening or closingthe valves.
The dead zone between heating and cooling is 2 K.
Application in meeting rooms
Meeting rooms (as shown in the drawings) need moreventilation air than ofce spaces. This can be accom-
plished by applying multiple and/or larger models.More than 5 air changes (circulation) per hour mayincrease the risk of draught. In that case we recommenda different approach, system F (see page 36) can offer a
possible solution in this situation.
Features
• Manually set primary airow.
• Analogue thermostat for cooling and heating.
Advantages
• Easy to install.
• Simplied control adjustment.
• Limited number of components.
Important notes
• Every unit must be manually commissioned on air
volume.
• Adjustment of primary airow afterwards is time
consuming.• The system is pressure dependent. Therefore the
performance depends on accuracy of the air sidedcommissioning.
• The dead zone between cooling and heating is xed.
• This system operates on a stand alone basis.
• 230 V AC operation.
Eberle controls example per room (exclusive AIR-FIT ® )
1 Thermostat KLR-E 7201
1 Cooling valve VARIO-M-½”-straight
1 Heating valve VARIO-M-½”-straight2 Electro thermal actuators MEP-1801-NC
to be ordered as PIUSET01
Third party controls can be used as an option.
1
2
4
3
4
Figure 10: wiring diagram system A
230 V AC
1
2
3
4
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Applications, system A:
Mechanical ventilation with analogue temperature control
1
2 43
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Applications, system B:
Mechanical ventilation with digitale temperature control
Figure 11: wiring diagram system B
Active chilled beam, suitable for cooling and heating
ofce spaces.
The amount of ventilation air is mechanically controlled
by manually set ventilation valves. The temperature is
controlled by a DDC control thermostat.
The actuators for the cooling and heating valves are
connected to the control unit. The room temperature ismeasured by the room thermostat with digital displayand set point adjustment. The required temperature iscontrolled by opening or closing the valves. The dead
zone between heating and cooling is 1 K (adjustable).
Application in meeting rooms
Meeting rooms (as shown in the drawings) need moreventilation air than ofce spaces,. This can be achieved
by multiple and/ or larger units. However, more than 5
air changes (circulation) per hour may increase the riskof draught. In those cases we recommend a differentsolution. System F (see page 36) may provide a solution
for such a situation.
Features
• Manually set primary air volume.
• User interface with digital display and override switch.
Advantages
• Easy installation.
• DDC controller, free to program (at work).
• Digital temperature sensor.
• Network possibilities (LonMark® or BACnet®) andconnection possibilities with primary installation.
• Adjustable dead zone.
• Different possibilities for energy reduction by expansion
with occupancy detection and light and daylight controls.• 24 V AC operation.
• No extra components are needed for the master/slave
control.• Adjusting primary air volume is possible by remote
control.
Considerations
• Every unit must be manually commissioned on air
volume.
• Adjustment of primary airow afterwards is timeconsuming.• The system is pressure dependent. Therefore the
performance depends on accuracy of the air sidedcommissioning.
Schneider/TAC controls example (not including AIR-FIT ® )
1 I/A series universal controller MNL-5RXX or
(LonMark® or BACnet®) MNB-70
1 User interface MN-S3-HCBA
1 Cooling valve VARIO-M-½”-straight
1 Heating valve VARIO-M-½”-straight
2 Electro thermal actuators MEP-1821-NC 1 Transformer TRAFO-20RA
to be orderend as PIUSET02 LonMark®
PIUSET04 BACnet®
Third party controls can be used as an option.
1
6
2
3
4
5
1
6
2
3 4
5 5
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Applications, system B:
Mechanical ventilation with digitale temperature control
12
3 4 5
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Applications, system C:
Mechanical constant air volume control with analogue temperature control
Active chilled beam, suitable for cooling and heating
ofce spaces.
The amount of fresh air is controlled by mechanicalconstant air volume (CAV) controlers. The temperature
is controlled by a simple 230 V AC analogue controlthermostat.
The actuators for cooling and heating valves are con-
nected to the 230 V AC thermostats. The set pointroom temperature is controlled by opening or closingthe valves.
The dead zone between heating and cooling is 2 K.
Application in meeting rooms
Meeting rooms (as shown in the drawings) need moreventilation air than ofce spaces. This can be achieved
by multiple and/ or larger units. However, more than 5
air changes (circulation) per hour may increase the riskof draught. In those cases we recommend a differentsolution and system F (see page 36) may provide a
solution for such a situation.
1
2
4
3
4
Figure 12: wiring diagram system C
230 V AC
Features
• Balanced primary airow without electrical energy.
• Analog thermostat for cooling and heating.
Advantages
• Easy to install.
• Simple control adjustment.
• Manual airside commissioning is not necessary.
Considerations
• Adjustment of the primary airow is time consuming.
• Stand alone operation, no remote control options from
a central installation.
• The dead zone between heating and cooling is xed.• 230 V AC operation.
Eberle controls example (not including AIR-FIT ® )
1 Thermostat KLR-E 7201
1 Cooling valve VARIO-M-½”-straight
1 Heating valve VARIO-M-½”-straight
2 Electro thermal actuators MEP-1801-NC
1 Constant air volume controller NROBOVO
to be ordered as PIUSET01
Third party controls can be used as an option.1
2
4
5
3
1
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Applications, system C:
Mechanical constant air volume control with analogue temperature control
1
2 43
5
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Applications, system D:
Mechanical constant air volume control with digital temperature control
Figure 13: wiring diagram system D
Active chilled beams for cooling and heating ofce
spaces.
The amount of ventilation air is controlled by mechani-
cal constant air volume controllers. The temperature is
controlled by a DDC control thermostat.
The actuators for the cooling and heating valves are
connected to the controller. The room temperature ismeasured by the user interface with digital display andset point adjustment. The required room temperature iscontrolled by opening or closing the valves. The dead
zone between cooling and heating is 1K (adjustable).
Application in meeting rooms
Meeting rooms (as shown in the drawings) need moreventilation air than ofce spaces. This can be achieved
by multiple and/ or larger units. However, more than 5
air changes (circulation) per hour may increase the riskof draught. In those cases we recommend a differentsolution. System F (see page 36) may provide a solution
for such a situation.
Features
• Balanced primary airow without using electrical energy.
• User interface with digital display and override switch.
Advantages
• Easy installation.
• Manual airside commissioning is not necessary.
• DDC controller, free programmable (at work).
• Digital temperature sensor.
• Network possibilities (LonMark® or BACnet®) andconnection possibilities with primary installation.
• Adjustable dead zone.
• Different possibilities for energy reduction by expansion
with occupancy detection and light and daylight controls.
• 24 V AC operation.• No extra components are needed for the master/slave
control.• Adjusting primary air volume parameters is possible by
remote control (internet).
Considerations
• Adjusting primary air volume is time consuming.
Schneider/TAC controls example (not including AIR-FIT
®
)
1 l/A series universal controller MNL-5RXX
or (LonMark® or BACnet®) MNB-70
1 User interface MN-S3-HCBA
1 Cooling valve VARIO-M- ½ “- straight
1 Heating valve VARIO-M- ½ “- straight
2 Electro thermal actuators MEP-1821-NC
1 Transformer TRAFO-20RA
1 Constant air volume controller NROBOVO
to be ordered as PIUSET02 LonMark® PIUSET04 BACnet®
Third party controls can be used as an option.
1
7
6
3
4
5
2
1
6
2
3 4
5 5
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Applications, system D:
Mechanical constant air volume control with digital temperature control
3 54
7
2 1
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Active chilled beam, suitable for cooling and heating
ofce spaces.
The amount of ventilation air is controlled by a DDC
controller with a highly accurate volume measuring
device. The temperature is controlled at the desired
set point with the same controller.
The actuators for the cooling and heating valves are
connected to the controller. The room temperature ismeasured by a user interface with digital display. Thedesired temperature is controlled by opening or closingthe valves. The dead zone between cooling and heating
is 1 K (adjustable).
Application in meeting rooms Meeting rooms need more ventilation air than ofce
spaces. This can be achieved by multiple and/ or larger
units. However, more than 5 air changes (circulation) per
hour may increase the risk of draught. In those cases werecommend a different solution. System F (see page 36)may provide a solution for such a situation.
Features
• Digital volume controller with very accurate air volume
control.• User interface with digital display and override switch.
Advantages
• Volume and temperature adjustments in one controller.
• Highly accurate volume measurement and control.
• DDC controller, free programmable (at work).
• Digital temperature sensor.
• Network possibilities (LonMark® or BACnet®) andconnection possibilities with primary installation.
• Adjustable dead zone by HC Barcol-Air control engineers.
• Different possibilities for energy reduction by expansion with occupancy detection and light and daylight control.• Manual airside commissioning is not necessary.
• 24 V AC operation.
• No extra components are necessary for the master/slave
control.• Adjusting the primary air volume parameters is possible
by remote control (internet).
Considerations
• More components are needed as compared to earlierdescribed systems (A,B & C ).
Schneider/TAC controls example (not including AIR-FIT ® )
1 Air volume control unit NAOBOOB
1 I/A series CAV controller MNL-V2RVx or
(LonMark® or BACnet®) MNB-V2
1 User interface MN-S3-HCBA
1 Cooling valve VARIO-M-½”-straight
1 Heating valve VARIO-M-½”-straight
2 Electro thermal actuators MEP-1821-NC
1 Transformer (230 V AC–24 V AC) TRAFO-20RA
to be ordered as PIUSET03 LonMark® PIUSET05 BACnet®
Third party controls can be used as an option.
Applications, system E:
Digital constant air volume and temperature control
2
3
7
5
6
4
6
Figure 14: wiring diagram system E
T o
s l a v e
1
7
6
3
4
5
2
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Applications, system E:
Digital constant air volume and temperature control
3
4 5 6
1 2 7
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Active chilled beams for cooling and heating ofces and
fan coil units with high performance diffusers for cooling,
heating and CO2 control in meeting rooms.
System F is identical to earlier described system E inregard to ofce spaces.
Application at meeting rooms
The amount of ventilation air is based on the CO2 level
in the room and controlled by a DDC controller equippedwith a high accurate air volume measuring device. This
enables the regulation of air volume between a minimum
and maximum value. The maximum value corresponds
with the total air volume necessary for the maximum
number of people in the meeting room. The fresh air sup-ply is connected to the inlet plenum of the fan coil unit.
The room temperature is set to the desired level with
the same digital controller while the fan coil runs at aconstant speed (RPM). The actuators for the coolingand heating valves of the fan coil unit are connected
to a controller. The room temperature is measured bya temperature sensor with digital display. The set pointtemperature is achieved by opening or closing the valves.
The dead zone between heating and cooling is 1 K. This
can be programmed at works.
Features
• Digital volume controller with very accurate air volume
control.
• User interface with digital display and override switch
• Suitable for Building Management Systems.
• The meeting rooms are CO2 controlled.
Advantages
• No draught risk in the meeting rooms.
• Volume and temperature adjustments in one controller.
• Highly accurate volume measurement and control.
• DDC controller, free programmable (at work).
• Digital temperature sensor.
• Network possibility (LonMark® or BACnet®) andconnection option with primary installation.
• Adjustable dead zone by HC Barcol-Air software engineers.
• Different options for expansion and energy reduction
such as occupancy detection and light and daylightcontrol.
• Manual commissioning of the airside volume is not
necessary.• 24 V AC operation.
• No extra components necessary for master/slave
control.• Adjusting the primary air volume parameters is
possible by remote control.• Simple and inexpensive to complement with a relative
humidity controller.
Considerations
• More components are needed as compared earlier
described systems (A, B & C).
Schneider/TAC controls example
(not including fan coil unit and diffusers)
1 Air volume control unit NAOBOOB
1 I/A series CAV controller MNL-V2RVx or
(LonMark® of BACnet®) MNB-V2
1 User interface MN-S3-HCBA
1 Cooling valve VARIO-M-½”-straight
1 Heating valve VARIO-M-½”-straight2 Electro thermal actuators MEP-1821-NC
1 Transformer (230 V AC-24 V AC) TRAFO-20RA
1 CO2-sensor EE85-2C22
Relay switch
to be ordered as PIUSET03 + CO2 LonMark®
PIUSET05 + CO2 BACnet®
Third party controls can be used as an option.
Applications, system F: Digital constant air volume and temperature
control, with CO2 control for meeting rooms
1
7
6
2
3
4
5
8
Figure 15: wiring diagram system F
2
8
3
7
5
6
4
6
T o
s l a v e
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FCKZLOT
VFTO3O4 PBT13O4
or
Application, systeem F: Digital constant air volume and temperature
control, with CO2measurement for meeting rooms
8
3
54 6
1 2 7
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Specifcation description
Specifcation HC Barcol-Air AIR-FIT ® active chilled beam
The chilled beam type AIR-FIT ® , manufactured by HC Barcol-Air, shall be used to compensate for the external
and internal heat load and shall maintain the thermal comfort in the room within acceptable noise criteria andother comfort parameters.
Control description
Primary air will be supplied by a fresh air handling unit into the distribution plenum. The static pressure in theplenum will “force” the primary air through the induction nozzles into the mixing section and from the mixing
section the air will be equally distributed by the two opposite slot diffusers into the room.The special construction of the jet nozzles (provided with 3 different diameter positions) will induce return air
from the room through the return perforated screen or linear bar, located in the center between the two opposite
slots. This air will pass a cooling and/or heating heat exchanger before it mixes with the primary air and before itwill be supplied back into the room.
Construction of the chilled beam:
• A low height distribution plenum box with one or two circular inlets, dependening on of the length of the
chilled beam, connects the fresh air connections with the beam and distributes the primary air equally overthe multiple jet nozzle plates. The plenum shall be made of galvanized sheet steel.
• A multi nozzle plate, adjustable in 3 different opening positions, injects the conditioned air into the mixing
section of the beam. The nozzle position shall be easily adjustable by using a Philips head screw driver.
• Room air returns through the heat exchanger also into the mixing section.• A high capacity cooling coil shall be standard (2-pipe system) and a heating coil shall be optional (4-pipe
system). Both heat exchangers shall be made of copper tubes provided with aluminium ns. The heat ex-
changer shall have a 12 or 15 mm diameter water connections (depending on units size) and connections
shall be located in vertical direction. The heat exchangers need to be 20 bar pressure tested at the factory.
• The diffuser for the return air shall be a perforated screen or provided with linear bar grilles. This diffuser
must be removable and provided with a self-supporting hanging provision and a safety catch.
• The supply air diffuser shall be two linear slots, constructed from galvanized steel and designed in such a
way that the “Coanda” effect is maintained and that a proper and comfortable air distribution in the room isguaranteed.
Dimensions
• Width: The chilled beam shall be available in standard width 295 (model 300) or 595 mm (model 600).
• Length: The lengths can be variable, but shall be available in standard lengths of 1200, 1500, 1800, 2400
and 3000 mm.• Height: The height of the chilled beam (including distribution plenum) shall not be more 210 mm (model 300)
or 242 mm (model 600).
Finish
• The short sides of the chilled beam shall have 6 mm diameter mounting holes for easy installation.
• The visible housing of chilled beam shall have RAL 9010 powder coated nish with 70% gloss.
Other RAL colors available on request.
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Order examples
Order examples
Active chilled beams
A I R F I T - 1 7 9 4 - 3 0 0
product code size model(300 or 600)
A I R F I T K - 1 7 9 4 - 3 0 0
product code size model(300 or 600)
A I R F I T B - 1 7 9 4 - 6 0 0
product code size model(300 or 600)
A I R F I T V - 1 7 9 4 - 6 0 0
product code size model(300 or 600)
(application: cooling & heating)
(application: cooling)
(beam with duct connection on top)(application: cooling & heating)
(beam with reduced plenum height)(application: cooling & heating)
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1. Flexible synthetic hose tted with stainless steel coating and Eurotek connections and safety
clips, length 0.5 m
F L E X - L 0 5 - E T 1 2 - H R
F L E X - L K 5 - E T 1 5 - R R
LO5 = S.S. 316 (complete stainless steel)
LK5 = S.S. 304 (stainless steel external only, internal EVAL/ DIN 4726)
ET12 = 12 mm diameter ET15 = 15 mm diameter HR = 90º connection (1-side)RR = streight connection (2-sides)
2. Controls
• 2 way valve with 24 V AC or 230 V AC actuator
V A R I O - M - ½ “ - R E C H T (valve)
M E P 1 8 0 1 - N C (230 V AC actuator, Normally Closed)
M E P 1 8 2 1 - N C (24 V AC actuator, Normally Closed)
• 230 V AC thermostat controller
K L R - E 7 2 0 1
• Mechanical constant air volume controller
N R O B O V O - 0 1 0 0 - Q 1 0 0
CAV size air volume (m3/h)
• Electronic (digital) constant air volume controller
N A O B O O B - 1 0 0 R - O O O O
|
CAV size
M N L - V 2 R V x (LonMark® DDC-controller)
M N - S 3 - H C B A (user interface)
• CO2 sensor
E E 8 5 - 2 C 2 2
Options
(volume control usingFlo-Cross® measuringdevice)
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Certifcates - Peutz - The Netherlands
Lid ONRIISO-9001: 2000 gecertificeerd
Peutz bvPaletsingel 2, Postbus 6962700 AR Zoetermeer Tel. (079) 347 03 47Fax (079) 361 49 [email protected]
Peutz bv
Lindenlaan 41, MolenhoekPostbus 66, 6585 ZH MookTel. (024) 357 07 07Fax (024) 358 51 [email protected]
Peutz bvL. Springerlaan 37, GroningenPostbus 7, 9700 AA GroningenTel. (050) 520 44 88Fax (050) 526 31 [email protected]
Peutz GmbHDüsseldorf, [email protected]
Peutz SARLParis, [email protected] www.peutz.fr
Peutz [email protected]
Daidalos Peutz [email protected]
Köhler Peutz Geveltechniek bvZoetermeer [email protected]
Opdrachten worden aanvaard enuitgevoerd volgens de 'Regeling
van de verhouding tussenopdrachtgever en adviserendingenieursbureau' (RVOI-2001).Ingeschreven KvK onder nummer 12028033. BTWidentificatienummer NL004933837B01
Rapport
Concept
Laboratorium voor Akoestiek
bepaling van het geluidvermogen van plafond-inductie-unitstype Air-Fit, fabrikaat Barcol Air
Rapportnummer A 1706-1 d.d. 31 januari 2008
Opdrachtgever : Barcol Air B.V.
Postbus 283
1440 AG Purmerend
Rapportnummer : A 1706-1
Datum: 31 januari 2008
Ref.: TS/JK/A 1706-1-RA
Lid ONRIISO-9001: 2000 gecertificeerd
Peutz bvPaletsingel 2, Postbus 6962700 AR Zoetermeer Tel. (079) 347 03 47Fax (079) 361 49 [email protected]
Peutz bvLindenlaan 41, MolenhoekPostbus 66, 6585 ZH MookTel. (024) 357 07 07Fax (024) 358 51 [email protected]
Peutz bvL. Springerlaan 37, GroningenPostbus 7, 9700 AA GroningenTel. (050) 520 44 88Fax (050) 526 31 [email protected]
Peutz GmbHDüsseldorf, [email protected]
Peutz SARLParis, [email protected] www.peutz.fr
Peutz [email protected]
Daidalos Peutz [email protected]
Köhler Peutz Geveltechniek bvZoetermeer [email protected]
Opdrachten worden aanvaard enuitgevoerd volgens de 'Regelingvan de verhouding tussenopdrachtgever en adviserendingenieursbureau' (RVOI-2001).Ingeschreven KvK onder nummer 12028033. BTWidentificatienummer
7
Rapport
Concept
Laboratorium voor Akoestiek
Bepaling van de overspraak geluidisolatie van via tweeplafond inductie units type Air Fit , fabrikaat Barcol-Air
Rapportnummer A 1781-1 d.d. 15 mei 2008
Opdrachtgever : HC Barcol-Air
Postbus 283
1440 AG Purmerend
Rapportnummer : A 1781-1
Datum: 15 mei 2008
Ref.: TS/JVe/A 1781-1-RA
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Certifcates - HLK Stuttgart - Germany
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q1 = Primary airow (m³/h or l/s)
T1 = Primary air temperature (°C)
Troom
= Room temperature (°C)
P A = Capacity Primary air (W)
PW = Capacity Heat exchanger (W)
Ptot
= Total supplied cooling or heating capacity of the heat exchanger + primary air (W)
pst = Static pressure (Pa)
LpA
= Sound pressure level of the unit (dB(A) / NC / NR)
qW = Waterow of the heat exchanger (l/h)
ΔpW = Waterside pressure drop of the heat exchanger (kPa)
TW,in
= Water temperature entering the heat exchanger (ºC)
ΔTW = Difference between entering and leaving water temperature over the heat exchanger (K)
∆T AC
= Difference between room temperature and primary air temperature in cooling mode (K)
∆TWC
= Difference between room temperature and the supply water temperature in cooling mode (K)
∆T AH
= Difference between primary air temperature and room air temperature in heating mode (K)
∆TWH
= Difference between entering water temperature and the room temperature in heating mode (K)
T = Throw; the distance between the wall and the unit or half of the distance between two units (m)
Note 1: All data provided in this catalogue is based on installations at sea level altitude.
Note 2: The primary air conditions (temperature and humidity) shall be controlled in such a way
that condensation will not occur.
Symbol index
Figure 16: explanation to the symbol index
entering
water
leaving
water
q1
T1
P A
pst
qw
ΔTw
PW
Δpw
Troom L
pA
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