Type FSL-B-ZAB K2-6.2-FSL-B
Transcription
Type FSL-B-ZAB K2-6.2-FSL-B
FSL-B-ZAB 6.1 – X XFSL-B-ZAB testregistrierung Under sill units Type FSL-B-ZAB Supply and extract air unit with heat exchanger and heat recovery for installation under the sill Levelling foot Ready-to-operate decentralised ventilation unit that provides good comfort levels, used for the ventilation and extract ventilation of rooms Acoustically optimised EC fans with low specific fan powers, SFP = 1 according to EN 13779 Plate heat exchanger for heat recovery (air/air), including bypass with electric actuator Heat exchanger for heating and cooling as 2-pipe or 4-pipe system Filter chamber cover Reduction of fine dust and pollen contamination due to integral filters that conform to VDI 6022 – F7 fresh air filter and G3 extract air filter Easy filter change, no tools required Condensate drip tray with condensate drain H GE Motorised shut-off damper, normally closed (NC) TE ET HY G I ISC ST EN VD Optional equipment and accessories Modular control system, specially for decentralised ventilation systems I 6022 Tested to VDI 6022 06/2014 – DE/en Free cooling and night purge, depending on control strategy Various fixing systems to fix the unit to the floor or wall Powder coating in many different colours, e.g. RAL CLASSIC K2 – 6.1 – 11 6 Under sill units General information FSL-B-ZAB Type FSL-B-ZAB Page General information Order code Quick sizing Dimensions Specification text 6.1 – 12 6.1 – 19 6.1 – 20 6.1 – 22 6.1 – 24 Basic information and nomenclature 9.2 – 1 Installation examples Installation example Installation example Variants FSL-B-ZAB (Traungasse project) FSL-B-ZAB (Bennigsenplatz project) Product examples 6 FSL-B-ZAB (Laimer Würfel project) K2 – 6.1 – 12 06/2014 – DE/en Under sill units General information Description FSL-B-ZAB (Traungasse project) Application – Ventilation of rooms, preferably rooms with a depth up to 6 m – 2-pipe or 4-pipe heat exchangers enable good comfort levels – Inducing displacement flow – Energy-efficient solution since water is used as a medium for heating and cooling – For new buildings and refurbishment projects – Installation under the sill – Typical installation locations include offices and meeting rooms Variants – Traungasse project (Vienna, Austria) – Bennigsenplatz project (Düsseldorf, Germany) – Laimer Würfel project (Munich, Germany) Construction – Powder-coated RAL 9005, black, gloss level 70 % – P1: Powder-coated in any other RAL colour, gloss level 70 % Nominal sizes – 1085 × 630 × 319 mm (B × H × T) (Traungasse) – 1590 × 503 × 400 mm (B × H × T) (Bennigsenplatz) – 950 × 586 × 491 mm (B × H × T) (Laimer Würfel) Useful additions – Modular control system X-AIRCONTROL, specially for decentralised ventilation systems – Connecting hoses Special features – Recuperative heat recovery with motorised bypass – Mechanical self-powered volume flow controller for limiting the fresh air flow rate – Heat exchanger as 2-pipe or 4-pipe system, with G½" union nuts and flat seals – Meets the hygiene requirements of VDI 6022 – Filter class: F7 for fresh air, G3 for extract air – Easy filter change with quick release fasteners, no tools required – Condensate drip tray with condensate drain – Compact construction, hence particularly suitable for refurbishment projects – Demand-based ventilation is possible by means of monitoring the room air quality and with dedicated control equipment – 4 levelling feet (optional) – Installation into a frame as an option – Motorised shut-off dampers for fresh air and exhaust air, normally closed (NC) in order to prevent uncontrolled airflows 06/2014 – DE/en FSL-B-ZAB Construction features – 2 energy-efficient EC fans with low specific fan powers, SFP = 1 according to EN 13779 – Cross flow plate heat exchanger – The supply air is discharged to the room as an inducing displacement flow from the lower front part of the unit – Extract air is taken in to the upper part of the unit Materials and surfaces – Casing, filter chamber cover, fans and levelling feet are made of galvanised sheet steel – Heat exchanger with copper tubes and aluminium fins – Plate heat exchanger made of aluminium – Casing is powder-coated RAL 9005, black, or in any other RAL colour – F7 filter medium made of moisture-resistant glass fibre paper (certified by Eurovent) – Mineral wool lining to DIN 4102, fire rating class A, faced with glass fibre fabric as a protection against erosion, effective with airflow velocities up to 20 m/s – Closed cell sealing strips Installation and commissioning – Under sill installation either standing on the floor or hanging on the wall – Level adjustment using the 4 levelling feet (+45 mm, optional) – Façade installation of the optional frame that can accommodate the function box (Laimer Würfel project) – The connection to the outside is provided by two ventilation openings in the external wall (to be provided by others) – Weather protection for the fresh air and exhaust air openings to be provided by others – Installation and connections to be performed by others; fixing, connection and sealing material to be provided by others – The water flow and return connections are on the right-hand side of the unit when seen from the room – Vents and drainage by others Standards and guidelines – Façade ventilation units of Type FSL-B-ZAB conform to VDI 6035 and VDMA 24390 – Hygiene certificate to VDI 6022 – Heating/cooling medium conforms to VDI 2035 Maintenance – VDI 6022, Part 1, applies (Hygiene requirements on air handling units and systems) – The heat exchanger can be vacuumed with an industrial vacuum cleaner if necessary – It can also be cleaned with commercial, nonaggressive cleaning agents K2 – 6.1 – 13 6 Under sill units General information FSL-B-ZAB Technical data Traungasse Bennigsenplatz Laimer Würfel Width 1085 mm 1590 mm 950 mm Height 630 mm 503 mm 586 mm Depth 319 mm 400 mm 491 mm Fresh air flow rate Up to 150 m³/h Up to 150 m³/h Up to 150 m³/h Supply air flow rate Up to 150 m³/h Up to 150 m³/h Up to 150 m³/h Cooling capacity Up to 690 W Up to 680 W Up to 680 W Heating capacity Up to 2600 W Up to 2780 W Up to 2770 W Max. operating pressure, water side 6 bar 6 bar 6 bar Max. operating temperature 75 °C 75 °C 75 °C Sound power level Supply voltage 31 – 43 dB(A) 32 – 43 dB(A) 35 – 45 dB(A) 230 V AC ±10 %, 50/ 60 Hz 230 V AC ±10 %, 50/ 60 Hz 230 V AC ±10 %, 50/ 60 Hz Schematic illustration of FSL-B-ZAB (Traungasse project) ݣ ݢ X ݨ ݧ ݦ ݪ ݤ X ݥ ݩ 6 ① ② ③ ④ ⑤ K2 – 6.1 – 14 Cover of G3 coarse dust filter chamber Cover of F7 fine dust filter chamber Water connections Condensate drain Supply air temperature sensor (optional) ⑥ ⑦ ⑧ ⑨ Electrical connections Heat exchanger Exhaust air opening Fresh air opening 06/2014 – DE/en Under sill units General information FSL-B-ZAB Schematic illustration of FSL-B-ZAB (Laimer Würfel project) ݢ ݣ X ݦ ݤ ݥ X ݧ ݨ ① ② ③ ④ Frame Electrical connections Water connections Heat exchanger ⑤ F7 filter chamber cover ⑥ Fresh air opening ⑦ Exhaust air opening 6 06/2014 – DE/en K2 – 6.1 – 15 Under sill units General information FSL-B-ZAB Schematic illustration of FSL-B-ZAB (Bennigsenplatz project) ݢ X ݣ ݨ ݤ ݥ ݧ ݪ ① ② ③ ④ ⑤ ݦ X G3 filter chamber cover F7 filter chamber cover Water connections Temperature sensor Heat exchanger ݩ ⑥ ⑦ ⑧ ⑨ Feet Electrical connections Exhaust air opening Fresh air opening 6 K2 – 6.1 – 16 06/2014 – DE/en Under sill units General information Function FSL-B-ZAB Functional description Decentralised supply air and extract air units for room ventilation and extract ventilation and for dissipating cooling loads and heat loads. An EC centrifugal fan takes in the fresh air which then flows through the motorised shut-off damper, the volume flow controller and the F7 filter. Once the fresh air has passed the fan, it flows through the recuperative heat exchanger for heat recovery; it is possible to bypass the recuperative heat exchanger in order to protect it, or when it is sensible with regard to energy efficiency. If necessary, the air is heated or cooled by the heat exchanger before it is discharged to the room as a displacement flow. The extract air first passes a G3 filter, then flows through the heat exchanger (for heat recovery), the extract air fan and the motorised shut-off damper before it is discharged to the outside as exhaust air. Ventilation diagram for FSL-B-ZAB (Traungasse project) 3 2 5 10 7 SEH SET G3 6 M 8 M SRO 1 2 SEH Single room exhaust air SRO Single room fresh air SRS Single room supply air SET Single room extract air 1 Volume flow limiter 2 Non-return damper 3 Shut-off damper 06/2014 – DE/en SRS F7 ƴ ƴ M 3 4 M 5 M 7 9 4 F7 fine dust filter 5 EC fan 6 Recuperative heat recovery 7 Sound attenuator 8 Heat exchanger 9 Bypass damper 10 G3 extract air filter 6 K2 – 6.1 – 17 Under sill units General information FSL-B-ZAB Ventilation diagram for FSL-B-ZAB (Laimer Würfel project) 3 2 5 10 8 G3 SEH SET 6 M M M SRO 1 SRS F7 ƴ ƴ 2 M 3 4 5 SEH Single room exhaust air SRO Single room fresh air SRS Single room supply air SET Single room extract air 1 Volume flow limiter 3 Shut-off damper 2 Non-return damper M 7 8 9 4 F7 fresh air filter 5 EC fan 6 Recuperative heat recovery 7 Bypass damper 8 Sound attenuator 9 Heat exchanger 10 G3 extract air filter 11 G3 extract air filter Ventilation diagram for FSL-B-ZAB (Bennigsenplatz project) 3 2 5 10 8 G3 SEH SET 6 M M M SRO 1 SEH Single room exhaust air SRO Single room fresh air SRS Single room supply air SET Single room extract air 1 Volume flow limiter 2 Non-return damper 3 Shut-off damper 6 K2 – 6.1 – 18 SRS F7 ƴ ƴ 2 M 3 4 5 M 7 8 9 4 F7 fresh air filter 5 EC fan 6 Recuperative heat recovery 7 Bypass damper 8 Sound attenuator 9 Heat exchanger 10 G3 extract air filter 06/2014 – DE/en Under sill units Order code Order code FSL-B-ZAB FSL-B-ZAB FSL - B - ZAB – 4 / 1085 x 319 x 630 / R ݇ Type FSL-B-ZAB ݈ Decentralised under sill ventilation units Heat exchanger 2 2-pipe 4 4-pipe Order information ݉ ݊ Dimensions [mm] B×H×T 1085 × 630 × 319 1590 × 503 × 400 950 × 586 × 491 Control equipment No entry: none R With Decentralised ventilation units are technically advanced products of high quality and with a wide range of configuration options. For specification details regarding your project please contact your nearest TROX branch or subsidiary. 6 06/2014 – DE/en K2 – 6.1 – 19 Under sill units Quick sizing Quick sizing FSL-B-ZAB FSL-B-ZAB (Traungasse) Supply air flow rate m³/h 80 120 Fresh air flow rate m³/h 80 120 150 W 400 570 690 Total cooling capacity 150 Internal cooling capacity W 235 353 416 Temperature of the air in the unit °C 32.0 32.0 32.0 Relative humidity % 40.0 40.0 40.0 Water content of the dry air g/kg 11.9 11.9 11.9 Supply air temperature °C 17.2 17.2 17.7 Condensation g/h 0 0 0 Chilled water flow rate l/h 200 250 250 Water temperature, inlet °C 16 16 16 Water temperature, outlet °C 17.7 18.0 18.4 Pressure drop, water side kPa <4 <5 <5 W 1550 2150 2600 Total heating capacity Internal heating capacity W 489 577 651 Temperature of the air in the unit °C –12.0 –12.0 –12.0 Supply air temperature °C 39.3 35.4 34 Hot water flow rate l/h 100 140 200 Water temperature, inlet °C 60 60 60 Water temperature, outlet °C 46.4 46.6 48.6 Pressure drop, water side kPa <3 <4 <7 dB (A) 31 35 43 dB (A) 23 27 35 Supply air flow rate m³/h 90 120 150 Fresh air flow rate m³/h 90 120 150 W 410 540 680 Sound power level LWA Sound pressure level with 8 dB room attenuation FSL-B-ZAB (Bennigsenplatz) Total cooling capacity Internal cooling capacity W 240 320 400 Temperature of the air in the unit °C 32.0 32.0 32.0 Relative humidity % 40.0 40.0 40.0 g/kg 11.9 11.9 11.9 Supply air temperature °C 18 18 18 Condensation g/h 0 0 0 Chilled water flow rate l/h 100 150 240 Water temperature, inlet °C 16 16 16 Water temperature, outlet °C 19.5 19.1 18.4 Pressure drop, water side kPa <3 <5 <10 Total heating capacity W 1630 2260 2780 Internal heating capacity W 484 721 857 Temperature of the air in the unit °C –12.0 –12.0 –12.0 Supply air temperature °C 36.1 38 37.1 Hot water flow rate l/h 60 130 200 Water temperature, inlet °C 60 60 60 Water temperature, outlet °C 36.2 44.8 47.9 Water content of the dry air 6 Pressure drop, water side Sound power level LWA Sound pressure level with 8 dB room attenuation K2 – 6.1 – 20 kPa <3 <3 <5 dB (A) 32 38 43 dB (A) 24 30 35 06/2014 – DE/en Under sill units Quick sizing Quick sizing FSL-B-ZAB FSL-B-ZAB (Laimer Würfel) Supply air flow rate m³/h 90 120 Fresh air flow rate m³/h 90 120 150 W 410 540 680 Total cooling capacity 150 Internal cooling capacity W 240 320 400 Temperature of the air in the unit °C 32.0 32.0 32.0 Relative humidity % 40.0 40.0 40.0 Water content of the dry air g/kg 11.9 11.9 11.9 Supply air temperature °C 18 18 18 Condensation g/h 0 0 0 Chilled water flow rate l/h 100 160 250 Water temperature, inlet °C 16 16 16 Water temperature, outlet °C 19.5 18.9 18.3 Pressure drop, water side kPa <3 <5 <10 W 1680 2230 2770 Total heating capacity Internal heating capacity W 523 689 847 Temperature of the air in the unit °C –12.0 –12.0 –12.0 Supply air temperature °C 37.4 37.2 36.9 Hot water flow rate l/h 70 120 200 Water temperature, inlet °C 60 60 60 Water temperature, outlet °C 39.0 43.7 47.9 Pressure drop, water side Sound power level LWA Sound pressure level with 8 dB room attenuation kPa <3 <3 <5 dB (A) 35 40 45 dB (A) 27 32 37 6 06/2014 – DE/en K2 – 6.1 – 21 Under sill units Dimensions Dimensions Weight upon request FSL-B-ZAB FSL-B-ZAB (Traungasse) 1085 319 630 1050 170 547 217 FSL-B-ZAB (Laimer Würfel) 949 586 394 32 491 45 357 946 6 K2 – 6.1 – 22 256 315 06/2014 – DE/en Under sill units Dimensions 505 FSL-B-ZAB (Bennigsenplatz) 430 Dimensions FSL-B-ZAB 370 45 1500 410 1590 45 6 06/2014 – DE/en K2 – 6.1 – 23 Under sill units 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. Order options 6 Decentralised supply and extract air units of Type FSL-B-ZAB, with heat recovery and heat exchanger, for installation under the sill or into the façade. Special features – Recuperative heat recovery with motorised bypass – Mechanical self-powered volume flow controller for limiting the fresh air flow rate – Heat exchanger as 2-pipe or 4-pipe system, with G½" union nuts and flat seals – Meets the hygiene requirements of VDI 6022 – Filter class: F7 for fresh air, G3 for extract air – Easy filter change with quick release fasteners, no tools required – Condensate drip tray with condensate drain – Compact construction, hence particularly suitable for refurbishment projects – Demand-based ventilation is possible by means of monitoring the room air quality and with dedicated control equipment – 4 levelling feet (optional) – Installation into a frame as an option – Motorised shut-off dampers for fresh air and exhaust air, normally closed (NC) in order to prevent uncontrolled airflows Type FSL-B-ZAB__ Decentralised under sill ventilation units Heat exchanger 2 2-pipe 4 4-pipe K2 – 6.1 – 24 FSL-B-ZAB Materials and surfaces – Casing, filter chamber cover, fans and levelling feet are made of galvanised sheet steel – Heat exchanger with copper tubes and aluminium fins – Plate heat exchanger made of aluminium – Casing is powder-coated RAL 9005, black, or in any other RAL colour – F7 filter medium made of moisture-resistant glass fibre paper (certified by Eurovent) – Mineral wool lining to DIN 4102, fire rating class A, faced with glass fibre fabric as a protection against erosion, effective with airflow velocities up to 20 m/s – Closed cell sealing strips Construction – Powder-coated RAL 9005, black, gloss level 70 % – P1: Powder-coated in any other RAL colour, gloss level 70 % Technical data – Width: 1085, 1590, 950 mm – Height: 630, 503, 586 mm – Depth: 319, 400, 491 mm – Fresh air flow rate: up to 150 m³/h – Supply air flow rate: up to 150 m³/h – Cooling capacity: up to 690 W – Heating capacity: up to 2780 W – Max. operating pressure: 6 bar – Max. operating temperature: 75 °C – Sound power level: 31 – 45 dB(A) – Supply voltage: 230 V AC ±10 %, 50/60 Hz – Rating: up to 65 VA – Power consumption: up to 41 W with boost level, up to 22 W with medium speed (nominal volume flow rate) Dimensions [mm] B×H×T 1085 × 630 × 319 1590 × 503 × 400 950 × 586 × 491 Control equipment No entry: none R With 06/2014 – DE/en Basic information and nomenclature – decentralised ventilation 9.2 – X X testregistrierung Decentralised ventilation Basic information and nomenclature 9 Product selection Principal dimensions Nomenclature 06/2014 – DE/en K2 – 9.2 – 1 Decentralised ventilation Basic information and nomenclature Product selection Fa ade ventilation units FSL-U-SEK FSL-U-ZUS FSL-U-ZAB FSL-U-ZAS ● ● ● ● FSL-B-SEK FSL-B-ZUS FSL-B-ZAB ● ● ● Installation details Under floor (false floor) Under the sill Ventilation functions Secondary air ● Supply air ● ● ● Extract air ● ● ● Heat exchanger 2-pipe or 4-pipe heat exchanger ● F7 filter ● ● ● ● ● ● Heat recovery with bypass 9 ● Possible Not possible Product selection Façade ventilation units FSL-B-ZAS SCHOOLAIR-B ● ● FSL-V-ZUS FSL-V-ZAB SCHOOLAIR-V ● ● ● SCHOOLAIR-D Installation details Under the sill Vertical installation on an external wall, e.g. adjacent to a window Ceiling ● Ventilation functions Secondary air Supply air ● Extract air ● ● ● ● ● ● ● ● Heat exchanger 2-pipe or 4-pipe heat exchanger ● F7 filter ● ● Heat recovery with bypass ● Possible Not possible K2 – 9.2 – 2 06/2014 – DE/en Decentralised ventilation Basic information and nomenclature Principal dimensions LN [mm] Nominal length Nomenclature tR [°C] Room temperature tPr [°C] Primary air temperature tWVK [°C] Water flow temperature – cooling WK [l/h] Water flow rate – cooling tWVH [°C] Water flow temperature – heating tWV [°C] Water flow temperature WH [l/h] Water flow rate – heating Pr [m³/h] Primary air volume flow rate ∆pr [Pa] 06/2014 – DE/en Pressure drop, air side of the induction unit tot [W] Thermal output – total WK [W] Thermal output, cooling (cooling capacity) – water side WH [W] Thermal output, heating (heating capacity) – water side Pr [W] Thermal output – air side ∆tW [K] Temperature difference – water circuit ∆pW [kPa] Pressure drop – water side LWA [dB(A)] Sound power level K2 – 9.2 – 3 9 Decentralised ventilation 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 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. Schematic illustration of mixed flow ventilation 9 1,80 m 1.80 >2,7 m >2.7 ݢ ݤ 0,05 m 0.05 ݣ Displacement flow Die Zuluft strömt möglichst bodennah mit velocity between 0.15 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. Schematic illustration of displacement flow ventilation K2 – 9.2 – 4 06/2014 – DE/en Decentralised ventilation Basic information and nomenclature Inducing displacement flow The supply air is discharged near the external wall and with a medium velocity between 1.0 and 1.5 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 06/2014 – DE/en K2 – 9.2 – 5 Decentralised ventilation Basic information and nomenclature Heat exchanger Heat exchanger The water flow temperature (cooling circuit) should be at least 16 °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 15 °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 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. 9 K2 – 9.2 – 6 06/2014 – DE/en