BA AHU Catalogue

Fans | Air Handling Units | Air Distribution Products | Fire Safety | Air Curtains and Heating Products | Tunnel Fans Air Handling Units BA Unit 2 | Systemair Spread the secret of better air! Systemair : world’s largest air handling unit manufacturer Since 1974, Systemair has been working towards simplifying ventilation systems. Today, the company is one of the global leaders in the field of ventilation technology. A success story that started in Skinnskatteberg Sweden, revolutionised the world of ventilation with the invention of the circular duct fan. Systemair | Contents Systemair worldwide......................................................................... 4-5 Unit dimensions..............................................................................33-37 Systemair India................................................................................... 6-7 BA selection program.......................................................................... 38 Product range..................................................................................... 8-9 Performance certificates...............................................................39-40 A good indoor climate is vital............................................................. 10 Resulting class according EN 1886:2007........................................ 41 Selection tools...................................................................................... 11 Few of our valued customers......................................................41-43 Technical data Air handling units - overview......................................................14-16 Example of applications...................................................................... 17 BA Air handing units......................................................................18-28 Selection of a BA unit....................................................................28-32 Ever-since, Systemair has continued to grow and today it offers a complete range of standard-setting ventilation technologies. Whether it is the ventilation concept for a shopping mall, the controlled residential ventilation of a single-family home or the ventilation of tunnels and metro stations - Systemair experts are familiar with the conditions and have the necessary know-how. More than 4,100 employees in more than 56 subsidiaries in over 45 countries ensure the necessary proximity to the customer. We invite you to join us in discovering the world of ventilation technology in this brochure. 3 4 | Systemair Systemair Worldwide Systemair-Production worldwide Skinnskatteberg, Sweden: Mülheim an der Ruhr, Germany: Maribor, Slovenia: Head office of the Systemair group, distribution center and largest production facility with one of Europe’s most advanced R&D-centers. Frico’s central warehouse is also located here. Menerga is a leading European producer of air handling units for swimming pool halls and comfort ventilation with extra high efficiency. Specialized in centrifugal smoke extract fans, EN certified. Windischbuch, Germany: Hässleholm, Sweden: Production of modular air handling units. VEAB is the leading European manufacturer of electric duct heaters. Production of heating and cooling coils, electric and water based. Production facility for fans and modular air handling units, specialized on engineered products (e.g. tunnel and jet fans). Distribution center. Langenfeld, Germany: Production of air curtains. Ukmerge, Lithuania: Production of smaller air handling units with energy recovery systems. Hasselager, Denmark: Dal, Eidsvoll, Norway: Production of air handling units for the Norwegian market. Bratislava, Slovakia: The factory in Bratislava manufactures air distribution products and EN certified fire and smoke dampers. Systemair | Quality: Systemair is certified in accordance with ISO 9001; ISO 14001 and ATEX. Our research and development laboratories are one of the most modern in Europe; measurements are made in accordance with international standards like AMCA and ISO. Bouctouche, Canada Kansas City, USA Save energy, lower running cost! Our label "Green Ventilation" features products with a high energy saving potential.All products labelled with "Green Ventilation" combine energy economy with energy efficiency. Skinnskatteberg, Sweden Dal, Eidsvoll, Norway Hässleholm, Sweden Hasselager, Denmark Ukmerge, Lithuania Waalwijk, Niederlande Langenfeld, Germany Mülheim an der Ruhr, Germany Bratislava, Slovakia Tillières-sur-Avre, France Maribor, Slovenia Windischbuch, Germany Milano, Italy Istanbul, Turkey Madrid, Spain Wujiang, China New Delhi, India Hyderabad, India Kuala Lumpur, Malaysia Madrid, Spain: Istanbul, Turkey: Kuala Lumpur, Malaysia : Production of air handling units for the southern European market. Systemair-HSK is Turkey‘s leading manufacturer of air handling units. Production and marketing of products for Tunnel and garage ventilation. Milan, Italy: Bouctouche, Canada: Hyderabad, India: Our factory in Italy, Systemair AC, develops and manufactures a wide range of air conditioner. Waalwijk, Netherlands: Holland Heating is Netherlands leading manufacturer of air handling units. Tillières-sur-Avre, France: Production of air conditioning products. Our main North American production facility of air handling units and inline fans for commercial and residential applications is located in Bouctouche. Kansas City, USA: Production of fans for the US market. Production of air distribution products. Greater Noida (Near New Delhi), India: Production of duct, axial and box fans, air distribution products & air handling units. Wujiang, China: Production of air handling units for the Asian market. 5 6 | Systemair Systemair India Greater Noida India manufacturing facility Systemair India Systemair India Pvt. Ltd. (100% owned subsidiary of Systemair AB, Sweden) is having sales offices in 9 Cities- Noida, Bangalore, Chennai, Hyderabad, Kolkata, Pune, Mumbai, Ahmedabad, Cochin and 2 state-ofart, ultra modern manufacturing plants having 12000 m2 area in Greater Noida & Hyderabad to support local market needs with minimum possible time for delivery. A team of more than 380 professionals are working for the company today, looking after sales, technical support, production and logistics in the asian market. Systemair India is a proud member of AMCA. We are building up test rig in accordance to AMCA 210-07 at Greater Noida facility to test our products perforamnce. Core values and vision •• Core values-Simplicity and reliability •• Mission-Develop, manufacture and market high-quality ventilation products •• Trust-Reliability and Trust are most important factors to our customers. Goals and strategies •• Innovative product development and extensive product range together with a focus on energy efficient ventilation products. •• High product availability and fast delivery through efficient production and logistics. •• Development and expansion of distribution network. •• Good relationships with installers, distributors and consultants to help Systemair to be perceived as a leading supplier of high quality ventilation products. •• To increase export business in Asian countries for Air handling Units and Air distribution products Systemair | Product range •• Fans and accessories •• Air curtains and fan heaters •• Air handling units •• Fire safety ventilation Ventilation fans Air distribution products Modern and efficient production •• Over 12000 m2 of production area in 2 factories. •• Well invested and specialised factories. •• ISO Certification 9001:2008 •• Strategy of modernising production facilities to keep quality and reducing lead time. Certified products for clean indoors!! •• Focus on energy efficient, environment and user friendly products. •• Proud member of AMCA. •• Axial Fan are certified as per AMCA international. •• High temperature fans are certified as per EN12101-3 for 300⁰C for 2 hours. •• Follows ETL Testing Lab U.S.A for Performance testing of Air distribution products like Grilles & Diffusers. •• Air distribution products (Grilles , Diffuser, Dampers, Louvers etc.) •• Duct attenutors •• Garage and tunnel fans. Air handling units •• Fire dampers are certified by CBRI Roorkee (as per UL555) and also as per BS-476 Part 20. •• Sound Attenuators certified in SRL, U.K for the static insertion loss as per BS 4718-1971. •• EUROVENT certified BA series of AHUs. •• BS/EN1886:2007 for strength of casing, tightness, thermal resistance, thermal bridging and Filter bypass leakage for AHU. •• EN13053 for air flow-static pressure performance, heat transfer and heat recovery performance. •• Fire Damper series FSD-A-L, FSD-A-S are certified by UL. 7 8 | Systemair Product range Systemair has an extensive range of ventilation products, fans, air handling units and air terminal devices for various applications. These products are installed in a variety of locations, including homes, offices, healthcare premises, shops, pharmaceutical industry, industrial buildings, tunnels, parking garages, training facilities, sports centres etc. The most common usage is comfort ventilation, but safety ventilation in various forms is also an important market. Smoke gas ventilation and tunnel ventilation are two examples. FANS Circular duct fans Rectangular duct fans Duct fans with a circular connection. Duct fans with a rectangular connection. Radial fans Box fans Single-inlet radial fans. For extract air systems that transport normal or high-temperature media. Axial fans Roof fans Axial fans for duct connection or wall mounting. Roof fans with a circular or square connection. Explosion-proof fans Jet fans Thermo fans Explosion-proof fans for duct, roof and axial installations. The jet fan range includes products for garages and road and rail tunnels. Systemair supplies high temperature fans that can withstand conditions of up to 600°C for 120 minutes. Systemair is one of the world’s largest suppliers of fans for use in various types of property. Our range includes everything from duct fans with a round connection – the company’s original product - to rectangular duct fans, roof fans, axial fans, explosion-proof fans, and smoke gas fans. These fans can be supplied in sizes suitable for everything from ducts with a diameter of just 100 mm to large road tunnel fans. All our fans have been developed to comply with stringent requirements and are characterised by user-friendliness, a high level of quality and a long service life. Systemair | SAFETy VENTILATION VENTILATIoN FIRE SAFETY Smoke gas fans Fire dampers Systemair produces fans, dampers and control equipment for protection against smoke and fire certified for use during normal operation and in the event of a fire. The axial fans are certified for installation inside or outside fire risk areas. High-capacity fans for evacuation of smoke gases. Dampers that reduce the spread of smoke and fire. RESIDENTIAL VENTILATION VENTILATIoN Residential units Complete energy-efficient air handling units with heat recovery and builtin control systems. Designed to be mounted over the cooker, on walls or horizontally in attics. For homes with living areas of 60-320 m . Good at capturing odours even at low airflows. AIR TERMINAL DEVICES Supply, extract & transfer air terminal devices Nozzle air devices Systemair’s range also includes a wide selection of air terminal devices for all possible environments and positions. Development and manufacture take place at a modern factory in Slovakia. AIR HANDLING UNITS Systemair manufactures compact as well as commercial air hanling units. Majority of models are Eurovent certified. Cooker hoods 2 2 Optimum air distribution for rooms. For mounting in ceilings or walls. Supply & extract air ventilator Duct products For mounting in ceilings and walls. Dampers, plenum boxes, and duct accessories. BA Unit DV Unit 9 10 | Air handling units A good indoor climate is vital We often take natural resources such as fresh air for granted. We must however remain frugal with this essential resource and mindful of maintaining a responsible balance between the designing of good ventilation systems and considering energy consumption and well thought out material usage and production methods. Systemair has recognized this need and has developed the "Green Ventilation" registered trade mark for ventilation labelling these products. Heat recovery Pressure In areas with a relatively low average annual temperature, ventilation systems employ effective heat recovery that returns energy from extract air to the supply air. A good rotating heat exchanger can recover up to 90% of the energy present. The design of the duct system and the unit has an impact on required system pressure. There are often tens, sometimes hundreds, of Pascals to be saved here. Energy-efficient fans Today, there is a new generation of fan motors that contribute to a dramatic reduction in energy consumption, as much as 50% in some cases. The new EC motors are better suited to speed control functions, which is where considerable energy savings can be made. Further benefits are of quieter operation as well as extended product life. Cool recovery In warmer parts of the world, energy savings may be possible by drawing cool night-time supply air into premises, thus cooling the building structure. Quality-certified products How can you choose the right solution and product when there are so many alternatives? Nowadays, most major suppliers are ISO-certified and have CEmarked products, but is that enough? One of Europe's most modern development centres At Systemair we are going one step further and working hard to ensure that our products maintain a high standard and are approved by various bodies. For units, this may mean Eurovent certification or other local certification for the country in question. To achieve this, you need resources and expertise. Within the Group, you will find, among other things, one of Europe’s most modern development centres, which is AMCA-certified. A room that is so quiet that the only thing you’ll hear is your heartbeat. The development centre in Skinnskatteberg, recently accredited by AMCA, signifies an investment of EUR 700,000 and is fitted with measurement and testing equipment, making it one of the most modern facilities of its kind in Europe. The quiet room is one of the test stations or a “reverberation chamber”, producing a background sound of less than 10 dBA. When measuring supply air terminals, a green laser is used to show how the air is expelled from wall-mounted or ceiling-mounted devices. There is also a climate chamber that cools the air to -20°C, which means we can use it all year round to develop our recovery units. In addition to the test centre in Skinnskatteberg, there are also test facilities in Germany and Denmark where we can measure air volumes of more than 40000 m3/h. We are building up test rig in accordance to AMCA 210-07 at Greater Noida facility to test our products perforamnce. Air handling units | Selection tools We have developed this overview to make it easier for you to get an idea of which product best suits your specific needs. More detailed analysis or planning usually requires additional information, which is where the following tools come in. Product catalogue and specification data More detailed technical information, sufficient to carry out complete planning, is available in separate catalogues and specification data. These describe all incorporated functions, available accessories, and additional technical data. Online catalogue and computer software For those who prefer to work online, it is possible to select and dimension most products using Systemair’s online catalogue. In addition to complete product information, there is also a selection function that suggests alternative products to suit actual needs. For certain products, such as Topvex, medium pressure axial fans, air handling units DV and BA, there is computer software that can be downloaded and installed locally. Personal support Systemair aims to have local expertise close to the customer. You can find up-todate information and contact details for each country on our website, www.systemair.in. 11 12 | Air handling units Offices Office buildings generally require good ventilation during the day as well as heat and cooling recovery and reconditioning of supply air depending on external conditions. Ventilation systems with demand control should be considered for offices where staffing levels vary. As a rule, offices develop an excess of heat produced by people, lighting, solar radiation, computer equipment, etc. In many cases there is a need to cool the air and prevent uncomfortable high temperatures. In larger buildings that accumulate heat energy easily, you should consider employing night cooling. If the office is in a city environment, a higher filtration class should be used. In an office environment, there is also considerable need to reduce the noise generated by the ventilation system. Schools and nurseries A school environment means a lot of people present at certain times of the day, i.e. generally there are relatively large variations. This means that it should be possible to use demand control for the ventilation system. Normally, with heat and/or cool recovery is warranted. There will be short periods during the year when heating may be required. However if there is effective sunscreening, then air reconditioning is rarely required. High demand for low noise levels. At day nurseries, activities such as cooking that create odours are common, so there is often a need for supply air and extract air to be kept separate. There must be heat recovery in the form of a plate heat exchanger, for example. Shops As a rule, the number of people in a shop changes constantly throughout the day, making a control-on-demand ventilation system the sensible option. Recirculating air in combination with carbon dioxide control (CO2) and heat recovery can be one optimised solution for these types of premises. When there are few people present, CO2 levels will be low and an increased amount of return air can be mixed into the system. As the number of people present increases, the amount of return air is reduced and replaced with fresh outdoor air. If heating is required at night-time, the premises are warmed up using 100% recirculating air. Air handling units | Industry Industrial premises will often have high airflows if the work carried out there generates high levels of air pollution. If the pollutants are also aggressive, there may be requirements that affect the choice of material used. Systemair offers products for different environmental classes that can cope with tough environments. Filtration of processed air can be adapted to suit specific demands. Hotels The requirements for conditioning in hotels are characterised by demands relating to fire protection, demand control and low noise levels. The choice of air handling unit will probably be affected by these demands. What is important here is good functions for speed control and quiet operation. In addition to quiet air handling units with demand control, Systemair can also supply fans and dampers for fire protection. Healthcare premises Healthcare premises can encompass numerous activities, everything from operating theatres to wards. The activity determines the requirements. Operating theatres will have stringent demands for cleanliness and ventilation. Wards require low noise levels. If several areas are served by the same system, the unit must have demand control and possibly even sub-systems. Systemair’s range of air handling units can satisfy all requirements relating to healthcare premises, whether these have to do with air cleanliness, noise levels or demand control. 13 14 | Air handling units Air handling units - Overview Systemair has a wide range of air handling units for use in various applications from small office premises to larger industrial applications. Common to all items in the range is that systems and components have been developed to satisfy stringent demands for low energy consumption. Heat exchangers, motors and fan units have all undergone extensive testing, both in the laboratory and out in the field, in order to comply with current and future demands for low energy consumption. All products are also manufactured to comply with environmental requirements. To ensure easy installation, many of these units feature control systems enabled for plug-and-play, i.e. simple start-up. BA 0.14-48.6 m3/s BA is a range of EUROVENT Certified air handling units manufactured by Systemair India. It is available in 41 models with large number of component combinations, suitable for cooling, heating, recovery, ventilation, fresh air applications. The capacity of the air flow ranges from 1000 CMH to 178000 CMH with static pressure values upto 2300 Pa . m3/h 5.56 11.11 16.67 22.22 27.78 33.33 38.89 44.44 50.00 55.55 m3/s Air handling units | 200 500 1000 1500 2000 4000 6000 m3/h 4500 TA 0.07-1.25 m3/s Supply air handling units intended for small to medium-sized premises. Available in 7 sizes and supplied complete with control system, fan, heating coil and filter. 3000 2000 1500 1100 650 450 0.05 0.1 0.3 0.2 500 0.5 0.4 1000 1500 m3/s 2 1 2000 3000 m3/h 030 016 0.3 0.2 500 0.5 0.4 1000 m3/s 1.4 1 1500 2000 3000 m3/h 2000 1100 0.08 0.1 0.3 0.2 200 500 1000 0.4 1500 m3/s 1 0.5 2000 4000 6000 15 Topvex TX (cross-flow heat exchanger) 12 09 06 04 03 0.1 0.2 0.3 0.4 0.5 1 Maxi 0.1-0.56 m3/s Compact air handling units with a low overall height and heat recovery, intended for small and medium-sized premises. Available in 2 sizes and supplied complete with control system. Also available with an electric or hot water heating coil. Topvex TR/TX 0.09-1.9 m /s 3 m3/h Topvex TR (rotating heat exchanger) 0.05 0.13-0.97 m3/s False ceiling units for small and medium-sized premises. Available in 3 sizes and in 3 versions. 035 0.1 F m3/s 2 Compact air handling units with top connection and rotating or cross-flow heat exchangers, intended for mediumsized premises. Supplied complete with control system. Equipped with EC motors and can be supplied with an electric or hot water heating coil. 15 16 | Air handling units 200 500 1000 1500 2000 4000 Topvex SR (rotating heat exchanger) 6000 m3/h 11 Topvex SX (cross-flow heat exchanger) 09 07 06 04 03 0.05 0.1 1500 0.3 0.2 2000 0.5 0.4 4000 m3/s 2 1 6000 10 000 15 000 m3/h 40 25 20 15 10 1500 0.4 0.5 2000 3000 1 5000 2 10 000 3 20 000 30 000 50 000 90 000 m3/h 190 120 100 80 60 50 40 30 25 20 15 10 1 2 3 5 TIME 0.4-4.0 m3/s 10 DV 0.4-24 m3/s Modular air handling units intended for large premises. Available in 14 sizes. Large number of combinations and options. 150 0.7 Compact air handling units with side connection and rotating or cross-flow heat exchangers, intended for mediumsized premises. Supplied complete with control system. Equipped with EC motors and can be supplied with an electric or hot water heating coil. m3/s 5 4 240 0.4 0.1-1.9 m3/s Compact air handling units with heat recovery, intended for medium-sized premises. Available in 6 sizes and supplied complete with control system. Also available with heating coil and cooling coil. 30 0.3 Topvex SR/SX 15 20 m3/s 25 Air handling units | Examples of applications Different types of plant – same basic requirements All buildings are there to create a “climate shell”, regardless of whether the aim is cleaner air or a cooler or warmer climate than the external surroundings. Here are a few examples where Systemair air handling units have been used and the conditions and requirements that applied. Topvex TA F Maxi TR TX BA SX TIME SR SIMPLE PROJECT IMPLEMENTATION Simple project implementation for expansion of existing premises or new buildings. Simplifies selection and planning and includes smart solutions for easier installation. BA TIME DV FLEXIBLE SOLUTIONS Flexible solutions with heat recovery and intelligent control functions that are easily adapted to suit current needs, different recovery systems and configurations. BA TIME DV LARGE VOLUMES OF AIR When choosing central plants, you will usually need units capable of handling large volumes of air and sometimes the option of communicating with an integrated control system. Topvex TA F Maxi TR TX COMPACT SOLUTIONS Changed needs when upgrading or renovating a building usually mean new requirements for air handling. Extreme space-saving solutions and connections for units that can also be split for easier transport and handling at the construction site are able to satisfy all new demands. Topvex TA Maxi TR TX SR SX TIME DV COMMUNICATION Integrated control systems. The nature and complexity of requirements for controlling units and functions vary depending on the size of a project. Our factory-integrated solutions with various levels of equipment can handle everything from the simplest requirements to the toughest demands. 17 18 | Air handling units BA Air handling units • Available in 41 different sizes • Handles airflows of 1000-178000 CMH • For use with low, intermediate or high air pressure systems. • Heating and cooling units • Extensive range of filters • Heat recovery sections Introduction The air handling unit (AHU) is one of the most essential and critical component to be considered when designing an air conditioning system. The importance of air handling unit in the system is readily understood, as it modifies the air conditions for environments and is placed downstream of all other installed equipments. Both the construction layout and the physical sizes of the installed air handling unit being critical means that it is extremely difficult to adjust at a later date to situations different from those established during the original selection process. For this reason, the equipment must be carefully and precisely selected. The width and height of the equipment, is defined on the basis of the air flow rate. The type of fan and the motor can be selected on the basis of the designed static pressure. The characteristics of the cooling and heating units can be defined on the basis of the estimated cooling and/or heating load. Various additional sections can be added to obtain an apparatus defined by three dimensions and with a series of specific components. Systemair India manufacturers EUROVENT Certified air handling units, the trade name being BA. BA is probably the most flexible unit on the market when it comes to design suited to spefic applications. This catalogue presents BA air handling units, which includes equipment for air flows between 1000 and 178000 CMH, with static pressures of up to 2300 Pa. Special care has been taken in the preparation of the catalogue to ensure a user-friendly document. Only a little effort is needed to obtain a rather precise overview of the air handling unit required, with clear, concise information on the most important characteristics. Based on our experience, these are key data for the start of any project. Additional information can be used to identify each of the characteristics to be taken into account in the precise, complete definition of each apparatus. The DIDW type forward/backword curved centrifugal fans or plug fans to be selected for use in low-, mediumor high-pressure air systems, depending on the project characteristics. Several options are also available for the heat exchangers. The heating units installed can use different heating fluids such as: • Hot water; Electricity, etc. The most commonly used cooling media are: • Chilled water; Glycol water; Direct expansion of coolants, etc. An extensive range of air filters can handle a variety of filtering needs, from simple impurity filtering to absolute filtering, within the limits established by the manufacturer for the filtering media. A set of many well-differentiated sections complete the assembly to allow the intake of outside air, mix it with returned air, filter it, heat it, cool it, recover heat, provide access to the equipment interior, etc. Once completed, the air handling unit features a smooth, exterior line with a solid, sturdy, aesthetically pleasing look that fits with the surroundings. Selection software BA Selection software Systemair BA AHU is available for download on www.systemair.in and can also be requested from your nearest Systemair office. Air handling units | Casing The metal enclosure that covers all the components contained in the Air Handling Unit is sturdy and has no protruding items to disturb the overall look of the unit. BA Air handling units have a frame composed of an extruded aluminium section that outlines the equipment edges perfectly, resulting in a solid, robust and attractive overall look. These aluminium extruded sections are joined by injection-moulded glass-reinforced plastic angle cleats. In these larger sizes, the sections are joined together by angle cleats made from engineering plastics. The assembly is anchored by slot screws, obtaining a solid, sturdy structure. The unit enclosure is made up of sandwich panels comprising two pieces of galvanised sheets one inside the other. The BA panels are manufactured in nominal thicknes of 50mm which are mounted on a frame composed of an aluminium profile, which outlines the equipment edges precisely. Due to its width, the 50 mm BA panel flushes with the extruded aluminium frame. Regardless of the type of structure, all BA panels on the access side can be easily dismounted, thereby facilitating access to the internal parts of the air handling unit by the maintenance staff. The finished equipment can have a bedplate composed of channel sections or feet. Based on the project needs, it can also be set on shock absorbers when vibration must be avoided. The enclosure described contains all the air handling unit sections, which can include some or all of the ones described below: Inlet section This section is composed of a standardised length with an air inlet to the air handling unit. This opening can: • Use a volume control damper, that can be equipped for manual operation or for subsequent automation. • Be protected by an air shutter. • The combination of the previous two. • Be equipped with a simple inlet consisting of a straight flange for easier duct connection; The inner rack is manufactured of aluzinc or galvanised steel sheet, whereas the exterior rack of the same material has precoated/ aluzinc finish. The insulation material between the two racks is either machine injected polyurethane foam insulation or rockwool / glasswool to ensure excellent thermal & sound insulation and reduce potential condensation. The polyurethane foam injection process is carried out by introducing in a press with hot plates, which promotes polymerisation and avoids panel deformation due to the expansive strength of the chemicals. This method results in a higher mechanical stiffness than panels filled with other type of insulation (even when the panels have thicker sheets), as the adhesion of the chemical foam to the metal sheet significantly increases the mechanical strength. This type of insulation has become extremely popular and is the unquestionable market leader in India. Polyurethane foam was introduced many years ago for the insulation of air handling units. Anyway we use rockwool/glasswool upon request. In addition, a cover to prevent water from entering when the equipment is placed outdoors can be provided. Mixing section This has similar features as the above and two openings, each of which contain a control damper. These dampers can be supplied with an extruded aluminium section construction. These damper models have an aluminium airfoil blades. The operating mechanisms for all dampers are installed in the channel frame. This allows air to circulate freely and facilitates installation in closed ducts. The mechanisms and fasteners are made of corrosionresistant materials. The operating mechanism of the dampers may be manual or equipped for motor-driven operation. In the latter case, upon request and depending on the damper size, these controls can be supplied interconnected so they can be operated by a single servo drive. Free cooling section This section requires a return fan and a supply fan. These fans must have three dampers in between to regulate 19 | Air handling units the volumes of exhaust, return and outside air. Atmospheric dust is a mixture of fog, combustion gases, fine dry particles and fibres. Air testing normally indicates the presence of soot and smoke, quartz, soil, residue from decomposed animals and vegetables, organic substances in the form of cotton and plant fibres, and metal fragments. The air also contains other organisms such as microorganisms, spores and pollen. Therefore, in order to meet their purpose the dampers must be motor-driven. When the enthalpy of the outside air is less than the enthalpy of the recirculated air, i.e., during spring and autumn, the mixture of outside air and recirculated air is controlled to achieve free cooling. Particle size is expressed in microns (10-6 m). Air contains particles with a thickness of up to 0.01 microns and other particles with a thickness similar to fibres, leaves, etc. Dust is generally understood to mean particles under 100 microns. Consequently, the relative opening of the dampers is determined by an enthalpy (or dry temperature) comparator, which sends the respective signal to the damper motors. In order to ensure the minimum ventilation air required in cooling or heating seasons, the outside air inlet damper can be split into two sections (one motor-driven and another manual that remains fixed). The cross-section of the damper will be proportional to the minimum ventilation air flow. The particle size distribution of particles in atmospheric dust can be measured in one of several ways. The following figure contains three curves representing the distribution of particles according to number, weight or spray surface. This effect can also be achieved more economically by adjusting the stroke of the motor operating the outside air damper so it does not close completely. The upper curve indicates (in % of total) the number of suspended particles in the air with a diameter below a certain reference number (e.g., 99.9% are below 1 micron). Filter section The middle curve shows the particle spray distribution on the surface; for example, the surface sprayed with particles under 1 micron, account for 30% of the total weight of the particles. One of the purposes of the air handling unit is to ensure the purity of the room air. Air filtering is related to the quantity, variety and size of the suspended impurities, the existence of contaminant gases or odours, and the desired filtering efficiency. The lower curve indicates the distribution by weight of atmospheric dust; for example, particles below 1 micron account for 30% of the total weight of the particles. The various impurities that can exist in the air are discussed below. Traditionally, a variety of measurement methods have been used to determine the efficiency of the different types of filters and no classification system combining the various criteria in use existed. The first version of the Unified Standard EN 779 was issued to unify the The air contains numerous foreign substances caused by natural processes (e.g., wind erosion, sea evaporation, soil movements, volcanic eruptions) and by human activity (e.g., combustion). 99,99 99,90 99,00 1) 95,00 r( be m Nu 90,00 80,00 70,00 60,00 50,00 40,00 30,00 ce (2 ) fa ur S gh t( 3) 20,00 10,00 W ei PERCENTAGE < DIAMETER OF PARTICLES 20 5,00 1,00 0,10 0,01 0,01 0,1 1 DIAMETER OF PARTICLES 10 20 µm Air handling units | classification criteria for all filters with an initial efficiency with atmospheric dust less than or equal to 98%, (Group G: coarsedust filters; Group F: fine-dust filters). Group G (coarse-dust filters) and Class F5, F6 and F7 for Group F (fine-dust filters), as per UNE-EN 779. Later, in 1998 the first version of Unified Standard EN1822 unifying the classification criteria for HEPA and ULPA absolute filters was published. The initial efficiency of these filters with atmospheric dust is greater than 98%. The standardised range for the BA Air Handling Unit includes three air filtering sections which, combined with the wide variety of filtering materials, cover an extensive range of possibilities in filtering efficiency. Extended surface filters Characterised by a specific type of pleat which produces a larger filtering surface. The pleat design, as well as the alignment between the pleats, ensures uniform air circulation over the surface of the filtering media. The extended surface filter is composed of a frame, filtering media in zigzag layout, and electrowelded mesh to hold the media. Its advantages with respect to flat filters are: • Greater filtering surface; • Reduced front air velocity; • Greater efficiency; • Greater dust retention capacity; • Reduced front surface. The filters correspond to Classes G1, G2, G3 and G4 of Flexible bag filters Which allow a high filtering flow rate in relation to the front surface area. Constructed with fibreglass (greater efficiency) or synthetic fibre (lower efficiency) filtering media. This equipment has the following advantages: • Lower power requirement. • Longer filter renewal interval. • Lower energy costs. • Lower maintenance. These filters have a medium to high efficiency and correspond to Classes F5, F6, F7 and F8 of Group F (finedust filters) as per UNE-EN 779. 21 22 | Air handling units Rigid bag filters Same as above but allowing a high filtering flow in relation to the front surface area. This equipment has the following advantages: • Solid, sturdy construction for fast, easy installation. • Compact, reduced-volume design. They have a medium to high efficiency and correspond to Classes F5, F6, F7, F8 and F9 of Group F (fine-dust filters) as per UNE-EN 779. Both the rigid and the flexible bag filters are specially recommended for: •Hospitals. • Pharmaceutical companies. • Food industries. • Computer rooms. • Office buildings. Likewise, both rigid bag filters and the flexible bag filters of Class F8 and F9 trap particles below 6 microns, which correspond to the smallest particles of those in temporary suspension that are visible under a microscopic. Rigid filter. Absolute filters Require careful installation that guarantees complete airtightness of all gaskets. They are designed to eliminate virtually even the smallest particles in the air, i.e., those in continuous suspension (the smallest of these are only visible using electronic microscopes). They are specially recommended for: •Hospitals. • Food industries. • Pharmaceutical companies. • Clean rooms. • Absolute filtering of air in environments with controlled contamination. They should be installed immediately before the space requiring this virtually sterile air that these filters can supply. They correspond to Classes H10, H11, H12, H13 and H14 of Group H: absolute filter, HEPA and ULPA, as per UNEEN 1822. Absolute Hepa filters. Air handling units | CHARACTERISTICS OF THE MAIN ATMOSPHERIC POLLUTANTS Continuous suspension particles Temporal suspension particles SMOG Thick particles FOG TABACCO SMOKE DRIZZLE ATMOSPHERIC DUST AND ASHES VIRUS BACTERIAS RAIN INDUSTRIAL DUST POLLEN Human Air FUEL SMOKE Visible under electric microsc. COAL SMOKE Visible under the microscope ELECTROSTATIC FILTRATION Visible under the human eye NORMAL FILTRATION ø particles 0,1 1 10 Drop Speed 0,000035 0,0035 0,296 CYCLONES 100 29,6 1 000 MICRAS 395 cm/s AIR PURITY CONDITIONS IN CLEAN ROOMS CONDICIONES DE LA PUREZA DEL AIRE EN SALAS LIMPIAS 3 500 100 000 350 10 000 35 1 000 TY PE 10 00 3 5 00 00 Particles per litre 0,35 Particles per cubic foot TY 3,5 209 a PE 100 10 0 00 0 35 TY PE 10 0 35 *10 0,05 1 5 10 PARTICLE SIZE (Micras) * Counts below 10 particles per cubic foot (0.35 per litre) are dubious. Example: admissible particles for a Class 10,000 system: 10.000 per cubic foot, 0,5 microns. 1.200 per cubic foot, 1 micron. 70 per cubic foot, 1 micron. 50 100 23 24 | Air handling units Cooling/heating section The cooling and heating units are composed in the enclosure described above, which contains the tube-andfin heat transfer unit, mounted on a special joint cover. The maximum horizontal length of the finned coil is determined by the working width of the interior of the air handling unit and expressed in mm. For air cooling processes, units composed of copper pipes and aluminium fins (Cu/Al) are normally used. The depth of the heating/cooling unit is composed of a specific number of rows of tubes facing the direction of air flow. The number of rows is calculated according to the air flow conditions at the inlet and outlet of the unit, based on the cooling or heating energy used by the equipment. At the bottom, the cooling section has a aluminium/ stainless steel pan for collecting condensation and a small hose to drain the condensation toward the outside. The pan is slightly tilted for easier drainage, in order to prevent the proliferation of harmful bacteria such as Legionella pneumophila. The number of rows is defined by a number, followed by the letter “R”. Based on the above, a unit designated as 20T 3R 950 means: 20 T Height of 20 tubes, equal to 635 mm; 3 R Depth of three tubes 950 Length of finned coil, in mm. The standardised BA Air Handling Unit range uses the following heating/cooling units: This range can be used with any cooling or heating fluid except steam, where the length of the finned coil is slightly lower, since collectors must be mounted on both sides of the unit instead of one side only, as normally done with other fluids. Direct expansion units are also used for cooling. These units can be equipped with one or two manifolds. For heating processes, the same type of copper/ aluminium units used for cooling is normally used. If the air might contain corrosive chemicals, copper tube and fin (Cu/Cu) units should be used to improve the corrosion resistance of the equipment. This type of unit is more expensive than the copper/aluminium unit. Electrical heating units can also be installed upon request, depending on the customer’s needs. Copper tube and aluminium fin heating/cooling units This class of heating/cooling unit is most commonly installed in air handling units, and is composed of a coil of copper pipes covered with thin aluminium fins to greatly increase the primary heat transfer surface of the tube, due to the large transfer surface of the fins. The front air velocity surface (Afo) expressed in m2 is determined by the dimensions (width x height) of the air handling unit internally. Selection of the air velocity through the heating/ cooling unit Normally, the air velocity through the heating/cooling unit should not exceed 2.7 m/s (not including the drop separator), as this velocity is considered the maximum admissible to prevent entrainment of condensed water to other sections of the air handling unit or from the air supply system to the environments. The heating/cooling unit will also provide good efficiency levels at lower velocities, however. As a result, since the pressure drop of the air flowing through the unit is lower, both the static pressure of the fan and the input power are also lower. Air handling units | In terms of energy, this factor can save on power consumption over the years. Moreover, when the fan is selected, the rotating speed of the fan can be lowered to reduce the noise level. In some cases the above factors are critical and can be solved by selecting an air velocity through the heating/ cooling unit below 2.7 m/s. In the case of air handling units with heating units only (one or more), the air velocity may be above 2.7 m/s, although in terms of energy consumption and the above considerations, the circumstances are the same. Generally the flow velocity is 3.5 m/s. For heating, the use of units with steel pipe is recommended when utilising fluids at high temperature and pressure, as these pipes are much stronger than copper pipes, which could be deformed under these conditions due to excessive expansion of the metal. and maintenance of the units and the drip pan. If the specified exposure times are used, these emitters can attack microbes on surfaces or suspended in the air that are growing, circulating or being distributed in the air handling units, and which are largely responsible for allergies and other air-borne diseases. Access section This section, which has a hinged access door and is equipped with an enclosure and handle, is sandwiched in the air handling unit configuration to allow access to the lower parts that require surveillance or regular maintenance. It may also be used to hold any type of auxiliary component, such as a perforated jet humidifier for direct humidification with steam, or other types of components. Door hinge Germicide section We can analyse the use of a germicide section to improve the quality of the air supply only upon request. An adequately designed germicide section should ensure that all bacteria flowing through the system are subjected to the bactericidal radiation necessary for its disposal. The emitters should be installed in areas prone to bacterial growth, such as cooling units, drip pans and other moist areas, in other words, in any parts that have adequate conditions for bacteria development. The use of this equipment will improve the air quality of the treated environments, as well as the heat exchanger efficiency of the units, minimising the need for cleaning View window 25 26 | Air handling units Recovery section Rotating regenerative air-to-air recovery unit, specially designed to transfer sensitive (temperature) and latent (humidity) heat from the exhaust air to the supply air. The supply air stops in one of the halves of the heat recovery unit, while the exhaust air circulates in counterflow through the other half. heat recovery systems: • Reduced heating plant power, minimising equipment sizes in terms of boilers, fuel tank, circulating pumps, heat pipes and heating units. • Reduced cooling plant size (compressors and condensers or cooling towers), circulating pumps, pipe grid and cooling units. Savings in operating power consumption for heat and cold generation. Any of the recovery systems mentioned in this section can be installed upon request only, as they are not included in the BA standardised range. Fan section This section is composed of a centrifugal fan with an anchor bedplate, drive and electric motor or plug-fan. The centrifugal fan motor assembly is mounted on Silentbloc bushings and the discharge outlet is joined to the opening in the enclosure by means of a flexible fire retardant synthetic seal. When the impeller turns, the small air flowing channels comprising the impeller are alternately in contact with clean air and with return air, transmitting heat and moisture from one circuit to the other. Static recovery unit with air-to-air crossflow designed to transfer sensitive (temperature) heat; in this type of heat recovery unit, the supply air is completely separate from the exhaust air, in order to prevent any type of contamination from one air stream to the other. Heat transfer takes place through the plate separating the two streams. Two adjacent plates form a small duct for exhaust or supply air. This allows the unit to run without external transmission of the small vibrations normally caused by fan motor assemblies. Centrifugal The BA series has three types of fans that cover all needs: the forward and aerofoil models for low pressures and the backward for medium and high pressures. Once the fan model is selected, check the respective behaviour curve to obtain the unique characteristics. Based on two essential factors (air flow and total static pressure), the following is obtained: The plate-to-plate distance varies, depending on the size and efficiency requirements. Recovery unit composed of a dual unit in a closed air-toair circuit. Designed to transfer sensitive (temperature) heat, using units manufactured with copper pipes and aluminium fins (Cu/Al). The method is simple and economic, as the return air flows through one of the units, heating the water that circulates inside and is then exhausted. The outside air flows through the other unit, which heats the air while it cools the circulating water, with the latter heated again in the return circuit, creating a continuous sensitive-heat recovery cycle in the air. In order to ensure proper system operation in winter, facilities with an extremely low outside air temperature must use glycol water. Benefits achieved from the installation of any of these Forward curve fan. Air handling units | Plug Fan • Revolutions per minute Plug fan built into an acoustically insulated air handling unit. • Efficiency, in % • Input power at the shaft, in kW; • Mean sound power level of the octave bands, in dB; • Air outlet velocity, in m/s; • Dynamic pressure, in mm w.g. • Peripheral velocity, in m/s. In addition to the above, when the electric motor is selected, the input power at the shaft must be multiplied by the following coefficients: Coefficient to be used aerofoil backward 1,25 1,25 1,20 1,15 1,15 1,12 0,75 kw ≤ Poteje < 0,75 kw Poteje < 10 kw Poteje ≥ 10 kw Once the new value is obtained, compare it to the standardised values from the electric motor manufacturers. The energy of the electric motor used to operate the fan is dissipated in the circulating air, and therefore affects the cooling load of the cooling system. In many cases, the air flow necessary for heating may be considerably less than for cooling. In this case, a two speed motor can be used. This changes the fan characteristics, minimising air flow during the winter season. There are practically no limits for low-temperature operation in the fan section. In contrast, high temperatures can damage the motor. These temperature limits are clearly defined by electric motor manufacturers and must be respected to at all times. Backward curve fan. A plug fan supplies air at the fan section outlet with a low and even air speed. In certain situations it can, therefore, be an advantage to position air handling components on the outlet side of the fan. Single inlet plug fan with open outlet into the air handling unit. The fan impeller is fitted directly to the motor shaft. This fan type has low sound power levels in the lower frequencies. Efficiency up to 75%. The motor is supplied with a 1-speed motor. In order to regulate the fan speed to its actual operating point the motor must be fitted with a frequency converter. The frequency converter can continuously control the fan speed and airflow. Power consumption can be greatly reduced by operating the fan at lower speed. Operating temperatures: Standard design: -10/+40 ˚C Special design: -30/+60 ˚C. All fans are fully balanced both statically and dynamically. The fan and motor are built on a stable base frame that is connected to the unit casing with rubber vibration isolators. These are designed for high levels of vibration absorption. The fan inlet is flexible connected to the unit casing. This ensures a good vibration absorption. 27 Air handling units Backward Airfoil Fans | Forward Curved Fans 28 EFFICIENCY AREA OF APPLICATION Most efficient of the centrifugal fans General ventilation/air conditioning Most efficient operating conditions are achieved with maximum f low of 40-50% Mainly large systems Power is also peaked at the maximum eff iciency level Significant energy savings in large industrial fresh air systems Eff iciency is slightly lower General ventilation/air conditioning Similar efficiency with Air foil fan Certain industrial applications where air foil fans might be exposed to corrosion and wear Fan should not be operated on the right side of maximum pressure Mainly for low pressure ventilation/air conditioning applications Most efficient operating conditions are achieved with maximum f low of 50-60% Lower maximum efficiency than the other centrifugal fans Silencer section Selection of a BA unit The baffles of the silencer section are constructed of natural galvanized steel sheet, with a peak at the air inlet end to decrease the head loss. The baffles are also filled with a sound-insulating material composed of fibreglass with an appropriate density. This material is also heat-resistant and its outer face is protected against air erosion. A diagram is included so the size of the right air handling unit can be quickly selected for each case (see next page). Based on the air flow rate and air velocity through the heat exchanger units, the diagram indicates the most adequate There are two options: • PA. The sound insulation is protected against erosion due to air flow by a flame-retardant protective layer. unit, as well as the relationship with the nearest units in terms of size. This is the most common approach in ventilation and air conditioning systems. The most common practice is to define the air velocity through a cooling unit at 2.5 m/s, and 3.5 m/s for heating only. These are approximate values only. • PAM. Similar to PA, but with an additional polyesterfilm coating (Melinex). Example: Used for applications with acidic, alkaline or oily gases, as it can be steam-cleaned. Recommended for hospitals, since bacterial colony formation is not possible. These two models can be constructed with four lengths of baffle. Special sections In addition to the standardised sections, other special sections that meet specific requirements can be analysed by special order and included in the air handling unit assembly designed for the application requirement. Divide each bar in to three equal parts , the vertical line passing between the first & second part defines the velocity 2.5 m/s. choose the corresponding model no. An air handling unit is needed for an air flow of 19,200 m3/h: On the selection diagram, start with the scale in m3/h and vertically locate the point where this flowrate has the velocity of 2.5 m/s, in this case the one that corresponds is the BA-20 model. Air handling units | Quick selection tips IMPORTANT INFORMATION 1. These fast selection criteria are included to help the user choose the equipment for the design specifications. Nevertheless, this selection method is not precise enough to indicate the equipment that best fits your requirements. If more precise information is necessary, please use our computer-aided selection program or our Sales Department can be contacted. 2. The following formula must be used to determine the air velocity (m/s): Air velocity = Flow rate m3/s Afo m2 = m/s 3. The data used to determine the number of rows of the units are based on the following values: Cooling: Heating: inlet air 26,4ºC, 48,4% RH. outlet air 13,0ºC, 92,0% RH. inlet air 18,0ºC outlet air 30,0ºC. 4. The fan features refer to operation in facilities with free inlet and ducted supply outlet, and do not take into account any air flow fittings. 5. The absolute fan power consumption does not include losses attributable to the drive. 29 30 | Air handling units Air Handling Unit Selection (BA) BA 130 BA 117 BA 100 BA 92 BA 82 BA 71 BA 68S BA 68 BA 65 BA 61 BA 54 BA 51 BA 48 BA 43 BA 41 BA 37 BA 34 BA 32 BA 31 BA 29 BA 27 0 20000 40000 60000 80000 100000 120000 140000 160000 180000 200000 BA 26 BA 24 BA 22 BA 20 BA 19 BA 17 BA 15 BA 14 BA 12 BA 10 BA 9 BA 7S BA 7 BA 6 BA 5 BA 4 BA 3A BA 3 BA 2A BA 2 0 5000 10000 15000 SELECTION DIAGRAM Air flow rate, in m3/h. 20000 25000 30000 35000 40000 Air handling units | Selection in a sample project Horizontal air handling unit, composed of the following sections: • Air mixture. • Extended surface filters. Pressure drops in mm w.g. Air velocity, m/s Section 2.50 2.75 3.00 3.25 3.50 E 2 2 3 3 4 M 2 2 3 3 4 FC 2 2 3 3 4 15 18 • Cooling unit based on chilled water. F 9 11 13 • Hot-water heating unit. FB 19 23 27 FA 56 58 60 S-234 (700 mm) 2 2 3 3 4 • Low-pressure fan section. Technical data: S-334 (1050 mm) 2 3 3 4 5 • Air flow rate: 19,200 m3/h; S-434 (1400 mm) 3 3 4 4 5 • Available static pressure: 45 mm w.g.; S-534 (1750 mm) 3 4 4 5 6 • Cooling power: 99,100 -kcal/h; HP 11 13 15 HL 8 9 10 BF 2R 5 6 BF 3R 7 8 • Chilled water temperature: 7ºC; • Temp. difference of chilled water: 5ºC; • Conditions of inlet air: 26.4ºC BS, 48.4% RH; BF 4R 9 10 • Conditions of outlet air: 13ºC BS, 92% RH; BF 5R 10 12 BF 6R 12 14 BC 1R 3 3 4 4 BC 2R 4 5 6 7 7 BC 3R 6 7 8 9 10 BC 4R 7 8 9 11 12 • Temperature rise of motor: approx. 1ºC; • Heating power: 69,120 kcal/h; • Hot water temperature: 85ºC; • Temp. difference of heated water: 15ºC; • Conditions of inlet air: 18.0ºC BS; Code E M FC F FB FA BF BC A HP HL V S • Conditions of outlet air: 30.0ºC BS. BA Air Handling Unit Selection Using the quick selection table, the appropriate model for a flow rate of air of 19,200 m3/h and an air velocity of 2.7 m/s is the BA-20 with a cross sectional area (afo) of 2.22 m2. Step 1: To determine the air velocity through the unit: First, divide the flow rate of air expressed in m3/h by 3600 seconds to obtain the flow rate of air in m3/s: 19.200 / 3.600 = 5,33 m3/s Divide this flow rate, in m3/s, by the afo for the BA-20 air handling unit, in m2, to obtain the air velocity in m/s: Section Air inlet Air mixture Free Cooling Extended surface filters Bag filters Absolute filters Cooling unit Heating unit Access Panel humidifier Air scrubber humidifier Fan Silencer CALEFACCIÓN HEATING Heating, water 85/70º 2.5 3.0 3.5 Air velocity m/s. ENFRIAMIENTO COOLING Cooling, water 7/12º 2.0 2.5 KCAL/HR. 600.000 3.0 Air velocity m/s. FR/HR. 130.000 Step 2: 500.000 To determine the number of rows and depth of each cooling and heating unit, with an air velocity of 2.4 m/s: 400.000 Heating, water 85/70ºC, 69120 kcal/h = 1R 5 Determination of the number of rows in the unit Air velocity through heating/cooling unit= 5,33/2,22 = 2,4 m/s Cooling, water at 7-12ºC, 99100 -kcal/h = 4R NOTUSED 4R 3R 2R 300.000 200.000 120.000 6R 110.000 5R 100.000 4R 90.000 80.000 1R 100.000 3R 2R 70.000 31 Air handling units Step 3: Determine the static pressure of the air handling unit by adding the various pressure drops for the unit for an air velocity of 2.4 m/s: Air mixing section (M) Extended surface filter section (F) Heating unit (BC) 1R Cooling unit (BF) 4R Total sum for the air handling unit • Available static pressure 2 mm w.g. 8 mm w.g. 4 mm w.g. 10 mm w.g. ______________ 24 mm w.g. 45 mm w.g. ______________ Total static pressure 69 mm w.g. Step 4: Determine the operating conditions of the fan, in this case for low speed, 560 model, on the respective curves: The pressures indicated on the curves are “total pressures”. Therefore, the dynamic pressure (Pd) for 19,200 m3/h of air flow must be added to the static pressure obtained earlier: Total pressure (Pd + Pe) = 6,5 mm + 69 rnm =75,5mmw.g. Total pressure (Pt)75,5 mm w.g. = 75,5 x 9,80665 = 740 Pa The following values are obtained from the intersection of the air flowrate and total pressure: 776 r.p.m. 6,2 kw 87 dB 64 % 10,4 m/s Step 5: Determine the dimensions and weight of the air handling unit: Section DimensionsWeights M 525 mm 104 kg F 0 mm 8 kg BC (1 R) 175 mm 60 kg BF (4 R) 525 mm 215 kg V 1400 mm 382 kg ___________________________________ TOTAL 2705mm Width 2154mm Height 1542mm Weight 768kg The air outlet mouth air are 721 x 721 mm. The air inlets are 800 x 1700 and 672 x 1900 mm. $'+ 26 HP 100 M 33 HL 190 FC 56 V (w/o motor) 53 F 22 BF 2R 46 51 55 A (Each 175-mm clear) 11 BF 5R 59 S-234 (700 mm) 32 BF 6R 63 S-334 (1050 mm) 37 BC 1R 29 S-434 (1400 mm) 42 BC 2R 33 S-534 (1750 mm) 47 BC 3R 38 BC 4R 42 Kg Power (HP) Kg 0,33 5 1,5 16 0,5 5 2 16 3 30 327(1=$ &86&,1(77, %($5,1* 32:(5 BF 3R Power (HP) BF 4R MOTOR WEIGHTS 55 . . : : : 8 5 2 0 7 4 2 3RUWDWD ; /:$ LQ G%$ 16 40 Bedplate - weight per metre FB . : FA /5 E .: Kg 5(1'7279/$ ,03(//(5 727$/ ()) /5 Sections .J P U . Kg 9 :+((/ ',$0(7(5 *,5,P 530 . Sections 1 PP . 9 769 kg Length ',$0(752 *,5$17( SECTION WEIGHTS 0,75 2625 mm The air handling unit will have the following dimensions and weight: 727$/ 35(6685( Revolutions: Input power: Sound power: Efficiency: Air outlet velocity: Motor output = 6,0 kw. x 1,2 = 7,2 kw (10HP) 3D 1P • • • • The input power can then be used to calculate the motor output: |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ir handling units | UNIT DIMENSIONS WITH centrifugal FANS In order to facilitate the work of designing an air handling unit based on the numerous options available, we have provided specifications for the most common unit combinations. These examples should help to speed up the process of designing your preferred unit with the right functions. Choose the unit version that best matches your preferences. = outdoor air = supply air = extract air = exhaust air ROTATING HEAT EXCHANGER Unit Type/ Nomenclature Panel Thickness C1V SIZE Dim. 2 2A 3 width 874 915 958 1004 1128 1229 1281 - 1430 1430 1559 1625 1625 1765 1846 2000 2154 2405 2405 2259 height 1246 1550 1550 1850 1850 1850 1880 - 1880 2358 2358 2668 2968 2984 2984 2984 2984 3348 3348 3630 Length 2865 2865 2865 2865 2865 2865 3040 - 3040 3040 3215 3390 3565 3390 3565 3565 3740 3740 3740 3740 Weight 742 - 806 Length 3390 3390 3390 3390 3390 3565 3565 - 3565 3565 3740 3915 3915 3915 4090 4090 4265 4265 4265 4265 Weight 757 - 875 Length 3390 3390 3390 3740 3740 3740 3740 - 3740 3740 3915 4090 4090 4090 4265 4265 4440 4440 4440 4440 Weight 781 - 848 Length 3915 3915 3915 4265 4265 4440 4265 - 4265 4265 4440 4615 4440 4615 4790 4790 4965 4965 4965 4965 Weight 796 - 917 Length 3390 3390 3390 3740 3740 3740 3740 - 3740 3740 3915 4090 4090 4090 4265 4265 4440 4440 4440 4440 Weight 801 - 869 Length 3915 3915 3915 4265 4265 4440 4265 - 4265 4265 4440 4615 4440 4615 4790 4790 4965 4965 4965 4965 Weight - 938 3A 4 5 6 7S 7 9 10 12 14 15 17 19 20 22 24 26 50 C2V 409 453 468 573 616 647 964 1069 1221 1423 1442 1643 1732 1895 2113 2148 2233 50 C3V 442 495 509 584 629 725 1032 1157 1321 1468 1621 1768 1867 2040 2277 2317 2408 50 C4V 439 487 507 623 686 741 953 1116 1272 1378 1497 1699 1774 1957 2181 2216 2302 50 C5V 472 529 548 634 699 819 1021 1204 1372 1423 1676 1824 1909 2102 2345 2385 2477 50 C6V 453 503 523 640 704 747 976 1140 1298 1392 1511 1714 1789 1972 2198 2233 2319 50 486 545 564 651 717 825 816 ROTATING HEAT EXCHANGER Unit Type/ Nomenclature Panel Thickness SIZE Dim. width C1V 1044 1228 1398 1437 1690 1839 1924 2117 2362 2402 2494 27 29 31 32 34 37 41 43 48 51 54 61 65 2335.5 2412 2412 2710 2744 2710 2770 2710 2822 2850 2822 3078 3232 68S 68 71 82 92 100 117 130 - 3386 3685 - - - - - height 3653 3676 4250 3676 3676 4060 4250 4910 4910 5220 5520 5520 5520 - 5520 5520 - - - - - Length 3740 3740 4265 4265 4265 4500 4675 4675 5025 5375 5375 5375 5550 - 5550 5550 - - - - - Weight 2323 2413 3073 3090 3149 3317 3609 3786 4263 4755 5024 5335 5626 - 6261 6579 - - - - - Length 4265 4265 4790 4790 4790 5200 5375 5550 5725 5900 5900 5900 6075 - 6250 6250 - - - - - Weight 2506 2604 3280 3301 3366 3571 3879 4305 4570 4972 5178 5433 5855 - 6577 6894 - - - - - Length 4440 4440 4965 4965 5140 5200 5375 5725 6075 6075 6075 6075 6250 - 6250 6250 - - - - - Weight 2393 2484 3149 3165 3267 3396 3690 4156 4705 4919 5116 5352 5787 - 6092 6669 - - - - - Length 4965 4965 5490 5490 5665 5900 6075 6600 6775 6600 6600 6600 6775 - 6950 6950 - - - - - Weight 2576 2675 3356 3376 3484 3650 3960 4675 5012 5136 5270 5450 6016 - 6408 6984 - - - - - Length 4440 4440 4965 4965 5140 5200 5375 5375 6075 6075 6075 6075 6250 - 6250 6250 - - - - - Weight 2401.5 2484 3149 3165 3267 3396 3666 3871 4705 4919 5116 5352 5787 - 6092 6669 - - - - - Length 4965 5490 5490 5665 5900 6075 6250 6775 6600 6600 6600 6775 - 6950 6950 - - - - - Weight 2584.5 2675 3356 3376 3484 3650 3936 4390 5012 5136 5270 5450 6016 - 6408 6984 - - - - - 50 C2V 50 C3V 50 C4V 50 C5V 50 C6V 4965 50 34 | Air handling units PLATE HEAT EXCHANGER Unit Type/ Nomenclature SIZE Panel Thickness Q1V Dim. 2 2A 3 width 874 915 958 1004 1128 1229 1281 - 1430 1430 1559 1625 1625 1765 1846 2000 2154 2405 2405 2259 height 1246 1550 1550 1850 1850 1850 1880 - 1880 2358 2358 2668 2968 2984 2984 2984 2984 3348 3348 3630 Length 3390 3390 3390 3390 3390 3390 3390 - 3390 3565 3740 4440 4615 4965 5140 5140 4790 4790 4965 4965 Weight 736 - 797 Length 3915 3915 3915 3915 3915 4090 3915 - 3915 4090 4265 4965 4965 5490 5665 5665 5315 5315 5490 5490 Weight 751 - 866 Length 3740 3740 4090 4090 4090 4090 4090 - 4090 4265 4440 5140 5490 5490 5840 5840 5490 5490 5490 5665 Weight 723 - 782 Length 4265 4265 4615 4615 4615 4790 4615 - 4615 4790 4965 5665 5840 6015 6365 6365 6015 6015 6015 6190 Weight 738 - 851 Length 3740 3740 4090 4090 4090 4090 4090 - 4090 4265 4440 5140 5315 5490 5490 5490 5840 5490 5490 5665 Weight 723 - 782 Length 4265 4265 4615 4615 4615 4790 4615 - 4615 4790 4965 5665 5665 6015 6015 6015 6365 6015 6015 6190 Weight - 851 3A 4 5 6 7S 7 9 10 12 14 15 17 19 20 22 24 26 50 Q2V 413 477 513 586 639 695 925 1006 1343 1503 1719 1781 1961 1964 2207 2299 2277 50 Q3V 446 519 554 597 652 773 993 1094 1443 1548 1898 1906 2096 2109 2371 2468 2452 50 Q4V 413 482 505 577 637 687 918 998 1333 1513 1621 1751 1928 1928 2155 2215 2290 50 Q5V 446 524 546 588 650 765 986 1086 1433 1558 1800 1876 2063 2073 2319 2384 2465 50 Q6V 400 462 505 577 628 683 918 998 1315 1493 1625 1752 1928 2047 2163 2215 2290 50 433 504 546 588 641 761 738 PLATE HEAT EXCHANGER Unit Type/ Nomenclature Panel Thickness 1086 1415 1538 1804 1877 2063 2192 2327 2384 2465 SIZE Dim. width 27 29 31 32 34 37 41 43 48 51 54 61 65 2335.5 2412 2412 2710 2744 2710 2770 2710 2822 2850 2822 3078 3232 68S 68 71 82 92 100 117 130 - 3386 3685 - - - - - 3676 4250 3676 3676 4060 4250 4910 4910 5220 5520 5520 5520 - 5520 5520 - - - - - Length 5052.5 5140 5665 5840 7065 6425 7475 6425 7475 7475 7475 7650 8350 - 8525 8525 - - - - - Weight 2430.5 2584 2899 3131 3553 3722 4200 4080 4628 5084 5242 5569 6458 - 6444 6833 - - - - - Length 5577.5 5665 6190 6365 7590 7125 8175 7300 8175 8000 8000 8175 8875 - 9225 9225 - - - - - Weight 2613.5 2775 3106 3342 3770 3976 4470 4599 4935 5301 5396 5667 6687 - 6760 7148 - - - - - Length 5752.5 5840 6365 6540 6540 6775 8175 8175 8875 8175 8175 8875 9050 - 9225 9225 - - - - - Weight 2518 2899 3131 3170 3368 4200 4497 4930 4990 5232 5814 6458 - 6444 6833 - - - - - Length 6277.5 6365 6890 7065 7065 7475 8875 9050 9575 8700 8700 9400 9575 - 9925 9925 - - - - - Weight 2709 3106 3342 3387 3622 4470 5016 5237 5207 5386 5912 6687 - 6760 7148 - - - - - Length 5752.5 5840 6365 6015 6540 6775 8175 8175 8175 8175 8175 8875 9050 - 9225 9225 - - - - - Weight 2518 2899 2800 3170 3368 4210 4497 4638 4990 5137 5814 6458 - 6444 6833 - - - - - Length 6277.5 6365 6890 6540 7065 7475 8875 9050 8875 8700 8700 9400 9575 - 9925 9925 - - - - - Weight - 6760 7148 - - - - - height Q1V 986 3653 50 Q2V 50 Q3V 50 Q4V 2404 50 Q5V 2587 50 Q6V 2404 50 2587 2709 3106 3011 3387 3622 4480 5016 4945 5207 5291 5912 6687 Air handling units | LIQUID-COUPLED HEAT EXCHANGERS Unit Type/ Nomenclature Panel Thickness R1V 35 SIZE Dim. 2 2A 3 width 874 915 958 height 1346 1650 1650 1950 1950 1950 1980 1780 1271 2458 2458 2768 3068 3084 3084 3084 3084 3448 3448 3730 Length 2705 2705 2880 2880 2880 2880 2880 2880 3055 3055 3055 3055 3405 3405 3405 3405 3405 3405 3405 3580 Weight 337 Length 3230 3230 3405 3405 3405 3405 3405 3405 3405 3580 3580 3580 3755 3930 3930 3930 3930 3930 3930 3930 Weight 374 3A 4 5 6 7S 7 9 10 12 14 15 17 19 20 22 24 26 1004 1128 1229 1281 1575 1430 1430 1559 1625 1625 1765 1846 2000 2154 2405 2405 2259 50 R2V 393 437 510 565 614 663 623 758 870 963 1087 1283 1370 1482 1619 1707 1896 1990 2076 50 433 482 558 622 678 727 685 822 LIQUID-COUPLED HEAT EXCHANGERS Unit Type/ Nomenclature Panel Thickness Dim. width height R1V 950 1051 1187 1382 1523 1608 1756 1870 2079 2161 2212 SIZE 27 29 31 32 34 37 41 43 48 51 54 61 65 68S 68 71 82 92 100 117 130 2335.5 2412 2412 2710 2744 2710 2770 2710 2822 2850 2822 3078 3232 5488 3386 3685 5540 5644 5700 6000 6000 3753 3776 4350 3776 3776 4160 4350 5010 5010 5320 5620 5620 5620 3776 5620 5620 4340 5010 5010 5620 6060 Length 3667.5 3755 3930 4105 4105 4125 4125 4125 4125 4125 4125 4475 4475 4125 4475 4475 4125 4125 4125 4475 4475 50 Weight 2227.5 2379 2859 3073 3124 3294 3455 3650 3888 4218 4489 4970 5131 4807 5458 5702 5416 6071 6507 8547 8154 R2V Length 4192.5 4455 4455 4455 4630 4825 4825 4825 4825 4825 5000 5175 5175 4650 5175 5175 4825 4825 4825 5000 5175 50 Weight 2400.5 2589 3016 3058 3166 3561 3790 4003 4261 4462 4857 5329 5502 5024 5778 6037 5918 6685 7000 9030 8759 36 | Air handling units SUPPLY AIR UNITS Unit Type/ Nomenclature SIZE Panel Thickness S1V Dim. 2 2A 3 width 874 915 958 1004 1128 1229 1281 1575 1430 1430 1559 1625 1625 1765 1846 2000 2154 2405 2405 2259 height 673 825 825 975 Length 2705 2705 2880 2880 2880 2880 2880 2880 3055 3055 3055 3055 3405 3405 3405 3405 3405 3405 3405 3580 Weight 152 Length 2705 2705 2880 2880 2880 2880 2880 2880 3055 3055 3055 3055 3405 3405 3405 3405 3405 3405 3405 3580 Weight 185 3A 4 975 5 6 975 7S 990 7 890 9 281 10 12 14 15 17 19 20 22 24 26 1229 1229 1384 1534 1542 1542 1542 1542 1724 1724 1865 50 S2V 177 198 231 258 276 300 281 345 395 436 494 587 626 670 742 781 866 922 942 50 216 239 279 307 338 363 342 413 475 SUPPLY AIR UNITS Unit Type/ Nomenclature Panel Thickness S1V 527 593 696 744 812 877 926 1030 1068 1134 SIZE Dim. 27 29 31 32 34 37 41 43 48 51 54 61 65 68S 68 71 82 92 100 117 130 width 2335.5 2412 2412 2710 2744 2710 2770 2710 2822 2850 2822 3078 3232 5488 3386 3685 5540 5644 5700 6000 6000 height 1876.5 1888 2175 1888 1888 2080 2175 2505 2505 2660 2810 2810 2810 1888 2810 2810 2170 2505 2505 2810 3030 Length 3667.5 3755 3930 4105 4105 4125 4125 4125 4125 4125 4125 4475 4475 4125 4475 4475 4125 4125 4125 4475 4475 50 Weight 1033.5 1125 1448 1464 1487 1572 1641 1741 1889 1980 2177 2310 2382 2271 2537 2648 2564 2912 3075 4423 3737 S2V Length 3667.5 3755 3930 4105 4105 4125 4125 4125 4125 4125 4125 4475 4475 4125 4475 4475 4125 4125 4125 4475 4475 50 Weight 1194 1254 1411 1609 1637 1722 1814 1909 1999 2238 2312 2660 2749 2536 2921 3054 2852 3159 3432 4124 4417 SUPPLY AIR UNITS Unit Type/ Nomenclature Panel Thickness S3V SIZE Dim. 2 2A 3 width 874 915 958 height 1346 1650 1650 1950 1950 1950 1980 1780 1271 2458 2458 2768 3068 3084 3084 3084 3084 3448 3448 3730 Length 2705 2705 2880 2880 2880 2880 2880 2880 3055 3055 3055 3055 3405 3405 3405 3405 3405 3405 3405 3580 Weight 216 Length 2705 2705 2880 2880 2880 2880 2880 2880 3055 3055 3055 3055 3405 3405 3405 3405 3405 3405 3405 3580 Weight 249 286 323 377 414 Dim. 27 29 31 32 34 3A 4 5 6 7S 7 9 10 12 14 15 17 19 20 22 24 26 1004 1128 1229 1281 1575 1430 1430 1559 1625 1625 1765 1846 2000 2154 2405 2405 2259 50 S4V 247 282 329 365 393 437 392 490 564 629 735 855 924 973 1091 1179 1341 1398 1420 50 455 500 453 558 SUPPLY AIR UNITS Unit Type/ Nomenclature Panel Thickness 720 834 964 1042 1115 1226 1324 1505 1544 1612 SIZE width height S3V 644 37 41 43 48 51 54 61 65 68S 68 71 82 92 100 117 130 2335.5 2412 2412 2710 2744 2710 2770 2710 2822 2850 2822 3078 3232 5488 3386 3685 5540 5644 5700 6000 6000 3753 3776 4350 3776 3776 4160 4350 5010 5010 5320 5620 5620 5620 3776 5620 5620 4340 5010 5010 5620 6060 Length 3667.5 3755 3930 4105 4105 4125 4125 4125 4125 4125 4125 4475 4475 4125 4475 4475 4125 4125 4125 4475 4475 50 Weight 1605.5 1791 2137 2173 2200 2404 2489 2613 2844 2986 3196 3354 3453 3265 3640 3839 3699 4101 4309 5711 5083 S4V Length 3667.5 3755 3930 4105 4105 4125 4125 4125 4125 4125 4125 4475 4475 4125 4475 4475 4125 4125 4125 4475 4475 50 Weight 1766 1920 2100 2318 2350 2554 2662 2781 2954 3244 3331 3704 3820 3530 4024 4245 3987 4348 4666 5412 5763 Air handling units | UNITS WITH MIXING SECTION Unit Type/ Nomenclature Panel Thickness M1V 50 M2V 50 M3V 37 SIZE Dim. 2 2A 3 3A 4 5 6 7S 7 9 10 12 14 15 17 19 20 22 24 26 width 874 915 958 1004 1128 1229 1281 1575 1430 1430 1559 1625 1625 1765 1846 2000 2154 2405 2405 2259 height 673 825 825 975 Length 2180 2180 2355 2355 2355 2355 2355 2355 2530 2355 2530 2530 2880 2880 2880 2880 2880 2880 3055 3055 Weight 154 180 Length 2705 2705 2880 2880 2880 3055 2880 2880 3055 2880 3055 3055 3230 3405 3405 3405 3405 3405 3580 3580 Weight 187 222 Length 3055 3055 3405 3405 3405 3405 3755 - 3755 4105 4105 4455 5155 4980 5330 5680 5680 5855 6030 6030 Weight 226 256 471 - 473 Length 3580 3580 3930 3930 3930 4105 4280 - 4280 4630 4630 4980 5505 5505 5855 6205 6205 6380 6555 6555 Weight 259 298 335 352 394 496 486 - 542 685 Dim. 2 2A 3 3A 4 5 6 7S 7 9 958 200 241 233 244 975 256 269 975 282 360 990 303 318 890 284 299 990 349 418 1229 1229 1384 1534 1542 1542 1542 1542 1724 1724 1865 380 448 438 526 496 596 591 636 631 810 709 834 748 883 786 931 870 943 962 1034 1112 1137 50 M4V 294 341 381 418 617 680 830 933 1056 1157 1288 1386 1579 1646 1690 50 UNITS WITH MIXING SECTION Unit Type/ Nomenclature Panel Thickness M5V 50 M6V 768 930 978 10 12 14 1235 1282 1423 1531 1743 1815 1865 SIZE 15 17 19 20 22 24 26 width 874 915 height 1346 1650 1650 1950 1950 1950 1980 1780 1271 2458 2458 2768 3068 3084 3084 3084 3084 3448 3448 3730 Length 2705 2705 2880 2880 2880 2880 2880 2880 3055 3055 3055 3055 3405 3405 3405 3405 3405 3405 3405 3580 Weight 216 247 Length 2705 2705 2880 2880 2880 2880 2880 2880 3055 3055 3055 3055 3405 3405 3405 3405 3405 3405 3405 3580 Weight 249 286 323 377 414 455 500 453 558 644 Dim. 27 29 31 32 34 37 41 43 48 51 282 1004 1128 1229 1281 1575 1430 1430 1559 1625 1625 1765 1846 2000 2154 2405 2405 2259 329 365 393 437 392 490 564 629 735 855 924 973 1091 1179 1341 1398 1420 50 UNITS WITH MIXING SECTION Unit Type/ Nomenclature Panel Thickness 720 834 964 54 61 65 1042 1115 1226 1324 1505 1544 1612 SIZE width 68S 68 71 82 92 100 117 130 2335.5 2412 2412 2710 2744 2710 2770 2710 2822 2850 2822 3078 3232 5488 3386 3685 5540 5644 5700 6000 6000 height 1876.5 1888 2175 1888 1888 2080 2175 2505 2505 2660 2810 2810 2810 1888 2810 2810 2170 2505 2505 2810 3030 M1V Length 3142.5 3230 3755 3755 3755 3775 3775 3775 3775 3775 3950 3950 3950 3775 3950 3950 3775 3775 3775 3950 3950 50 Weight M2V 1004 1046 1453 1470 1505 1579 1648 1748 1970 2048 2182 2318 2392 2292 2540 2657 2559 2914 3073 3514 3746 Length 3667.5 3755 4280 4280 4280 4475 4475 4650 4475 4300 4475 4475 4475 4475 4650 4650 4475 4475 4475 4650 4650 50 Weight M3V 1187 1237 1660 1681 1722 1833 1918 2267 2277 2265 2336 2416 2621 2608 2856 2972 2874 3229 3388 3829 4061 Length 6292.5 6555 6555 6555 6555 7100 7100 7450 8150 8150 8150 8500 8500 - 8500 8500 - - - - - Weight 1945.5 2201 2321 2357 2387 2716 2848 3027 3311 3474 3567 3825 4004 - 3953 4352 - - - - - Length 6817.5 7080 7080 7080 7080 7800 7800 8325 8850 8675 8675 9025 9025 - 9200 9200 - - - - - Weight 2128.5 2392 2528 2568 2604 2970 3118 3546 3618 3691 3721 3923 4233 - 4269 4667 - - - - - 82 92 100 117 50 M4V 50 UNITS WITH MIXING SECTION Unit Type/ Nomenclature Panel Thickness SIZE Dim. width height M5V 27 29 31 32 34 37 41 43 48 51 54 61 65 68S 68 71 130 2335.5 2412 2412 2710 2744 2710 2770 2710 2822 2850 2822 3078 3232 5488 3386 3685 5540 5644 5700 6000 6000 3753 3776 4350 3776 3776 4160 4350 5010 5010 5320 5620 5620 5620 3776 5620 5620 4340 5010 5010 5620 6060 Length 3667.5 3755 3930 4105 4105 4125 4125 4125 4125 4125 4125 4475 4475 4125 4475 4475 4125 4125 4125 4475 4475 50 Weight 1605.5 1791 2137 2173 2200 2404 2489 2613 2844 2986 3196 3354 3453 3265 3640 3839 3699 4101 4309 5711 5083 M6V Length 3667.5 3755 3930 4105 4105 4125 4125 4125 4125 4125 4125 4475 4475 4125 4475 4475 4125 4125 4125 4475 4475 50 Weight 1766 1920 2100 2318 2350 2554 2662 2781 2954 3244 3331 3704 3820 3530 4024 4245 3987 4348 4666 5412 5763 38 | Air handling units BA Selection Program BA Selection Program named SystemairBAAHU is tested & certified by EUROVENT. It enables: • customers to chosse various construction/ manufacturing options viz. sheet thickness, insulating materials, fin material , manifols material etc. • customers can design unit sections based on required application viz. mixing section, filteration level, recovery section, coolinh / heating section & choose fan/ motor of their choice. • it actaully lets customers decide sectional possibilities in order to decide the dimensions of space required to place a unit. • Divide the equipment into modules, in accordance with the project requirements; • Easily save, retrieve and modify all your projects; • Create a scale drawing of the equipment selected, allowing hard copies to be made; • Obtain all technical information for the equipment selected, including the curves for the selected fan and its operating point; • Estimate the cost of the equipment. The BA Selection Program is user-friendly and highly intuitive. SystemairBAAHU runs under Windows® XP, Vista or W7, provided the equipment meets the following minimum requirements: • Intel® Pentium® III or compatible processor; • 1 GB of RAM; • 500 MB of space on the hard disk; • DVD drive; • VGA 1024 x 768 Display; • Mouse; • Regional configuration and keyboard. 40 | Air handling units BA unit performance certificate Eurovent Certita Certification S.A.S. - 48/50, rue de la victoire - 75009 PARIS FRANCE R.C.S. PARIS 513 133 637 - NAF 7120B Accreditation #5-0517 Products and Services Certification according to EN 45011 :1998 - Scope available on www.cofrac.fr. COFRAC is signatory of EA MLA, list of EA members is available in http://www.european-accreditation.org/ea-members Certification Diploma N° : 13.10.004 Eurovent Certita Certification certifies that Air Handling Units from SYSTEMAIR AB Located at Industrivägen 3 739 30 Skinnskatteberg, Sweden Range BA Software for calculation of performances SYSTEMAIR BA AHU 3.8 Trade name SYSTEMAIR have been assessed according the requirements of following standard OM-5-2015 The list of certified products is displayed at : http://www.eurovent-certification.com Manufacturing places GREATER NOIDA, India SYSTEMAIR AB is authorised to use the EUROVENT CERTIFIED PERFORMANCE mark in accordance with the rules specified in the Operational Manual OM-5-2015 Erick MELQUIOND Approval date : 2013/10/29 President Re-checked on : 2015/03/18 Valid until : 2016/03/31 Claris version: Prod 3.0.6 (11/03/2015) Air handling units | Resulting Class according to EN 1886 : 2007 CASING STRENGTH : D1(M) CASING AIR LEAKAGE : L3(M) - PU, L2 - RW FILTER BY PASS LEAKAGE : F9 THERMAL TRANSMITTANCE : T3 THERMAL BRIDGING FACTOR : TB3 Few of our valued customers Pharmaceuticals / Clean Room 1 ACG-Pithampur 33 Pfizer, Mumbai 2 Alkem Laboratories, Baddi 34 3 Alpha Pharma Healthcare (I) Pvt. Ltd.-Thane Ranbaxy Laboratory-Dewas,Toansa,Baddi, Mohali,Poanta Sahib 4 Apotex 35 Scott Edil Advance Research Lab & Edu. Ltd. 5 Ashrae Clean Room, Hy’bad 36 Sekhsaria Chemicals 6 Atra Pharmaceuticals 37 Serum Institute, Pune 7 Avantis Pharma-Goa 38 Sidmak Laboratories 8 BCG Vaccine Laboratories-Tamilnadu 39 Sun Pharma Sikkim 9 Bengal Chemical, Kolkata 40 Swiss Garnier Genexiaa Sciences-Sikkim 10 Biocon Pharma 41 Teva-Gajraula, Malanpur 11 Biocon SDN BHD-Malaysia 42 Torrent Pharmaceuticals Ltd., Dahej, Baddi, Ahmedabad, Indrad 12 Cipla Ltd., 43 Unichem Laboratories-Pithampur, Roha 13 Cosmo Laboratories, Ludhiana 44 USV Ltd., Baddi, Mumbai, Daman 14 Dr. Actoverco-Iran 45 Watson Pharma Limited 15 Dr. Reddy’s Laboratories 46 West Pharma 16 Fresenius Kabi Oncology Ltd. 17 Goa Formulation Ltd. 18 Gufic-Ahmedabad 1 Apollo Tyres 19 Hindustan Lever Ltd. 2 Asian Paints Ltd., Mumbai 20 Hospira, Vishakhapatnam 3 BARC-Mysore 21 Immacule-Baddi 4 BHEL, Bhopal 22 Innova Captab, Baddi 5 Bosch Ltd. 23 INTAS Pharmaceuticals, Ahmedabad 6 CGPL, Mundra 24 Mankind Pharma Limited, Poanta Sahib 7 Colgate, Baddi 25 Morepan Lab. Baddi 8 Warner Lambert 26 Mylan Laboratories, Aurangabad 9 Exxon Co., Bangalore 27 Nabros Pharma Pvt. Ltd. 10 IEML, NOIDA 28 Neon Pharma 11 IGIB, NewDelhi 29 Nicolas Piramal, Mumbai 12 IOCL, Barauni ,Bihar 30 Okasa Remedies Daman 13 IOCL, Faridabad 31 Pan Pharma, Baroda 14 IOCL, Medinipur, WB 32 Perrigo API India Pvt. Ltd. 15 MES-Manesar, Jabalpur, Shimla Industrial 41 42 | Air handling units 16 NABARD, Lucknow 5 Ganapath Hotel-Mysore 17 NCBS, Bangalore 6 Garden-Galeria, Lucknow 18 Oberoi Airport Services, New Delhi 7 Grand Hyatt, Goa 19 Om Kar Builder 8 Hotel Hyatt Regency, Calcutta 20 Paradip Refinery, IOCL 9 Hotel Kaniska, New Delhi 21 Price Water House, Calcutta 10 Hotel Marriott, New Delhi 22 Rajwest Power Plant 11 Hotel Udaivilas, Udaipur 23 SAIL IISCO-Burnpur 12 Hotel Yak & Yeti, Nepal 24 SBC, Hyderabad 13 Hyatt Andaz-New Delhi 25 SAIL IISCO, Burnpur 14 IBIS hotel, New Delhi 26 Texas Instrument, B’lore 15 ITC Gardenia-Bangalore 27 Thermax Solar Power Plant, Jaisalmer 16 ITC Green Bharat, Gurgaon 28 Tmcb-2 Bombay Dyeing 17 Jas Hotel, Amritsar 29 Unitech Hi-Tech Structures Limited.-Kolkata 18 JW Marriot, Chandigarh 30 Vacmet India Ltd. 19 Kenwood Hotel, Mumbai 31 YKK India 20 Lemon Tree Hotel, Hyderabad 21 Malsi Hotel, Dehradun Hospital 22 MBD Hotels, Jalandhar 1 AIIMS, New Delhi 23 Novotel Hotel, Gurgaon 2 Apollo Hospital 24 Piccadily Hotels, Gurgaon, Ludhiana 3 Apollo Reach Hospital-Trichy 25 Powai Plaza, Mumbai 4 Cancer Hospital-Bathinda 26 Radisson Hotel-Guwahati 5 Centre for Digestive & Kidney Disease, Mumbai 27 Raj Chopra Mussoorie Hotel 6 Dhanalakshmi Srinivasan Medical College & Hospital 28 Royal Orchid Hotel, Jaipur 7 Dr. L.H. Hiranandani Hospital, 29 Sheraton Hotel-Greater Noida, New Delhi, Jaipur 8 Escorts Heart Institute 30 Taj-Bangalore, Kolkata, Mumbai, Hyderabad 9 ESIC Hospital-Maniktala, Joka,Tamil Nadu, Gulbarga, Kolkata 31 The Oberoi/Trident, Udaipur, Delhi, Jaipur, Bhubneshwar 32 Tip Top Hotel-Pune 33 Today Hotel 34 Waves Hospitality Pvt. Ltd. 35 Westin Hotel, Gurgoan 36 Hotel Shang RE LA 10 Eternal Healthcare Centre & Research Institute Pvt. Ltd., Jaipur 11 Fortis Hospital, New Delhi 12 Godrej Hospital, Mumbai 13 Hiranandani Hospital-Mumbai 14 Jaypee Medical Center 15 Krishna Heart Institute, Amedabad 16 Manipal Medical Institute, Nepal 1 Amanora Park Town-Pune 17 Mata Chanan Devi Hospital 2 American Embassy School, New Delhi 18 Max Hospital, Shalimar Bagh, New Delhi 3 Ansal Plaza Mall, Ghaziabad 19 Sanjay Gandhi Hospital, New Delhi 4 BSL/Eagelton –The Golf Village, Bangalore 20 Shillong Hospital 5 BSNL, New Delhi 21 Sir Ganga Ram Hospital, New Delhi 6 British High Commission 22 Trauma Center, New Delhi 7 Callnet India Pvt. Ltd. 23 Udgir Hospital 8 Cargo Complex, New Delhi Commercial Office Hotels 9 Cyber Park, Gurgaon 10 Cyber Walk, Manesar 1 Bharat Hotel Limited, Jaipur 11 Daksh Call Centre, Gurgaon 2 Botanix Resorts-Gurgaon 12 DHL Airfreight, Gurgaon 3 Dusit Devrana Hotel, New Delhi-I 13 Era Infra Engineering Limited 4 Fortune Hotel, Gurgaon 14 Global Business Park, Gurgaon Air handling units | Infrastructure 15 Godrej IT Park, Mumbai 16 Golden Heights, Bangalore 1 Delhi Metro Rail Corporation 17 IIL, Hyderabad 2 Shivaji Stadium, New Delhi 18 IIT, Kanpur 3 TN Assembly Building 19 IIT-Mumbai 4 Rashtrapati Bhawan 20 Inorbit Mall-Pune, Malad, Mumbai, Vasi 5 DU Commom Wealth Games 21 I-Park, Gurgaon (Amendment) 6 Airport Authority of India 22 ISRO, Lucknow 7 IAAI Guwahati Airport, Calcutta 23 JMI, New Delhi 8 ULCC Infrastructure (P) Ltd. 24 Jaipur Central Developers P. Ltd. 9 Hyderabad International Airport 25 Jaipur Stock Exchange 10 Delhi International Airport 26 Jindal Saw, Gurgaon 27 Khalsa Heritage, Punjab 28 LIC Mumbai 1 Cognizant Technology Service, Chennai 29 LMT School of Management, Punjab 2 E-Serve International, Mumbai 30 Lodha I Think-Mumbai 3 Hughes Software, Gurgaon 31 Manjeera 4 Oxygen at Noida 32 Market City, Kurla 5 Tata Teleservices, New Delhi 33 Mind Space Club, Mumbai 6 TCS, Bangalore 34 Mind Space, Hyderabad 7 Accenture Services, Bengaluru 35 Motherson Corporate Office, Noida 8 ARN IT Park, Greater Noida 36 MTNL Mumbai 9 CIS, Gurgaon 37 New District Court-Chandigarh 10 Computer Associates, B’lore 38 Orchid Agora, Gurgaon 11 I Gate-Pune 39 Orchid Square, Gurgaon 12 IT Square, Greater Noida 40 Parliament Library, New Delhi 13 Phillips Software, Bangalore 41 Parinee, Mumbai 14 Pune Embassy Projects Pvt. Ltd., 42 Park View Business Tower 15 S.P. Infocity, Manesar 43 Pothys Textiles, Chennai 16 Tidel Park, Chennai 44 Power Finance Corporation 17 TCS Salt Lake, Calcutta 45 Prasar Bharti, New Delhi 18 Wipro Limited 46 PSP Projects Pvt. Ltd.-Gandhinagar 47 Punj Lloyd Ltd., Gurgaon 48 RITES Ltd., Gurgaon 49 Amity, Noida 50 Shopat Mantri, Bengaluru 51 Shri Guru Ram Das Institute of Dental Science & Research 52 Star TV India-Mumbai 53 Thimphu Tech Park, Bhutan 54 Trikaya Cultivation 55 Unitech Business Park, Gurgaon Systemair India provides to all customers a Technical Assistance Service by highly qualified and exprienced team having specialization in both Industrial and comfort facilities. We also offer a service for commissioning and technical advice for the equipment supplied to our valued customers. Kindly feel free to contact us or request a quote for such services. 56 Vatika-Tech Park, City, Hospitality www.systemair.in 57 Vipul Business Park-Gurgaon Tel. +91 (0120) 4763100 58 WHO, Delhi 59 Windsor, Mumbai IT / ITES Technical Assistance Service 43 mailbox@systemair.in www.systemair.in Systemair IN 01 / 2015 / E 0301 / AHU Systemair India Pvt. Ltd. Plot no. 3, Sector - 31, Kasna Greater Noida-201 308. India Tel. +91 (0120) 4763100 Fax +91 (0120) 4763101

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