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3.0 Description

3.1 Function

Blower purge type regenerative dryers are an economi-

cal and reliable way to dry compressed air to dew points 

below the freezing point of water.  Desiccant dryers lower 

the dew point of compressed air by adsorbing the water 

vapor present in the compressed air onto the surface of 

the desiccant.  Adsorption continues until equilibrium is 

reached between the partial pressure of the water vapor 

in the air and that on the surface of the desiccant.
These dryers continuously dry compressed air by using 

two identical towers, each containing a desiccant bed.  

While one tower is on-stream drying, the other tower is 

off-stream being regenerated (reactivated, i.e. dried out).  

The towers are alternated on- and off-stream so that dry 

desiccant is always in contact with the wet compressed 

air.  In this way a continuous supply of dry air downstream 

of the dryer is possible.  The switching from one tower 

to the other is controlled by a solid-state controller on 

either a fixed time basis (standard) or a demand basis 

(optional).
When a tower is placed off-line, it is slowly depressur-

ized and the desiccant is regenerated.  First, a blower 

draws in ambient air which is heated.  The heated air 

flows through the desiccant bed, desorbs the moisture 

from the desiccant, and carries the desorbed water out 

of the dryer.  The blower and heater are turned off when 

the desiccant bed is fully heated.  When configured for 

cooling, a portion of the dry compressed air is diverted 

from the main air flow and throttled to near atmospheric 

pressure.  This extremely dry, low pressure air passes 

through the hot off-line tower, partially cooling the desic-

cant bed and reducing the dew point spike after tower 

change over.  At the end of the cooling stage, the tower 

is repressurized to full line pressure.  This prevents desic-

cant bed movement and downstream pressure loss when 

the tower goes back on-line.

4.0 Installation

4.1  System Arrangement

Install the dryer downstream of an aftercooler, separator, 

receiver, and high-efficiency oil-removing filter(s) so that 

the dryer inlet air is between 40°F (4.4°C) and 120°F 

(49°C) and contains no liquid water or oil.  Liquid water 

and/or inlet air temperatures above 100°F (37.8°C) can 

reduce drying capacity.  Contact your local distributor 

for information on proper dryer sizing at elevated inlet 

air temperatures.

Adequate filtration is required upstream of the dryer in 

order to protect the desiccant bed from liquid and solid 

contamination.  Use an Air Line Filter in systems sup-

plied by a non-lubricated (oil-free) air compressor.  In 

systems supplied by a lubricated air compressor, use a 

High Efficiency Oil Removal Filter.  A coarser filter will 

be required upstream of the Oil Removal Filter if heavy 

liquid or solid loads are present.
To ensure downstream air purity (prevent desiccant dust 

from  traveling  downstream)  adequate  filtration  down

-

stream of the dryer is required.  A High Temperature 

Afterfilter,  typically  rated  at  450°F  (232°C)  operating 

temperature and capable of removing all desiccant fines 

1 micron and larger should be installed at the dryer outlet.

DANGER — This dryer must be fitted with a high 

efficiency coalescing filter and liquid drainer that is 

maintained properly.  Failure to do so could result 

in an in-line fire.
WARNING — The afterfilter, if installed, must be rated 

for 450°F (232°C).

4.2  Ambient Air Temperature

Locate the dryer under cover in an area where the ambi-

ent air temperature will remain between 35°F (2°C) and 

120°F (49°C).  

NOTE:  

If dryer is installed in ambients below 35°F 

(2°C), low ambient protection requiring heat tracing 

and  insulation  of  the  prefilter  bowls,  auto  drains  and/

or sumps, and lower piping with inlet switching and 

purge/repressurization valves is necessary to prevent 

condensate from freezing.  If installing heat tracing, ob-

serve electrical class code requirements for type of duty 

specified.  Purge mufflers and their relief mechanisms 

must be kept clear from snow and ice buildup that could 

prevent proper discharge of compressed air.

4.3  Location and Clearance

Install the dryer on a level pad.  Ensure the dryer is level 

by grouting or shimming as necessary.  Holes are provided 

in the dryer base members for floor anchors.  Securely 

anchor the dryer frame to the floor.  Allow 24 inches clear

-

ance on all sides of the dryer for servicing.  Provide ad-

equate clearance for prefilter element, afterfilter element 

and heater element replacement.  Provide protection for 

the dryer if it is installed where heavy vehicles or similar 

portable equipment is likely to cause damage.

4.3.1  Blower Installation 

 (

Models 3200 through 4300 only)

NOTE:

  Field installation of the purge blower to the dryer 

unit is required on model sizes 3200, 3600, and 4300.  

Refer to Figure 3b for assistance in connecting the purge 

blower to the dryer unit.
1.  Align and install the purge blower skid to the dryer 

unit utilizing the expansion joint provided (shipped 

mounted to the purge blower).  Use the mounting 

hardware (nuts, bolts, flange gasket, etc.) provided 

to connect the purge blower skid to the dryer unit.  
Ensure the purge blower skid is level by grouting or 

shimming as necessary.  Holes are provided in the 

purge blower skid base members for floor anchors.  

Securely anchor the purge blower skid to the floor. 

Summary of Contents for Pneumatic Products IBP Series

Page 1: ...VICI NG TH I S PROD UCT I N STR UCTION MAN UAL MODELS RATED FLOW MODEL REFERENCE IBP500 IBP600 IBP750 IBP900 IBP1050 500 SCFM 600 SCFM 750 SCFM 900 SCFM 1050 SCFM 500 600 750 900 1050 IBP1300 IBP1500 IBP1800 IBP2200 IBP2600 1300 SCFM 1500 SCFM 1800 SCFM 2200 SCFM 2600 SCFM 1300 1500 1800 2200 2600 IBP3200 IBP3600 IBP4300 3200 SCFM 3600 SCFM 4300 SCFM 3200 3600 4300 ...

Page 2: ... 28 8 0 Troubleshooting 30 DRAWINGS Electrical Schematic 460VAC 3 phase 33 Electrical Schematic 575VAC 3 phase 34 Electrical Data Fusing Wire Sizing 35 P ID Schematic Models 500 through 600 36 P ID Schematic Models 750 through 4300 38 REPLACEMENT PARTS Models 500 through 600 40 Models 750 through 1800 42 Models 2200 through 2600 44 Models 3200 through 4300 46 WARRANTY ...

Page 3: ...GER WARNING and CAUTION are used to indicate hazard seriousness levels as follows DANGER Immediate hazard which will result in severe injury or death WARNING Hazard or unsafe practice which could result in severe injury or death CAUTION Hazard or unsafe practice which could result in minor injury or in product or property damage The dryer data plate attached to the electrical control box contains ...

Page 4: ...non lubricated oil free air compressor In systems supplied by a lubricated air compressor use a High Efficiency Oil Removal Filter A coarser filter will be required upstream of the Oil Removal Filter if heavy liquid or solid loads are present To ensure downstream air purity prevent desiccant dust from traveling downstream adequate filtration down stream of the dryer is required A High Temperature ...

Page 5: ...ired WARNING Do not operate dryer without installed mufflers Exhausting compressed air directly to atmosphere will result in noise levels above OSHA permissible levels and rapidly expanding gas could potentially cause harm to persons or property Compressor Aftercooler Separator Receiver Prefilters Afterfilters Receiver Desiccant Dryer Figure 1 Typical System Configuration Dryer bypass piping may b...

Page 6: ...P 4 PLACES TOP VIEW SIDE VIEW RIGHT CHAMBER REMOVED FOR CLARITY S GAS INLET T GAS OUTLET H E MAX F G C D B A MAX N MAX P L M K E MAX R SLOTS TYP 4 PLACES TOP VIEW SIDE VIEW RIGHT CHAMBER REMOVED FOR CLARITY S AIR INLET T AIR OUTLET F C D B A MAX N MAX M L P K G VIEW I 500 600 scfm VIEW II 750 through 2600 scfm VIEW III 3200 through 4300 scfm Dimensions and Connections Dryer Only Figure 2 continued...

Page 7: ... NPT 3 FLANGE 3 FLANGE 3 FLANGE 3 FLANGE 3 FLANGE 4 FLANGE 4 FLANGE 4 FLANGE 4 FLANGE 6 FLANGE 6 FLANGE T 2 NPT 2 NPT 3 FLANGE 3 FLANGE 3 FLANGE 3 FLANGE 3 FLANGE 4 FLANGE 4 FLANGE 4 FLANGE 6 FLANGE 6 FLANGE 6 FLANGE WT LBS 1 900 2 200 2 500 2 600 3 000 3 600 5 400 5 500 8 100 8 200 9 400 9 900 12 350 DIMENSIONS IN MILLIMETERS MODEL 500 600 750 900 1050 1300 1500 1800 2200 2600 3200 3600 4300 VIEW...

Page 8: ... the towers according to the shutdown instructions in Section 6 2 Remove the pipe plug or fill port flange cover where applicable from the desiccant fill port at the top of each tower Refer to Figure 3 for the fill port location CAUTION Pouring desiccant creates a fine dust safety goggles gloves and a dust mask should be worn by personnel installing desiccant Refer to the Material Safety Data Shee...

Page 9: ...uge mounted on the gauge panel of the dryer indicates purge air pressure 5 4 Energy Management System The optional Energy Management System EMS automatically adjusts dryer operation to compensate for changes in operating conditions Air samples are continuously taken from the on stream tower and passed over a moisture probe which senses both temperature and relative humidity The moisture content of...

Page 10: ...AUGE HIGH TENSION ENCLOSURE CONTROL ENCLOSURE ENERGY MANAGEMENT SENSOR LOCATION OPTIONAL ASME RELIEF VALVE PURGE INLET CHECK VALVE HEATER TEMP THERMOCOUPLE CENTER END IN PIPE OPPOSITE SIDE HOT PIPE INSULATION PURGE HEATER WITH INSULATION HEATER OVERTEMP RTD TOWER INLET VALVE ASME CODE TAG TOP VIEW TOWER BLOW DOWN VALVE REPRESS VALVE PURGE SUCTION FILTER SILENCER PURGE BLOWER AND MOTOR TOWER DEPRES...

Page 11: ...OW DOWN VALVE DESICCANT DRAIN PORT TOWER INSULATION OPTIONAL PURGE PRESSURE GAUGE RIGHT TOWER PRESSURE GAUGE HIGH TENSION ENCLOSURE CONTROL ENCLOSURE ENERGY MANAGEMENT SENSOR LOCATION OPTIONAL HEATER TEMP THERMOCOUPLE CENTER END IN PIPE OPPOSITE SIDE HOT PIPE INSULATION PURGE HEATER WITH INSULATION HEATER OVERTEMP RTD ASME CODE TAG PURGE INLET CHECK VALVE CHAMBER INLET VALVE PURGE SUCTION FILTER S...

Page 12: ...PURGE PRESSURE GAUGE RIGHT TOWER PRESSURE GAUGE HIGH TENSION ENCLOSURE CONTROL ENCLOSURE ASME RELIEF VALVE HEATER OVERTEMP RTD HEATER TEMP THERMOCOUPLE CENTER END IN PIPE OPPOSITE SIDE PURGE HEATER WITH INSULATION TOWER INLET VALVE PURGE INLET CHECK VALVE HOT PIPE INSULATION REPRESS VALVE OUTLET CHECK VALVE PURGE SUCTION FILTER SILENCER PURGE BLOWER THROTTLING VALVE PURGE BLOWER AND MOTOR ENERGY M...

Page 13: ...depressurized Air exits through exhaust muffler M2 After the right tower has depressurized the Right Purge Valve V4 is opened and the Blower M and Heater H1 are energized The heated air flows through the Right Purge Check Valve V6 down through the right tower and exits through the Right Purge Valve V4 The Blower intake air is filtered to keep dust and dirt from entering the dryer The Blower M and ...

Page 14: ... PSIG SOLENOID VALVES B D G ARE SHOWN ENERGIZED SYMBOLS ARE PER ANSIY32 10 GRAPHIC SYMBOLS FOR FLUID POWER DIAGRAMS SOLENOID VALVES A C E F ARE SHOWN DE ENERGIZED AS SHOWN FLOW DIRECTION IS INDICATES OPTION 3 2 1 PILOT GAS LINE RIGHT CHAMBER REGEN LEFT CHAMBER DRYING NOTES 4 DPA DEWPOINTER OPTION SOL B SOL A RTD4 HS1 M SOL E V11 V12 V13 V9 M1 SOL F M2 RTD 1 V1 V2 SET 650 F SOL G V10 SET 176 F SET ...

Page 15: ... cooled because the repressurization step will occur before the bed temperature can fall to 150 F NOTE In Energy Management or Dew Point Con trol as the drying time extends beyond 4 hours additional cooling time becomes available thus the cooling step will frequently terminate based on tem perature providing complete bed cooling At the end of the Cooling Step the Left Tower Purge Exhaust Valve V3 ...

Page 16: ...able both the dryer fault alarms and service alarms to activate the common alarm This is the default configuration Install jumper JP6 in the ON position if the common alarm is to activated by a dryer fault alarm only NOTE Jumpers JP7 and JP8 are used by the fac tory during final inspection to download language text and to enable factory set up screens 7 JP7 Download Language Text Jumper JP7 is fac...

Page 17: ...or the Heated Desiccant Dryer Control a Program Mode b Setup Mode c Alarm Service Mode d Display Mode e Test Mode 2 Each Mode is described below 6 5 4 Program Mode 1 Press and hold and for 3 seconds to enter Program Mode 2 Program Mode is comprised of the screens that are described below 3 There are three 3 ways to exit Program Mode a Press after making the selection in the final screen b At any s...

Page 18: ...7 Set Point for Dew Point Demand Control This feature is only active when JP3 is on DPNT CNTL SETPT XX C XXX F 1 Press to increment the setting to the desired value a Standard set point is 30 C 22 F b The allowable range of values is from 80 C 112 F to 10 C 50 F in 5 C 9 F increments NOTE Must be set drier than Dew Point Sensor Alarm Set Point screen 6 2 When finished press to acknowledge the sele...

Page 19: ... Factory set point for a 100 F dew point dryer is 5 MBAR 0 073 PSI b The allowable range of values is 3 to 34 MBAR 0 044 to 0 493 PSI in 1 MBAR incre ments NOTE Value must be set above Energy Man agement Maximum Vapor Pressure Set Point screen 9 4 When finished press to acknowledge the se lection and scroll to the switchover delay set point screen a Factory set point is 60 MIN b The allowable rang...

Page 20: ...ring the drying cycle b Left or Right tower regenerating high pressure i Regenerating tower pressure switch is closed while purge valve is open after an initial time delay c Left or Right tower regenerating low pressure i Regenerating tower pressure switch is open at the end of the regenerating cycle d On alarm condition the blower and heater are de energize the cycle sequence is stopped a local a...

Page 21: ...T UNDER RANGE ALARM RIGHT TWR DEW POINT OVER RANGE ALARM LEFT TOWER TEMP UNDER RANGE ALARM LEFT TOWER TEMP OVER RANGE ALARM RIGHT TWR TEMP OVER RANGE ALARM RIGHT TWR TEMP UNDER RANGE ALARM RIGHT TWR DRYING LOW PRESSURE LEFT TOWER ALARMS RIGHT TOWER ALARMS OTHER ALARMS ALARM HEATER OVER TEMPERATURE ALARM HEATER HIGH TEMP IN ALARM MESSAGES ALARM LEFT TOWER DRYING LOW PRESSURE ALARM LEFT TOWER REGENE...

Page 22: ...Program Mode b Humidity Sensor i Under range RH 15 ii Over range RH 115 c RTD i Over range Temperature above 448 F 231 C ii Under range Temperature below 20 F 28 C d On alarm condition i Local alarm is displayed and the common alarm relay is de energized ii If the dryer is set up for Energy Management Control the dryer sequence continues but bypasses the HOLD step and proceeds to tower switchover ...

Page 23: ...ed to the controller whether the controller is switched on or off When a service time interval expires see also 14 d below the controller operates as follows a The service LED blinks and the appropriate service message is shown on the text display i When the service interval for filters has expired see also d below the three filter LED s also blink b The dryer continues to cycle normally The LED s...

Page 24: ...e reminder filters HOURS TO SERVICE FILTERS XXXX Service reminder desiccant HOURS TO SERVICE DESICCANT XXXX Service reminder valves HOURS TO SERVICE VALVES XXXX Outlet Dew Point Displayed only if JP3 is ON DEW POINT XX C XXX F Dewpoint Demand SetPoint Displayed only if JP3 is ON DWPT CNTL SETPT XX C XXX F Left Tower Temperature LT TEMP XX C XXX F Right Tower Temperature RT TEMP XX C XXX F Heater T...

Page 25: ... Open Open Open Open then Closed Closed Closed Closed Closed Closed Closed 3PS Closed Closed Closed Closed Closed Closed Closed Closed then Open Open Open Open Open then Closed 4PS Closed Closed then Open Open Open Open Open then Closed Closed Closed Closed Closed Closed Closed LT drying solenoid B On On On On On On Off Off Off Off Off Off LT depress solenoid F Off Off Off Off Off Off Off On On On...

Page 26: ...ressurized Exception If switching failure is disabled then pressure condition is ignored Screen 7 Step 7 TEST7 RT DRYING RT XX C XXX F Screen 8 Step 8 TEST8 DEPR LT LT XX C XXX F NOTE Sequence step will not advance to HEAT until tower has fully depressurized Exception If switching failure is disabled then pressure condition is ignored Screen 9 Step 9 TEST9 HEAT LT LT XX C XXX F Screen 10 Step 10 T...

Page 27: ... 600 Inlet switching valves are normally open pneumatically piston actuated Y angle poppet valves Ayellow indicator can be seen through a clear window at the top of the ac tuator housing when the valve is in the open position Purge exhaust valves are normally closed pneumati cally piston actuated Y angle poppet valves A yellow indicator can be seen through a clear window at the top of the actuator...

Page 28: ...urization valve closes 6 9 1 2 On restoration of power 1 If power is lost when the off line tower is in either the HEAT or COOL step the off line tower will be either partially or fully repressurized On power recovery the sequence a Resumes at the DEPRESSURIZATION step to let down the pressure in the off line tower then b Advances directly to the beginning of whichever stage of HEAT or COOL it had...

Page 29: ... ASCII representation of the energy savings x Reserved for future use always 1 for now ETX end of text character OxO3 CR carriage return LF line feed JUMPERS The programming jumpers are as follows 0 off 1 on JP Bit 1 0 off externally heated on blower dryer 2 1 on energy management sensor installed 3 2 on dew point sensor installed 4 3 on no cooling blower purge only 5 4 on tower pressure switches ...

Page 30: ...er 1 must be installed first at the bottom of the vessel followed by layer number 2 etc until the complete charge of desiccant has been installed e Utilizing an appropriate sized funnel fill each desiccant tower as follows 1 Install the required quantity of tabular support model 4300 only or activated alumina in layer1 of each tower 2 Level layer 1 and each subsequent layer of desiccant as added t...

Page 31: ... Replacement may be required sooner if pressure drop across cartridge prevents the Dew Point Analyzer from operating properly WARNING The Dew Point Analyzer filter housing is a pressure containing device depressurize before servicing Slowly open manual drain valve on bottom of filter bowl by turning clockwise to verify that the housing is depressurized before removing bowl 2 Procedure for element ...

Page 32: ... leak ing 1 Check compressor supplying dryer 2 Check equipment downstream of dryer 3 Check pressure switch operation using tower pressure gauge for comparison Replace switch if defective 4a Check for loss of pilot air ensure manual drain valve on bottom of pilot air filter is fully closed ensure pilot air filter cartridge is not clogged ensure pilot air shut off valve is open 4b Check for inlet pi...

Page 33: ...generating tower Depressurization Valve failed to close 4 Repressurization valve V11 failed to open 5 Repressurization orifices are blocked 1 Check pressure switch operation using tower pressure gauge for comparison Replace switch if defective 2a Check for air flow out of regenerating tower Purge Valve or exhaust piping indicating valve is not completely closed 2b Check for loss of pilot air ensur...

Page 34: ...drains Repair or replace as necessary Useful life of desiccant has been exceeded Heater Over Temperature Alarm 1 Insufficient purge gas flow 2 Temperature sensor failure 1 Check for purge blockage temperature sensor failure etc 2 Repair and replace as required Heater Low Temperature Alarm 1 Heating malfunction due to heater failure or heater contactor failure 2 Temperature sensor failure 1 Replace...

Page 35: ...O 20 21 80 81 70 72 21 10 11 84 85 86 87 88 89 32 33 34 35 50 51 52 53 54 55 56 57 59 20 20 21 12VDC SOLENOID E 12VDC 20 21 1CR1 104 105 3 G 1 RED ORANGE GREEN BROWN BLACK 249 OHM 1 8W EXTERNALLY LOCATED OPTION 21 25 4CR1 104 101 5CR1 MC AUX LEFT CHAMBER DEPRESS RIGHT CHAMBER DEPRESS RIGHT CHAMBER PURGE EXHAUST L3 L2 L1 MC1 MC3 MC2 403 402 401 MOTOR 1M 106 OL AUX 36 37 H1 H3 X1 X2 OL1 OL2 OL3 H2 H...

Page 36: ...NO 20 21 80 81 70 72 21 10 11 84 85 86 87 88 89 32 33 34 35 50 51 52 53 54 55 56 57 59 20 20 21 12VDC SOLENOID E 12VDC 20 21 1CR1 104 105 3 G 1 RED ORANGE GREEN BROWN BLACK 249 OHM 1 8W EXTERNALLY LOCATED OPTION 21 25 4CR1 104 101 5CR1 MC AUX LEFT CHAMBER DEPRESS RIGHT CHAMBER DEPRESS RIGHT CHAMBER PURGE EXHAUST L3 L2 L1 MC1 MC3 MC2 403 402 401 MOTOR 1M 106 OL AUX 36 37 H1 H3 X1 X2 OL1 OL2 OL3 H2 ...

Page 37: ... 100 AMPS 2 AWG MOTOR 7 5 HP 9 0 12 AMPS 14 AWG 4300 HEATER 70 KW 87 9 110 AMPS 2 AWG MOTOR 7 5 HP 11 17 5 AMPS 14 AWG Electrical Service 575VAC 3 phase MODEL COMPONENT RATING F L A 575VAC SUGGESTED FUSING WIRE SIZE 500 HEATER 10 KW 10 0 15 AMPS 12 AWG MOTOR 2 5 HP 3 3 6 AMPS 14 AWG 600 HEATER 12 KW 12 0 20 AMPS 12 AWG MOTOR 4 HP 5 0 9 AMPS 14 AWG 750 HEATER 14 KW 14 1 20 AMPS 12 AWG MOTOR 4 HP 5 ...

Page 38: ...42 5 17 2 11 12 SOLENOID VALVES B D G ARE SHOWN ENERGIZED SYMBOLS ARE PER ANSIY32 10 GRAPHIC SYMBOLS FOR FLUID POWER DIAGRAMS SOLENOID VALVES A C E F ARE SHOWN DE ENERGIZED AS SHOWN FLOW DIRECTION IS INDICATES OPTION 3 2 1 PILOT GAS LINE RIGHT CHAMBER REGEN LEFT CHAMBER DRYING 15 29 18 NOTES 4 DPA DEWPOINTER OPTION 10 1 SOL B SOL A RTD4 HS1 M 23 24 28 SOL E V11 27 4 26 V12 V13 V9 EXH SOL F EXH RTD...

Page 39: ...DEWPOINTER OPTION 44 DEWPOINT ANALYZER 44A DEWPOINT ANALYZER FILTER INSULATION OPTION 54 CHAMBER INSULATION LEFT CHAMBER DRYING RIGHT CHAMBER REGEN CLOSED NO 3 WAY 3 WAY SOLENOID VALVE D SOLENOID VALVE C N C VALVE E SOLENOID 3 WAY HEATER OPEN CLOSED OPEN CLOSED NO YES NO V4 YES V3 CLOSED OPEN ON OFF YES NO YES NO FIXED CYCLE TIMING TIME IN MINUTES E N E R G IZ E D P R O C E S S C O M P O N E N T E...

Page 40: ...FLUID POWER DIAGRAMS SOLENOID VALVES A C E F ARE SHOWN DE ENERGIZED AS SHOWN FLOW DIRECTION IS INDICATES OPTION 3 2 1 PILOT GAS LINE RIGHT CHAMBER REGEN LEFT CHAMBER DRYING 29 18 NOTES 4 1 RTD4 HS1 4 V9 EXH SOL F EXH MODEL 750 ONLY SEE DETAIL A FOR 900 4300 RTD 1 V1 SOL B V2 SOL A SOL G V10 16 SET 176 F SET 176 F 1A OPEN 5 TURNS FROM FULL CLOSED LOCK IN PLACE 1TS 225 F 19 20 25 28 27 1PS 3PS 5 PSI...

Page 41: ...ION 44 DEWPOINT ANALYZER 44A DEWPOINT ANALYZER FILTER INSULATION OPTION 54 CHAMBER INSULATION FAILS IN POSITION L O S S O F P O W E R LEFT CHAMBER DRYING RIGHT CHAMBER REGEN CLOSED NO 3 WAY 3 WAY SOLENOID VALVE D SOLENOID VALVE C N C VALVE E SOLENOID 3 WAY HEATER OPEN CLOSED OPEN CLOSED NO YES NO V4 YES V3 CLOSED OPEN ON OFF YES NO YES NO FIXED CYCLE TIMING TIME IN MINUTES E N E R G IZ E D P R O C...

Page 42: ...OL ENCLOSURE LEFTCHAMBER RIGHTCHAMBER 44 15 14 2 7 8 6 25 24 42 9 1 26 23 11 29 5 10 AIR IN AIR OUT 3 4 43 FRONT VIEW SIDE VIEW RIGHT CHAMBER REMOVED FOR CLARITY REAR VIEW Phone 1 352 873 5793 FAX 1 352 873 5770 Email ppc americas am spx com Web www spx com pneumatic products ...

Page 43: ...Pressure Regulator 3154237 3154237 1 17 Depress Muffler 3133635 3133635 2 Depress Muffler Replacement Core 3075949 3075949 2 2 23 Purge Pressure Gauge 3158833 3158833 1 24 Blower 460V 3157894 3158197 1 Blower Hose 3251999 3242540 1 25 Silencer Assembly 3152461 3152461 1 Blower Inlet Silencer Element 1270769 1270769 1 26 Repress Sweep Valve V11 4010085 4010085 1 1 Repress Sweep Solenoid Valve Sol E...

Page 44: ...E 8 6 25 24 1 1A 9 42 23 11 5 29 10 2 44 15 14 11 4 26 AIR OUT AIR IN LEFT CHAMBER RIGHT CHAMBER 3 43 FRONT VIEW SIDE VIEW RIGHT CHAMBER REMOVED FOR CLARITY REAR VIEW 7 2 MODEL 750 Phone 1 352 873 5793 FAX 1 352 873 5770 Email ppc americas am spx com Web www spx com pneumatic products ...

Page 45: ...071392 3071392 3071392 2 Depress Muffler Replacement Core 3075949 3075949 3107791 3107791 3107791 3107791 2 2 23 Purge Pressure Gauge 3158833 3158833 3158833 3158833 3158833 3158833 1 24 Blower 460V 3158197 3158197 3158198 3158199 3158200 3158200 1 Blower Hose 3242540 3242540 3242540 3251998 3242539 3242539 1 25 Purge Suction Filter Silencer Assembly 3152728 3152728 3152728 3152729 3152729 3158021...

Page 46: ...NCLOSURE AIR OUT AIR IN 7 8 6 25 24 1 1A 9 42 3 4 11 15 14 44 2 5 11 23 26 10 29 LEFT CHAMBER RIGHT CHAMBER 43 FRONT VIEW SIDE VIEW RIGHT CHAMBER REMOVED FOR CLARITY REAR VIEW Phone 1 352 873 5793 FAX 1 352 873 5770 Email ppc americas am spx com Web www spx com pneumatic products ...

Page 47: ...ilot Air Pressure Regulator 3154237 3154237 1 17 Depress Muffler 3204478 3204478 2 Depress Muffler Replacement Core 3126761 3126761 1 2 23 Purge Pressure Gauge 3158833 3158833 1 24 Blower 460V 3158200 3158201 1 Blower Hose 3242539 3242539 1 25 Purge Suction Filter Silencer Assembly 3158021 3158021 1 Blower Inlet Silencer Element 3159138 3159138 1 1 26 Repress Sweep Valve V11 4010086 4010086 1 1 Re...

Page 48: ...ROL ENCLOSURE 3 7 8 6 25 24 11 15 14 44 2 29 5 11 23 10 4 26 30 9 42 43 FRONT VIEW SIDE VIEW RIGHT CHAMBER REMOVED FOR CLARITY REAR VIEW LEFT CHAMBER RIGHT CHAMBER AIR OUT 1 1A Phone 1 352 873 5793 FAX 1 352 873 5770 Email ppc americas am spx com Web www spx com pneumatic products ...

Page 49: ... 3130773 3130773 2 Depress Muffler Replacement Core 3121200 3121200 3121200 1 2 23 Purge Pressure Gauge 3158833 3158833 3158833 1 24 Blower 460V 3158474 3158475 3158475 1 Purge Blower Throttling Valve 1170918 1170918 1170918 1 Expansion Joint 1206327 1206327 1206327 1 25 Purge Suction Filter Silencer Assembly 3032795 3032795 3032795 1 Blower Inlet Silencer Element 3504482 3504482 3504482 1 1 26 Re...

Page 50: ......

Page 51: ... sole option of the manufacturer The manufacturer must first authorize any service performed on the product by anyone other than the manufacturer Normal maintenance items requiring routine replacement are not warranted Unauthorized service voids the warranty and any resulting charge or subsequent claim will not be paid THE FOREGOING WARRANTY IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES WRITTEN...

Page 52: ...ue Ocala Florida 34474 5788 U S A P 352 873 5793 F 352 873 5770 E ppc americas spx com www spx com pneumatic products Improvements and research are continuous at SPX Specifications may change without notice ISSUED 07 2014 Form No 3158144 Revision I COPYRIGHT 2014 SPX Corporation ...

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