Units for suspended cei lings

. X X testregistrierung Units for suspended cei lings Type, hinged induced air grille, water connections Chilled Beams No. 09.2.432 Eurovent certification HYGIENISCH GETESTET V DI 6022 Tested to VDI 6022 Active chilled beam with two-way air discharge and horizontal heat exchanger, suitable for grid ceilings with grid size 600 or 625 Active chilled beam for heating and cooling, with 2-pipe or 4-pipe heat exchanger, for integration with various ceiling systems Preferably for room heights up to 4.20 m High heating and cooling capacity with a low conditioned primary air volume flow rate and low sound power level Four nozzle variants to optimise induction based on demand Hinged, removable induced air grille in four designs Optional equipment and accessories Control package Also available as supply and extract air combination Adjustable air control blades to control the airflow Heat exchanger powder-coated black Powder coating in many different colours, e.g. RAL CLASSIC or NCS K2. 37

General information Type General information Page. 38 Attachments. 42 Order code. 43 Quick sizing. 45 Dimensions and weight supply air. 48 Dimensions and weight supply and extract air. 5 Specification text. 53 Basic information and nomenclature 9. Installation examples Installation into grid ceilings Installation into T-bar ceilings Variants Product examples -LR -GL -LQ -GQ Description -LR-4-M-LL Application Active chilled beams of Type for the integration into various ceiling systems, preferably for room heights up to 4.20 m Particularly suitable for grid ceilings with grid size 600 or 625 2-pipe or 4-pipe heat exchangers enable good comfort levels with a low conditioned primary air volume flow rate Energy-efficient solution since water is used as a medium for heating and cooling Adjustable air control blades (optional) allow for the manual adjustment of the air discharge direction Variants -LR: With induced air grille perforated sheet metal, circular holes -LQ: With induced air grille perforated sheet metal, square holes -GL: With induced air grille longitudinal blades -GQ: With induced air grille transverse blades K2. 38

General information Construction Powder-coated RAL 900, pure white, gloss level 50 % P: Powder-coated in any other RAL colour, gloss level 70 % P: Powder-coated RAL 9006, white aluminium, gloss level 30 % Nominal sizes 900, 200, 500, 800, 200, 2400, 2700, 3000 mm Attachments Extract air spigot (45 connection) for supply and extract air combination Adjustable air control blades Useful additions Connecting hoses Control equipment consisting of a control panel including a controller with integral room temperature sensor; valves and valve actuators; and compression couplers Special features Adjustable air control blades to control the airflow Hinged, removable induced air grille in four designs Horizontal heat exchanger as 2-pipe or 4-pipe system Water connections at the narrow side, Ø2 mm Cu pipe, either with plain tails or with G½" external thread and flat seal Internal nozzle plate with punched nozzles (non-combustible) Construction features Spigot is suitable for circular ducts to EN 506 or EN 380 4 suspension points for on-site installation (by others) Four nozzle variants to optimise induction based on demand Integral extract air spigot (optional) Materials and surfaces Casing, front frame, nozzle plate, and perforated induced air grille (LR/LQ) made of galvanised sheet steel Blades of the induced air grille (GL/GQ) made of aluminium sections Heat exchanger with copper tubes and aluminium fins Exposed surfaces are powder-coated pure white (RAL 900) or in any other RAL colour Heat exchanger also in black (RAL 9005) Extract air spigot made of galvanised sheet steel Air control blades made of polypropylene, UL 94, flame retardant (V0) Installation and commissioning Preferably for rooms with a clear height up to 4.20 m Flush ceiling installation Lengths from 893 to 3000 mm, and widths of 593, 598, 68 and 623 mm, hence suitable for all ceiling systems, particularly for grid ceilings with grid size 600 or 625 Side entry primary air spigot Active chilled beam has 4 suspension points for on-site installation (by others) Installation and connections to be performed by others; fixing, connection and sealing material to be provided by others Heat exchangers are fitted with water flow and water return connections at the narrow side Installation into T-bar ceilings or continuous ceilings To avoid too much load on the ceiling, the suspension points should be used Standards and guidelines Products are certified by Eurovent (no. 09.2.432) and listed on the Eurovent website Hygiene certificate to VDI 6022 Maintenance No moving parts, hence low maintenance The heat exchanger can be vacuumed with an industrial vacuum cleaner if necessary VDI 6022, Part, applies (Hygiene requirements on air handling units and systems) Ceiling installation with T-bars Ceiling installation with concealed T-bars 593 / 68 598 / 623 DID 2 Ceiling tile DID 2 Ceiling tile K2. 39

General information Ceiling installation with clamping profile Ceiling installation, plasterboard 598 / 623 293 DID 2 Ceiling tile DID 2 Plasterboard Technical data Nominal length 900, 200, 500, 800, 200, 2400, 2700, 3000 mm Length 893 3000 mm Height 20 mm Width 593, 598, 68, 623 mm Primary air spigot, diameter 23/58 mm Primary air volume flow rate 6 85 l/s, 22 306 m³/h Cooling capacity Up to 2450 W Heating capacity Up to 2970 W Max. operating pressure, water side 6 bar Max. operating temperature 75 C Schematic illustration of Suspension points 2 Primary air spigot 3 Casing 4 Water connections 5 Front frame 6 Heat exchanger 7 Nozzles K2. 40

General information Function Functional description Active chilled beams provide centrally conditioned primary air (fresh air) to the room and use heat exchangers for additional cooling and/or heating. The primary air is discharged through nozzles (four variants are available) into the mixing chambers; as a result of this, secondary air (room air) is induced via the induced air grille and passes through the horizontal heat exchanger, where it is heated or cooled. Primary and secondary air mix and are then supplied to the room horizontally through the supply air slots. Principle of operation Conditioned fresh air (primary air) 2 Supply air 3 Room air (secondary air) K2. 4

Attachments Description Set of air control blades If a high cooling capacity is required in a very small space with active chilled beams, optional air control blades allow for adjusting the air discharge direction such that the acceptable air velocity in the occupied zone is not exceeded. The airflow of each active chilled beam is spread and discharged according to the room geometry. If the use of a room changes, the air distribution can be optimised by adjusting the air control blades accordingly. It is possible to adjust several sets of air control blades together For fine adjustment, the sets of air control blades can be disconnected from each other To adjust a set of air control blades, use both hands to move the two outer blades of the set as required Maximum possible adjustment is 45 to the right or left in steps of 5 The blade elements are factory set to straight air discharge If the air discharge is not straight, the water-side capacity will be slightly affected. Blades set at 45 may cause a loss of up to 5 %. Set of air control blades Straight air discharge Locking 2 Blade 3 Coupling strip 4 Connection Angled air discharge Divergent air discharge K2. 42

Order code Order code LR 2 M LL AV A / 800 500 593 / P RAL... / G3 / LE / VS Type Active chilled beam Induced air grille GL Longitudinal blades GQ Transverse blades LR Perforated metal, circular holes LQ Perforated metal, square holes Heat exchanger 2 2-pipe 4 4-pipe Nozzle variant Z Small plus M Medium G Large U Extra large Arrangement of casings and connections LL (also available as supply and extract air combination) LR ML MR RL RR (also available as supply and extract air combination) Note L = left side, R = right side, M = centre Extract air spigot No entry: none AV Front AH Rear Available from L = L N + 250 mm Water connections No entry: Ø2 mm pipe with plain tails A With G½" external thread and flat seal Total length (diffuser face) nominal size [mm] L L N Supply air 893-500 900 93-800 200 493-200 500 793-2400 800 2093-2700 200 2393-3000 2400 2693-3000 2700 2993-3000 3000 L is up to 7 mm shorter than L N Supply and extract air combination 50-500 900 450-800 200 750-200 500 2050-2400 800 2350-2700 200 2650-3000 2400 2950-3000 2700 Width of front frame [mm] B 593 598 68 623 Exposed surface No entry: powder-coated RAL 900, pure white P Powder-coated, specify RAL CLASSIC colour Gloss level: RAL 900 50 % RAL 9006 30 % All other RAL colours 70 % Surface of heat exchanger No entry: untreated G3 RAL 9005, black Air control blades No entry: none LE With Valves and actuators No entry: none VS With K2. 43

Order code Order examples LR 2 M LL/93 200 593 Induced air grille Heat exchanger Nozzle variant Arrangement of casings and connections Total length (diffuser face) nominal length Width of front frame Perforated metal, circular holes 2-pipe Medium Left side, left side 93 200 mm 593 mm GQ 2 U RR AV A/798 200 598/P/RAL9006/G3/LE/VS Induced air grille Transverse blades Heat exchanger 2-pipe Nozzle variant Extra large Arrangement of casings and connections Right side, right side Extract air spigot Front Water connections With G½" external thread and flat seal Total length (diffuser face) nominal length 798 500 mm Width of front frame 598 mm Exposed surface RAL 9006 Surface of heat exchanger Black Valves and actuators With K2. 44

Quick sizing Quick sizing L N 900 200 500 Z M G U Z M G U Z M G U Primary air 2 3 Cooling mode Heating mode 2-pipe and 4-pipe systems 4-pipe system Pr Δp t L WA Q tot Q WK Δt W Δp W Q WH = Q tot Δt W Δp W l/s m³/h Pa db (A) W K kpa W K kpa 6 22 67 <20 4 339 2.6 2.4 495 8.5 0.2 9 32 5 <20 573 464 3.6 2.4 673.6 0.2 2 43 268 22 690 545 4.3 2.4 786 3.5 0.2 9 32 65 <20 459 350 2.7 2.4 52 8.8 0.2 3 47 36 <20 628 472 3.7 2.4 683.7 0.2 8 65 260 28 785 568 4.4 2.4 88 4. 0.2 6 58 58 <20 590 397 3. 2.4 577 9.9 0.2 24 86 29 29 85 526 4. 2.4 759 3. 0.2 34 22 259 38 035 625 4.9 2.4 897 5.4 0.2 30 08 65 30 847 485 3.8 2.4 702 2. 0.2 36 30 94 35 964 530 4. 2.4 764 3. 0.2 44 58 40 40 07 577 4.5 2.4 829 4.3 0.2 8 29 64 <20 529 433 3.4 3. 628 0.8 0.3 2 43 45 <20 728 584 4.6 3. 839 4.4 0.3 6 58 257 26 87 679 5.3 3. 970 6.7 0.3 2 43 63 <20 592 447 3.5 3. 648.2 0.3 7 6 26 23 790 585 4.6 3. 84 4.5 0.3 24 86 250 32 995 705 5.5 3. 006 7.3 0.3 2 76 59 22 750 496 3.9 3. 78 2.3 0.3 32 5 26 34 042 656 5. 3. 939 6.2 0.3 44 58 238 42 292 762 6.0 3. 083 8.6 0.3 36 30 54 33 0 577 4.5 3. 830 4.3 0.3 42 5 73 37 29 623 4.9 3. 893 5.4 0.3 48 73 95 4 240 66 5.2 3. 945 6.3 0.3 0 36 63 <20 639 59 4. 3.7 749 2.9 0.3 5 54 4 2 87 690 5.4 3.7 986 7.0 0.3 20 72 25 29 037 795 6.2 3.7 28 9.4 0.3 5 54 62 <20 76 535 4.2 3.7 772 3.3 0.3 20 72 09 25 908 666 5.2 3.7 953 6.4 0.3 30 08 243 36 87 825 6.4 3.7 68 20. 0.3 30 08 7 30 04 652 5. 3.7 934 6. 0.3 38 37 4 36 209 75 5.9 3.7 068 8.4 0.3 44 58 53 40 338 807 6.3 3.7 44 9.7 0.3 42 5 49 37 66 659 5.2 3.7 943 6.2 0.3 46 66 59 40 245 69 5.4 3.7 986 7.0 0.3 50 80 70 42 32 78 5.6 3.7 024 7.6 0.3 ¹ Maximum 5 % reduction of water-side capacity has to be considered if the air control blades have been adjusted by up to 45. Nozzle variant 2 Pressure drop 3 Air-regenerated noise Reference values Parameter Cooling Heating t R 26 C 22 C t Pr 6 C 22 C (isothermal) t WV 6 C 50 C W (L N 900 800 mm) 0 l/h 50 l/h W (L N from 200 mm) 200 l/h 0 l/h For volume flow rates, pressure drop, and sound power levels for the optional extract air spigot please refer to the Easy Product Finder design programme. K2. 45

Quick sizing Quick sizing L N 800 200 2400 Z M G U Z M G U Z M G U Primary air 2 3 Cooling mode Heating mode 2-pipe and 4-pipe systems 4-pipe system Pr Δp t L WA Q tot Q WK Δt W Δp W Q WH = Q tot Δt W Δp W l/s m³/h Pa db (A) W K kpa W K kpa 2 43 62 <20 743 598 4.7 4.3 859 4.8 0.3 8 65 39 24 003 786 6. 4.3 5 9.2 0.3 24 86 247 32 88 899 7.0 4.3 266 2.8 0.3 8 65 6 <20 834 67 4.8 4.3 884 5.2 0.3 24 86 08 28 050 760 5.9 4.3 080 8.6 0.3 36 30 243 39 364 930 7.3 4.3 307 22.5 0.3 30 08 50 29 05 653 5. 4.3 935 6. 0.3 40 44 89 37 276 794 6.2 4.3 26 9.4 0.3 44 58 07 39 367 836 6.5 4.3 82 20.3 0.3 40 44 33 37 43 66 5.2 4.3 945 6.3 0.3 44 58 40 40 230 700 5.5 4.3 998 7.2 0.3 50 80 52 43 352 749 5.9 4.3 066 8.3 0.3 4 50 6 <20 994 825 3.5 4.2 506.8.6 2 76 37 22 363 0 4.8 4.2 997 5.6.6 28 0 243 30 625 287 5.5 4.2 2297 8.0.6 2 76 59 <20 06 852 3.7 4.2 553 2..6 28 0 05 25 408 070 4.6 4.2 929 5..6 42 5 237 36 844 337 5.8 4.2 238 8.6.6 36 30 50 26 364 930 4.0 4.2 688 3.2.6 56 202 20 38 92 246 5.4 4.2 2228 7.4.6 70 252 88 44 2230 386 6.0 4.2 2462 9.2.6 60 26 47 37 793 070 4.6 4.2 929 5..6 70 252 64 4 200 57 5.0 4.2 2077 6.2.6 80 288 84 45 293 229 5.3 4.2 299 7.2.6 6 58 6 <20 3 920 4.0 5.9 67 3..8 24 86 36 24 56 226 5.3 5.9 295 7.2.8 32 5 24 32 80 45 6. 5.9 250 9.6.8 24 86 59 <20 239 949 4. 5.9 722 3.5.8 32 5 05 27 570 84 5. 5.9 223 6.6.8 48 73 236 38 2047 468 6.3 5.9 2598 20.3.8 40 44 48 28 49 009 4.3 5.9 825 4.3.8 60 26 07 39 2049 326 5.7 5.9 2362 8.5.8 70 252 45 43 2276 432 6.2 5.9 2539 9.9.8 60 26 38 37 823 099 4.7 5.9 979 5.5.8 70 252 5 4 2040 96 5. 5.9 244 6.8.8 80 288 67 45 224 277 5.5 5.9 2279 7.8.8 ¹ Maximum 5 % reduction of water-side capacity has to be considered if the air control blades have been adjusted by up to 45. Nozzle variant 2 Pressure drop 3 Air-regenerated noise Reference values Parameter Cooling Heating t R 26 C 22 C t Pr 6 C 22 C (isothermal) t WV 6 C 50 C W (L N 900 800 mm) 0 l/h 50 l/h W (L N from 200 mm) 200 l/h 0 l/h For volume flow rates, pressure drop, and sound power levels for the optional extract air spigot please refer to the Easy Product Finder design programme. K2. 46

Quick sizing Quick sizing L N Primary air 2 3 Cooling mode Heating mode 4-pipe 2-pipe and 4-pipe systems 4-pipe system Pr Δp t L WA system Q tot Q WK Δt W Δp W Q WH = Q tot Δt W Δp W l/s m³/h Pa db (A) W K kpa W K kpa 2700 3000 Z M G U Z M G U 8 65 60 <20 227 00 4.3 7.7 826 4.3 2.0 27 97 35 26 66 336 5.7 7.7 2378 8.6 2.0 36 30 240 34 968 534 6.6 7.7 2706 2.2 2.0 27 97 59 22 367 04 4.5 7.7 880 4.7 2.0 36 30 05 30 725 29 5.6 7.7 2303 8.0 2.0 54 94 235 40 2240 589 6.8 7.7 2796 2.9 2.0 45 62 48 29 648 05 4.8 7.7 989 5.6 2.0 60 26 85 38 2073 350 5.8 7.7 2402 8.8 2.0 70 252 6 42 23 467 6.3 7.7 2597 20.3 2.0 62 223 33 38 889 4 4.9 7.7 205 6.0 2.0 73 263 46 43 234 254 5.4 7.7 2242 7.5 2.0 84 302 6 46 2358 345 5.8 7.7 2395 8.7 2.0 20 72 60 <20 337 096 4.7 9.4 973 5.4 2. 30 08 35 28 800 438 6.2 9.4 2549 9.9 2. 40 44 239 36 226 644 7. 9.4 2885 22.6 2. 30 08 59 23 49 29 4.9 9.4 2030 5.9 2. 40 44 05 3 874 39 6.0 9.4 247 9.3 2. 60 26 235 42 2424 70 7.3 9.4 2977 23.3 2. 50 80 49 32 799 96 5. 9.4 244 6.8 2. 65 234 82 39 226 432 6.2 9.4 2538 9.8 2. 75 270 09 43 245 547 6.7 9.4 2728 2.3 2. 65 234 3 40 974 90 5. 9.4 234 6.7 2. 75 270 4 44 2202 297 5.6 9.4 234 8. 2. 85 306 53 47 240 385 6.0 9.4 246 9.2 2. ¹ Maximum 5 % reduction of water-side capacity has to be considered if the air control blades have been adjusted by up to 45. Nozzle variant 2 Pressure drop 3 Air-regenerated noise Reference values Parameter Cooling Heating t R 26 C 22 C t Pr 6 C 22 C (isothermal) t WV 6 C 50 C W (L N 900 800 mm) 0 l/h 50 l/h W (L N from 200 mm) 200 l/h 0 l/h For volume flow rates, pressure drop, and sound power levels for the optional extract air spigot please refer to the Easy Product Finder design programme. Aerodynamic data extract air ABL ABL Δp t L WA l/s m³/h Pa db(a) 2 43 0,5 <5 8 65,0 <5 24 86,9 <5 30 08 2,9 <5 35 26 3,9 <5 40 44 5, <5 50 80 8,0 20 60 26,6 26 70 252 5,7 30 80 288 20,6 34 K2. 47

Dimensions and weight supply air Dimensions - -LR 52 32 G G B E 95 97 ØD C Water connection, Ø2 mm pipe, either with plain tails or with G½" external thread Only with 4-pipe system Dimensions [mm] B C E 593 8 93 598 8 95 68 8 205 623 8 208 B = Width of front frame Dimensions [mm] L N L ØD HS G 900 893 500 23 34 5,5 200 93 800 23 34 5,5 500 493 200 23 34 5,5 800 793 2400 23 34 35,5 200 2093 2700 58 6 35,5 2400 2393 3000 58 6 45,5 2700 2693 3000 58 6 55,5 3000 2993 3000 58 6 65,5 L = Total length (diffuser face) L N = Nominal length K2. 48

Dimensions and weight supply air Weight per unit [kg] Nominal length (L N ) 900 200 500 800 200 2400 2700 3000 -LR 8 22 27 32 39 47 54 6 -LQ 7 2 26 3 38 46 53 60 -GL 20 25 3 36 43 52 59 67 -GQ 20 25 3 36 43 52 59 67 Contained water (max.).8 2.4 3 3.6 4.2 4.8 5.4 6 Non-active section as extension: 0 kg/m Differences in width can be neglected -...-MR¹ -...-ML¹ L N 62 L N 62 L L ¹Construction MR is only available from L = L N + 200 mm. Casing: centre Water connections: right side ¹Construction ML is only available from L = LN + 200 mm. Casing: centre Water connections: left side -...-RR¹ -...-RL L N 62 52 L N 62 0 L L ¹Construction RR is only available from L = L N + 200 mm. Casing: right side Water connections: right side Casing: right side Water connections: left side K2. 49

Dimensions and weight supply air -...-LR -...-LL¹ 0 L N 62 52 L N - 62 L L Casing: left side Water connections: right side ¹Construction LL is only available from L = L N + 200 mm. Casing: left side Water connections: left side K2. 50

Units for suspended ceilings Dimensions and weight supply and extract air Dimensions Typ - -RR-AV L N Ø G G B -2,94 B C HS ØD L B Extract air spigot 2 Primary air spigot Dimensions [mm] B C 593 8 598 8 68 8 623 8 B = Width of front frame Dimensions [mm] L N L ØD HS G 900 50 500 23 34 30 200 450 800 23 34 30 500 750 200 23 34 30 800 2050 2400 23 34 330 200 2350 2700 58 6 330 2400 2650 3000 58 6 430 2700 2950 3000 58 6 530 L = Total length (diffuser face) L N = Nominal length Weight per unit [kg] Nominal length (L N ) in mm 900 200 500 800 200 2400 2700 3000 -LR 8 22 27 32 39 47 54 6 -LQ 7 2 26 3 38 46 53 60 -GL 20 25 3 36 43 52 59 67 -GQ 20 25 3 36 43 52 59 67 Contained water (max.).8 2.4 3 3.6 4.2 4.8 5.4 6 Non-active section as extension: 0 kg/m Extract air spigot Ø23 mm (min. length 250 mm) 3 kg/piece Differences in width and LE can be neglected K2. 5

Dimensions and weight supply and extract air -...-RR-AV -...-LL-AV 0 L N 62 L 52 52 L N 62 0 L Supply and extract air combination is only available with arrangement LL and RR, and from L = L N + 250 mm Casing: right side Water connections: right side Extract air spigot at the front Supply and extract air combination is only available with arrangement LL and RR, and from L = L N + 250 mm Casing: left side Water connections: left side Extract air spigot at the front -...-RR-AH -...-LL-AH 0 L N 62 L 52 52 L N 62 0 L Supply and extract air combination is only available with arrangement LL and RR, and from L = L N + 250 mm Casing: right side Water connections: right side Extract air spigot at the rear Supply and extract air combination is only available with arrangement LL and RR, and from L = L N + 250 mm Casing: left side Water connections: left side Extract air spigot at the rear K2. 52

Specification text Description This specification text describes the general properties of the product. Texts for variants can be generated with our Easy Product Finder design programme. Active chilled beams of Type, with twoway air discharge and high thermal output, providing high thermal comfort levels. For installation flush with the ceiling, preferably in rooms with a height up to 4.20 m. The units consist of a casing with suspension points, a spigot, non-combustible nozzles, and a horizontal heat exchanger. Nozzles in four sizes to optimise induction based on demand. Special features Adjustable air control blades to control the airflow Hinged, removable induced air grille in four designs Horizontal heat exchanger as 2-pipe or 4-pipe system Water connections at the narrow side, Ø2 mm Cu pipe, either with plain tails or with G½" external thread and flat seal Internal nozzle plate with punched nozzles (non-combustible) Materials and surfaces Casing, front frame, nozzle plate, and perforated induced air grille (LR/LQ) made of galvanised sheet steel Blades of the induced air grille (GL/GQ) made of aluminium sections Heat exchanger with copper tubes and aluminium fins Exposed surfaces are powder-coated pure white (RAL 900) or in any other RAL colour Heat exchanger also in black (RAL 9005) Extract air spigot made of galvanised sheet steel Air control blades made of polypropylene, UL 94, flame retardant (V0) Construction Powder-coated RAL 900, pure white, gloss level 50 % P: Powder-coated in any other RAL colour, gloss level 70 % P: Powder-coated RAL 9006, white aluminium, gloss level 30 % Technical data Nominal length: 900, 200, 500, 800, 200, 2400, 2700, 3000 mm Length: 893 3000 mm Height: 20 mm Width: 593, 598, 68, 623 mm Primary air spigot, diameter: 23/58 mm Primary air volume flow rate: 6 85 l/s, 22 306 m³/h Cooling capacity: up to 2450 W Heating capacity: up to 2970 W Max. operating pressure: 6 bar Max. operating temperature: 75 C K2. 53

Specification text Order options Type Active chilled beam Induced air grille GL Longitudinal blades GQ Transverse blades LR Perforated metal, circular holes LQ Perforated metal, square holes Heat exchanger 2 2-pipe 4 4-pipe Nozzle variant Z Small plus M Medium G Large U Extra large Arrangement of casings and connections LL (also available as supply and extract air combination) LR ML MR RL RR (also available as supply and extract air combination) Note L = left side, R = right side, M = centre Extract air spigot No entry: none AV Front AH Rear Available from L = L N + 250 mm Water connections No entry: Ø2 mm pipe with plain tails A With G½" external thread and flat seal Total length (diffuser face) nominal size [mm] L L N Supply air 893-500 900 93-800 200 493-200 500 793-2400 800 2093-2700 200 2393-3000 2400 2693-3000 2700 2993-3000 3000 L is up to 7 mm shorter than L N Supply and extract air combination 50-500 900 450-800 200 750-200 500 2050-2400 800 2350-2700 200 2650-3000 2400 2950-3000 2700 Width of front frame [mm] B 593 598 68 623 Exposed surface No entry: powder-coated RAL 900, pure white P Powder-coated, specify RAL CLASSIC colour Gloss level: RAL 900 50 % RAL 9006 30 % All other RAL colours 70 % Surface of heat exchanger No entry: untreated G3 RAL 9005, black Air control blades No entry: none LE With Valves and actuators No entry: none VS With K2. 54

Basic information and nomenclature air-water systems 9. X X testregistrierung Air-water systems Basic information and nomenclature 9 Product selection Principal dimensions Nomenclature Chilled Beams No. 09.2.432 Eurovent certification K2 9.

Air-water systems Basic information and nomenclature Product selection Air-water systems Passive chilled beams Induction units for ceiling installation Induction units for under sill installation Induction units for under floor installation Type of building 9 Office, administration Hotel School, university Airport, train station Hall Installation location Flush with the ceiling Freely suspended Internal wall External wall / façade Floor Air distribution Mixed flow Inducing displacement flow Displacement flow Basic functions Heating Cooling Ventilation Extract ventilation Possible Possible under certain conditions Not possible K2 9. 2

Air-water systems Basic information and nomenclature Product selection Induction units (active chilled beams) DID32 DID300B Type DID600B-L DID604 DID-R DID-E Installation details Grid ceilings 300 mm 300 mm 600 and 625 mm 600 and 625 mm 600 and 625 mm 600 and 625 mm 600 and 625 mm T-bar ceilings Continuous ceilings Ceiling bulkheads Freely suspended with wide border with wide border with wide border with wide border with wide border with wide border Heat exchanger 2-pipe 4-pipe Condensate drip tray Possible Not possible 9 Product selection Installation details Freely suspended Wall or floor mounted Under floor Heat exchanger 2-pipe 4-pipe Condensate drip tray Induction units (active chilled beams) Passive chilled beams Induction units (active chilled beams) Under sill induction units Induction units for under floor installation DID-SB IDH PKV QLI IDB BID Possible Not possible K2 9. 3

Air-water systems Basic information and nomenclature Principal dimensions Nomenclature L N [mm] Nominal length L N [mm] Nominal length L WA [db(a)] Sound power level t Pr [ C] Primary air temperature t WV [C ] Water flow temperature cooling/heating t R [C ] Room temperature Pr [m³/h] Primary air volume flow rate W [l/h] Water flow rate cooling/heating [l/h] Volume flow rate t W [K] Temperature difference water p W [kpa] Pressure drop, water side 9 t R [C ] Room temperature t AN [C ] Secondary air intake temperature Q Pr [W] Thermal output primary air Q tot [W] Thermal output total Q W [W] Thermal output water side, cooling/heating Pr [l/s] Primary air volume flow rate p t [Pa] Total pressure drop, air side t Pr = t Pr - t R [K] Difference between primary air temperature and room temperature t RWV = t WV - t R [K] Difference between water flow temperature and room temperature t Wm-Ref [K] Difference between mean water temperature and reference temperature K2 9. 4

Air-water systems Basic information and nomenclature Sizing with the help of this catalogue This catalogue provides convenient quick sizing tables for air-water systems. The tables give sound power levels, thermal output values, temperature differences and volume flow rates for all nominal sizes. In addition, generally accepted room temperature and water flow temperature values have been taken into account. Sizing data for other parameters can be determined quickly and precisely using the Easy Product Finder design programme. Easy Product Finder The Easy Product Finder allows you to size products using your project-specific data. You will find the Easy Product Finder on our website. 9 Function The induction principle Induction units provide centrally conditioned primary air (fresh air) to the room in order to maintain the room air quality, and use heat exchangers for cooling and/or heating. The primary air is discharged through nozzles into the mixing chamber. As a result of this, secondary air (room air) is induced via the induced air grille and passes through the heat exchanger into the mixing chamber. Convection Passive chilled beams remove the heat from the room air and transfer it via a heat exchanger to the water (transport medium). More than 90 % of the heat are transferred through convection. As the air passes over the surfaces of the heat exchanger, its temperature decreases while its density increases as a consequence, hence accelerating the downward airflow. The air flows straight down from the top to the bottom of the unit. This further increases the downward airflow (stack effect) and hence the cooling output. K2 9. 5

Air-water systems Basic information and nomenclature Types of ventilation Mixed flow The supply air is discharged from the diffuser into the space with a velocity between 2 and 5 m/s. The resulting air jet mixes with the room air, ventilating the entire space. Mixed flow systems typically provide a uniform temperature Schematic illustration of mixed flow ventilation distribution and air quality within the space. The originally high velocity of the turbulent air jet decreases rapidly due to the high induction levels of mixed flow systems. 9 >2,7 >2.7 m,80.80 m 0,05 0.05 m Schematic illustration of displacement flow ventilationthe supply air is discharged into the space with a velocity between 0.5 and 0.20 m/s and as close as possible to the floor; the result is a pool of fresh air over the entire floor area. The convection from people and other heat sources causes the fresh air from the pool to rise and create comfortable conditions in the occupied zone. Displacement flow ventilation is characterised by low airflow velocities and low turbulence. The air quality in the occupied zone is very high. The extract air should ideally be removed near the ceiling.v Schematische Darstellung Quelllüftung K2 9. 6

Air-water systems Basic information and nomenclature Inducing displacement flow The supply air is discharged near the external wall and with a medium velocity between.0 and.5 m/s. Due to the induction effect the supply air velocity is rapidly reduced such that, in cooling mode, the supply air displaces the room air over the entire floor area. The convection from people and other heat sources causes the fresh air from the pool to rise and create comfortable conditions in the occupied zone. Schematic illustration of inducing displacement flow ventilation 9 Heat exchangers The maximum water-side operating pressure for all heat exchangers is 6 bar. The maximum water flow temperature (heating circuit) for all heat exchangers is 75 C; if flexible hoses are used, the water flow temperature should not exceed 55 C. Units for other pressures and temperatures are available on request. The water flow temperature (cooling circuit) should be at least 6 C such that it does not permanently fall below the dew point. For units with a condensate drip tray the water flow temperature may be reduced to 5 C. Heat exchanger as 2-pipe system Air-water systems with a 2-pipe heat exchanger may be used for either heating or cooling. In changeover mode it is possible to use all units within a water circuit exclusively for cooling in summer and exclusively for heating in winter. Heat exchanger as 2-pipe system Heat exchanger as 4-pipe system Air-water systems with a 4-pipe heat exchanger may be used for both heating and cooling. Depending on the season, i.e. especially in spring and autumn, it may be possible that an office has to be heated in the morning and cooled in the afternoon. Heat exchanger as 4-pipe system K2 9. 7