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Heatless Desiccant Air Dryers - NEXTGen TW Series

Picture for category Heatless Desiccant Air Dryers - NEXTGen TW Series

*PRODUCT IMAGE IS REPRESENTATIVE PROVIDED BY THE MANUFACTURER. DO NOT MAKE BUYING DECISIONS SOLEY BASED ON THE IMAGE. PLEASE VERIFY SPECIFICATIONS MEET YOUR REQUIREMENTS.

Parker NEXTGen TW Series Heatless Desiccant Air Dryers remove water vapor from compressed air through a process known as Pressure Swing Adsorption. A standard pressure dewpoint of -40°F (-40°C) is attained by directing the flow of saturated compressed air over a bed of desiccant.

The most commonly used desiccant is activated alumina, a spherical shaped, hygroscopic material, selected for its consistent size, shape and extreme surface to mass ratio. This physically tough and chemically inert material is contained in two separate but identical pressure vessels commonly referred to as "dual" or "twin" towers.

As the saturated compressed air flows up through the "on line" tower, its moisture content adheres to the surface of the desiccant. The dry compressed air is then discharged from the chamber into the distribution system.

A solid state controller automatically cycles the flow of compressed air between the towers, while the "on line" is drying, the "off line" tower is regenerating. Regeneration, sometimes referred to as purging, is the process by which moisture accumulated during the "on line" cycle is stripped away during the "off line" cycle. As dry low pressure purge air flows gently through the regenerating bed, it attracts the moisture that had accumulated on the surface of the desiccant during the dryer cycle and exhausts it to the atmosphere.

To protect the desiccant bed from excess liquid, all Parker NEXTGen TW Series Heatless Air Dryers are designed to work with the natural pull of gravity. By directing the saturated air into the bottom of the "on line" tower and flowing up through the bed, liquid condensate caused by system upset, is kept away from the desiccant and remains at the bottom of the tower where it can be easily exhausted during the regeneration cycle. Counter flow purging ensures optimum performance by keeping the driest desiccant at the discharge end of the dryer.

Heatless dryers in general are the most reliable and least expensive of all desiccant type dryers. Parker NEXTGen TW Series Heatless Desiccant Air Dryers are the most energy efficient thanks to standard features like, "Variable Cycle Control", "CycleLoc" and regulating of the purge flow.

Features / Benefits

Basic & Basic Plus Controller
Allen-Bradley® PLC
NEMA 12, 4X SS, or 7 Enclosures
LCD User Interface
4 Line Digital Display
-Tower Regeneration Status
-Time remaining in Cycle
-Dewpoint (Basic Plus Only)
Powerloc Energy Management (Basic Plus Only)
Adjustable Timing Cycles
Filter Maintenance Timer
Manual Stepping
Compressor Lock
Cycle Lock
Alarms (Basic Plus Only)
-High Dewpoint
-Bad Blowdown
-Bad Repressurization

Advanced Controller
Allen-Bradley® PLC
NEMA 12, 4X SS, or 7 Enclosures
LCD Touch Panel Display
-Dewpoint
-Inlet Temperature
-Inlet & Outlet Pressures
-Left & Right Tank Pressures
- Pre & After Filter Differential Pressure
Powerloc Energy Management
Adjustable Timing Cycles
Filter Maintenance Timer
Manual Stepping
PLC Controlled Timed Solenoid Drain
Modbus TCP / Ethernet Standard
Modbus RTU RS485 - Optional
Iot Gateway Included - Voice of the Machine Enabled
Alarms
-Failure to switch
-High Inlet Temp
-High Dewpoint
-Low Inlet Pressure
-Bad Blowdown
-Bad Repressurization
-Drain Fault
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ActionPart No.AvailabilityPartner AvailablePriceCompatible After FilterWeightMaximum Inlet Pressure RatingCompatible After Filter ElementDivisionHeightPressure Dew PointMinimum Operating PressureMaximum Operating TemperatureCompatible Prefilter ElementCurrentDepthConnection TypeMinimum Operating TemperatureMaximum Ambient TemperatureMaximum Operating PressurePurge Air EquivalentMinimum Ambient TemperatureInstalled Condensate Drain TypeCompatible PrefilterWidthElectrical RequirementsMaximum Flow Rate
TW0055-FB11NNF
Quote Required
TBD
AOPX020DNFX400 lbs100 PSIP020AOIndustrial Gas Filtration and Generation Division79 in-40°F80 PSIG120°FP020AA2.0 A27 in3/4'' NPT50°F100°F150 psig940°FFloat DrainAAPX020DNFX24 in120V/1Ph/60Hz55 SCFM
TW0100-FB11NNF
Quote Required
TBD
AOPX025ENMX468 lbs100 PSIP025AOIndustrial Gas Filtration and Generation Division86 in-40°F80 PSIG120°FP025AA2.0 A36 in1'' NPT50°F100°F150 psig1540°FFloat DrainAAPX025ENFX52 in120V/1Ph/60Hz100 SCFM
TW0130-FB11NNF
Quote Required
TBD
AOPX025ENMX496 lbs100 PSIP025AOIndustrial Gas Filtration and Generation Division86 in-40°F80 PSIG120°FP025AA2.0 A36 in1'' NPT50°F100°F150 psig2040°FFloat DrainAAPX025ENFX52 in120V/1Ph/60Hz130 SCFM
TW0200-FB11NNF
Quote Required
TBD
AOPX030GNMX692 lbs100 PSIP030AOIndustrial Gas Filtration and Generation Division86 in-40°F80 PSIG120°FP030AA2.0 A36 in1 1/2" NPT50°F100°F150 psig3040°FFloat DrainAAPX030GNFX52 in120V/1Ph/60Hz200 SCFM
TW0250-FB11NNF
Quote Required
TBD
AOPX035GNMX776 lbs100 PSIP035AOIndustrial Gas Filtration and Generation Division85 in-40°F80 PSIG120°FP035AA2.0 A36 in1 1/2" NPT50°F100°F150 psig3840°FFloat DrainAAPX035GNFX52 in120V/1Ph/60Hz250 SCFM
TW0300-FB11NNF
Quote Required
TBD
AOPX035GNMX796 lbs100 PSIP035AOIndustrial Gas Filtration and Generation Division85 in-40°F80 PSIG120°FP035AA2.0 A36 in1 1/2" NPT50°F100°F150 psig4540°FFloat DrainAAPX035GNFX52 in120V/1Ph/60Hz300 SCFM
TW0400-FB11NNF
Quote Required
TBD
AOPX040HNMX1626 lbs100 PSIP040AOIndustrial Gas Filtration and Generation Division88 in-40°F80 PSIG120°FP040AA2.0 A36 in2" NPT50°F100°F150 psig6040°FFloat DrainAAPX040HNFX52 in120V/1Ph/60Hz400 SCFM
TW0500-FB11NNF
Quote Required
TBD
AOPX045HNMX1735 lbs100 PSIP045AOIndustrial Gas Filtration and Generation Division88 in-40°F80 PSIG120°FP045AA2.0 A36 in2" NPT50°F100°F150 psig7540°FFloat DrainAAPX045HNFX52 in120V/1Ph/60Hz500 SCFM
TW0600-FB11NNF
Quote Required
TBD
AOPX050INMX1740 lbs100 PSIP050AOIndustrial Gas Filtration and Generation Division89 in-40°F80 PSIG120°FP050AA2.0 A60 in2" NPT50°F100°F150 psig9040°FFloat DrainAAPX050INFX56 in120V/1Ph/60Hz600 SCFM
TW0800-FB11NNF
Quote Required
TBD
AOPX050INMX2120 lbs100 PSIP050AOIndustrial Gas Filtration and Generation Division89 in-40°F80 PSIG120°FP050AA2.0 A60 in2" NPT50°F100°F150 psig12040°FFloat DrainAAPX050INFX56 in120V/1Ph/60Hz800 SCFM
TW1000-FB11NNF
Quote Required
TBD
AOPX055JNMX3676 lbs100 PSIP055AOIndustrial Gas Filtration and Generation Division98 in-40°F80 PSIG120°FP055AA2.0 A61 in3" NPT50°F100°F150 psig15040°FFloat DrainAAPX055JNFX65 in120V/1Ph/60Hz1000 SCFM
TW1200-FB11NNF
Quote Required
TBD
AOPX055JNMX4605 lbs100 PSIP055AOIndustrial Gas Filtration and Generation Division110 in-40°F80 PSIG120°FP055AA2.0 A61 in3" NPT50°F100°F150 psig18040°FFloat DrainAAPX055JNFX65 in120V/1Ph/60Hz1200 SCFM
TW1500-FB11NNT
Quote Required
TBD
JC1010-FH4985 lbs100 PSIJE-FC1660-HTIndustrial Gas Filtration and Generation Division117 in-40°F80 PSIG120°FP055AA2.0 A77 in3" Flg50°F100°F150 psig22540°FTimed Solenoid DrainAAPX055JNFX72 in120V/1Ph/60Hz1500 SCFM
TW2000-FB11NNT
Quote Required
TBD
AOPX055JNFX5206 lbs100 PSIP055AOIndustrial Gas Filtration and Generation Division113 in-40°F80 PSIG120°FP055AA2.0 A59 in4" Flg50°F100°F135 PSIG30040°FTimed Solenoid DrainAAPX055JNFX118 in120V/1Ph/60Hz2000 SCFM
TW2600-FB11NNT
Quote Required
TBD
JZ-F03320OXX7600 lbs100 PSIJE-FC3320-HTIndustrial Gas Filtration and Generation Division111 in-40°F80 PSIG120°FJE-C30012.0 A67 in4" Flg50°F100°F135 PSIG39040°FTimed Solenoid DrainJZ-C03001OXX138 in120V/1Ph/60Hz2600 SCFM
TW3000-FB11NNT
Quote Required
TBD
JZ-F03320PXX8300 lbs100 PSIJE-FC3320-HTIndustrial Gas Filtration and Generation Division111 in-40°F80 PSIG120°FJE-C30012.0 A67 in4" Flg50°F100°F135 PSIG45040°FTimed Solenoid DrainJZ-C03001PXX138 in120V/1Ph/60Hz3000 SCFM