Air distribution systems. Adjustable radial outlet RA-V...

Air distribution systems Adjustable radial outlet RA-V... DS E 0.2013

Construction design Preliminary remarks KRANTZ KOMPONENTEN has developed its wellknown, successful radial outlet into an adjustable radial outlet. The supply air can be discharged from almost horizontal to vertically downwards. Special features are its low height and simple construction; it operates in the same way as our famous variable twist outlet. The adjustable radial outlet generates turbulent mixing air flow and is well suited for indoor spaces with no significant pollutant loads as well as for large discharge heights. It can be installed flush with the ceiling or free-hanging. Construction design The adjustable radial outlet is available with circular or square face. The square face can be optionally fitted with an outer skirting contact edge for ceiling attachment or with a 90 turn-up for installation in square tile ceilings. a 1a 1c Nom. ø DN 3 1b Fig. 2: Adjustable radial outlet with circular face 6 The air outlet element consists of the outlet casing 1a, the moulded face 1b and the built-in radial vanes 1c. The fixed disc 3 with fastening screw is located in the centre of the discharge plane. The discharge direction is adjusted by rotating a vertically mobile guide ring. Depending on size, the maximum lift ranges from 16 mm to mm. For manual adjustment, the guide ring is fitted with two opposite cams 6 on the inside. For motorized adjustment, a servomotor is fastened to a console a above the outlet casing 1a. The radial outlet can be removed downwards after loosening the fastening screw. The air outlet can be connected to the duct system either directly using a circular duct to EN 16 (by others) or via a connection box 8 (see pages and ). Using a spigot 1 (by others), the adjustable radial outlet can also be fitted onto the bottom of a rectangular duct. At the side of the connection box is the connection spigot 11 for junction to the duct system. A volume flow damper 9 can be preinstalled in the connection spigot and operated either directly at the spigot or from the room via an adjustment device 1. The connection spigot is available smooth or with a lip seal 11a (on request). For increased insertion loss, the connection box is available with acoustic lining. Mode of operation Depending on the connection type, the supply air flows either directly from the air duct or via the connection box into the air outlet and through its radial vanes into the room. This produces high-induction air jets with pronounced turbulence. If the vertically mobile guide ring is in the upper position, the air jets glide along the curved exit, resulting in a radial, horizontal jet deflection. The resultant jet pattern causes a strong admixture with ambient air and, consequently, rapid equalization of supply air temperature and indoor air temperature. In the upper guide ring position, supply air discharge is radial and horizontal. It is used for air supply in rooms with low discharge height or high cooling loads (Figure 3a). www.krantz.de DS E p. 2 0.20/1 Fig. 1: Adjustable radial outlet with circular face Top: Guide ring retracted for cooling Bottom: Guide ring extracted for heating If the guide ring is moved downwards, the supply air jets shift progressively to vertical. 2

Mode of operation The guide ring is positioned between upper and lower position where air discharge is from large heights and the HVAC system is operating in the partial load range (Figure 3b). When the guide ring is fully extracted, all the supply air flows downwards. This position is selected for heating or heating-up operation (Figure 3c). The adjustable radial outlet is ideal for both commercial and industrial applications. a) Air outlet data Discharge Nom. ø Volume flow rate height Max. temperature difference supply air indoor air DJ DN V. min V max H Cooling Heating m 3 /h m K K 220 222 2. 6 12 22 8 280 280 2.8 6 2 9 3 3 1 2.8 6 3 116 2 000 3 8 12 3 19 00 2 0 3 9 0 2 1 0 3 3. 12 0 1 0 1 0 0 13 b) Fig. : Left: Right: Photographs of connection types With connection box Connection to spiral seam duct c) www.krantz.de DS E p. 3 0.20/1 Fig. 3: Jet pattern of adjustable radial outlet at different positions of the guide ring 3

Connection types and dimensions Connection to circular duct Connection to air duct with spigot 16 ø D 1 2b 1) 1 ø D 1 2b 1) H ) a b 1 Lift 2a 6 H 3) a b 6 2a Lift H 8 Nom. ø DN 3 Nom. ø DN 3 ø D 2 2) ø D 2 2) ø D or E ø D or E L Connection to connection box L 1 2 9 L 8a 11 9 8 b a 2b 1) ø D 1 L 11a ø D H H 1 B B B Lift 3 Nom. ø DN ø D 2) 2 ø D or E Nom. Dimensions in mm ø H 2 3) 12 E 11 Top view Weight in kg ) DN L B ø D E ) H L 1 L H 1 H 3) 2-M H 3) 2-E H 3) -M H 3) -E H 8 Lift ø D 1 ø D 2) 2 ø D 2 280 2 1 32 12 2 16 199 2 199 1.. 22 0 3 2 1 3 1 1 18 223 21 223 1. 6.1 2 3 0 1 6 116 1 3 20 2 2 2 2.1.3 3 0 0 0 19 128 1 2 0 3.1. 3 0 0 21 2 80 1 1 2 3 8 3 3. 12.9 0 0 0 80 2 6 86 16 1 0 9 2 9.. 0 0 80 0 6 0 1 186 0 9 2 9.8 1.2 www.krantz.de DS E p. 0.20/1 1) Standard for connection box, optional for duct connection ) Weight without servomotor; weight of servomotor 0. 1.2 kg 2) Ceiling cutout air outlet; air outlet with connection box 3) Index M with manual adjustment, E with adjustment by electric servomotor ) Standard dimensions, others on request (see also table on page )

Connection types and data Connection box with V damper in connection spigot, adjustable from room L L 1 Suspensions Detail E ø 9 Detail E, page ø 9 A 12 8 2b 1) 1 b ø D a 1 9 11 Y 3 Nom. ø DN 13a 13b View A Suspension with quick fastener View A Suspension with M8 threaded rod, nut and lock nut www.krantz.de DS E p. 0.20/1 Z 12 1) ø D Detail Y Flush contact edge for ceiling attachment E Detail Z 90 turn-up for installation in square tile ceilings Dimensions in mm Contact edge 2) Detail Y 90 turn-up 2) Detail Z Circular face DN min. E max. E min. E max. E Ø D 28 22 32 320 3 2 3 3 3 0 0 3 0 0 0 0 0 0 6 6 Possible external dimensions of outlet faces Key for all pages 1 Adjustable radial outlet 1a Outlet casing 1b Face 2a Screw or rivet fastener 2b Crossbeam for central fastening 3) 3 Disc Fastening screw M6 for DN, M8 from DN 22 upwards Guide ring 6 Cam for manual adjustment Servomotor with cable (0.9 m) a Console b Cable bushing 8 Connection box 8a Acoustic lining (optional) 9 V damper (optional) Sleeve at connection box 11 Connection spigot, smooth 11a Connection spigot with lip seal on request 12 Bore for suspension 13a Suspension with quick fastener ) 13b Suspension with M8 threaded rod and nuts ) 1 Adjustment device for V damper (optional) Circular duct (by others) 16 Rectangular duct (by others) 1 Spigot for connection to rectangular duct (by others) 1) Turn-up with different height on request! 2) Min. and max. dimensions for specific requirements on request 3) Standard for connection box, optional for duct connection ) Suspension by others

Comfort criteria Sound power level and pressure drop Sound power level and pressure drop are influenced by air volume flow rate, connection type and guide ring position. Values for sound power level and pressure drop can be read off the nomograms on pages to 9. Sound power levels across octave band centre frequencies for all nominal sizes are tabulated on page. Comfort criteria 1) The outlet layout must comply with the maximum allowable indoor air velocities u in the occupied zone in the cooling mode. The indoor air velocity depends on the cooling load that is to be removed from the room. The maximum specific cooling capacity q depends on the discharge height and the maximum allowable indoor air velocity u (Graph 1). Key for layout: = volume flow rate per air outlet in = max. volume flow rate per air outlet when cooling in min = min. volume flow rate per air outlet when cooling in min H = min. volume flow rate per air outlet in, when heating, with DJ =..K V Sp max = max. specific volume flow rate per m 2 of floor area in l/(s m 2 ) V Sp tats = actual specific volume flow rate per m 2 of floor area in l/(s m 2 ) u = max. allowable indoor air velocity in m/s q = max. specific cooling capacity in W/m 2 DJ max = max. temperature difference supply air to return air in K t min = minimum air outlet centre spacing in m H = discharge height in m L WA = sound power level in db(a) ref. -12 W Dp t = total pressure drop in Pa = Duct connection, vertical discharge = Duct connection, horizontal discharge = Connection box, vertical discharge = Connection box, horizontal discharge Graph 1 enables to determine for the cooling mode the maximum specific volume flow rate V Sp max in relation to the maximum specific cooling capacity and the maximum temperature difference DJ max. The volume flow rate supplied to the room V Sp tats may not exceed this value. Graph 2 enables to determine the minimum centre spacing between two outlets on the basis of the maximum specific volume flow rate. Temperature difference max K 2 20 2 20 20 0 0 0 0 0 0.1 0.2 0.3 0. Maximum allowable indoor air velocity u in m/s Maximum specific volume flow rate V Sp max in l/(s m 2 ) Maximum specific cooling capacity q in W/m 2 Graph 1: Maximum specific volume flow rate 2. Min. air outlet centre spacing t min in m Min. air outlet centre spacing t min in m 6 3 2 20 0 0 0 Air outlet volume flow rate in 1 13 12 11 9 8 6 Max. specific volume flow rate V Sp max in l/(s m 2 ) Max. specific volume flow rate V Sp max in l/(s m 2 ) 18 18 www.krantz.de DS E p. 6 0.2013 1) See our brochure ref. TB Layout specifications for thermal comfort 2 0 1 0 1 00 Air outlet volume flow rate in Graph 2: Minimum air outlet centre spacing 6

Nomograms ; min H 00 0 0 220 1 DN K K 220 1 + 0 0 90 80 0 min H V A min = [220 m 3 /h] 2. 3 6 0 90 80 0 and and 20 0 20 0 Sound power level L WA in db(a) ref. -12 W ; min H 00 280 2 DN 22 K K 280 2 + 0 0 1 K 1 0 2 0 90 80 min H min = 8 [280 m 3 /h] 0 90 80 and and 2. 3 6 20 0 20 0 Sound power level L WA in db(a) ref. -12 W www.krantz.de DS E p. 0.20/1 ; min H 1 0 00 0 0 0 0 2 1 DN 2 K K K min H 0 2 1 and and 0 V 0 A min = 9 [3 m 3 /h] 90 90 8 8 2. 3 6 0 20 0 Sound power level L WA in db(a) ref. -12 W +

Nomograms 2 0 2 000 1 0 ; min H 0 0 0 DN 3 K K K 0 0 0 00 0 min H min = 116 [ m 3 /h] and and 0 1 1 3 6 8 2 0 20 0 0 Sound power level L WA in db(a) ref. -12 W 2 0 2 000 ; min H 20 00 0 0 DN 3 K K 20 00 0 0 + 0 K 0 0 min H and and min = 19 [00 m 3 /h] 3 6 8 9 2 0 20 0 Sound power level L WA in db(a) ref. -12 W 0 00 3 000 2 000 ; min H 1 00 00 0 0 0 K DN 0 K K 1 00 0 0 0 www.krantz.de DS E p. 8 0.20/1 min H min = 2 [ m 3 /h] and and 220 220 3 6 8 9 11 12 0 20 0 Sound power level L WA in db(a) ref. -12 W 8

Nomogram ; min H 6 0 6 000 0 1 0 000 000 3 000 DN 0 K K K 1 00 1 0 + 00 00 2 000 0 0 min H min = [1 0 m 3 /h] 0 0 and and 1 0 0 0 6 8 9 11 12 13 0 2 0 0 Sound power level L WA in db(a) ref. -12 W www.krantz.de DS E p. 9 0.2013 Layout example for air outlet size: DN 2 Connection box DN 0 Duct connection Place of use: Shopping mall Congress centre 1 Supply air volume flow rate V 0 13 2 Discharge height H m 8 m 3 Floor area A 6 m 2 1 0 m 2 Max. allowable sound power level L WA db(a) ref. -12 W db(a) ref. -12 W Max. temperature difference supply air return air DJ when cooling DJ when heating + K + K 6 Comfort criteria (see page 6) Max. allowable Graph 1, p. 6 Graph 1, p. 6 indoor air velocity u 0.2 m/s 0.2 m/s Max. specific volume flow rate V Sp max Graph 1, p. 6 11.6 l/(s m 2 ) Graph 1, p. 6 9.8 l/(s m 2 ) Actual specific volume flow rate V Sp tats [from 1 : 3] 8. l/(s m 2 ) [from 1 : 3] 8. l/(s m 2 ) Criterion is met if V Sp tats < V Sp max From nomogram Page, bottom Page 9, top 1 1 3 8 min H at 1 DJ = + K DJ = + K 9 selected 280 8 Z [V : ] 20 units 16 units 11 L WA max db(a) ref. -12 W db(a) ref. -12 W 12 Dp t max 1 Pa Pa 13 t min [Graph 2 on page 6].9 m 9.3 m Fig. : Adjustable radial outlet in the meeting room of a hotel 9

Sound power level and total pressure drop Air outlet volume flow rate V Duct connection Total pressure drop Sound power level L W in db ref. -12 W Box connection Total pressure drop Sound power level L W in db ref. -12 W Dp t L WA Octave band centre frequency in Hz Dp t L WA Octave band centre frequency in Hz m 3 /h Pa db(a) 12 2 0 1 K 2 K K Pa db(a) 12 2 0 1 K 2 K K DN 83 28 26 28 2 19 22 32 2 2 1 93 116 6 112 1 222 196 2 2 28 DN 22 111 0 3 2 28 22 20 26 1 19 00 93 6 28 6 12 28 189 21 21 2 0 DN 2 1 0 2 28 22 3 19 2 11 2 96 11 1 1 3 1 201 2 2 289 1 DN 3 28 6 6 32 3 2 1 6 18 22 1 0 98 113 118 1 2 000 13 201 211 2 1 1 DN 3 3 1 3 3 2 16 23 6 6 6 16 20 0 1 8 9 6 112 1 2 0 DN 0 1 0 2 0 889 3 DN 0 2 000 8 3 000 1 193 86 2 1 181 22 2 32 2 23 1 20 13 22 28 199 2 1 18 2 2 81 0 3 1 0 6 6 19 26 18 2 12 26 3 www.krantz.de DS E p. 0.20/1 1 111 000 8 8 6 6 1 = Duct connection, horizontal discharge = Duct connection, vertical discharge = Connection box, horizontal discharge = Connection box, vertical discharge

Main features Turbulent mixing air flow Discharge direction steplessly adjustable from horizontal to vertical (downwards) Stable supply air jets, also at minimum volume flow rate Discharge heights of 2. m to 13 m, depending on nominal diameter and volume flow rate Jet penetration depth adaptable to room height and heat load Adjustment either manually or with servomotor Radial vanes flush with face For installation flush with suspended ceilings or free-hanging from the ceiling sizes from DN to DN 0 Fig. 6: Vertical discharge when heating, discharge from great height Volume flow rate range from to 1 0 [220 to 0 m 3 /h] Max. temperature difference supply air indoor air: when cooling, + K when heating Radial outlet easily removable from the bottom Connection either to a circular duct to EN 16 or to the rectangular air duct via a spigot, or to a connection box with connection spigot; connection box optionally available with acoustic lining www.krantz.de DS E p. 11 0.20/1 V. damper optionally available for type with connection box, adjustable from room Spigot of connection box either smooth or with lip seal (on request) Available as standard with circular or square face Radial outlet made of painted sheet metal; connection box made of galvanized sheet metal Fig. : Adjustable radial outlet in the ceiling of a restaurant, sectional view 11

Type code and tender text Type code RA-V DN Adjustable radial outlet Mounting Geometry Size Connection type Damper Insulation Adjustment Mounting D = flush with ceiling F = freely suspended (free-hanging) Surface finish Geometry RS = round face Q1 = square face for square tile ceiling 0 mm x 0 mm 1) Q2 = square face for square tile ceiling mm x mm 1) Size = DN 3 = DN 3 22 = DN 22 0 = DN 0 2 = DN 2 0 = DN 0 3 = DN 3 Connection type O = no connection piece (only discharge element) R = duct connection with rivet or screw connection T = duct connection with central fastening screw and cross bar K = connection box Damper O = no volume flow damper R = with volume flow damper adjustable from room Insulation O = without acoustic lining I = with acoustic lining Adjustment DN DN 0 DN 0 MA = manual E1 E2 E3 = Siemens servomotor, 0 V modulation, rotation drive type GDB1.1E = Siemens servomotor, 3-point type, 2 V, rotation drive type GDB1.1E = Siemens servomotor, 3-point type, 2 V, rotation drive type GDB1.1E E = Belimo servomotor, 0 V modulation, rotation drive type LM2A-SR E = Belimo servomotor, 3-point type, 2 V, rotation drive type LM2A E6 = Belimo servomotor, 3-point type, 2 V, rotation drive type LM2A E E8 E9 = Belimo servomotor, 0 V modulation, rotation drive type NM2A-SR = Belimo servomotor, 3-point drive, 2 V, rotation drive type NM2A = Belimo servomotor, 3-point drive, 2 V, rotation drive type NM2A E13 = Siemens servomotor, 0 V modulation, rotation drive type GLB1.1E E1 = Siemens servomotor, 3-point type, 2 V, rotation drive type GLB1.1E E = Siemens servomotor, 3-point type, 2 V, rotation drive type GLB1.1E Surface finish 90 = face painted to RAL 90, semi-matt... = face painted to RAL... Tender text... units Adjustable radial outlet for air distribution at large discharge heights and generation of high-quality indoor air flow with highinduction radial air jets, discharge direction steplessly adjustable from horizontal to vertical (downwards), optional flat connection box with lateral spigot, bottom sleeve to accommodate the radial outlet, and internal crossbeam for central fastening of outlet, including bores in upper box flanges, for suspension, optionally fitted with: volume flow damper adjustable from room, acoustic lining. Mounting flush with ceiling or freely suspended. consisting of: low outlet element with circular casing, moulded face and radial vanes vane underside flush with surrounding face, either with circular face for flush mounting or with square face with turn-up for installation in square tile ceiling, vertically mobile guide ring for adjustment of discharge direction from nearly horizontal to vertical, manually or by electric servomotor, disc with central fastening screw; optionally designed for connection to the duct system, directly to a circular duct or via a spigot; fastening either with surrounding riveting or screwing (by others) or with central fastening screw for crossbeam 2) to be provided with the radial outlet. Material: Radial outlet element made of galvanized sheet metal, visible air outlet parts painted to RAL... Connection box made of galvanized sheet metal. Make: Type: Subject to technical alterations. 1) Square face only up to DN 0 KRANTZ KOMPONENTEN RA-V DN 2) Best used for placement of radial outlets in false ceilings www.krantz.de DS E p. 12 0.20/1 Krantz GmbH Uersfeld 2, 02 Aachen, Germany Phone: + 2-1 Fax: + 2 - info@krantz.de www.krantz.de