airtek magnum series - hte technologies · pdf filecontrol simplifies dryer operation ......
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Airtek® Magnum SeriesCycling Refrigerated Air Dryers
Smart Cycle® Dual Mode Demand Control
Parker Airtek’s patented Smart Cycle demand control reduces energy consumption and maintains a true and constant dewpoint by loading and unloading or by turning the refrigeration compressor on or off in direct response to the actual dewpoint temperature of the compressed air. The Smart Cycle control automatically adjusts for constantly changing operating and inlet conditions.
All Parker Airtek Magnum Series Dryers are equipped with a Smart Cycle control computer. The Smart Cycle computer eliminates hard wiring and contains a sophisticated set of control instructions that provides for a level of precision performance not possible with the conventional systems of switches and relays. The Smart Cycle control simplifies dryer operation by automatically anticipating and executing the necessary operating steps. A nonvolatile EPROM in the computer controls all operating functions. The electronics are protected from voltage spikes and electrical shorts by board mounted relays.
The Smart Cycle Control employs a patented, quick acting temperature sensor to precisely monitor the temperature of the compressed air at the evaporator discharge, and either adjusts the load/unload cycle accordingly, or turns the refrigeration compressor on or off depending on the mode of operation selected. Whether the refrigeration compressor is loaded, unloaded, on or off, is determined directly by the rising and falling dewpoint temperature of the compressed air. The dewpoint ranges from the low setting of +34°F (1.1° C) to the upper set point of +39°F (3.88°C) set points are adjustable.
Smart Cycle Energy Savings: When the refrigeration system is completely unloaded, about 50% of full load power is used. When the compressor cycles in the standby/off position, no energy is consumed.
Parker Airtek’s Magnum Dryers DO NOT use a hot gas by pass valve. They use compressor suction unloader valves together with Smart Cycle unloading to obtain optimum performance and energy savings. In simple
Conventional dryers use a hot gas bypass control valve. A hot gas bypass valve is a mechanical pressure regulating device used to provide a false load on the refrigeration system when the real load is less than 100%. Without the false load a conventional dryer’s evaporator temperature would fall below +32°F (0°C) and the evaporator would freeze. The hot gas bypass valve’s main function is to keep the refrigeration suction pressure and temperature constant, regardless of demand. This, of course, results in using 100% power even when there is no demand. It’s like unloading an air compressor with a pressure relief valve.
Direct dewpoint sensing and control assures the lowest possible dewpoint, driest compressed air, and significant energy savings.
terms a hot gas bypass valve places a false load on the refrigeration system, whereas the Smart Cycle system design does not. It uses only the energy necessary to achieve desired dewpoint.
In order to properly understand the significance of this breakthrough technology, the Smart Cycle system should be compared to conventional, mechanically controlled dryers.
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ReliabilityReliability is achieved by using our proven design and components and utilizing quality workmanship. Examples of this principle are obvious when looking at our rugged steel bases and frames, as well as our heat exchangers with minimal connections that resist fouling and minimize the possibility of leaks. In addition, the patented Flood Level Control exchanger eliminates problems with the compressor floodback and poor oil return that are commonly experienced with other dyers. The “Loadless Starting” feature reduces the start up load on the refrigeration compressor by 80%. Low refrigerant warning and shutdown prevents compressor failure in the refrigeration system. Additional safety devices include a “low pressure side pump down”, suction accumulator, high pressure shutdown switch with manual reset, and both liquid and suction line filter/dryer to assure clean refrigeration circuits.
OperationParker Airtek dryers are designed so that minimal operator attention is needed. Operation is as simple as turning the dryer on. The on-board computer then controls the unit so that it will react to ever-changing operating conditions. A diagnostic control system will inform the operator of the dewpoint, as well as warn of any upset conditions that may affect dryer performance. Drain valves activate only when necessary and prevent valuable compressed air from being vented. A drain alarm warns of any malfunction.
MaintenanceParker Airtek dryers are designed to require as little routine maintenance as possible. Examples of this design principle can be seen in our choice of smooth bore non-fouling heat exchangers, along with electronic rather than mechanical control devices. Other examples: use of bolts with captive nuts instead of sheet metal screws; large open spaces for easy access to components; use of modular type electronic panel for ease of replacement; isolation valves on all refrigerant switches allows service to any part of the system without having to reclaim the entire charge, saving money and drastically reducing the down time. Typical component selection and layout is simplistic, and use standard “off the shelf” items that can be supplied either by Parker Airtek or your local refrigeration service company.
Air QualityThe customer purchases an air dryer to improve air quality. It is an essential component in their operation. Poor air quality results in problems with product quality and production processes. The heart of Parker Airtek’s air quality design is the unique, patented Smart Cycle system, which directly senses the air temperature leaving the evaporator, and controls the refrigeration compressor in response. It is the compressed air temperature that controls the dryer functions. The system keeps the compressed air temperature in the 33-39°F (.55-3.8°C) range, shutting off or unloading the refrigeration compressor when the optimum dewpoint is achieved. The air temperature is displayed continuously by an LED readout on the control panel.
Energy SavingsEnergy savings is an additional bonus. With our proven design, the savings are built into each unit, which runs only when inlet temperature demand and compressed air temperatures dictate. Loadless starting, cycling the compressor on and off, or alternating between load and unloaded, and a low overall system pressure drop allow for energy savings without sacrificing performance.
Parker Airtek’s patented refrigeration system enables the use of a fully active flooded evaporator [2]. Compressed air
Patented Refrigeration Circuit
Saturated compressed air enters the tubes at the air to air heat exchanger [1] where it is pre-cooled by the cold compressed air returning through the shell from the evaporator. After the compressed air has been pre-cooled, it flows into the evaporator tubes [2] where the temperature is lowered to approximately 34°F (1.1°C). The temperature reduction forces water and oil vapors to condense. The mixture of cold compressed air and condensed liquid flows into the mechanical moisture separator [3] where the liquids are removed by impingement and centrifugal action. The compressed air then flows from the first stage moisture separator up through the second stage 3 micron filter element where it’s further purified. The purified compressed air returns through the shell side of the air to air heat exchanger [4] where its volume is increased through reheating. The processed compressed air then enters the main distribution system [5] as a dry, clean and efficient utility.
Air Circuitflows through the submerged tubes in the flooded shell to ensure dewpoint integrity. [6]. If any liquid refrigerant were present in the suction line, it would flash off to a vapor. An air temperature probe in the evaporator’s air side tubing, reads the temperature and displays it on the control center panel [7]. When the air temperature reaches its low set point, the compressor will either shut off, or unload, saving energy during periods of low load. When the dewpoint setting is reached, the compressor [8] will resume normal operation.
When operating in the cycling mode, a virtually unlimited
number of stops and starts is made possible by opening the Smart Cycle control unloader valve [9] prior to starting the compressor. This allows an unloaded start each time the compressor comes on.
When operating in the load/ unload mode, the warm refrigerant gas bypasses the condenser [10] and expansion valve [11] , and flows through the Static Cooler [12]. This core of cold liquid refrigerant removes the heat from the discharge gas to prevent a high suction temperature as the gas returns to the inlet side of the compressor.
Flow Schematic
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Performance Charts
Refrigerated Air Dryer Performance ComparisonNon Cycling Cycling
Typical Data False Load(Constant Run)
ConventionalCycling Dryers
Smart CycleDual Mode
Dewpoint RangeDegree F (Celsius C)
39°F to 55°F(3.88°C to 12.77°C)
Stop / Start33°F to 39°F
(3.89°C to 10°C)Spikes to 60°F
(15.55°C)
Load / Unload33°F to 39°F
(.55°C to 3.88°C)
Thermal Bank27°F to 39°F
(-2.77° C to 3.88°C)May Spike to 43°F
(6.11°C)
Moisture CarryoverPPM/W
661 to 1,173528 to 661
Spikes to 1,391528 to 661
407 to 661May Spike to 766
ISO Class Moisture 6 6 4 5
DurationDewpoint Spike
Does Not Apply 45 Minutes Does Not Apply 3 - 5 Minutes
Energy Costs High Low Medium Low
First Costs Low to High Very High Medium
Direct Expansion vs. MassThe Thermal Bank system has several advantages over heavy mass systems. It reacts faster, through direct air sensing and the main heat exchanger can be easily serviced. The Thermal Bank system delivers significantly cleaner and drier compressed air, has virtually no dewpoint spike and consumes no power when in a standby condition. The Thermal Bank system prevents evaporator hot spots common to heavy mass dryer designs because it does not rely on an intermediate mass between the refrigerant and the compressed air for BTU storage. The Thermal Bank system will (at times) drive the dewpoint below +32°F (0°C), but because of the precise timing/programming routine and inherent defrost on each cycle, there is no possibility of a “freeze-up” condition. The
Thermal Bank system displays the actual compressed air temperature on the panel mounted digital readout. With the unloaded restart, there is no chance of motor overheating. Heavy mass dryer instrument panels display the intermediate cooling media temperature and suggest that it’s close enough, when in fact the cooling media
temperature can be significantly colder than the compressed air. To protect the motor from overheating, heavy mass dryers limit the number of compressor restarts per hour without regard to performance or dewpoint. Mass only dryers are subject to severe dewpoint spikes, and are in fact, designed to allow them.
Heat ExchangersThe Magnum Series dryers use high efficiency, non-fouling, tube and shell heat exchangers. They are simple, reliable, time proven and are guarded by Parker Airtek’s superior warranty.
Groved Tube Sheets
• A Parker Airtek Exclusive• Each Tube Sheet Hole has
Precision Milled Grooves• Leak-Proof Joints• Greater Mechanical Strength
Patented Flood Level Control• Improves performance
by doubling the effective surface area of the main evaporator.
• Protects the compressor from refrigerant “floodback” which is the major cause of compressor failure on competitors’ dryers.
• Ensures proper oil return to the compressor, eliminating a major cause of compressor failure on competitors’ dryers.
• Eliminates the need to attempt prevision adjustments on the thermostatic expansion valve.
Superheated Cold Dry Gas
Cold Gas / Liquid Mix Boiling Over From Evaporator
Hot Gas From Compressor Hot Gas To Condenser
Maximum Reliability Demand DrainAll Parker Airtek Magnum dryers are equipped with a factory installed level actuated drain, assuring unattended, maximum reliability demand draining with absolutely no air loss. A large orifice solenoid valve is automatically opened by a level switch assuring complete
drainage. The MRD Drain eliminates fouling pressure loss and manual adjustments associated with timed drains. Failure to drain alarm with remote alarm contacts is standard.
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Multi-StepUnloadingThe precision and accuracy of Parker Airtek’s patented Dewpoint Sensor allows the Smart Cycle system to use multiple set points that work in concert with the Magnum compressor’s unloader valves to affect a smooth multi-step loading and unloading demand control. This controlled sequencing eliminates dewpoint spikes and ensures longer compressor life, better performance, and reduced energy consumption.
Tri Mode
Magnum MSC20000 (Custom)
The Smart Cycle control system includes Parker Airtek’s Dual Mode function. The Tri Mode circuitry allows the dryer to function in either of three energy saving modes. Load/unload “Constant Run” mode will maintain a tight dewpoint range and realize an average unloaded power savings to 50%. The “Thermal Bank” (stop/start) mode will provide optimum performance and will not use any power at all when in the standby (off) position. Dual Mode provides flexibility in energy savings.
Auto ModeThermal BankTM (Start/Stop Mode): Pushing the Thermal Bank mode selector switch puts the Parker Airtek Magnum dryer in the “start/stop” operation. The dryer will maintain an optimum
dewpoint and will go into an (off) standby condition during periods of light load. The Smart Cycle computer turns the refrigeration compressor on or off in response to the temperature of the compressed air as measured by the electronic sensor located in the air stream at the evaporator discharge. When the temperature of the compressed air reaches its low set point, the Smart Cycle computer signals a timer to start a preset countdown. At the end of the countdown, the controller turns the refrigeration compressor off. By continuing to run the compressor during the countdown, the evaporator temperature can get as much as 12°F (-11°C) colder than the upper set point. It is within this extra cold temperature differential where most of the thermal storage is banked. The
refrigeration compressor will restart when the temperature of the compressed air rises to its upper set point. Should the countdown be interrupted by an increase in heat load, the timer will reset to prevent short cycling.
Loadless starting prolongs compressor life. When the compressor restarts on rising dewpoint temperature, the Smart Cycle computer holds the unloader valve open until the motor gets up to speed. Once the motor is up to speed (about two seconds), the unloader solenoid closes, and sequenced load operation resumes. Due to the extra thermal storage and the time delay countdown, motor starts are kept to a minimum. The unloaded start also prolongs motor life.
Refrigeration Compressor Group• Smart Cycle® Loadless Starting• Smart Cycle® Unloader Control• Compressor, Semi-Hermetic• Compressor Vibration Eliminators• Compressor Crankcase Heater• Compressor Isolation Springs• Compressor Cylinder Unloaders• Flood Level Control®• High Head Pressure Shutdown• Low Suction Pressure Shutdown• Thermostatic Expansion Valve• Isolation Valves Throughout• Water Cooled Condenser• Automatic Water Control Valve• Optional Air Cooled Condenser• Low Ambient Fan Controls (Air Cooled Only)• Liquid Line Filter-Dryer, with Replaceable Core• Liquid Line Sight Glass• Liquid Receiver• Suction Line Accumulator• Suction Line Filter-Dryer with Replaceable Core• Suction Line Solenoid• Condenser Pressure Relief Valve• Automatic Pump Down Cycle
Standard Equipment
Evaporator Group• Tube & Shell Evaporator• Fully Active Flooded Evaporator• Refrigeration Surge Tank
Air System• Air to Air Pre-Cooler/Re-Heater• Heavy Structural Steel Base & Frame with Top Plate• 3 Micron Centrifugal Separator (MSC Series)• Severe Duty, Two Stage Cold Coalescer (MCT Series)• Electronic Demand Drain (MRD Drain)• Drain Isolation Valve• ASME Coded Heat Exchanger• Closed Cell Insulation
Refrigeration Service Features• Isolation Valves for: - All Gauges - Compressor - Condenser - Evaporator - Suction Line Filter - Liquid Line Filter - Liquid Line Sight Glass - Liquid Receiver - Patented Flood Level Control - Suction Line Solenoid - Refrigerant Check ValveIsolation valves eliminate the need to pump down and recharge the system when you need to repair or replace com-ponents.
Alarms• Modem Fault• High Dewpoint• High Flow (User Flow Meter)• Sensor Fault• Motor Thermal Protection• Low Refrigerant Level• Low Dewpoint• Dryer Overload• High Refrigerant Pressure• Low Refrigerant Pressure• Low Oil Pressure• Low Inlet Air Pressure• High Inlet Air Pressure• High Inlet Air Temperature• High Ambient/Water Temperature• High Coalescer Differential Pressure (MCT)• Drain Fault
5 Year Warranty (See Warranty & Procedure Manual for Details)Factory Assistance 1-888-587-9733
User InputsFlow Meter (Customer Supplied)Auxiliary (Any User Defined 4-20 mA or 1-5v)i.e. Compressor Motor Amp Draw
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Available Equipment
Package Options• Particulate Pre-filter• Coalescing After filter• Spare Element• Cold Point Mist Eliminator Ports• 3 Valve By-Pass Piping - Pre-Assembled,
Shipped Loose• Customized Features
Electrical Options• NEMA 4 Controls• Fused Disconnect• JIC Electrical Wiring• Z Purge Control Panel• Emergency Stop Push Button• Any Voltage• Heat Tracing
Refrigeration Options• Open Drive Compressor• 100% Back-up Compressor• 50% Back-up Compressor:
(MSC/MCT 12000 & larger)• 404a Refrigerant• Alternative Refrigerants Avail-
able
Air System Options• Stainless Steel Exchanger
Tubes (304L or 316L)• Low Pressure Drop Air Sys-
tem (L3 psid)
Condenser Options• Air Cooled• Cupro-Nickel Water
Cooled Condenser• Stainless Steel Water
Cooled Condenser• Water Cooled Assisted• Remote Air Cooled• Heresite Coated Air
Cooled Condenser
Instrumentation Options• StarWatchTM Services• Dual Hour Meters• Remote Control Panel• 4-20 mA Output For Dew-
point• PLC Interface• Audible Alarm
Pressure Options• 200 MAWP• 300 MAWP• 500 MAWP• 700 MAWP
Miscellaneous Options• Lifting Lugs• Factory Supervised Start Up• Export Package• Special Paint Color• Certified “As Built” Drawings
Specialty Magnum Dryer• Landfill Gas Dryer• Digester Gas Dryer• Air and Gas Coolers• Chilled Water Dryer
JL Filter
Control CenterParker Airtek’s Control Center features a complete complement of data acquisition functions. The easy to use Control Center affords superior dryer control along with digital telemetry, for remote analysis of performance. The Control Center features an “Auto” mode that will switch between standard “Load / Unload” and “Thermal Bank” operational characteristics as demand dictates. The Auto Selection innovation will greatly expand the dryer’s functionality and utility.
information is just at the touch of a button. Easily navigated menus present dozens of detailed operational data. Every nuance can be studied (or adjusted if appropriate), revealing both the “wellness” of the dryer, as well as the quality of the performance.
The Control Center has a distinctive “Flow Schematic” with active indicators. Dryer operation is easily viewed and ascertained. Should any parameter be outside a normal value, the system schematic annunciates by flashing the source area problem as well as specifically stating details in the LCD display. A Load Capacity Meter (LCM) shows the percent-of-burden at
which the system is performing at any given moment.
A quick glance at the Control Center will translate everything that is necessary to know with respect to dryer operations. But that’s just the surface... In depth
Included with every Control Center is a communication port making StarWatchTM Services accessible. Parker Airtek can monitor and analyze every moment of operation (24/7); it can even do it wirelessly. When StarWatchTM is active on an installation, it will be like a Parker Airtek factory employee is right in your plant, advising your process engineer.
RemoteWatchTM software is standard with the Control Center. This allows you to monitor from any PC every detail of operation including all alarms.
RemoteWatchTM Software
Monitoring Features• Real-Time Monitoring• 16 Alarm Conditions• Over 60 Process Values• 68 Parameters• Dozens of Graphics• Virtual Panel Layouts• Performance Diagrams• 24 hour On Demand Data Log• Data Archiving
Your new air treatment equipment with Control Center is fully instrumented and the Remotewatchth software will allow you to monitor your dryers functions from any PC or laptop.
Magnum Specifications
NOTE:(1) For larger models available consults factory. Air cooled systems also available.(2) Rated conditions meet recommended Standard NFPA/T3.27.2-198 (ANSI B93, 45M) and CAGI Standard No. ADF 100 for Class H -39°F (1°C - 4°C) pressure dewpoint, are based on 100 PSIG (6.9 Bar) inlet air pressure, 100°F (38°C) inlet air temperature, 85°F (29°C) cooling water temperature and 100°F(38°C) ambient air temperature. Maximum air side pressure drop is 5 psi (0.3 Bar). See actual pressure drop listed for each model.(3) Dimensions and weights are for water cooled units. Consult factory for air cooled units.(4) Due to continuing research and development, specifications and dimensions are subject to change without notice.(5) For Delta P less than 3 psi see options or consult factory.
Magnum MSC Series
MODEL
Capacity SCFM
@ 100 PSIG (Nm3/h
@6.9 Bar)
REF H.P.
Refrig.
Oper. KW
sc ∆P
PSIG (BAR)
Dimensions Approx. Weight
LBS(KG)
Conn. In/Out
(Flange)
Water In/Out
Water Flow 70ºF
Water Flow 85ºF
L (mm)
W (mm)
H (mm)
MSC1500 1600 (45.3) 7 1/2 R404a 7.6 3.9 (.27) 78
(1981) 48
(1219) 71
(1807) 2200 (998) 4” 1” 10 22
MSC2000 2050 (58.0) 10 R404a 9.8 3.5 (.24) 102
(2591) 54
(1372) 75
(1911) 3000
(1880) 6” 1” 11 22
MSC2500 2500 (70.8) 15 R404a 12.0 4.2 (.29) 102
(2591) 54
(1372) 75
(1911) 3370
(2108) 6” 1-1/4” 14 25
MSC3000 3050 (113.2) 15 R404a 13.8 4.2 (.29) 108 (2743)
66 (1676)
84 (2153)
4015 (2108)
6” 1-1/4” 15 25
MSC4000 4000 (118.9) 20 R404a 18.6 3.4 (.23) 108
(2743) 66
(1676) 91
(2311) 5680
(2286) 8” 1-1/2” 25 34
MSC5000 5000 (152.9) 25 R404a 22.0 4.2 (.29) 108
(2743) 66
(1676) 91
(2311) 7860
(2413) 8” 2” FLG 35 57
MSC6000 6000 (175.6) 30 R404a 26.0 3.7 (.26) 144
(3658) 72
(1829) 91
(2318) 8184
(3712) 8” 2” FLG 40 82
MSC8000 8000 (226.5) 40 R404a 39.1 4.7 (.32) 144
(3658) 72
(1829) 92
(2353) 8640
(3919) 10” 2-1/2” FLG 60 99
MSC10000 10000 (283.2) 50 R404a 47.6 4.5 (.31) 144
(3658) 78
(1981) 91
(2321) 10050 (4559) 10” 2-1/2” FLG 70 124
MSC12000 12000 (339.8) (2)30 R404a 53.0 3.6 (.25) 150
(3810) 96
(2438) 114
(2896) 12600 (5715) 12” 2-1/2” FLG 75 132
MSC15000 15000 (424.8) (2)35 R404a 66.6 4.6 (.32) 150
(3810) 96
(2438) 114
(2896) 13700 (6214) 12” 2-1/2” FLG 84 166
MSC18000 18000 (509.7) (2)40 R404a 78.2 4.7 (.32) 162
(4115) 96
(2438) 114
(2896) 17200 (7802) 14” 4” FLG 100 181
MSC20000 20000 (566.3) (2)50 R404a 95.2 4.7 (.32) 198
(5029) 100
(2540) 114
(2896) 23400
(10614) 14” 4” FLG 120 230
Magnum MCT Series
MODEL
Capacity SCFM
@ 100 PSIG (Nm3/h
@6.9 BAR)
Ref. H.P.
Refrig
Oper. KW
CT ∆P
PSIG (BAR)
Dimensions Approx. Weight
LBS (KG)
Conn. In/Out
(Flange)
Water In/Out
Water Flow 70ºF
Water Flow 85ºF
L
(mm)
W
(mm)
H
(mm)
MCT1500 1600 (45.3) 7 1/2 R404a 7.6 5.4 (.37) 78 (1981) 48 (1219)
71 (1807)
2200 (998)
4” 1” 10 22
MCT2000 2050 (58.0) 10 R404a 9.8 5.0 (.34) 102 (2591) 54 (1372)
75 (1911)
3000 (1880)
6” 1” 11 22
MCT2500 2500 (70.8) 15 R404a 12.0 5.7 (.39) 102 (2591) 54 (1372)
75 (1911)
3370 (2108)
6” 1-1/4” 14 25
MCT3000 3050 (113.2) 15 R404a 13.8 5.7 (.39) 108 (2743) 66
(1676) 84
(2153) 4015
(2108) 6” 1-1/4” 15 25
MCT4000 4000 (118.9) 20 R404a 18.6 4.9 (.34) 108 (2743) 66
(1676) 92
(2359) 5680
(2286) 8” 1-1/2” 25 34
MCT5000 5000 (152.9) 25 R404a 22.0 5.7 (.39) 114 (2896) 72
(1829) 92
(2337) 7860
(2413) 8” 2” FLG 35 57
MCT6000 6000 (175.6) 30 R404a 26.0 5.2 (.36) 144 (3658) 72
(1829) 92
(2340) 8184
(3712) 8” 2” FLG 40 82
MCT8000 8000 (226.5) 40 R404a 39.1 6.2 (.43) 144 (3658) 72
(1829) 91
(2321) 8640
(3919) 10” 2-1/2” FLG 60 99
MCT10000 10000 (283.2) 50 R404a 47.6 6.0 (.41) 144 (3658) 84 (2134)
101 (2565)
10050 (4559)
10” 2-1/2” FLG 70 124
MCT12000 12000 (339.8) (2)30 R404a 53.0 5.1 (.35) 150 (3810) 96 (2438)
114 (2896)
12600 (5715)
12” 2-1/2” FLG 75 132
MCT15000 15000 (424.8) (2)35 R404a 66.6 6.1 (.42) 150 (3810) 96 (2438)
114 (2896)
13700 (6214)
12” 2-1/2” FLG 84 166
MCT18000 18000 (509.7) (2)40 R404a 78.2 6.2 (.43) 162 (4115) 96 (2438)
114 (2896)
17200 (7802)
14” 4” FLG 100 181
MCT20000 20000 (566.3) (2)50 R404a 95.2 6.2 (.43) 198 (5029) 100
(2540) 114
(2896) 23400
(10614) 14” 4” FLG 120 230
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IndiaPlot EL 26, MIDC, TTC Industrial AreaMahape, Navi Mumbai 400 709 IndiaT +91 22 5613 7081, 82, 83, 84, 85F +91 22 2768 6618 6841www. parker.com/india
Japan626, Totsuka-cho, Totsuka-kuYokohama-shi, 244-0003 JapanT +81 45 870 1522, F +81 45 864 5305www.parker.com/japan
Korea1-C Block, Industrial Complex of Jangan,615-1, Geumui-Ri Jangan-Myeon, Hwaseong-City Gyeonggi-Do, KoreaT +82 31 359 0771, F +82 31 359 0770 www.parker.com/korea
SingaporeNo. 11 4th Chin Bee RoadJurong Town, Singapore 619702T +65 6887 6330, F +65 6261 4929www.parker.com/singapore
Thailand1023 3rd Floor, TPS Building Pattanakam Road, Suanluang,Bangkok 10250 Thailand T +66 2717 8140, F +66 2717 8148 www.parker.com/thailand
Latin AmericaParker Comercio Ltda.Filtration DivisionEstrada Municipal Joel de Paula 900 Eugenio de Melo, Sao Jose dos Campos CEP 12225390 SP Brazil T +55 12 4009 3500, F +55 12 4009 3529 www.parker.com/br
Pan American Division - Miami7400 NW 19th Street, Suite AMiami, FL 33128T 305 470 8800 F 305 470 8808www.parker.com/panam
Africa Parker Hannifin Africa Pty Ltd Parker Place, 10 Berne Avenue,Aeroport Kempton Park,1620 South Africa T +27 11 9610700, F +27 11 3927213www.parker.com/eu
© 2009 Parker Hannifin CorporationCatalog: Magnum SeriesRev: 002 USA 11/2010
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