vision™ air handler - daikin applied
TRANSCRIPT
Catalog 550
Vision™ Air Handler
Sizes 003 thru 021
ARI certification of this unit does not include certification of the installed coil. Coil performance may be ARI certified separately.
ARI certified installed coils are offered for McQuay Vision air handlers.
- - - Air Conditioning
Vision™ air handler model nomenclature CAH 003 FDA C
Model------------------------------~
CAH = Commercial air handler
Nominal Unit Size (nominal square foot of coil)--------' 003,004, 006,008,010,012,014,017,021
Vintage of McQuay Air Handling Unit----------------'
ARI certification
ARI certification of this unit does not include certification of the installed coil. Coil performance may be ARI certified separately.
ARI certified installed coils are offered for McQuay Vision air handlers.
Table of contents Features and benefits . .. .................................................... page 3 Quick select table .......... . .. ........................................... pages 4-5 Introduction...... . ................. . . .............. pages 6-9 Component types ............................. . .. .......... pages 9-12 Application considerations .......... . . ...... pages 13-15 Air handler selection ........................ . . ............ page 16
L Unit Cross Section C =Standard unit cross section
(ARI certified sizes)
'---------Motor Location A = Motor along side of fan housing
'-----------Unit Type/Coil Position B = Blow-thru cooling coil location D = Draw-thru cooling coil location H = Heating only V =Vent only
McQuay Vision air handlers are tested and rated in accordance with Air Conditioning and Refrigeration Institute (ARI) Standard 430 and certified in accordance with the ARI Certification Program.. McQuay air handler coils are certified under ARI Standard 41 0, a separate performance certification program..
To obtain ARI certification of performance ratings, it is first necessary to have the testing facilities reviewed for proper instrumentation, control and accuracy of test data ..
An air handler is then submitted to an ARI approved independent testing facility for comparative tests .. ARI then approves the air handler manufacturer's testing facilities .. After the testing facilities are approved, the air handler is tested over a wide range of operating conditions .. All rating data is then reviewed by ARI engineers for accuracy and confirmation that procedures established by ARI have been followed. Periodic check tests of production air handlers by ARI on a random basis assures compliance with ARI standards ..
Engineering and physical data Component pressure drops.......... .. ....... pages 18-24 Component and section weights ................... pages 26-28 Fan data ...................................................................................................... pages 29-31 Coil data.................. .............................. .. ............................................ page 32 Filter data................. ................. . ................... page 33
Dimensional data .......... .. ........... pages 34-58 Engineering guide specification ................... pages 59-62
"Vision" and "Visionary" are trademarks of McQuay International, Minneapolis, MN
©1996 McQuay International. All rights reserved throughout the world
Page 2 I Catalog 550
"Bulletin illustrations cover the general appearance of McQuay International products at the time of publication and we reserve the right to make changes in design and construction at any time without notice." (2/96)
Features and benefits
Quality
High strength patent pending frame channel construction - provides structurally sound unit, allows for the stacking of components ..
Thermal integrity- provides thermal barrier between interior and exterior panels, fully gasketed .. Minimizes the transfer of heat through cabinet members, prevents condensate from forming on the unit exterior ..
Fully gasketed panel and frame members- saves energy by preventing air leakage of conditioned air out of the unit, and unfiltered, unconditioned air into the unit
Fan system factory tested and balanced- saves time during installation and assures proper operation ..
Unique patent pending section to section splicing - saves energy by reducing air leakage and thermal conductance at field connection joints.
Standard features meet Indoor Air Quality criteria -• Provides sloped drain pan with antimicrobial coating to prevent bacterial growth .. • Provides double wall construction for cleanability of unit interior .. • Provides complete line of filtration options including antimicrobial treatments to properly clean the air .. • Provides provisions for fresh air intake components and controls to insure adequate outside air .. • Provides UltraSeal low leak dampers to prevent air infiltration and energy loss ..
Flexibility
Complete line of unit configurations, component options, and accessories - allows complete system design flexibility, software selected and factory assembled to assure proper application ..
Unit shipped per installation requirements - minimizes installation time, maximizes cabinet integrity, and allows for rigging into building for retrofit applications ..
Unit can be disassembled- allows for unit to be knocked down for installation if required ..
Numerous fan types, sizes, and arrangements - gives the customer the ability to select fan system based on first cost, efficiency, or sound criteria ..
Extensive coil flexibility- allows for proper coil selection based on performance, pressure drop, material type, and first cost.
Serviceability
Unit ships assembled as required for installation -• Minimizes installation time .. • Maximizes cabinet integrity by only providing sections and section joints as needed .. • Allows for rigging into a building for retrofit applications. • Allows for complete knock down if required for tight applications ..
Unique patent pending section splicing- saves the contractor installation time ..
Extended coil connections and external vents and drains - allows for piping, venting and draining, without disassembly of cabinetry ..
Easy access with removable panels and access doors - allows for unit cleaning and service.
Easy coil removal- allows for coils to be removed from the unit through the side, through the top or a combination of both ..
Easy fan removal- allows the fan sled to be removed from the unit through the side, through the top or a combination of both ..
Ample access to the cooling coil drain pan- assures that the drain pan can be inspected and cleaned without removing the coil..
Fan lube lines extend to access door- allows for fast and proper lubrication of the fan system.
Catalog 550 I Page 3
Quick select table
Notes: Approximate shipping weights do not include base rails Approximate shipping weights include with double wall construction, to deduct liners multiply total section weight by 0 .. 80
Quick select procedure The quick select chart is provided to help quickly approximate a unit size based on air flow .. This will establish the height, width, length, and weight for preliminary job requirements .. The quick select chart does not represent the full range of section depths available for each section type, but will provide a typical section depth .. For pricing and submittal purposes the Visionary Software Program must always be used to properly size coils, fans, and other components ..
To use the quick select chart, compare the application operating air flow requirement to the airflow ranges shown for each unit size .. The air flow ranges shown on the quick select chart are based on coil and fan capabilities .. For each unit size there are 3 different coil sizes, and numerous fans
Page 4 I Catalog 550
sizes available .. Cfm ranges cover coil face velocities between 300-800 feet per minute, depending on the application of the unit. A cfm rating at 500 feet per minute through the large face area coil is rated as a reference point for cooling applications ..
Once the unit size is determined, read the height and width from the chart .. The approximate unit length and weight is determine by moving down the size column and summing the depths and weights of each section that will make up the unit This will provide an approximate size and weight for preliminary job requirements .. It is important to remember that the Visionary Software Selection Program will optimize the selection criteria, a different sized unit may be selected once all the selection criteria is identified and calculated ..
Notes: Approximate shipping weights do not include base rails Approximate shipping weights include with double wall construction, to deduct liners multiply total section weight by 0 . .80
Catalog 550 I Page 5
Component types
Plenum Fan
liJ FC&AF Fan
[Q
Economizer
Economizer
Mixbox with 2" F.F.
Introduction Quality
1 &2 Row Steam
and 1-4Row Water
For over 50 years McQuay air handling equipment has been respected and regarded as a quality product. In keeping with our reputation, McQuay International has gone a major step further in redefining the indoor air handler .. As you know, today's air handling market is changing .. Demands for improved indoor air quality, the reduction in noise generation, and the ever shrinking mechanical equipment space in a building are among the factors that require better product for the market To not only meet, but exceed these demands, McQuay International has redesigned their indoor air handler product line .. The McQuay Vision air handler has been designed specifically to meet the needs of today's expansive commercial and custom markets .. The key to providing such a high quality product is in the basic design .. McQuay International has designed an air handler unit product line, that from an engineering stand point can not be challenged .. The product has been designed to provide unequaled thermal efficiencies and is air tight In addition it will meet the needs required for good indoor air quality. The product line also provides tremendous flexibility in the availability of components and the unit arrangements .. All of these factors are very important, and can provide great benefits to you, our customers ..
Page 6 I Catalog 550
FC&AF Fan Combination
~0] Plenum Fan
mJ Heating Only
~ '::-'""~ [!]
Steam and
1-4 Row 3 Deck Vertical Water
Flexibility
16',24'
~g.::: &54" avail
depths
1200 FPM
0
To provide an air handler unit that not only meets, buts exceeds the needs of today's market place, flexibility is a must. By virtue of the unique frame design, the McQuay Vision air handler is available with tremendous design flexibility. This flexibility is reflected in the numerous section and component types available, combined with the ability to arrange the components in whatever configuration is required for the job. McQuay air handlers can be shipped by component sections, modules, or as a single unit .. This gives the customer the option of installing a completely assembled unit, or by section for retrofit jobs requiring smaller sections to fit into the building .. The McQuay Vision unit gives the customer the flexibility to design the air handler unit as the application requires without expensive modifications in the field ..
McQuay Vision air handlers offer a variety of fan types and sizes, including housed forward curved and airfoil fans, and BarryBiower plenum fans .. Internal isolation of the fan and motor assembly is a standard feature for the McQuay Vision air handler.. With McQuay's history as a major supplier of heat transfer coils to the market, our coil offering is unsurpassed .. AAF International is our dedicated supplier of filtration products .. The AAF International product offering provides flexibility and a history of success in the air filtration market Air quality is of key importance in today's air handling equipment market. The McQuay Vision air handler has been designed to meet the needs for excellent air quality, starting with proper air filtration ..
Some of the many features, components, and options include:
Cabinetry ~ infinite number of unit arrangements ~ ability to ship in sections, modules, or complete units ~ easy to field disassembled and reassembled ~ double-wall or single-wall construction ~ solid or perforated double-wall liners e 1" and 2" insulation options in %#, 11!2#, and 3# densities e optional windows, doors, and lights e optional base rails in heights from 4-12 inches high
Fans e forward curved, airfoil, or airfoil plenum fans e isolated or rigid fan and motor assembly • variable inlet vanes e internally mounted motors e all motor type options
Coils e chilled water, hot water, steam and DX evaporator coils e cleanable coil options e broadest range of fin spacing options • 1-12 row coil options • optional fin, tube, and casing materials e broadest range of ARI 41 0 coils available e optional moisture eliminators e visible sloped drain pans with antimicrobial treatment as standard e access between coils for cleaning
Filters e flat and angular filter racks e throwaway, pleated, bag, and cartridge media e full range of filter efficiencies e antimicrobial treatment options e final filter arrangements e filter section depth flexibility
Access e section depths between 16"- 54" e ability to locate where needed
Mixing box and economizer e UltraSeallow leak dampers as standard e internally mounted dampers and actuators
Internal or External Face and Bypass Sections e low leak dampers as standard
Diffusers
Supply or return plenums e adapts easily to duct work e provides turning section for stacked components
Blenders e economic or space saving options
Sound attenuators e size and insertion loss options
Catalog 550 I Page 7
Visionary'M software program flexibility Because the McQuay air handler is so flexible and has many different component types, there are an infinite number of unit arrangements possible .. To insure that the customer can easily define their product needs, McQuay is providing a user friendly selection program, called the McQuay Visionary Software. This program will configure, size, and select components in minutes .. This Windows'M based program will lead the user through the selection process by prompting for pertinent input data for all components required. Component sections are selected by placing them on a configuration screen .. Once the unit layout is defined, the options and accessories are identified. The program gives immediate feedback regarding fan and coil selection, offering a choice of many different options based on the performance inputs .. Once final component selections have been made the program will provide all output needed for specification and submittal purposes, including fan curves, coil performance psychometric charts, weights, dimensional drawings, and a unit specification .. The Visionary Software program is without a doubt the most comprehensive, efficient, user friendly selection program found in the air handler unit market place today.
Access and serviceability Another key criteria in the design consideration is component access and unit serviceability. It goes without saying that equipment must be designed to perform efficiently and withstand the wear and tear of every day use. Unfortunately many products are designed without any thought to providing easy access to interior components for field installation, component removal, unit cleaning, and servicing .. The McQuay Vision cabinet construction can easily accommodate all these things .. The cabinet is made of frame channels, and easily removable panels or hinged access doors .. Panels provide access by removing fasteners .. Access doors are hinged and have full-grip handles. The easily removable panels and access doors, make access and serviceability simple ..
Full grip handle
The unit frame channel can be dismantled to allow for the unit to be easily disassembled for passage into tight quarters, or to gain even better access to the unit Individual frame channel members can be removed without affecting structural integrity or requiring complete disassembly of section or unit
Page 8 I Catalog 550
The Vision air handler unit has been designed so that either the fan or coil assembly can be removed from the unit if necessary .. To help facilitate servicing or replacement, the Vision unit has been designed to easily accommodate component removal through the side of the unit, top of the unit, or a combination of both the side and top of the unit. Full coil length service clearances are not a requirement with the McQuay Vision air handler .. Coil removal does not require access to the non-connection end of the coiL A unique coil tie down method simplifies coil removal and replacement
Top and side panel, frame channel removal for component replacement.
Cabinet construction The unit cabinetry consists of a box type frame channel and panels .. The patent pending frame channel serves as the back bone of the unit. The channels are formed G90 galvanized steeL The unique frame channel design allows 3 identical pieces to be bolted together to form a corner of the unit. All channel flanges are fully gasketed at the factory .. The bulb type gasket on frame members insures the most energy efficient unit, preventing air leakage and thermal losses .. Panels are secured to the unit with fasteners .. These fasteners can easily be removed if further access to the interior is necessary. The frame channel pieces can also be disassembled for complete knock-down requirements ..
Gasketed patent pending frame channel
For tight fit installations the unit can be disassembled by first removing the panels and then disassembling the frame channels .. The frame work is disassembled by removing bolts in each frame channel corner.. This type of cabinet construction allows the contractor tremendous flexibility during the installation, and service of equipment in the field ..
The McQuay Vision air handler is designed to provide a leak tight, thermal efficient cabinet The result is an air tight unit capable of leakage rates of less than 0 .. 5 cfm per square foot of cabinetry at 5.0" positive static pressure ..
McQuay air handling units have been designed to minimize thermal bridging, to save energy and inhibit condensate on the unit exterior. This has been achieved by gasketing contact surfaces between interior and exterior metal components, preventing metal to metal contact The unit has been designed so that the cabinet will not sweat when exposed to interior air temperatures down to 50 degrees F, and exterior room conditions up to 80% relative humidity.
Vision air handler units are available with or without insulation, and with single or double wall construction .. Double wall units are available with solid or perforated G90 galvanized steel liners .. The fiberglass insulation is available in 1 or 2 inch thickness and %, 1 %, or 3 pound per cubic foot densities .. When an air handler is provided with insulation, the thickness of the insulation is never compromised .. A full thickness of uncompressed insulation is provided throughout the unit, including underneath the drain pan. McQuay has made every effort to provide a thermally efficient air handler product.
Perforated door liners and standard door latch that can be opened from within..
Component types Fans Fan types available with the McQuay Vision air handling units are housed DWDI forward curved and airfoil fans, and BarryBiower plenum fans .. Forward curved fans generally provide the lowest first cost option and are used for lower static pressure applications .. McQuay housed forward curved fans will typically operate up to 6 .. 0" of static pressure .. Airfoil fans have a higher first cost, but are a more efficient fan and
Depending on whether a product is going to be installed in an existing building or intended for new construction, building accessibility may have a big impact on how an air handler ships from the factory .. McQuay Vision air handler units can be shipped as the customer requires .. Units can ship either as separate component sections, complete units, or as groupings of component sections .. Every shipping section is provided with a fully insulated and gasketed splice joint The patent pending splice joint helps to guide sections together during installation, and provides a leak tight joint, assuring cabinet integrity. If required, the unit can be further disassembl-ed after arriving on the jobsite .. By providing this amount of flexibility, time and money is saved during the installation process ..
Patent pending splice joint for section to section joining ..
Base rails are available as an option on unit sizes through 21 square feet, and are standard on larger sizes .. They are available to meet jobsite height requirements, ranging from 4"-12" .. The base rail can be factory assembled to the unit or provided as a field installed kit.
can handle higher static pressures .. McQuay housed airfoil fans will operate up to 9 .. 0" of static pressure .. Airfoil plenum fans are frequently used when cabinet space must be optimized. Plenum fans are typically used up to 5 .. 0" of static pressure .. For plenum fan applications, contact your McQuay Sales Representative ..
Catalog 550 I Page 9
Housed airfoil fan
These different types of fans are available in numerous wheel diameters per unit size. The fan size selection is always optimized and identified by the McQuay Visionary Software selection program .. The selection program offers a number of fan sizes to select from, considering performance, efficiency, sound generation or first cost. Fan and motor assemblies can be provided with 2" spring, rubber in shear, or rigid mount allowing the customer the option of isolating the fan and motor assembly internally or isolating the entire unit All fans are dynamically balanced at the plant After the fan section is assembled the entire assembly is balanced again insuring smooth operation. If the application requires variable air volume, inlet vanes can be provided with single point actuation..
All fans rotate on a solid steel shaft of uniform diameter, ground, polished, and coated with a rust inhibitor .. Fan shafts are selected to insure that the maximum operating speed is well below the first critical speed.
Spring isolation
Page 1 0 I Catalog 550
The fan bearings provided will have a minimum L50 life of 200,000 hours, and are available as high as 1 ,000,000 hours. Bearings are selected to insure minimum noise levels and minimal service .. Bearings are self aligning and are prelubricated for immediate use .. Bearings are mounted on rigid frames and positioned to insure proper balance .. All bearings are provided with copper lubrication lines that are extended to the access side of the fan cabinet with the grease fittings located near the access door opening ..
All fan motors are internally mounted .. The appropriate motor size will be selected by the McQuay Visionary selection program. Motors can never be undersized, but if desired may be oversized .. Motor options include open drip proof, totally enclosed fan cooled, 2 speed/1 winding, and more .. Motor efficiencies available include standard efficiency, high efficiency, and premium efficiency depending on the motor type.
Coils The McQuay air handler offers broad application flexibility in coil sections and coils .. Coils can be arranged in draw through, blow through, or multizone configurations .. Heating only, cooling only, or cooling and heating sections are available .. All coils are installed with space between each coil to allow for access for cleaning and mounting of controls ..
Cooling coil sections, and cooling and heating coil sections, are available in seven different sections lengths to accommodate every application requirement. Drain pans extend the full length of the section .. Removable access panels or doors may be provided in the deeper sections that will not interfere with piping connections extending through the unit side panels ..
All cooling coils are mounted over a sloped drain pan. The cooling coil rests on coil supports located over the drain pan .. The drain pan extends beyond the leaving side of the coil to assure that condensate is recovered by the drain pan. The primary drain pan also extends under the coil headers and return bends to assure that condensate from the ends of the coil is properly removed from the unit. A full thickness of insulation is always provided between the drain pan and the bottom outer panel.. The drain pan is sloped in two planes insuring that condensate is not collecting in the bottom of the pan. The drain pan is coated with an antimicrobial treatment as standard to further inhibit the growth of algae and fungi. A stainless steel drain pan is also available as a standard option ..
Coil connections always extend through the unit cabinetry, allowing for the easy connection of valves and piping .. Coil vents and drains are located outside the cabinetry and located on the extended coil connections ..
Coil connections, vents, and drains, along with drain pan connection extend through unit cabinetry.
Each unit size features three different size face area coils, small, large, and extended. Generally small face area coils are used for heating applications, the large face area coils are used for cooling applications, and the extended face area coils maximize the unit cross section for restricted space applications .. The extended coil is intended to be used to maintain coil face velocity limitations without going to a larger cabinet size .. This ultimately saves valuable floor space and money.
McQuay unit coils can be selected from a full range of coils options. With McQuay being a major manufacturer of heat transfer coils, the coil options are virtually unlimited .. The ~cQuay contractor coil line has many different coil types, rangmg from hot and cold water, evaporator, steam, and cleanable water coils .. Standard McQuay coils are ARI certified. In addition to a broad range of circuitings, fin spacing and row depths, coils can be constructed of different material types for fins, tubes, connections, and casings. This provides the ability to specify the coil to exactly meet the application needs ..
For more information on McQuay coils, consult the following catalogs: Cooling- water/evaporator/cleanable .............. Catalog 411 Heating- water/booster/cleanable .................... Catalog 412 Steam- standard/distributing ............................. Catalog 413
Filters Good air quality is of utmost importance .. A key ingredient in maintaining good air quality is air filtration .. To provide a wide range of filtration options, McQuay International has enlisted the help of AAF InternationaL AAF International is a world wide supplier of complete air filtration products .. Their expertise has helped insure that McQuay air conditioning equipment can provide excellent filtration components .. The McQuay air handler has been designed to house flat, angular, bag, or cartridge filters .. These media types range in efficiencies up to 95% .. In addition to offering a full range of efficiencies, the filter media can be provided with an optional antimicrobial treatment System filtration is a prime area for accumulating dirt, and other non-desirables .. Anti-
microbial treatments are highly recommended for a complete filtration system ..
Both bag and cartridge filters can be provided with an optional pre-filter .. The filter rack used to house bag and cartridge filters always comes with a track for pre-filters .. Filters are side accessible and can be installed or removed through either side of the filter section .. An access door is provided on either side or both sides of the unit Filters can be positioned any place in the unit, and as many filter sections as required can be used .. In many health and food industries, stringent filtration is required .. Often times there is a need for a filter section to be the last component in the air stream .. The McQuay air handler can meet these needs by providing a filter section located as the last component in the air stream and with full sheet metal liners ..
Access The access section can be selected to meet specific application criteria. Access sections are available to be placed anywhere in a unit in a variety of depths .. Sections are available in depths of 12", 16", 24", 30", 36", 42", 48", and 54" .. Typically access sections are used for field installed components, air monitoring devices or to provide ample space between components ..
Mixing boxes and economizers When outside and return air mixing is needed, either a mixing box or an economizer section can be selected. Either component will regulated the amount of outside and return air supplied to the conditioned space. The mixing box or economizer can make use of free cooling by opening outside air dampers when the ambient air will help to condition the supply air stream.
Both the mixing box and economizer are provided with the McQuay UltraSeal low leak damper. This damper has one of the lowest leakage rates in the industry, maximizing energy efficiency. At 4 .. 0" static pressure and a face velocity of 11 00 fpm through the dampers, the leakage rate is less than 0.2% (it is common to specify leakage rates at higher static pressures, but dampers should not exceed 2" of static pressure) .. The parallel airfoil blades are hollow core and fully gasketed. Continuous vinyl seals are provided between the damper blades .. Stainless steel end seals and linkage built into high strength ABS plastic endcaps provide smooth quiet operation.
Economizer section
Catalog 550 I Page 11
Face and bypass dampers Face and bypass dampers can be provided for temperature modulation, by bypassing air around the coiL The opposed blades meter varying air volumes through the coil and bypass to attain the final air temperature demanded .. McQuay Vision air handlers offer only low leak dampers in their face and bypass sections ..
Two styles of face and bypass sections are available .. Internal bypass is available for use with small face area coils and external bypass is used when larger face area coils are required .. The damper blades are fabricated of continuous galvanized steel with the damper rods rotating in nylon bushings .. Damper shaft extensions are supplied to facilitate damper motor location ..
Internal face and bypass dampers
Blenders Stratification will occur from the mixing box when the airflow of two different temperature air streams don't mix completely .. This incomplete mixing can continue through the air handler, and subject freezing temperatures to an unprotected coil (no glycol), damaging the coiL With the increased minimum outdoor air requirements as identified by ASH RAE Standard 62, the likelihood for air stratification increases .. An air handler must be able to handle the required amount of outdoor air, regardless of temperature, without risking damage to the coiL
Blenders provide one solution for protecting coils from freeze-up due to stratification .. Blenders add additional turbulence to the passing air streams, boosting the air velocity for improved mixing .. A distance of one blender diameter is provided immediately downstream to give the air streams enough time to fully mix before reaching the next air handler component Because blenders are static devices, they require no maintenance. The Visionary Software program will select the correct blender for the application ..
Page 12 I Catalog 550
Blender
Silencers The issue of objectionable sound or 'noise' can no longer be treated lightly .. Building occupants have become increasingly conscious of the quality of their environments with low sound levels being a key criteria. Studies have confirmed improved productivity when workers are performing in sound controlled environments. Consequently building owners, engineers, and architects have become aware of the economic benefits associated with quiet environments ..
McQuay's Vision air handler has been designed to provide the quietest sound levels possible .. Factory installed silencers are available for the discharge or return sections of the air handler unit to meet the most stringent sound attenuation requirements .. Different silencer lengths can be selected to satisfy either the acoustic, space, pressure drop, or initial cost requirements. Quality construction along with aerodynamic design gives reliable performance, lower pressure drop and lower initial cost The Visionary Software program will select the correct silencer for the application ..
Silencer section
Application considerations Figure 1.. Discharge duct layout
} NoteCD
0
0
Notes:
Note@ ,..--.,
Damper Blades Perpendicular to Fan Shaft
} NoteCD
Perforated Baffle Plate
Coil
(j) Elbows should not be closer than 1 Y, to 2% times the largest dimension of fan discharge opening.
@ Dampers should be placed at least 3 fan diameters downstream of the fan discharge ..
Figures reprinted with permission from the 1979 ASHRAE Guide and Data Book (Equipment)
Figure 2 .. Drain pan traps
Negative Pressure
Installation flexibility McQuay central station air handlers feature sectionalized design to provide maximum installation flexibility. Fan, coil, filter, mixing box, face and bypass, and access components allow the design flexibility of built-up systems with the cost advantage of factory fabricated units. Units can be shipped from the factory in as few or as many sections as required according to job site condition ..
Mounting and access Whether units are floor or ceiling mounted, care should be taken to insure that the supporting structure is level and rigid enough for satisfactory unit operation .. Ideally, a heavy concrete slab should be used for floor mounted units, and main support beams for ceiling supported hung units .. Ceiling suspended units must be trapezed from the unit base rail, or field supplied materials .. Long floor or ceiling spans should be avoided ..
Units should be located so as to provide proper access for routine service. Clearance for filter removal on both sides of the filter section is usually necessary. Clearance should be provided as required for access panels. Room should be allowed for coil removaL Cooling units require clearance for a trap in the drain pan line ..
Access to the interior of McQuay air handlers is provided by hinged access doors or removable panels. For access between components, versatile access sections feature hinged access doors on either, or both sides ..
Ductwork Good ductwork layout will minimize system resistance and sound generation .. Duct connections to and from units should allow straight, smooth airflow .. Sharp turns in the fan discharge should be avoided, particularly turns opposed to wheel rotation .. Turning vanes should be used. Discharge plenums or any abrupt change in duct size should be avoided .. See Figure 1 for good fan outlet practices ..
Piping and drain pan traps Piping should be in accordance with accepted industry standards .. Undue stress should not be applied at the connection to coil headers. Pipe work should be supported independently of the coils with adequate piping flexibility for thermal expansion .. Drain lines and traps should be run full size from the drain pan connection .. Drain pans should have traps to permit the condensate from the coils to drain freely .. On a draw-through unit, the trap depth and the distance between the trap outlet and drain pan outlet should be twice the negative static pressure under normal unit operation ..
Vibration isolation To insure that noise and vibration are compatible with the intended use of the conditioned air space, good acoustical and vibration engineering practices should be applied during the early stages of design ..
While most applications require vibration isolation, McQuay Vision air handlers are available with factory installed internal isolation .. Internally isolated units feature spring or rubber in shear isolators sized specifically for each fan wheel and unit size .. Because internal isolation minimizes vibration at the source (fan and motor), there is seldom a need for flexible connections on ductwork or coil piping .. Internal isolation provides an opportunity for significantly reduced installation costs ..
Catalog 550 I Page 13
Multizone air handler applications Blow-through air handlers are available in singlezone, twodeck, and three-deck configurations .. The two- and threedeck units are offered with or without zone dampers .. All unit configurations include a perforated plate fan discharge diffuser to provide even airflow downstream of the fan ..
Multizone and dual duct air handlers typically provide comfort conditioning by distributing a constant air volume at variable temperature .. In a typical system a portion of the air is heated by passing through the heating coil and the balance is cooled by the cooling coil. The heated and cooled airstreams are then mixed in the required proportion to provide the optimum temperature air to the conditioned space ..
For dual duct applications, a pair of ducts bring heated and cooled air to the air mixing terminal boxes where the airstreams are mixed. By adding zone dampers to the dual duct unit, the air mixing takes place at the unit discharge and only one duct is required to distribute conditioned air to the building .. The air mixing terminal boxes are also eliminated ..
By adding a third bypass deck to the hot and cold decks, a triple deck multizone is created. The triple deck configuration offers significant energy conservation opportunities by allowing return or outside air to bypass both coils. The thermal inefficiency of mixing heated and cooled air is eliminated by the addition of the bypass deck .. Bypass air is mixed with heated air for building zones that require heating. Bypass air is mixed with cooled air for building zones that require cooling ..
Multizone air handling systems result in an absence of water, steam and condensate drain piping, wiring, electrical and mechanical equipment in the conditioned space ... ..for more usable commercial floor area and higher rental income ..
Sound The Vision air handler has been tested in accordance with AMCA Standard 300 .. To obtain the unit inlet, outlet, and radiated sound levels for your specific application, use the Visionary Selection Program..
Air supply systems and fan laws An air supply system consists of an air handler cabinet, heat exchanger, filters, ductwork, grilles and registers used to distribute air throughout the building .. The system is independent of the fan used to supply the system..
The resistance of the system, referred to as static pressure (SP), is dependent upon the quantity of air (cfm) that is moved through it The air quantity is determined by the cooling, heating and ventilating requirements ..
For any system, the static pressure will vary directly as the square of the air quantity .. This relationship between cfm and SP establishes the system curve for that system and may be expressed as follows:
( cfmt)2 = SPt or SP2 = SPt (cfm2)
2
cfm2 SP2 cfmt
The system curve is unique for a particular system configuration .. Any change to the system caused by dirty filters, damper changes, etc .. , will result in a new system curve ..
For fans operating at low pressures (less than 1 0" W.G .. ), the effects of air compression are negligible .. Disregarding air compression allows fan operation in a fixed system to be expressed by simple relationships .. These relationships are known as fan laws and may be used to calculate the effects of fan speed and air density changes on this system..
Page 14 I Catalog 550
Figure 3 .. Blow-through air handler configurations
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LML, MMM Three-deck Unit
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LML, MMM Two-deck Unit
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1 .. The flow rate varies directly with the change in fan speed:
cfm1 rpm1 f. f, (rpm2) cfm2 = rpm2 or c m2 = c mt rpmt
A 10% increase in fan speed will give a 10% increase in air quantity.
2 .. The static pressure varies as the square of the change in fan speed:
SPt = (rpmt} 2 or SP2 = SPt (rpm2)2 SP2 rpm 2 rpm1
A 1 0% increase in fan speed will give a 21% increase in static pressure ..
3. The fan brake horsepower varies as the cube of the change in fan speed:
hpt = (rpmt} s or hp2 = hpt (rpm2)s hp2 rpm2 rpm1
A 10% increase in fan speed will give a 33% increase in fan horsepower ..
4. System static pressure and brake horsepower are directly proportional to the air density:
SP = SP (densi.ty2) (rpm2)2
2 1 denslfyt rpm1
h _ h (density2) (rpm2)3
P2 - Pt density1 rpm1
Consequently, the static pressure and brake horsepower decrease with an increase in air temperature or higher altitude, and increase with a decrease in air temperature or lower altitude.
To determine fan performance for temperatures and altitudes other than standard (70°F, 0 ft. altitude}, the static pressure must be adjusted by the density ratio before the fan rpm and bhp requirements can be determined. Density ratios are expressed as temperature and altitude conversion factors in Table 1.
Table 1 .. Temperature and altitude conversion factors
Fan and motor heat Motor and drive heat - The total energy input to any fan motor is always eventually converted into heat. The input energy is consumed in two ways- by heat dissipated through the motor frame and by work output. The amount of heat dissipated by the motor is a function of its operating efficiency:
Motor heat = input x (1-motor efficiency)
A small amount of the motor work output is dissipated by the drive mechanism, which also results in a heat gain .. Belt drive losses are a function of belt tension and number of belts as well as power transmitted. Typical belt drive losses range from 2% to 6% of bhp ..
Whether motor and drive heat gain become part of an air handling system cooling load depends on the motor location relative to the conditioned space. For air handlers with internal motors, the motor and drive are within the conditioned space .. Therefore, the motor and drive add heat to the system. This heat must be subtracted from the cooling capacity and added to the heating capacity of the unit ..
Fan heat generation - All of the power input to a fan results in heat gain which must be considered as a cooling load. The amount of heat generated is directly proportional to the fan bhp:
Fan heat (Btuh) = bhp x 2545
Much of this heat generation occurs within the fan itself.. Fans are far from 100% efficient, and the energy losses which occur are converted directly into heat.. The work done by the fan on the airstream increases the temperature, pressure and velocity of air. The heat of compression required to raise the airstream to this increased energy level is also a heat gain ..
As the air travels throughout the building, its energy is deteriorated by friction, resulting in pressure drop .. This is also heat gain, but it does not result in temperature rise because the air expands as the pressure is reduced .. The expansion is a cooling process which offsets the heat generated by friction ..
Typical fan and motor heat values are given in Figure 4 ..
Figure 4. Fan and motor heat gain
200
f 16o co 6 120 c '(ii 0 80 1il CD I 40
10
Air modulation
20 30 40
Brake Horsepower
50 60 70
One of the most common methods of fan modulation is the use of inlet guide vanes .. Fan volume reduction with inlet vanes is accomplished by pre-spinning the air in the direction of fan rotation. The effect of pre-spinning results in decreased air delivery, static pressure and brake horsepower .. For each position of inlet guide vanes, a new fan curve is created. Brake horsepower reductions cannot be read directly off the fan curve on inlet vane applications because a new fan curve is generated as the inlet vane closes ..
It is also difficult to estimate turn down capability on inlet vane applications .. Any time a VAV system with terminal boxes is controlled by a static pressure sensor, a system resistance curve is developed which passes through the design operating point and a minimum static pressure control point. This system curve will affect where the fan will cross into the unstable operating range. An illustration of inlet vane turndown is presented in Figure 5.
Inlet vanes operate most efficiently when the fan is chosen at or near peak efficiency. Inlet guide vanes offer good power savings, wide modulation range, and low maintenance ..
Note: Fan performance with inlet vane control at other than wide open position is not within the scope of our central station air handler certification program with ARL
Figure 5 .. Inlet vane control reduction factors
E:'l ~
05 90 t ::: ,-0 F 0.. 80 Q)
: r f-~ 0 I 70 Q)
.:.:. ~ 60
c:J 0/:S ~ 50 ::J (/) (/) : ~ 40 "-f a. (.) fF ~ 30 i75 ..... c Q) 20 ~ Q) a.
10
0 0 10 20 30 40 50 60 70 80 90 100
Percent Design CFM
Follow percent of design cfm up to system curve and left for percent of design static pressure. Follow percent of design cfm up to bhp curve and left for percent of rated horsepower.
Catalog 550 I Page 15
Air handler selection Selection of the flexible McQuay Vision air handler depends on many different criteria. To simplify this process, ~cQuay International has designed an innovative computenzed selection program. This program is called Visionary Software .. This software package has capabilities beyond any air handler selection program seen in the market place today. Visionary software allows the user to develop ~n air ~andler from the ground up, and obtain all of the detail requ1red f~r proper design and specification .. The user can have a un1t designed in a matter of minutes ..
The Visionary Software program is completely integrated .. All input data is carried through the selection process and considered as calculations are made .. Because the program is integrated, the opportunity for errors is reduced .. The s~ftware guides the user through the selection process. On-line editing helps select only viable options .. Visionary software is provided so that even the less experienced user can select air handlers accurately ..
The design of an efficient air handler system is dependent on accurate system design and proper equipment selection .. Factors which affect the unit selection include applicable codes, ventilation requirements, heating and cooling space loads, acceptable temperature differen~ials, thermal media and installation limitations .. The selection of the unit can be broken down into four steps; unit type and size, coils, accessories, and fan and motor requirements ..
The unit is generally selected based on the air volu~e required and the desired face velocity thro~gh t~e cooli.ng coil. For cooling coils, 400-600 feet per mmute IS considered the optimum face velocity range for dehumid~fi?ation and the elimination of any moisture carryover .. The V1s1onary software program will select the unit based on air flow and face velocity requirements .. Once the unit size is determined, the coils and all accessory components are selected. Once all components and coils are selected (identifying the total internal component pressure drop), the fan can be selected.
Selection of coils The Vision air handler provides the ability to select from 3 different face area coils per unit size .. Once the coil size is selected the row and fin requirements can then be determined b~sed on performance criteria. McQuay International offers the most extensive line of coil types and circuitings in the industry. This wide variety of circuiting, row, and fin spac.ing, in addition to different material types, assures a co1l selection that will handle the load required ..
Heating, cooling, and combination cooling and .reheat sections are available .. Coil sections come in many different depths to accommodate multiple rows of coils,. and to provide access on the leaving air side or between co1ls for clean-
Page 16 I Catalog 550
ing and inspection of the drain pan .. Access in the coil section can be minimized or maximized depending on the space available and job needs. Coil sections can be placed as needed in the unit, and as many sections as required for conditioning of air can be provided ..
Selection of accessories The McQuay Vision air handler product line offers a complete selection of component and section types, in a variety of unit arrangements and configurations .. These component options are available to insure proper mixing, fil_t~ation, ~nd temperature control of the air to meet the spec1f1c application needs ..
The outside and/or return air can be brought into the unit through a plenum, mixing box, or economizer.. For mixing of the two air streams, dampers are required to modulate and direct outside and return air .. This can be accomplished through the use of a mixing box or economizer .. Both section types use the McQuay UltraSeal low lea_k .dampers. Blenders are also available to assure proper m1x1ng of two air streams, to prevent stratification and damage to equipment due to freezing temperatures.
To insure good air filtration, many different filter media types and arrangements are offered .. Filters c~n be.p;ovi~ed in angular or flat filter racks, a variety of med1a eff1C1enc1es, and with or without a prefilter .. The filter section can be located anywhere in the unit, to filter air as it enters the unit or in a final filter arrangement before it leaves the unit.
Also available are many different size access sections, for field installed components or to provide access between components .. Other options include diffusers, plenums, face and bypass dampers, sound attenuators, and blenders.
Fan selection Fan selection requires an accurate calculation of the resistance to the airflow through the entire system. This total resistance consists of the sum of two parts, the external and internal static pressure .. The external static pressure is the static pressure found in the distribution system, external to the air handler .. The internal unit resistance is the sum of the resistance of the coils and various other unit components and accessories .. Component pressure drops are listed for specific air flows in the catalog .. It is recommended that the Visionary selection program determines internal component pressure drops of the system .. Once the total static pressu~e is known, the Visionary software will identify the fans available to properly handle the air flow and static pressure for the system .. The Visionary Software will generate a full _fan curve based on the fan selection and point of operat1on .. Fan performance data is also available in Catalog 560 ..
Catalog 550 I Page 17
Engineering and physical data Component pressure drops (inches of water)
Table 2 .. Component air pressure drop
Page 18 I Catalog 550
Table 3 .. Filter media face area and velocity through media
Catalog 550 I Page 19
Table 4 .. Filter media air pressure drop based on clean filters
Page 20 I Catalog 550
Table 4., Filter media air pressure drop based on clean filters
Catalog 550 I Page 21
Figure 6 .. Coil air pressure drop - HI-F5 fin type
ROWS 2 3 4 5
Fin 1.0 2 .. 0- -2.5 Series-
.50 14 14
1 . .8 I Maximum Face Velocity 12 .80 -1.2 -1.6- -2.0 without water blowoff
.40 (does not apply to A) I I 10 1.8
J I I 1.4 1.0 v 1 .. 6 08
1- .. 30 .60 90 1.2 t} f;tc; '{ ~·~ c;~ i·c~;, .h ;-I.:' ~- II I II I
14 {;'{; lc•·;; !If'· . . l"/ _"}\ i>; ...• 1•.{ !'::.:·. }:·:~ / / 06-.80 D .f( r . '{ j Iii (? .·":; ··:·; i"'·'" •;j"; J>• iii; v I / II J 50 1.0
-0 (J) Q) ..c () c
0.. e 0
~ ::::l (J) (J)
~ ll.
.70 r-.90
.40 - .. 60 - .. 80 .20
50 _70
.30 .60 15
40 50
20-c-- .. 30 i-40 .10
.25
_ .. 08 _ .. 15 .30
20
25
.. 06
10 - .. 15 -.20-.05
08 1- 04 .15
10
.06 .09
.03 .08
05 10
.025 .07 ~ '-o9
.. 04 '- .. 06 -.08
-02
; · ... DEGREE OF :· .•.••. Sf!~ .•.•.•.•. WETNESS
1.0-.98 A
.98-.90 B
.90-.80 c
.80- .70 D .7 or less E
1.2 ;:~;' +:~ .~ M~
-1.0
.. 90
.80 \1-)
.70
.60
c-- .. 50
40
I I
.30 / I I J I
-..25 v Fin v II I
Series / / I 14 v v 20
I J I 12 v I I
I I .15 10 I I
J II /
Oo /
- .. 10 II 06
09
E
'/ II -D I 1/ I I
1---C
// I r----8 I I 1// I '/ '--A
200 250
· .. I""· ,~.: :;; II I J I / I
I I I I I I J II ~- II
/ I / v I v J
I II I I I
v I II J I J / / J
/ / I /
II I I I I I II v v / v
I / / / I v
I I I v
J I I
I /
/
"
= \b)
lj/ I 1/ I I, I; ';II/I 1/(/1 E
I D-
I I 1/ 1/ I I~ lj; r/; I 1/ I 1/ I~ 'I I; lj 11/1 'I! 1/;
c-I I 8-
I I I '/ 1¢ 1/~ 1/; ;I// I I(/; I A-
300 400 500 600 700 800
Face Velocity (FPM)
ROWS 6 8 10
~3 .. 0-~4 .. 0- -5 .. 0-
2 .. 5 4.0-
30_ b--
20 2 .. 5 r-----
1.8 30_
F-16 E- ~2 .. 0 i--25-
14- =-1.s- F--
1.2- ~1..6- .... 20-
1.4 18-
"1.0 1 6_
.90 !L91.2
1.4 80
10-r--u-.. 70- - .. 90-1-----
.60- - .. 80-HO-
.90-.. 70 1---50
80-60_ 1-----
.70 .40
.. so- -.60
30 ~ 40- -.50-
.25 40-
30_ b--
.20 25-~
.. 15- -.20- ~..25-
20-
.10-1- 15_ -
Note: The letters A,B,C,D orE following the face velocity indicate the degree of wetness at which the coil would be operating. Refer to the chart at the lower left-hand corner for the appropriate degree of wetness
Page 22 I Catalog 550
)> :::;·
::::l 0 :::y (!) (/)
0 -
Figure 7.. Coil air pressure drop - E-F5 fin type (2 thru 10 rows)
-0 (J) Q) ..c (.) c
Q.
e 0 ~ ::::l (J) (J)
~ 0...
ROWS 2 3
.. 80
-
.. 80
-."n
- -
@
f.---.30
An
.20 .30
.. 15
.20
.1 0 .15
08
10
.. 06
.. 08 - .. 05
- ~- -
r--
Maximum Face Velocity without water blowoff (does not apply to A)
I vi
L v I "¥ IY
-/I II )( I I I V I
I I I II II I v
; I I v I / v I I
I I I I I I I
I I I I I I I I I I
I v v I I I II I I
I I I v I v I v I I I I I 1/
Fin J I v I Serief
4 I I II I I I I I I
12 / v I v I I
10 II I I
08 v I I
I 06 v
(6) ·F·
I I I I I I r-- v I I I I I ,... I ~
I I I I r--P I ~
I !j I 1/ II 'Dj I I Jl I I 200 250 300 350 400 500 600 700 800
Face Velocity (FPM)
ROWS 4 5 6 8 10
-z .. u
Fin-r1 _.,n
Series
I 14 -" u
-._,,)-
II 12
I 10 n 1 .• 5- ~2 .. 0
I 1108
• .. 80- -1 L • .o-I ""
·1.5
I 06
-1.0 I® v ·.Rn t1.5_ ·.80
f-1 . .0 •n
-AO ·.50 · .. 60 .. .80 .. _
·.50 .4n •,AI)_
f-.30
.40
'-.30 · .. 50 f-.60
- .. 20 30 ·.40 • .. 50
40
.30
,_ f.-20
.o8--.. · )-
I<;
,-
nc' )-
·.05 10
.04 -.05 .06 .. 08 .10
I I
1-I iSJ.IR ' [)E~Rf:.E OF
WETNfl$S 1.0-.98 A :-.98-.90 B
1- .90-.80 c .80-.70 D
-A- .7 or less E
Note: The letters A,B,C,D orE following the face velocity indicate the degree of wetness at which the coil would be operating. Refer to the chart at the lower right-hand corner for the appropriate degree of wetness
""0 03 (J) (J) c 03 0 0 iJ
Catalog 550 I Page 23
-0 Vl Q)
.r::. u c
Figure 8 .. Coil air pressure drop - E-F5 fin type (1-row)
1 ROW
80
.70
.60
50
40
.30
.20
15
10 09
.08
07
.06
.05
04
03
.02
01
J Ill
/, / r; Ill I 1/ J /
II 1/
I
I I I I I I
-
I I~
!J VJ VJ ll1
11;1 VI 1/ ~ lj VI
!'l'J IIV I !I f!J 'I
/ fl; 11 171 IIJ II -z Ill/ J
A7 1/V [71 r7 1/
7 11; r7 7 17/ 7
IIJ 7 1717 v 'j 7 II 1/ j
I II J
v
!/I v;: liJ r;
1 4
~1 f0'1
2 5' 0 ~
r;;: II
08 ~ "' 06
14
12
10
08 ~ "i: (!)
Cll 1: u::
06
04
03
Figure 9.. 1 " Steam coil air pressure drop
I
"-f.----
II f---\)
~
f-.- t'C;JC::e t7 ~·~ if'''''
'---
I 1/ J J
II v 1/;
// 11 11
v /I I I II II, J J II II 1//
1/ 1/ VJ / I v I I 1/ v 1/ IIJ
VJ /I I ;I/ !j 1/ 1/ 1/ II/
I / I II I JV v 1/ V; v Ill
I I 1/ v I -I 11
I J I I ITj
II vv II JV / / I II J 'I
1/ II / II IJ.II
I I II 1/ I 'I I I I I II 1/
[7 1/ 1/ v I /I I I I 1/
17/ J I J r; r7 [7 J /J I 1/ J II
17 J v, II / II
J V; 17 /I/
J 711 rr; v
1 ROW
20
15
1..0
90
80
. .70
.60
.. 50
40
.30
.25
..20
.. 15
.. 10
.. 09
08
.07
06
05
04
.03
025
.02
200 300 400 500 600 700 800 1000 1500 300 400 500 600 700 800 1000 1500
Standard Air Face Velocity (ft!min . .) Standard Air Face Velocity (ft!min .. )
Page 24 I Catalog 550
"U (il rJl rJl c (il 0 a "0
:::::; (") ::::;CD rJl 0 -
Catalog 550 I Page 25
Component and section weights
Table 6 .. Approximate shipping weights
Notes: CD All weights shown include double wall construction, to remove the weight add for liners multiply the total weight by 0.80 .. ® To determine the weight of a combination cooling and reheat vertical coil section, combine the weight of the coil section desired and a plenum section. ® Fan weights are based on the largest airfoil (sizes 3,4 & 6 forward curved) class II fan available without inlet vanes.
Page 26 I Catalog 550
Table 6. Approximate shipping weights (continued)
Notes: <D All weights shown include double wall construction, to remove the weight add for liners multiply the total weight by 0 .. 80. ® To determine the weight of a combination cooling and reheat vertical coil section,combine the weight of the coil section desired and a plenum section .. @ Fan weights are based on the largest airfoil (sizes 3.4 & 6 forward curved) class II fan available without inlet vanes.
Catalog 550 I Page 27
Table 7 .. Unit coil weights
1 & 2 row based on large face area 5SA, 5WQ, & 5WH coils with 8 FPI and standard fin, tube, and casing materials. 3-row and greater based on large face area 5W* or 5EN, 5EF, 5ER, 5EJ coils with 8 FPI and standard fin, tube, and casing materials
Table 8 .. Motor weights - 1800 rpm open drip-proof motors
Table 9 .. Base rail weights
Weight factor for 6" high rail= .52 lb/inch (..00929 kg/mm)
Weight factor for 1 0" high rail= .. 74 lb/inch (..0132 kg/mm)
The base rail weight is determined by adding together the weight of the rail supports that run the length and width of the unit The lengthwise support depends on the overall unit length .. The cross member weight is dependent on the number of cross channels needed to support the unit Each shipping section has a cross member located on each end .. When a unit ships in one piece, the rail will have 2 end channel supports. When the unit ships in numerous shipping sections, each shipping section will have 2 ends pieces .. Fan and coil sections need additional cross member support on the entering and leaving air side of the section .. If the coil section is adjacent to a fan, only one cross member will be provided between them. A heating only coil section needs an additional cross member support on the entering air side .. Any shipping section over 8' long will require an additional cross member ..
Page 28 I Catalog 550
Example: Determine the weight of a 6" high base rail for a size 8 unit that is 108" long, consisting of a fan, access, coil, and angular filter in a single shipping section ..
Weight factor for unit length for a 6" curb is .52 lb.Jin ..
108" x .. 52 lb.Jin =56 lb ........................ , ... ,,,,., 56 lb ..
Weight of end cross members for each shipping section is 41 lb .. each pai~.
1 X 41 lb .. = 41 lb., ,.,, .. ,.,,.,, .. ,, ...... ,., 41 lb ..
Weight of additional cross members to support fan and coil sections .. In this example the fan and coil are separated by an access section, therefore 4 extra cross member pieces will be required for the fan and coiL
4 X 15 = 60 lb ..................... , .......................... .... '. 60 lb. Total base rail weight ,,,, .. ,,,.,,,,,,, .. ,,,,,, 1571b.
Fan data
Table 10. Quick select table
900-2500
1200-3100
1700- 4600
2200- 6000
2900- 7700
3600- 9700
4200- 11200
5000- 13500
6000- 16000
Gl Fan options only available on upblast and downblast arrangements. © Motor horsepower limitations are based on open drip proof motors only
Lower Initial Cost Selections
Most Efficient Lowest BHP
Catalog 550 I Page 29
Table 11. Physical data
Diameter Class I (inches) 9 x 4 9x7 9x9 10.62 12.62 15 18 20 Maximum rpm N/A 2189 2223 1934 1614 1328 1155 1050 Shaft & bearing diameter (inches) N/A 1 1 1 1 1.188 1.188 1.938 Outlet area (square feet) N/A 0.65 0.84 1.04 1.46 2.05 2.87 5.18 Diameter Class II (inches) 9x4 9x7 9x9 10.62 12.62 15 18 20 Maximum rpm 2244 2854 2896 2518 2091 1725 1450 1432 Shaft & bearing diameter (inches) 1 1 1 1.188 1.188 1.938 2.188 Outlet area (sq. ft.) 0.65 0.84 1.04 1.46 2.05 2.87 5.18
'\••··-c.·c.:· :::cT<:\•·•·•·• .:..c ·:.• • ·c::-• .. :••:>e- ·. f••.;::_:·.···••·•::L·c·>:•··•· •:Cf·\'<-'•.••' Diameter Class I (millimeters) 229 X 102 229 X 178 229 X 229 270 321 381 457 508 Maximum rpm N/A 2189 2223 1934 1614 1328 1155 1050 Shaft & bearing diameter (millimeters) N/A 25 25 25 25 30 30 49 Outlet area (square meters) N/A 0.060 O.D78 0.097 0.136 0.190 0.267 0.481 Diameter Class II (millimeters) 229 X 102 229 X 178 229 X 229 270 321 381 457 508 Maximum rpm 2244 2854 2896 2518 2091 1725 1450 1432 Shaft & bearing diameter (millimeters) 25 25 25 25 30 30 49 56 Outlet area (square meters) 0.045 0.060 0.078 0.097 0.136 0.190 0.267 0.481
1;~·: y'l:N;~~::·:(;;':::·: •:1:;c.::\).;o:·;·· t:,;\":•:•;:i;i;"':;';? . ...... :.~';;·; .. ··· ·······~ ·-;:.::;··.;; ........... •:.;c\
Diameter Class I (inches) 13.22 14.56 16.19 19.69 21.56 Maximum rpm 3000 3000 2300 2000 1700 Shaft & bearing diameter (inches) 1.188 1.438 1.438 1.938 1.938 Outlet area (sq. ft.) 2.11 2.85 3.52 4.68 5.82 Diameter Class II (inches) 13.22 14.56 16.19 19.69 21.56 Maximum rpm 4335 3918 3457 2858 2547 Shaft & bearing diameter (inches) 1.438 1.688 1.688 2.188 2.438 Outlet area (sq. ft.) 2.11 2.85 3.52 4.68 5.82
··•'•·•:•s~:\?,~···;·o=~ ,.,,,,.J•-::o;:.<''•? ;····'\"!'?;~·.:~; •.FI•:.•;;l·~····•·"•>··· .....•.. •· •::;,;:•.· :: Diameter Class I (inches) 336 370 411 500 548 Maximum rpm 3000 3000 2300 2000 1700 Shaft & bearing diameter (inches) 30 37 37 49 49 Outlet area (sq. ft.) 0.196 0.265 0.327 0.435 0.541 Diameter Class II (inches) 336 370 411 500 548 Maximum rpm 4335 3918 3457 2858 2547 Shaft & bearing diameter (inches) 37 43 43 56 62 Outlet area (sq. ft.) 0.196 0.265 0.327 0.435 0.541
Page 30 I Catalog 550
Figure 7 .. Torque for FC variable inlet vanes (lb.-in.)
300
150
250 ~-~v
/ /
v ~ Ci
... ~./ /
200
c ., ..ci = Q) ::J
!:! ._2 100
/ Vv lP' ~ v / /
/ / 90
80
70
60
/ v / / / /
v / / / /v v /
/ / / / v
/ v
50
,I I I I I I I I 450 500 550 600 650 700 750 800 850 900 1 000 1500 2000
RPM
Figure 8. Torque for AF variable inlet vanes (lb..-in..)
500
400
350
300
250
200
~
c 150 "T ..ci = Q) ::J
!:! ._2 100
90
80
70
60
50
40
35
30
4>./ ~r ,.q,/
/ ~«Y /v / v v ,
~ ~~/
// v / ~ ~ / -~·
/ v / v v v / /
/ / / / / / / / ./"' /
/ / / / / /
v / / / / v / / v / v /
/ / /
850 900 1000 1500 2000
RPM
2500 3000 3500 4000 4500
Catalog 550 I Page 31
Coil data
Table 12.. Unit coil dimensional data
•small face area coils are limited to heating applications with face and bypass dampers
Coil section depth limitation by number of rows in coil Heating only section
Section depth 12" 14"
Maximum number of rows 2 row water, steam, or cleanable 4 row water
Cooling only section (no moisture eliminator)
Section depth Maximum number of rows 16" 4 row DX or water, no cleanable 24" 8 row DX or water, 6 row cleanable 30" 10 row DX, 12 water, or 8 row cleanable
Combination cooling and 1 or 2 row reheat (no moisture eliminator)
Section depth Maximum number of rows 24" 4 or 5 row DX or water, no cleanable 30" 6 row DX, water, or cleanable 36" 10 row DX, 12 water, or 8 row cleanable
Notes: The spacing between coil casings is a minimum of 4", if more access between coils is required, increase the section depth Cooling coil sections are available in section depths of 16", 24", 30", 36", 42", 48", 54" If a moisture eliminator is required, use the next larger size
Page 32 I Catalog 550
Filter data
Table 13 .. Size and quantity of filters used per unit size
Catalog 550 I Page 33
Dimensional data
Top horizontal fan discharge 2 .. 00"
~
t f H (Minimum Value)
__, -200"
2 00" I --,----------- - +----t-
A
'
' ' ' ' ' ' ' ' ' ' ' ' '
-J;,-~-~-: __ :_:_:_:_=:;s-------------1
' '
' ' ,--
~L:::::=====;_ u:;=====~ t
3 .. 00" Plan
Note:
F
The H dimension shown is the minimum value. This dimension will vary with the motor size used..
*Not available with vanes.
Page 34 I Catalog 550
~~ow. r ( ( __ ------., -L
•' ---,\:-~. :' +---+
00 ,•'_,_'~ ~' .,.' I ·- .. --- ..... '' ~'----~' ... _____ .. G
--~~-~~~::~~-------------- ~
t=%-: ~ Elevation ""-1.25 MPT
!
Bottom horizontal fan discharge
A
2.00"
+ t f
H (Minimum Value)
,-- ----------- - +----+
_:: :::~-------];;-------;m
- - -'
' ' ' ' ,------ "1
F
lLL..::======;=;:::_ u ======::J t
3.00" Plan
Note: The H dimension shown is the minimum value. This dimension will vary with the motor size used ..
*Not available with vanes
Elevation
Catalog 550 I Page 35
Upblast fan discharge 2 .. 00"
t t t
H (Minimum Value)
A
1"'----- _-:uo., - }lll;_-:_ ~--- -tJJf
' ' ~r -,
'' ' '' ' \, ,-------.,
LL'----rru------" t
3 .. 00" Plan
Note:
F
The H dimension shown is the minimum value .. This dimension will vary with the motor size used ..
*Not available with vanes ..
Page 36 I Catalog 550
Airflow t
20~ E
2 .. 00" / --- '
' ' ' I ' ' ' ' ' ' ', '.., ... ___ ----1:; ,,
'~ i- --' ' /--'
Elevation
1 B
1.25 MPT
Downblast fan discharge
2 .. 00"
+ ! (Minimum Value)
" ... ----.... --1 t
A
Note:
-------------r---
' - _];,-~~-~-~-~-~-~-~--- -'----
------1 '
·-r-' '' ' '' ' '"-,-------.,
Plan
F
The H dimension shown is the minimum value .. This dimension will vary with the motor size used.
*Not available with vanes
' ' ',
,---J ( \ JB ' '
2 oo" ', ,L1> _____ ,,' l -- "~--=:=:-:;,:"':::-~-~-- +---------- -~-
20~1-----•~ -~E~ G.r
Airflow t
Elevation
Catalog 550 I Page 37
Note:
Horizontal blow-through and draw-through single cooling coil section
2,00"
~ ~ii\dffi:i ' ' ' ' ' I '
'
I I '
A I '
I '
I ' ,I ' : i 'lfl~ I r I '
,00"-8,.00" ~ lu approx
i
6
Plan
Airflowt
3.00"
! i
Elevation
2 .. 00"
Drain Conn .. 1.25 MPT
The single cooling coil section is available in numerous depths. This gives the option of varying the amount of space downstream from the coil for access to inspect and clean the coil and drain pan .. The smallest section, the 16" deep
section, will hold up to a 4-row water (non-cleanable) or OX coil. A 30" deep section will hold a 12-row water coil. Any size larger than the 30" section increases the amount of access downstream from the coil.
.. '
.· .·· c ·.···.·· (availabf~allsi~sl •· .·· •>:\ ... · ,·.· ' • :: ~~€ ... ·•.:·:. <A, ..• '·. . .. El. ·•. >
f-~,..,...;.f--'-;,.:;.i.:.;;n;;.,-+--"-m~.m~·-·+..,_:~in~··,...· .+ '.....;;,m~m.,_.~· · .. ·. . in.. · nim Q03 38.00 965 26.00 660 •·· 16.00 406
1-.• .....-=: .. op.J:.-': .. :--... -.+-.4-:-::o:-::.oc;:"o-+--.:-10"'1:-::6-t----::3-=-o.::-:oo::--lf--::7:-=6:::-2 ~ 24.oo 610
·, 006" 52.00 1321 30.00 762 30.00 762 r---,~oo:t::a:--:-:'-t-5;:-;:8:-::.oc;:"o-+--.:-14-:-:7:-=3-t----::3-:-4.::-:oo::--lf--::8c;:"64~ 36.oo 914
1-.~.~~o~t-6~4-=.o~o-+--.:-16~2~6-t----::3:::-6.7-oo::--lf--::9~14~ ~472.700~~1706=7~ 012 66.00 1676 42.00 1067 ·, 48.00 1219
1-::-01:-::4-'-. -l--:7::-:4-=.o~o-+--.:-18::-:8:-:::o-t----,.427.7-oo::--l-1:-::o""'67=---l 1--::5,..,-4.700~1--:1""'37=-=2~ 017 80.00 2032 46.00 1168
021 82.00 2083 52.00 1321
Page 38 I Catalog 550
Horizontal blow-through and draw-through combination cooling and reheat coil section
200"
~
A
3.00" _l_
6 ....:.oo
7
"-_8 .. o_o_" __ II 11 u 1U11
~prox .U U i
Plan
i
Note: The combination cooling and reheat coil section is available in numerous depths. This gives the option of varying the amount of space between the cooling coil and reheat coil for access to inspect and clean the coil and drain pan .. The smallest section, the 24" deep section, will hold up to a 4-row
1016 1321 30.00 1473 34.00 1626 36.00 1676 42.00 1880 42.00 2032 46.00 2083 52.00
Airflowt
water (non-cleanable) or DX, and a 1- or 2-row reheat coil. A 36" deep section will hold a 12-row water coil and a 1- or 2-row reheat coiL Any size larger than the 36" section increases the amount of access downstream from the coiL
'~:'m~. ': 610
762 762 762 914 864 1067 914 1219
1067 1372 1067 1168 1321
Catalog 550 I Page 39
A
6,00"-8,00" approx.,
i
Page 40 I Catalog 550
Vertical draw-through single cooling coil section
2,00"
~ i
I
; \ / i i \ ' , I : i \ I ' ' \ '
en:_-~: \/ l( \ ( \i
Plan
I I I
Airilowt I
B
~ 3.00"
t
,-,, ,, ,, ,,, ,,, ,, ,, ,,, ,, ,, ,,, ,,, ,, ,, ,,, ,, ,, ,,, ,,, ~~ r
_3 ~ --~ ..,_- - - - ~ ~ ~ ~ ~ ~ ~ 0"
I--Cf2----"' \_or:-2 n, 1.25 MPT
Elevation
Vertical draw-through combination cooling and reheat coil section
Note:
A
~U-' ' I
Fiill ' ' ' ' ' '
1: ,,
/: ·:
l I i ' ' '
~ I : ' ' '
2 .. 00"
~ i
·,c--:.-n.!\1 ~i I 2 ~0" I \, \t \1 ' f--i-- -f
-_6 .. 0:0="-_8-.. _o_o_·-· - L-=:It: l+t= IIUtl= .=+tt±======~ "' 3.0 rO" approx.. . U U i
Plan
The combination cooling and reheat coil section is available in numerous depths .. This offers the option of varying the amount of space between the cooling coil and reheat coil
965 40.00 1016 30.00 762 12.00
52.00 1321 30.00 762 12.00
58.00 1473 34.00 864 14.00 64.00 1626 36.00 914 16.00
66.00 1676 42.00 1067 18.00
74.00 1880 42.00 1067 18.00 80.00 2032 46.00 1168 20.00 82.00 2083 52.00 1321 24.00
305
305
356 406
457 457
508
610
D
~ H 2 00"
2 00"
Airflowt I
,- ' ,, ' '
1 l-[
' ,,, "•
' "• ' "• ,, ' ' "• ' "•
B ' :t{ ' ' "• '
,, ' "•
' "• ' "• '
,, ' ' "•
3.00" "• ~: __ ,!_ '). 2 00"
* --!_.!>.I-
~ - -----"' t
~%- ~~rain Conn. --r
1..25 MP T
Elevation
for access to inspect and clean the coil and drain pan .. The smallest section will hold up to a 4-row water (non-cleanable) or DX and a 1- or 2-row reheat coil..
Vertical combination cooling and reheat sections are available in various section depths .. The distance between the leaving side of the reheat coil and the end of the section remains constant The distance over the drain pan is variable
:IJN:IT•·· . ;.'C.t0""24~) ·•••·· -··· ·· •. C([)?30'!J··-~--- • C(Oi:i3!1r!- •. : :_·.···· (fin', \421•}[,){ t·····•t.¢1) :\:~·: ~IZE · 'ill; •moL. I io; :mm· :'·if!.":··-.·. •- :mrn .. ';:_iJk···.·.•_, •. \mrn<···• !. •'iJi';'Jt3i' ,.,:;~:111''······ ~-;,:•t!ll~ ;:fai·''! IH•'·'I'~"<•'
:·.·. 003 38.00 965 44.00 1118 50.00 1270 56.00 1422 62.00 1575 68.00 1727 .· 0'04 40.00 1016 46.00 1168 52.00 1321 58.00 1473 64.00 1626 70.00 1778
006 40.00 1016 46.00 1168 52.00 1321 58.00 1473 64.00 1626 70.00 1778
008 42.00 1067 48.00 1219 54.00 1372 60.00 1524 66.00 1676 72.00 1829
010 44.00 1118 50.00 1270 56.00 1422 62.00 1575 68.00 1727 74.00 1880 .-., 012 46.00 1168 52.00 1321 58.00 1473 64.00 1626 70.00 1778 76.00 1930
014 46.00 1168 52.00 1321 58.00 1473 64.00 1626 70.00 1778 76.00 1930
017 48.00 1219 54.00 1372 60.00 1524 66.00 1676 72.00 1829 78.00 1981
021 52.00 1321 58.00 1473 64.00 1626 70.00 1778 76.00 1930 82.00 2083
Catalog 550 I Page 41
A
Page 42 I Catalog 550
Horizontal discharge 2-deck multizone coil section
2 .. 00" _____l_
c::::::: r::-• 1-r
Plan
' ' '
M ,, ' ' ' '
' Airflowt B
' ' ' '
2 .. 00"
L j -{L,oo
' ' ' ' '
---:o ' ' '
' ' ' ' ' ' ' : o: 1--- -·
:o-' ' ' ' ' ' ' ' ' ' ' ' 0 '
l -
--------
-----
r-; 8.34"
.00" ___1
l _L
4.00"
11 J t
2.00"
~~-~:::! __________ + ---- -- ----
L:\Df2--j~ C D \
0"
. ~Connec Elevation
lion 1..25 MPT
A M
• 6 . .00"- 8.00" approx.
t
-if'}' ,,,/A;/'ii"C,i;,', ''c:•ln~•··--t• 'ii
52.00 1321
58.00 1473
· :Q:IQ: .. c' 64.00 1626
:(}12 66.00 1676
'.!lH 74.00 1880
0.11.> 80.00 2032
o21 82.00 2083
Vertical discharge 2-deck multizone coil section
i 2.00" 1 r-H-1 F-~~ r 2 00"
E
____.1
8 .. 34"
t
1-Airflowt B
' ' ' '
II u u u u 3.00"
Plan
i,iSJi{'if;iE ~;ct::;;;_•;.~ ~-E~.L~· .~';;,';{l<'i;l lr•_.;,'•i•: ;;1~~C0 );;: ' lfi'C,\ :·;· Si::!!:~;Y~~~~ "•i•'•'in~\•t•t· ........... :,? ~·cr ,·,;~mmJ'• [ii•) ....... •; h\S}lril.~.~ >Xi
30.00 762 48.00 1219 30.00 762 48.00 1219
34.00 864 58.00 1473 36.00 914 52.00 1321
36.00 914 58.00 1473 36.00 914 54.00 1372
42.00 1067 60.00 1524 36.00 914 60.00 1524
42.00 1067 60.00 1524 36.00 914 60.00 1524
46.00 1168 60.00 1524 36.00 914 64.00 1626
52.00 1321 70.00 1778 42.00 1067 70.00 1778
' ' ' ' '
' ' ' ' '
---0
·······c';:.····::•
14.00
18.00
18.00 20.00
20.00
20.00
24.00
:I
' ' ' ' ' ' ' ' '
o:
•F••;,C:•,,;z;;;f; r;~&<&.•:;e.:;;;~' 4•2•fi'S::CK',(;<; .]ri:N;;,; t•''>''mm•~;:
356 40.60 1031
457 48.60 1234
457 56.60 1438
508 56.60 1438
508 64.60 1641
508 72.60 1844
610 72.60 1844
Catalog 550 I Page 43
Horizontal discharge 3-deck multizone coil section
A
c:::::- ---r
' ' ' ' ' ' ' ' ' ' ' ' ' ' ' '
2.00" ____j_
~~-
'n- H J ~ ,_, ,_, ,_.Q = t
__:t,6,--;; .. o:o"-~a:.oo~" ::=:_=:_=:_=:_+lt===t=liU=u;:;::~l~ 1uif-+ !+= 11_= _:J ---=3.o:r-to"
a_!)prox. _ U , ~ f
Plan
Page 44 I Catalog 550
E
I '
' ' '
Airtlowt B ' ' ' ' '
2.00"
L '
1 -{L,,,
8 34"__, r 2t" ---
' 0 ' ' ' '
0' -- _r ---·---
: o----' ' ' ' ' ' ' ' ' ' ' 0 ~:;,.,:_:_:_:_!_----------
---
----
--------
----
I _j_
4.00" ------r
G _____i_
4.00"
If H
J t
2 .. 00"
t
L~Df2- ~ D \ c
. ~Connec Elevation
tion 1..25 MPT
r A M
+ 6 .. 00"- 8.00" .U
approx.
t u
Vertical discharge 3-deck multizone coil section
... 400"j rGl F.OO"
2 OO"IIHI H--j r-2 00"
' ' ' ' ' 8 .. 34" ' ' ' ' ' ' ' ' ' ' ' '
t ' ' ' ------ -o-::
~Q------- ~~ ,r 0
Airflowt B
____L 2 . .00" 0 3 .. 00'
L ------1 ... ---=-=.-::.-:::: _________
--- ---
u u u 3.00"
t t -J.L2.ao" I. n~Df2J~ D \
Plan c
Elevation ~Conne ction 1.25 MPT
Catalog 550 I Page 45
Heating coil section 1 and 2 row heating coil section
s ru_
A '
' ' ' ' ' ' ' ' ' ' ' '
L 1f ,-, 'f+-
i u 2.00"
Plan
3 and 4 row heating coil section
-
~:1 I . . I I I I ' A I '
I '
I '
! I 2 .. 00"
~ 1_
t uu Plan
UNIT SIZE .·.· ..
003 004 006 008 010 012 014 017 021
Page 46 I Catalog 550
_j_ 6 .. 00"- 8
appro
t
.00" X
___1_ 600"- 8. 00"
X. appro
t
·. ·.A in;
38.00 40.00 52.00 58.00 64.00 66.00 74.00 80.00 82.00
mm .·
965 1016 1321 1473 1626 1676 1880 2032 2083
r-12 00'1
200"11 I
r r---~::1 h,JI
Airflowt B
1_~ t
2 .. 00" Elevation
r-14.00"1
200 .. 1 r
r Airflowt B
-
ro=t . I I . . I I . . I I .
200" i ol -_[_~
t Elevation
·. B in, mm
26.00 660 30.00 762 30.00 762 34.00 864 36.00 914 42.00 1067 42.00 1067 46.00 1168 52.00 1321
Flat filter section
Angular filter section
A
Flat and angular filter section
A
2 .. 00"
_L
~ ' ' '
' ' L ,--,
'' '' ''
:=: ' ' '' ' '' '' '' '' '' 2?0" ' '
_l___ L..!......!..._
t Plan
" " " " " " " " " " " " " " " " " " " "
" " " " " " " " " t '-----------' Plan
2 .. oo"-frc1
1 ;:-:;-, ' ' ' '' '' '' '' F'
t •' ': Airflow B
2 .. 00"
L_ +'--.L.-----,--
t j L334"
Elevation
2 .. oo"-rr=-c1
I. Airflow t B ~ --
Elevation
···· .. c. . 4°Angqlar Filter
in • .... ! mm . 0.0~}· 38.00 965 26.00 660 12.00 305 30.00 762 N/A N/A
. 004\' 40.00 1016 30.00 762 12.00 305 30.00 762 N/A N/A 006 • 52.00 1321 30.00 762 12.00 305 30.00 762 N/A N/A 00~ 58.00 1473 34.00 864 12.00 305 28.00 711 30.00 762
010 ·.·.· 64.00 1626 36.00 914 12.00 305 28.00 711 30.00 762 •.. · 0"12 66.00 1676 42.00 1067 12.00 305 30.00 762 28.00 711
014 74.00 1880 42.00 1067 12.00 305 30.00 762 28.00 711
017 80.00 2032 46.00 1168 12.00 305 30.00 762 30.00 762 021 82.00 2083 52.00 1321 12.00 305 28.00 711 30.00 762
Catalog 550 I Page 47
Cartridge and bag filter section
Cartridge filter section
A
Bag filter section
A
200"
~
t
Page 48 I Catalog 550
Plan
~1~--------------------,, ,, ' ,, ,, ,, ,, ,, ,, ,, ,, ',, I,. ,."' ~f~~~=================~ ,, ,, ,, ' ,, ,, ,, ,, ,, ,, ,, ,, ',,
~+~~~~~~~~~~~~~~~~~~~~::' ,, ,, ,, ,, ,, ,, ,, ,, ,, ,, ,,
:_!~------------------- .;
Plan
Aililow t -~-r-- -----
~:\ /: ~ : \ I 1
~ I ,' ~ I \ I
I' < ~ I I \
~ I I \
~ : ,'/ \ I
2 .. 00" l:: \: _L_~I < -=---=--'::::j
t J L334"
Elevation
200"-1'1
1~:~ ~' ,, ' ,, ' ,, ' ,, ,,
..._]_--- ----------------- ... .... --------------------Airtlow ., B
200" L_ ---------------------
t j l334"
Elevation
~UI\li\Jf: :; :;:; J~'V\ ; 'S' ''}1:1<.... .\ ..•. • > fll'J'j;t;IJY~Ei >~~).tLSIZE;S
c~I~J;z, .'S!IY~ • I ·.fu~\' Jni • [.IJlm } ; Olili1:r!4!iff> .. ·.• 'lnc.c •··· rom ~ ;Q.Q:f;; 38.oo 965 26.oo 66o .•. :_··._t4~:wt~":J?r:e.·· 14.oo 356
o.a,.;;: 4o.oo 1 o15 3o.oo 762 ·.·.••·•• .· •.• · ~~c'tu/4'"-Pre . 16.oo 406 .0<1.6. 52.oo 1321 3o.oo 762 . 1%'~wtg~'Pr~ : 22.oo 559
• O()IF 58.00 1473 34.00 864 _.,.· ''1~''·WI<l"J;JI'~ ' 24.00 610
()to> 64.oo 1626 36.oo 914 : · <Bali '~ : 'in• mm. '()1'2 · 66.00 1676 42.00 1067 · ··.• 12'!1N/2~':F'r$> 18.00 457
OH 021
74.00 80.00 82.00
1880 2032 2083
42.00 1067 46.00 52.00
12" wl'f~ .Pre. 20.00 508
. 19"11\112)' P(~ 26.00 660 19" w/4" Pre 28.00 711 22" w/2" Pre 28.00 711 22"w/4" Pre 30.00 762 30"w/2" Pre 36.00 914 30" w/4" Pre 38.00 965 36" w/2" Pre 42.00 1067 36" w/4" Pre 44.00 1118
Mixing box
A G
Mixing box with angular filters
A G
Note:
Mixing box and combination filter mixing box
2j0
Plan
d 0"
Plan
Dampers can be located in the top, bottom, and back of the section.
Elevation
Catalog 550 I Page 49
Economizer section
,-----
A G
'----2r 0"
Plan
Note: Dampers can be located in the top or bottom of the section ..
Page 50 I Catalog 550
~· c ·~
12 .. 00" - ~D=4·~~= 200
', : ',,:
t '' Airflow B ',, : ,,
2 .. 00"
' ' ', ' '' "
Lt.':::================'--J i
Elevation
Blender section
--, ,, ,, ' ' ' ' ' ', '
' ': ',' ,, ' A ,..": ' ',: >,
Airflow t '' ' '' ' ' '; ' '
I --' " '' ' ' '
~:~~--': B -,_- --:
' : ' '
' '' ' ,, ' --. ' ' •'
--~I L_
~ i 2 00"
t Elevation 2 .. 00"
Plan
~:,ij~,t~:J/.'i:" cj;~;~;.;l ~.C:.~i\·•·,,· [:•;\.·······.•t;l ~·'{;•;. :.:•i.• .•. •·c!if'.'"·. . •... -...• ,z;i'i~F·- •i•mm.;;.· [.; itt; ;'•; i-rnm:'i G·.'!n/). ·mro•
;;;9()3;··· 38.00 965 26.00 660 26.00 660
>:QQ4?X 40.00 1016 30.00 762 30.00 762
- 'O(!I!•>> 52.00 1321 30.00 762 36.00 914
.cflqS .. 58.00 1473 34.00 864 42.00 1067
1)1(1 64.00 1626 36.00 914 48.00 1219
012 66.00 1676 42.00 1067 50.00 1270
01'4 74.00 1880 42.00 1067 42.00 1067
I 017' 80.00 2032 46.00 1168 46.00 1168
021 82.00 2083 52.00 1321 48.00 1219
Catalog 550 I Page 51
Access doors
2 00" 1 .. 00"
~-----~~------~1-------.~----------------~------------+o ...
i i .. ---------------------- -~
' ' ' ' ' ' '
' a: B
B.
' ------------------------~--------------tl------- ~----------------------------------~
I 1.00"
Note: Access doors are an option for most sections .. Fan, filter, and access sections are always provided with a door on one side of the unit. The size of the access door varies with the size of the section .. Access doors are always 4" smaller in width (section depth) and height than the section they are installed in .. Access doors are never wider than 30".
Once the door is opened, the opening will be 1" less than the door height and width .. This is because there is a 1" flange around the opening .. Door height is always 4" shorter than the section height except if the section has a drain connection .. If the section has a drain pan, then the door will be 6" shorter than the section height.
Page 52 I Catalog 550
Elevation
2 .. 00"
Diffuser
A
Airflow t I " " " " " " " " " B " " " " " " " "
2 00" "
]~ ___ " " '
2 00"
L_ L____j t
Elevat1on
t Plan
Catalog 550 I Page 53
Access section
A
Airflowt
2 00"
-:I::_ i t::::=====.J
Elevation
Plan
UNIT ' · .. ···.···· e;, ....... ······ A B •··· · (avB.ila~/*fal(siz.~)
SIZE t• . in.·. ·rnm ih .. ·: mm :•. <iri.···. .ITI.m.,·
003 ·. 38.00 965 26.00 660 16.00 406
004 40.00 1016 30.00 762
.·····
24.00 610
'006 52.00 1321 30.00 762 30.00 762
008 58.00 1473 34.00 864 36.00 914
010 64.00 1626 36.00 914 42.00 1067
012 66.00 1676 42.00 1067 48.00 1219
014 74.00 1880 42.00 1067 54.00 1372
017 80.00 2032 46.00 1168 - -021 82.00 2083 52.00 1321 - -
Page 54 I Catalog 550
Internal and external face and bypass sections
Internal face and bypass with small face area coil
r---
--r-
' ' ' '
A
2 00" I---l_ '------
r Plan
External face and bypass with medium face area coil
-r
A
2.00" j_
--
t Plan
?x~~f ~··l;t/gc;<·•~ c ..... r. .. ·L· .• · • .:~ ··>· .. ···.>
~~ 1':; i• in~:· . · ·.••5mm.:·: I•. "io.i; ;, mm· <~~: 38.00 965 26.00 660
\QQ4.''2• 40.00 1016 30.00 762 · 'Q06'-': 52.00 1321 30.00 762
0!18. 58.00 1473 34.00 864 . 010,.· 64.00 1626 36.00 914 .012 66.00 1676 42.00 1067
014 74.00 1880 42.00 1067 011 80.00 2032 46.00 1168 021 82.00 2083 52.00 1321
2.00"
n-
''' ''' ',, ' " •" ''' •'' •'·-..! •'' ''' ''' ',, : /: :/ : '' ''' ',• ' •' ',. ''' ''' IL.-1
~~l --,---t -
D
n-•
"' ,, ' ''' ',, ',, ''' •'_: -+----!-+------+!. \1 -1
•' '' '' ': '' ., .,
Airflow .. B Cabinet ., Height
'' '' '' '' '' ,,
· C ;., lnt~rnal ········.in.· .; mm
12.00 305 12.00 305 12.00 305 12.00 305 12.00 305 12.00 305 12.00 305 12.00 305 12.00 305
,, " '' '' 2 oon : ,':
j__L::::===·-·-~~
t Elevation
C .,.External in; mm. . in.
16.00 406 10.00 16.00 406 10.00 18.00 457 10.00 18.00 457 10.00 20.00 508 12.00 24.00 610 16.00 24.00 610 16.00 24.00 610 16.00 28.00 711 22.00
D mm 254 254 254 254 305 406 406 406 559
Catalog 550 I Page 55
Discharge or return plenum
1----o--
1.,00"_ -Flange _1_ 3.00" -T
D
A E
Optional Opening
___ l_
2 00"
]=-__ t Elevation
Plan
Note: Return and discharge plenums are available with openings in the top, bottom, upper end, or lower end. The opening size does not vary with the location.
Page 56 I Catalog 550
A
Sound attenuator section
,--
--------------, ,--'
----------------,1
]------------------- '\ ' ' ' '
---------
Plan
' ' ' '
.... · ··()q;l··· . 38.00 965 26.00 660 •• 40.00 1 016 .. Qll4" .·· 40.00 1016 30.00 762 ••. 52.00 1321
· ooa 52.oo 1321 3o.oo 762 1 64.oo 1626 I .OQ$.< 58.00 1473 34.00 864
64.00 1626 36.00 914 I 012 66.00 1676 42.00 1067 I
74.00 1880 42.00 1067 ! 80.00 2032 46.00 1168
014 . 0.17
021 82.00 2083 52.00 1321 ..
Elevation
Catalog 550 I Page 57
Exhaust fan performance: • Air flow:· ( __ ) cfm, [( __ ) Lisee] at ( __ ) inch wg, [( __ ) Pa] external static pressure .. e Motor.:· ( __ ) hp, ( __ ) volt, (single) (three) phase, 60 Hz ..
Bearings and drives Bearings- Basic load rating computed in accordance with AFBMA-ANSI Standards, (L-50 life at 200,000 hours), (L-50 life at 500,000 hours), (L-50 life at 1,000,000 hours), heavy duty pillow block type, self-aligning, grease-lubricated ball bearings ..
Shafts - Solid, hot rolled steel, ground and polished, keyed to shaft, and protectively coated with lubricating oiL
V-belt drive- Cast iron or steel sheaves, dynamically balanced, bored to fit shafts and keyed. Fixed sheaves, matched belts, and drive rated as recommended by manufacturer .. Optional variable and adjustable pitch sheaves selected so required rpm is obtained with sheaves set at mid-position .. Standard drive service factor [1 .1 (% HP-71,/2 HP)] [1.3 (1 0 HP and larger)] times fan brake horsepower. Optional customer specified service factor ..
Belt guard - Enclosed on all four sides, wire screen welded to steel angle frame or equivalent, prime coated .. Secure to fan or fan supports without short circuiting vibration isolation, with provision for adjustment of belt tension, lubrication, and use of tachometer with guard in place ..
Electrical characteristics and components Electrical characteristics - ( __ ) volts, (single) (three) phase, 60 Hz.
Motor- (Open drip proof) (TEFC) (2 speed, 1 winding) .. Efficiency (standard) (high) (premium) ..
Wiring termination - Provide terminal lugs to match branch circuit conductor quantities, sizes, and materials indicated .. Enclosed terminal lugs in terminal box sized to NFPA 70 ..
Coils Casing - Provide access to coils from (both) (connection side) (opposite connection side) of unit for service and cleaning .. Enclose coil headers and return bends fully within unit casing. Coil connections, vents, and drains to extend beyond unit casing .. Coils removable through side panels and/or top panels of unit without removal and disassembly of entire section.
Drain pans - (Anti-microbial coated galvanized) (Stainless steel) drain pan located underneath and extending downstream of coil, and intermediate drain pans required for cooling coil banks more than one coil high.
Eliminators -Three break construction of galvanized steel, mounted over drain pan ..
Air coils - Certify capacities, pressure drops, and selection procedures in accordance with ARI 41 0 ..
Fabrication -e Tubes.:· %11 (16 mm) OD seamless copper expanded into fins, brazed joints. e Fins.:· Aluminum, optional copper plate type fins .. e Casing.: Formed channel frame of galvanized steel. Optional stainless steel, copper, or aluminum.
Water coils- Fins have a minimum thickness of [ .. 006 11 (..152 mm)], [.0075 11 (..191 mm)], [ .. 0095 11 (..241 mm)] with full drawn collars to provide a continuous surface cover over the entire tube for maximum heat transfer .. Tubes mechanically expanded into the fins to provide a continuous primary to secondary compression bond over the entire finned length for maximum heat transfer rates. Bare copper tube shall not be visible between fins.
Water coils provided with headers of seamless copper tubing with intruded tube holes to permit expansion and contraction without creating undue stress or strain. Coil connections (carbon steel) (copper) with connection size to be determined by manufacturer based upon the most efficient coil circuiting .. Vent connections provided at the highest point to assure proper venting. Drain connections provided at the lowest point to insure complete drainage and prevent freeze-up.
Refrigerant coils- Coils designed for use with Refrigerant (R-22) (R-134a) .. Fins have a minimum thickness of [ .. 006 11 ( .. 152 mm)],
[.0075 11 (.191 mm)], [.0095 11 (..241 mm)] with full drawn collars to provide a continuous surface cover over the entire tube for maximum heat transfer .. Tubes mechanically expanded into the fins to provide a continuous primary-to-secondary compression bond over the entire finned length for maximum heat transfer rates .. Bare copper tube shall not be visible between fins ..
Refrigerant coils provided with round seamless % 11 (16 mm) O.D .. copper tubes on 1% 11 (38 mm) centers, staggered in the direction of airflow .. All joints brazed.
Sweat type copper suction connections located at the bottom of the suction headers for gravity oil drainage Coils circuited to (row) (face) (row and face) control capacity reduction .. Pressure type liquid distributors used .. Coils tested with 315 pounds air pressure under warm water, and suitable for 250 psig working pressure .. Coils are ARI certified and Underwriters Laboratories, Inc .. listed. All coil circuited in a counterflow manner with uniform circuits ..
Steam coils- Fins have a minimum thickness of [ .. 006 11 ( .. 152 mm)], [.0075 11 (..191 mm)], [ .. 0095 11 (.241 mm)], [ .. 012 11 (..305 mm)]
with full drawn collars to provide a continuous surface cover over the entire tube for maximum heat transfer .. Tubes mechanically expanded into the fins to provide a continuous primary-to-secondary compression bond over the entire finned length for maximum heat transfer rates .. Bare copper tube shall not be visible between fins.
Steam coils provided with round seamless [% 11 (16 mm)], [1 II (25.4 mm)] O .. D. (copper) (cupronickel) (admiralty) tubes on 1 W' (38 mm) centers- % 11 (16 mm) coils, or 3 11 (76 .. 2 mm) centers- 1 II (25..4 mm) coils .. Tubes on two-row coils staggered in the direction of airflow. All joints brazed ..
Steam coil headers made of nonferrous materials using seamless copper tubing with intruded tube holes to permit expansion
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and contraction without creating undue stress or strain .. Both the supply and return headers completely encased by the coil casihg .. Coil pitched in the unit to assure positive condensate drainage .. Orificed baffle plates be installed in the supply connection to ensure proper diffusion of entering steam..
Steam coils tested with 315 pounds air pressure under warm water and guaranteed for 150 psig working pressures ..
Hot water heating coil -• Size.: ( __ ) inch ( __ ) mm wide, ( __ ) inch ( __ ) mm high. • Rows.:· ( __ ) .. • Capacity:·( __ ) Btu/hr ( __ ) W. • Entering air temperature.:· ( __ )°F ( __ )°C .. • Leaving air temperature.:· ( __ )°F ( __ )°C,. • Air static pressure drop:· ( __ ) inch wg ( __ ) Pa. • Water flow rate.: ( __ ) gal/min ( __ ) Lisee. • Entering water temperature.:· ( __ )°F ( __ )°C. • Leaving water temperature:· ( __ )°F ( __ )°C .. • Water pressure drop:· ( __ ) ft head ( __ ) Pa ..
Steam heating coil -411 Size.: ( __ ) inch ( __ ) mm wide, ( __ ) inch ( __ ) mm high. • Rows.: ( __ ). • Capacity:· ( __ ) Btu/hr ( __ ) W • Entering air temperature.:· ( __ )°F ( __ )°C .. • Leaving air temperature.:· ( __ )°F ( __ )°C .. • Air static pressure drop: ( __ ) inch wg ( __ ) Pa. • Steam flow rate.:· ( __ ) lb/hr ( __ ) kg/hr .. • Entering steam pressure:· ( __ ) psig ( __ ) K pa.
Water cooling coil -• Size:· ( __ ) inch ( __ ) mm wide, { __ ) inch ( __ ) mm high., • Rows.:· ( __ ) .. • Capacity:· ( __ ) Btu/hr ( __ ) W • Entering air temperature.:· ( __ )°F ( __ )°C DB and ( __ )°F ( __ )°C WB.. • Leaving air temperature:· ( __ )°F ( __ tC DB and ( __ )°F ( __ )°C WB., • Air static pressure drop.:· ( __ ) inch wg ( __ ) Pa. • Water flow rate.:· { __ } gal/min ( __ ) Lisee. • Entering water temperature.: ( __ )°F ( __ tC. • Leaving water temperature.: ( __ tF ( __ )0 C., • Water pressure drop.:· ( __ ) ft head ( __ ) Pa.
Refrigerant cooling coil -• Size:·( __ ) inch( __ ) mm wide, ( __ )inch( __ ) mm high.,
• Rows:· ( __ ) .. • Capacity: ( __ ) Btu/hr ( __ ) W. e Entering air temperature.: ( __ )°F ( __ )°C DB and ( __ )°F ( __ )°C WB .. • Leaving air temperature:· ( __ )°F ( __ )°C DB and ( __ )°F ( __ )°C WB., • Air static pressure drop.: ( __ ) inch wg ( __ ) Pa. • Refrigerant saturated suction temperature.: ( __ )°F ( __ )°C ..
Filters Filter box- Section with filter guides, hinged and latching access doors on either, or both sides, for side loading of filters.,
Filter media- UL 900 listed, Class I or Class II, approved by (local)( __ ) authorities.,
Flat/Angle- Arrangement with [2" (50 mm)], [4" (1 00 mm)] deep (pleated panel filter.) (Disposable panel filters .. )
Extended surface- Filter box with holding frames suitable for [2" (50 mm)], [4" (1 00 mm)] prefilter and final filter, media and blank-off sheets, extended surface (bag) (cartridge) media filters with (60-65) (80-85) (90-95) percent dust spot efficiency. Bag filter media [12" (305 mm)], [15" (381 mm)], [19" (483 mm)], [22" (559 mm)], [30" (762 mm)], [36" (914 mm)] deep., Cartridge filter media is [4" (50 mm)], [12" (305 mm)] deep., Optional antimicrobial coating.
Dampers Mixing boxes - Section with factory mounted low leak airfoil blade outside and return air dampers of galvanized steel in galvanized frame .. Dampers are hollowcore airfoil blades fully gasketed. Continuous vinyl seals between damper blades., Stainless steel end seals along end of dampers., Linkage and ABS plastic end caps provided.
Catalog 550 I Page 61
Economizer - Section with factory mounted low leak hollow core airfoil blade outside, and return dampers, and exhaust damper .. Dampers constructed of galvanized steel in galvanized frame .. Outside air damper sized to handle{ __ )% of supply air.. Outside and return dampers fully gasketed. Continuous vinyl seals between damper blades .. Stainless steel end seals along end of dampers .. Linkage and ABS plastic end caps provided.
Damper leakage- Leakage rate is less than two tenths of one percent leakage at 2 inches static pressure differentiaL Leakage rate tested in accordance with AMCA Standard 500 ..
Face and bypass dampers- Factory mounted low leak dampers, opposed blade, with vinyl bulb edging and stainless steel edge seals, galvanized steel frame, and axles in self-lubricating nylon bearings, arranged to match coil face with top bypass .. Blank-off and division sheets, internal linkage, access (panel) (doors) installed by unit manufacturer .. Internal face damper and bypass contained in Standard section height External bypass duct provided for larger face area coil.
Multi-zone dampers - Zone dampers for use with (2-deck) or (3-deck) system.. Factory mounted in casing of galvanized steel blades with vinyl bulb edging .. Low leak dampers with bronze end and side seals, locked in position to common shaft with rotation angles of 90°, requiring one actuator per zone .. Damper rods rotate in nylon bushings ..
Access Section to provide access between components [16" (406 mm)], [24" (61 0 mm)], [30" (762 mm)], [36" (914 mm)], [42" (1 067 mm)], [48" (1219 mm)], [54" (1372 mm)] deep .. Access doors of galvanized steel for flush mounting, with gasket, latch, and handle assembly .. Optional drip pan of (galvanized) (stainless) steel.
Diffuser Section mounted on leaving side of supply fan section providing uniform air distribution across downstream components .. Perforated diffuser plate secured over blast area of fan to disperse air flow ..
Blender Section to provide proper air mixing and distribution of the outside and return airstreams .. Proper spacing provided in the direction of airflow as recommended by the blender manufacturer ..
Attenuator Section provided to attenuate fan noise at the source. Variable range of splitter thicknesses and air passages provided to optimize acoustic performance and energy conservation.
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International
13600 Industrial Park Boulevard, PO. Box 1551, Minneapolis, MN 55440 USA (612) 553-5330
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