Altbarn Industrial Estate Lordswood Industrial Estate
Revenge Rd, Chatham ME5 8UD
01634 864416
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Revenge Rd, Chatham ME5 8UD
100% Customer Support
24HR Emergency Callout
Market leaders catering for your every need know matter which industry you are in
Parker offers a wide range of liquid flow regulators for instrumentation, filtration, refrigeration and pneumatic applications and is used in process, power, oil, gas and semiconductor industries for precisely and quickly controlling the flow of liquids. Our precision-built regulators are available in a range of materials for fixed, and differential pressure flows.
Compact, energy efficient Tandem Technology dryers for compressed air applications in industrial and processing markets. Available for volume flows up to 2040 m³/h @ 7 bar g and dew points between plus 5°C to -70°C.
Parker Hiross Antares dryers with Tandem Technology are an innovative family of compressed air dryers for volume flows from 150 to 2040 m³/h @ 7 bar g / PDP -40°C. Tandem Technology from Parker Hiross is a further development of the standard hybrid compressed air drying process. Compared to the conventional hybrid compressed air treatment process which is a simple lining-up of a refrigeration and an adsorption dryer, the Tandem Technology goes one step further and fully integrates the two classic drying principles in a compact compressed air treatment package. This unique combination enables high-quality compressed air to be provided to the end-user at low energy consumption levels when compared to more traditional adsorption dryers.
Benefits
• A reduction of energy consumption up to 60% against traditional heatless desiccant dryers. This enables a payback time of less than 24 months. Even higher savings are possible in partial load situations or when the required pressure dew point is above 0°C.
• The pressure dew point is freely adjustable between 5°C and -70°C with no physical changes to the dryer, i.e. like changing an orifice, a nozzle or type of desiccant material in order to reach the desired the dew point.
• Antares series compressed air dryers work with high compressed air inlet temperatures of up to 65°C.
• Very low cost of ownership, especially due to reduced maintenance costs. Compared to standard adsorption dryers, Antares series compressed air dryers need much less desiccant material. Additionally, some Antares models do not even need regular vessel inspections, the downtime therefore is very low.
• Antares helps to keep process safety at a very high level with three integrated high performance filters that are validated according to the demanding ISO12500 standards.
• Antares series compressed air dryers are very compact; their footprint is considerably smaller compared to standard hybrid dryers of a similar performance.
Sizing and Selection
To ensure quoted air purity performance is met, a compressed air dryer must be sized correctly for minimum operating pressure, maximum inlet temperature and maximum inlet flow rate using the correction factors found in the Product Information Sheet.
Compact, energy efficient Tandem Technology dryers for compressed air applications in industrial and processing markets. Available for volume flows up to 2040 m³/h @ 7 bar g and dew points between plus 5°C to -70°C.
PCO2 CO2 Purifiers from Parker domnick hunter offer a comprehensive solution to preserve and guarantee the quality of gaseous carbon dioxide used in sparkling beverage bottling. Using multi-layer gas polishing technology, the PCO2 CO2 Purifiers includes Maxi PCO2 and Mplus PCO2 for plant scale protection. Operating as a vapor polisher to remove a wide range of potential carbon dioxide impurities, the system guarantees the gas quality so it remains within industry and company guidelines, preventing detrimental consequences to the finished end beverage, producers reputation and their bottom-line. PCO2 CO2 Purifiers are the beverage industry preferred choice and are installed in over 150 countries worldwide. Features & Benefits Comprehensive 5 stage polishing technology with optional 6th stage validated sterile gas filter Simple installation Compact design Low maintenance Low pressure drop Meets ISO9001:2000 standards Materials of construction independent verifications to comp ly with FDA Code of Federal Regulations title 21 CFR Carbon dioxide quality guaranteed Protection against impurities known to create beverage flavor defects Ensures carbon dioxide meets industry and company specifications and guidelines International sales and service support – purecareTM
MAXIMUM FLOW RATE (M³/H)
150 (@ 7 bar(g) / PDP -40°C) to 2040 (@ 7 bar(g) / PDP -40°C)
MAXIMUM FLOW RATE (CFM)
88 (@ 101 psig / PDP -40°F) to 1200 (@ 101 psig / PDP -40°F)
MAXIMUM OPERATING PRESSURE (PSIG)
232, 174
MAXIMUM AMBIENT TEMPERATURE (C)
50
MINIMUM AMBIENT TEMPERATURE (C)
5
IP RATING
44
MAXIMUM OPERATING TEMPERATURE (C)
65
MAXIMUM OPERATING TEMPERATURE (F)
149
MINIMUM OPERATING TEMPERATURE (C)
5
MINIMUM OPERATING TEMPERATURE (F)
41
CONNECTION TYPE
BSP-P
WEIGHT (KG)
180 to 950
WIDTH (MM)
706 to 1007
DEPTH (MM)
1246 to 2535
HEIGHT (MM)
1064 to 1720
ELECTRICAL REQUIREMENTS
230V, 1-phase, 50Hz, 400V, 3-phase, 50Hz
MINIMUM OPERATING PRESSURE (BARG)
2 or 4, depending on model
REFRIGERANT
R134a, R407C
DRYER TECHNOLOGY
Tandem Technology (advanced Hybrid)
PRESSURE DEW POINT (C)
+5 to -70
PRESSURE DEW POINT (F)
+41 to -94
BRAND
Parker Hiross
PREFILTER TYPE
GL Series ZL Grade High Performance Filters
INTERMEDIATE FILTER TYPE
GL Series XL Grade High Performance Filters
AFTERFILTER TYPE
GL Series ZL Grade High Performance Filters
POWER CONSUMPTION
0.94 kW to 5.17 kW
For large flow industrial compressed air applications providing volume flows of up to 14500m³/h and pressure dew points down to -70°C, with energy savings of up to 25%.
Parker Zander WVM compressed air dryers provide an energy efficient heat regenerated compressed air drying solution for large scale compressed air applications. Ideal for electronics and automotive production plants but suitable for all general manufacturing industries where typically high volume flows and low pressure dew points are required.
Providing energy savings of up to 25% compared to conventional systems, WVM series compressed air dryers can be equipped with heat exchangers that allow steam or other available process heat sources to be used for heat regeneration. This alternative regeneration process can be employed in addition to or instead of the standard electrical heaters, resulting in even higher energy savings.
Features
• Two layered desiccant bed
• Active heating under vacuum
• Intensive cooling
• Pressure build-up on the wet side
• Dew point control as standard
• Changeover without dewpoint peak
• Reliable dewpoint down to -70°C
• Function alarm
• Various options for optimal adaptability to customer needs
Benefits
• Low energy costs
• No air loss
• Regeneration without purge air
• Low regeneration temperature
WVM series compressed air dryers combine highest quality and reliability with the added peace of mind of being covered by an extended warranty scheme*, as well as being backed by a variety of global approvals.
Sizing and Selection
To ensure quoted air purity performance is met, a compressed air dryer must be sized correctly for minimum operating pressure, maximum inlet temperature and maximum inlet flow rate using the correction factors found in the Product Information Sheet.
MAXIMUM FLOW RATE (CFM)
247 (@ 101 psig / PDP -13°F) to 8534 (@ 101 psig / PDP -13°F)
MAXIMUM OPERATING PRESSURE (BARG)
10
MAXIMUM OPERATING PRESSURE (PSIG)
145
MAXIMUM AMBIENT TEMPERATURE (C)
40 °C for intake air for regeneration; otherwise 50 °C
MINIMUM AMBIENT TEMPERATURE (C)
1.5 (insulation required if temperature is below 15°C)
IP RATING
54
MAXIMUM OPERATING TEMPERATURE (C)
40
MAXIMUM OPERATING TEMPERATURE (F)
104
MINIMUM OPERATING TEMPERATURE (C)
20
MINIMUM OPERATING TEMPERATURE (F)
68
PORT SIZE
DN40 to DN250, depending on model
CONNECTION TYPE
Flange acc. to EN 1092-1
WEIGHT (KG)
570 to 13500, depending on model
WIDTH (MM)
1140 to 3500, depending on model
DEPTH (MM)
990 to 2380, depending on model
HEIGHT (MM)
2230 to 4200, depending on model
ELECTRICAL REQUIREMENTS
400V, 50Hz
CONTROLLER TYPE
ZDMC2 with Touch Panel
MINIMUM OPERATING PRESSURE (BARG)
4
POWER CONSUMPTION
3 kW to 98 kW, depending on model
DRYER TECHNOLOGY
Vacuum Heat Regeneration with Zero Purge
PRESSURE DEW POINT (C)
-25°C to -70°C
PRESSURE DEW POINT (F)
-13°F to -94°F
BRAND
Parker Zander
COMMUNICATION INTERFACE
Modbus RS485, Ethernet RJ45, Profibus Slave (Option)
CERTIFICATES
PED, other certificates or approvals on request
Guarantees in-plant CO2 quality so it remains within industry guidelines, preventing accidental product contamination during the sparkling beverage bottling process.
PCO2 Carbon Dioxide Quality Incident Protection Systems from Parker domnick hunter offer a comprehensive solution to preserve and guarantee the quality of gaseous carbon dioxide used in sparkling beverage bottling.
Using multi-layer adsorbant technology, the Parker domnick hunter PCO2 range includes Maxi PCO2 and Mplus PCO2 for plant scale protection.
Operating as a Quality Incident Protection removing a wide range of potential carbon dioxide impurities, the system guarantees the gas quality so it remains within industry and company guidelines, preventing detrimental consequences to the finished end beverage, producers reputation and their bottom-line.
PCO2 is the beverage industry preferred choice and is installed in over 150 countries worldwide.
Features:
• Comprehensive six stage technology
• Simple installation
• Compact design
• Low maintenance
• Low pressure drop
• Meets ISO9001:2000 standards
• Materials of construction independent verifications to comply with FDA Code of Federal Regulations title 21 CFR
Benefits:
• Carbon dioxide quality guaranteed – Effective in removing a combination of potential impurities and contaminants
• Protection against impurities known to create beverage flavour defects – Helps avoid product spoilage and protects bottlers reputation
• Ensures carbon dioxide meets industry and company specifications and guidelines – Cleans ‘out of specification’ gas back within beverage quality guidelines
• International sales and service support – Over 20 years experience. Purecare preventative maintenance option available
FLOW RATE (LBS/HR)
330 to 10000
MAXIMUM OPERATING PRESSURE (PSIG)
350
MINIMUM OPERATING TEMPERATURE (C)
-20
MINIMUM OPERATING TEMPERATURE (F)
-4
MAXIMUM OPERATING TEMPERATURE (C)
40
MAXIMUM OPERATING TEMPERATURE (F)
104
HEIGHT (MM)
615 to 1390
HEIGHT (INCH)
24 to 55
WIDTH (MM)
250 to 450
WIDTH (INCH)
10 to 18
DEPTH (MM)
322 to 1270
DEPTH (INCH)
13 to 50
WEIGHT (KG)
32 to 518
WEIGHT (LBS)
70 to 1140
OVERHEAD CLEARANCE (MM)
510 to 1155
OVERHEAD CLEARANCE (INCH)
20.0 to 45.5
PORT CONNECTION (INCH)
1 to 3
Compact, heatless compressed air adsorption dryers with oil vapour removal for industrial applications requiring volume flows up to 35m³/h and dew points of -25°C to -70°C
The Parker Zander KA-MT 1-4 range of heatless adsorption dryers with integrated activated carbon stage are designed to dry industrial compressed air reliably and efficiently down to a pressure dew point of -70°C and to a remaining oil content of 0.003 mg/m³. The units are compact and are designed to be installed free-standing or wall mounted. Compressed air dryers of the KA-MT series come with an integrated activated carbon stage for the removal of oil vapours and pre- and after filtration of the GL series, they are capable of volume flows up to 35 m³/h in a system operating at 7 barg (100 psig).
Features
• Pressure dew points down to -70 °C
• Volume flows up to 35 m³/h @ 7 barg (100 psig)
• Pre- and after filters installed as standard
• Fully dewpoint dependent control is possible as an option
• Remaining oil content of 0,003 mg/m³
Benefits
• Highest quality air
• Energy efficient
• Dry air means zero corrosion
Energy Savings
Where an application calls for a unit able to cope with variations in operating pressure and load, the installation of a dew point sensor at the outlet of the dryer is available as an option. In such an operating mode, the changeover cycle between vessels only takes place when required, and is dependent on the required dew point being achieved. Only upon reaching this adjustable set dew point, does changeover to the regenerated vessel occur. This feature enables the drying phase to be lengthened and thus avoids the unnecessary use of purge air for regeneration and consequently provides energy savings.
Compressed air can be selectively dried to meet a dew point of -25°C down to -70°C.
Sizing and Selection
To ensure quoted air purity performance is met, a compressed air dryer must be sized correctly for minimum operating pressure, maximum inlet temperature and maximum inlet flow rate using the correction factors found in the Product Information Sheet
MAXIMUM FLOW RATE (CFM)
21 @ 101 psig / PDP -13°F and -40°F
MAXIMUM OPERATING PRESSURE (BARG)
16
MAXIMUM OPERATING PRESSURE (PSIG)
232
MAXIMUM AMBIENT TEMPERATURE (C)
50
MINIMUM AMBIENT TEMPERATURE (C)
1.5
IP RATING
65
MAXIMUM OPERATING TEMPERATURE (C)
50
MAXIMUM OPERATING TEMPERATURE (F)
122
MINIMUM OPERATING TEMPERATURE (C)
25
MINIMUM OPERATING TEMPERATURE (F)
77
PORT SIZE
¼”
CONNECTION TYPE
BSP-P DIN ISO 228 (ANSI B 1.20.1 NPT-F on request)
WEIGHT (KG)
15 to 35
WIDTH (MM)
459
DEPTH (MM)
216
HEIGHT (MM)
400 to 1075
ELECTRICAL REQUIREMENTS
230V, 50-60Hz
CONTROLLER TYPE
Multitronic
MINIMUM OPERATING PRESSURE (BARG)
5
MINIMUM OPERATING PRESSURE (PSIG)
72.5
POWER CONSUMPTION
28
DRYER TECHNOLOGY
Heatless with Activated Carbon Stage
PRESSURE DEW POINT (C)
– 25°C to – 70°C
PRESSURE DEW POINT (F)
– 13°F to – 97°F
CERTIFICATES
PED 97/23/EG, article 3, section 3, TR
BRAND
Parker Zander
PREFILTER TYPE
GL2XL
AFTERFILTER TYPE
GL2ZLH
Large flow heatless compressed air adsorption dryers with activated carbon stage for all industrial applications requiring volume flows up to 940m³/h and dew points of -25°C to -70°C.
The Parker Zander KA-MT 35-95 range of heatless adsorption dryers with integrated activated carbon stage are designed to dry industrial compressed air reliably and efficiently down to a pressure dew point of -70°C with a remaining oil content of 0.003 mg/m³. The units are compact and are designed to be installed free-standing. KA-MT series compressed air dryers have an integrated activated carbon stage for the removal of oil vapours and GL series pre- and post filtration, they are capable of volume flows up to 940 m³/h in a system operating at 7 barg (100 psig).
Features
• Pressure dew points down to -70°C
• Volume flows up to 940 m³/h @ 7 barg (100 psig)
• Pre- and post filters installed as standard
• Fully dewpoint dependent control is possible as an option
• Remaining oil content of 0.003 mg/m³
Benefits
• Highest quality air
• Energy efficient
• Dry air means zero corrosion
Energy Savings
Where an application calls for a unit able to cope with variations in operating pressure and load, the installation of a dew point sensor at the outlet of the dryer is available as an option. In such an operating mode, the changeover cycle between vessels only takes place when required, and is dependent on the required dew point being achieved. Only upon reaching this adjustable set dew point, does changeover to the regenerated vessel occur. This feature enables the drying phase to be lengthened and thus avoids the unnecessary use of purge air for regeneration and consequently provides energy savings.
Compressed air can be selectively dried to meet a dew point of -25°C down to -70°C.
Sizing and Selection
To ensure quoted air purity performance is met, a compressed air dryer must be sized correctly for minimum operating pressure, maximum inlet temperature and maximum inlet flow rate using the correction factors found in the Product Information Sheet.
MAXIMUM FLOW RATE (CFM)
553 @ 101 psig / PDP -40°F
MAXIMUM OPERATING PRESSURE (BARG)
16
MAXIMUM OPERATING PRESSURE (PSIG)
232
MAXIMUM AMBIENT TEMPERATURE (C)
50
MINIMUM AMBIENT TEMPERATURE (F)
1.5
IP RATING
65
MAXIMUM OPERATING TEMPERATURE (C)
50
MAXIMUM OPERATING TEMPERATURE (F)
122
MINIMUM OPERATING TEMPERATURE (C)
25
MINIMUM OPERATING TEMPERATURE (F)
77
PORT SIZE
1½” to 2½”
CONNECTION TYPE
BSP-P DIN ISO 228
WEIGHT (KG)
210 to 510
WIDTH (MM)
830 to 1020
DEPTH (MM)
585 to 670
HEIGHT (MM)
1810 to 2020
ELECTRICAL REQUIREMENTS
230V/50-60Hz
CONTROLLER TYPE
Multitronic
MINIMUM OPERATING PRESSURE (BARG)
5
MINIMUM OPERATING PRESSURE (PSIG)
72.5
POWER CONSUMPTION
17.2
DRYER TECHNOLOGY
Heatless With Activated Carbon Stage
PRESSURE DEW POINT (C)
-25°C to -70°C
PRESSURE DEW POINT (F)
-13°F to -97°F
CERTIFICATES
PED 97/23/EG Module D+B Category II, others on request
BRAND
Parker Zander
PREFILTER TYPE
GL11XLD to GL14XLD
AFTERFILTER TYPE
GL9ZLDH to GL14ZLDH
For applications requiring high pressure compressed air or nitrogen gas up to 25 bar with volume flows of up to 600m³/h and pressure dew points down to -25/-40°C.
The Parker Zander HDK 25 bar range of high pressure compressed air dryers are designed to dry compressed air and gaseous nitrogen at high pressure levels of up to 25 bar reliably and efficiently down to a pressure dew point of -40°C. HDK series dryers come equipped with integrated Parker Zander pre- and after filtration and are capable of volume flows up to 600 m³/h.
Typical applications for HDK series high pressure compressed air dryers are in power stations (i.e. start up of diesel generators) as well as marine applications (i.e. tank ventilation, rope tensioning on off-shore rigs, generator start up etc.).
Features
• Pressure dew point down to -40°C
• Volume flows up to 600 m³/h @ 25 bar g (362.59 psi g)
• Pre- and after filters installed as standard
Scope of Supply
• Ready to install high pressure adsorption dryer including dew-point control and mounted pre-and after filter
• Optional equipment available mounted ex-works
Available Accessories
• Start-up device
• High pressure differential pressure gauges for the filters
Sizing and Selection
To ensure quoted air purity performance is met, a compressed air dryer must be sized correctly for minimum operating pressure, maximum inlet temperature and maximum inlet flow rate using the correction factors found in the Product Information Sheet.
MAXIMUM FLOW RATE (CFM)
14.71 @ 362.59 psig / PDP – 104° F to 353.15 @ 362.59 psig / PDP – 104° F
MAXIMUM OPERATING PRESSURE (BARG)
25
MAXIMUM OPERATING PRESSURE (PSIG)
362.59
MAXIMUM AMBIENT TEMPERATURE (C)
50
MINIMUM AMBIENT TEMPERATURE (C)
1
IP RATING
65
MAXIMUM OPERATING TEMPERATURE (C)
50
MAXIMUM OPERATING TEMPERATURE (F)
122
MINIMUM OPERATING TEMPERATURE (C)
25
MINIMUM OPERATING TEMPERATURE (F)
77
CONNECTION TYPE
BSP-P
WEIGHT (KG)
65 to 390
WIDTH (MM)
675 to 945
DEPTH (MM)
400
HEIGHT (MM)
925 to 1576
ELECTRICAL REQUIREMENTS
230V, 50-60Hz, others on request
MINIMUM OPERATING PRESSURE (BARG)
4
MINIMUM OPERATING PRESSURE (PSIG)
58.02
DRYER TECHNOLOGY
High Pressure Adsorption
PRESSURE DEW POINT (C)
– 25° C to – 40° C
PRESSURE DEW POINT (F)
– 13° F to – 104° F
BRAND
Parker Zander
CERTIFICATES
PED, others on request
PREFILTER TYPE
G3/25XP-15G to G12/25XP-25G
AFTERFILTER TYPE
G3/25V-15G to G12/25V-25G
For applications requiring high pressure compressed air or nitrogen gas up to 50 bar with volume flows of up to 1180m³/h and pressure dew points down to -25/-40°C.
The Parker Zander HDK 50 bar range of high pressure compressed air dryers are designed to dry compressed air and gaseous nitrogen at high pressure levels of up to 50 bar reliably and efficiently down to a pressure dew point of -40°C. HDK series dryers come equipped with integrated Parker Zander pre- and after filtration and are capable of volume flows up to 1180 m³/h.
Typical applications for HDK series high pressure compressed air dryers are in power stations (i.e. start up of diesel generators) as well as marine applications (i.e. tank ventilation, rope tensioning on off-shore rigs, generator start up etc.).
Features
• Pressure dew point down to -40°C
• Volume flows up to 1180 m³/h @ 50 bar g (725.19 psi g)
• Pre- and after filters installed as standard
Scope of Supply
• Ready to install high pressure adsorption dryer including dew-point control and mounted pre-and after filter
• Optional equipment available mounted ex-works
Available Sccessories
• Start-up device
• High pressure differential pressure gauges for the filters
Sizing and Selection
To ensure quoted air purity performance is met, a compressed air dryer must be sized correctly for minimum operating pressure, maximum inlet temperature and maximum inlet flow rate using the correction factors found in the Product Information Sheet.
MAXIMUM FLOW RATE (CFM)
29.43 @ 362.59 psig / PDP – 104° F to 694.53 @ 362.59 psig / PDP – 104° F
MAXIMUM OPERATING PRESSURE (BARG)
50
MAXIMUM OPERATING PRESSURE (PSIG)
725.19
MAXIMUM AMBIENT TEMPERATURE (C)
50
MINIMUM AMBIENT TEMPERATURE (C)
1
IP RATING
65
MAXIMUM OPERATING TEMPERATURE (C)
50
MAXIMUM OPERATING TEMPERATURE (F)
122
MINIMUM OPERATING TEMPERATURE (C)
25
MINIMUM OPERATING TEMPERATURE (F)
77
CONNECTION TYPE
BSP-P
WEIGHT (KG)
65 to 390
WIDTH (MM)
675 to 945
DEPTH (MM)
400
HEIGHT (MM)
925 to 1576
ELECTRICAL REQUIREMENTS
230V, 50-60Hz, others on request
MINIMUM OPERATING PRESSURE (BARG)
4
MINIMUM OPERATING PRESSURE (PSIG)
58.02
DRYER TECHNOLOGY
High Pressure Adsorption
PRESSURE DEW POINT (C)
– 25° C to – 70° C
PRESSURE DEW POINT (F)
– 13° F to – 97° F
BRAND
Parker Zander
CERTIFICATES
PED, others on request
PREFILTER TYPE
G3/50XP-15G to G12/50XP-25G
AFTERFILTER TYPE
G3/50V-15G to G12/50V-25G
Large flow low energy modular compressed air dryers providing pressure dew points of -70°C and -40°C with flow rates up to 2040 m³/hr @ 7 barg, even greater flow rates can be achieved by multi-banking the dryers.
The PNEUDRI MXLE compressed air dryer has been specifically designed to provide all of the benefits of the PNEUDRI MX heatless adsorption dryer with the additional benefits of lower energy costs and lower environmental impact via its vacuum regeneration method, allowing around 17% more of the generated clean, dry compressed air to be used across the plant.
PNEUDRI MXLE compressed air dryer Includes pre and post OIL-X filters which have been third party tested in accordance with ISO12500-1 / ISO8573-4 resulting in delivered air quality in accordance with ISO8573-1.
The modular construction allows greater flexibility; like PNEUDRI MX, models can be multi-banked to provide extra compressed air drying capacity should demand increase. This distinctive feature allows 100% stand by at a fraction of the cost of a traditional twin tower dryer and also allows individual dryers to be easily isolated for routine service work, whilst maintaining the plants clean, dry air supply. The PNUEDRI MXLE also offers the extra security of a full back up mode, in the unlikely event of a fault occurring with the vacuum pump, the dryer can be operated in full heatless mode to keep the plant operational.
At full load conditions, PNEUDRI MXLE has an average 60% lower energy consumption than a comparative heatless dryer and an average 39% lower energy consumption than a comparative heat regenerative dryer. These energy savings increase in periods of low air demand due to the integrated Energy Saving Technology (EST) which is fitted as standard.
The compressed air dryer is manufactured with materials of construction that meet FDA Title 21 and are EC1935-2004 exempt; meaning the PNEUDRI MXLE compressed air dyer is ideally suited for food, beverage and pharmaceutical industries and applications.
Sizing and Selection
To ensure quoted air purity performance is met, a compressed air dryer must be sized correctly for minimum operating pressure, maximum inlet temperature and maximum inlet flow rate using the correction factors found in the Product Information Sheet
MAXIMUM FLOW RATE (CFM)
1200
MAXIMUM OPERATING PRESSURE (BARG)
11
MAXIMUM OPERATING PRESSURE (PSIG)
160
MINIMUM OPERATING PRESSURE (BARG)
5
MINIMUM OPERATING PRESSURE (PSIG)
58
MAXIMUM OPERATING TEMPERATURE (C)
50
MAXIMUM OPERATING TEMPERATURE (F)
122
MINIMUM OPERATING TEMPERATURE (C)
5
MINIMUM OPERATING TEMPERATURE (F)
41
PORT CONNECTION (INCH)
2 to 2½
HEIGHT (MM)
Dryer: 1647 to 1892, Pump: 355 to 1185
HEIGHT (INCH)
Dryer: 65 to 75 Pump: 14 to 75
WIDTH (MM)
Dryer: 794 to 1808 Pump: 900 to 1128
WIDTH (INCH)
Dryer: 32 to 71 Pump: 35 to 44
DEPTH (MM)
Dryer: 550 Pump: 531 to 585
DEPTH (INCH)
Dryer: 22 Pump: 21 to 23
WEIGHT (KG)
Dryer: 265 to 855 Pump: 129 to 401
WEIGHT (LBS)
Dryer: 583 to 1181 Pump: 284 to 882
BRAND
Parker Zander
PRESSURE DEW POINT (F)
-40 or -100 Options
PREFILTER TYPE
General Purpose: AOP040HGFX
High Efficiency: AAP040HGFX, General Purpose: AOP045HGFX
High Efficiency: AAP045HGFX, General Purpose: AOP050IGFX
High Efficiency: AAP050IGFX, General Purpose: AOP055IGFX
High Efficiency: AAP055IGFX
AFTERFILTER TYPE
Dust: AR040HGMX, Dust: AOP045HGMX, Dust: AOP050IGMX, Dust: AOP055IGMX
DRYER TECHNOLOGY
Heatless Vacuum Assisted
ELECTRICAL REQUIREMENTS
Available for 360V – 440V 3PH 50Hz or 416V – 506V 3PH 60Hz as standard
PUMP
Vac. Pump Part numbers vary between 50Hz and 60Hz models.
PRE-INSTALLED OPTIONAL ACCESSORIES
Energy Management System
MATERIALS OF CONSTRUCTION
FDA Title 21 Compliant
ISO GRADE
-40°C (-40°F) PDP Models – ISO8573-1:2010 Class 2
-70°C (-100°F) PDP Models – ISO8573-1:2010 Class 1
High efficiency, energy saving, refrigeration dryers that provide low pressure drops resulting in lower operational costs. 50 bar high pressure and 60 Hz models are available in the range.
PoleStar Smart refrigeration dryers have been designed for the efficient removal of water from compressed air. Equipped with the patented SmartSave energy-saving feature PoleStar Smart refrigeration dryers continually and precisely modulates its mode of operation to meet prevailing operating conditions, resulting in accurate dew-point monitoring with corresponding aligned power consumption.
Furthermore, indirect cost savings, reducing the “hidden costs” of pressure drop are maximised by the use of a patented “all-in-one” aluminium heat-exchanger-SmartPack. Here the provision of large open channels and no-interconnecting pipe-work enables the free, un-interrupted passage of air through the dryer, resulting in pressure drops second to none.
Features
• Direct-expansion type refrigeration system
• Volume flows up to 21600 m³/h @ 7 barg (PoleStar Smart) or 7200 m³/h @ 40 barg (PoleStar Smart HP)
• Energy saving feature
• All models supplied with refrigerant R407C
• Suitable for all compressed air applications
• Suitable for all compressor types, including variable flow
Benefits
• The most energy efficient compressed air fridge dryer
• Low pressure drops for lower operational costs
• Cost of ownership reduced
• Significantly contributes to the indirect reduction of CO2 into the environment
Sizing and Selection
To ensure quoted air purity performance is met, a compressed air dryer must be sized correctly for minimum operating pressure, maximum inlet temperature and maximum inlet flow rate using the correction factors found in the Product Information Sheet.
MAXIMUM FLOW RATE (CFM)
265 to 12713 @ 100 psig or 106 to 4238 for High Pressure Models
PRESSURE DEW POINT (C)
+3, +7 and +10 options available
PRESSURE DEW POINT (F)
+37, +45 and +50 options available
MAXIMUM AMBIENT TEMPERATURE (C)
50
MAXIMUM AMBIENT TEMPERATURE (F)
122
MINIMUM OPERATING TEMPERATURE (C)
5
MINIMUM OPERATING TEMPERATURE (F)
41
MAXIMUM OPERATING TEMPERATURE (C)
65
MAXIMUM OPERATING TEMPERATURE (F)
149
MINIMUM OPERATING PRESSURE (PSIG)
44
MAXIMUM OPERATING PRESSURE (BARG)
14
MAXIMUM OPERATING PRESSURE (PSIG)
203
PORT CONNECTION (INCH)
1 ½” to DN250
WIDTH (MM)
703 to 3279
WIDTH (INCH)
27.6 to 3129
HEIGHT (MM)
945 to 2834
HEIGHT (INCH)
37.2 to 111.5
DEPTH (MM)
562 to 2753
DEPTH (INCH)
22.1 to 163.3
WEIGHT (KG)
83 to 3150
WEIGHT (LBS)
183 to 6944
PREFILTER TYPE
HFN122Q to NFF2000Q or HFP031Q to HFP780Q for High Pressure Models
AFTERFILTER TYPE
HFN122P to NFF200P or HFP031Q to HFP780Q for High Pressure Models
POWER CONSUMPTION
0.9 to 32 kW
CONNECTION TYPE
BSPP and DIN Flange / BSPT for High Prssure Models
DRYER TECHNOLOGY
Refrigeration
BRAND
Parker Hiross
High pressure compressed natural gas dryer. Dries the gas on the discharge (high pressure) side, making the dryer much smaller.
In Natural Gas Vehicle (NGV) Refuelling stations it is imperative that the CNG is both dry and clean before it is transferred to storage cylinders and dispensed into vehicles’ fuel tanks to limit the amount of damaging dirt and water entering the power train. The high pressure of the fuel (200 bar plus) means that effective drying in particular is critical. NGV Refuelling stations employ point-of-use dryers to ensure that CNG dispensed into storage cylinders and fuel tanks is dry and clean.
The Parker Zander HDK-CNG Series High Pressure dryer range has been designed as a compact, cost-effective packaged system combining high-efficiency filtration with a regenerative adsorption dryer which operates without the need for any gas to be lost in the regeneration cycle.
The traditional method for drying natural gas has been to locate the dryers on the suction (low pressure) side of the CNG compressor. At low pipeline pressures this means the dryers are very large which has a significant impact on capital cost. The HDK-CNG Series dries the gas on the discharge (high pressure) side, making the dryer much smaller and thus significantly reducing the capital cost as well as the overall product footprint.
MAXIMUM OPERATING PRESSURE (BAR)
250
MAXIMUM OPERATING PRESSURE (PSI)
3625
MAXIMUM OPERATING TEMPERATURE (C)
35
MAXIMUM OPERATING TEMPERATURE (F)
95
MAXIMUM AMBIENT TEMPERATURE (C)
40
MAXIMUM AMBIENT TEMPERATURE (F)
104
MINIMUM AMBIENT TEMPERATURE (C)
1
MINIMUM AMBIENT TEMPERATURE (F)
34
PORT CONNECTION (INCH)
1/2″ and 1″
CERTIFICATES
PED 97/23/EC & ATEX EX II 2G IIB T1
DRYER TECHNOLOGY
Heat Regenerative Adsorption
PRESSURE DEW POINT (C)
-40
PRESSURE DEW POINT (F)
-40
BRAND
Parker Zander
ELECTRICAL REQUIREMENTS
400 V, 50 Hz
PREFILTER PART NUMBER
GH/CNG Series
AFTER FILTER PART NUMBER
GH/CNG Series
WEIGHT (KG)
380 – 1100
WEIGHT (LBS)
838 – 2425
HEIGHT (MM)
1771 – 21110
HEIGHT (INCH)
70 – 83
WIDTH (MM)
990 – 1264
WIDTH (INCH)
39 – 50
DEPTH (MM)
763 – 914
DEPTH (INCH)
30 – 36
FLOW RATE (CFM)
147 – 1177 @ 3625 psig
IP RATING
IP66
CONNECTION TYPE
BSP-P
Small flow compressed air dryer providing pressure dew points of -70°C and -40°C with flow rates up to 41 m³/hr @ 7 barg.
Compressed air contamination problems can be simply avoided by installing a Parker Zander PNEUDRI MIDIplus high efficiency compressed air dryer package fitted with OIL-X filtration. The packages are suitable for use with any compressor type and are suited to point of use applications.
Parker Zander’s PNEUDRI MIDIplus heatless compressed air dryers provide clean, oil-free and dry compressed air in accordance with all editions of ISO8573-1, the international standard for compressed air quality. They are energy efficient and can provide pressure dew points of -70°C and -40°C with flow rates up to 41 m³/hr @ 7 barg (100 psi g). Clean, dry air improves production efficiency and reduces maintenance costs and downtime. Only an adsorption dryer can provide the highest levels of dry compressed air.
Features
• Efficient removal of water vapour from compressed air
• Delivered air quality is in accordance with all editions of ISO 8573-1, the international standard for compressed air quality
• Pressure dew points of -70°C and -40°C (ISO 8573-1:2010 Classes 1 and 2) are available
• Can be supplied as fully pneumatic
• Unlike refrigeration dryers, the -40°C and -70°C pressure dew points offered by PNEUDRI not only eliminates corrosion, it also inhibits the growth of micro-organisms
• Low noise level <75 db (A)
• Ideal for both compressor room and point of use applications
• Optional energy management system available
• Approvals to international standards (PED, CSA/UL/CRN)
Benefits
• Highest quality air
• Dry air eliminates microbiological growth
• Improves production efficiency and reduces maintenance costs and downtime
• Dry air means zero corrosion
• Easy and flexible installation
• Simple maintenance
• Reduced noise pollution
Sizing and Selection
To ensure quoted air purity performance is met, a compressed air dryer must be sized correctly for minimum operating pressure, maximum inlet temperature and maximum inlet flow rate using the correction factors found in the Product Information Sheet.
MAXIMUM FLOW RATE (CFM)
24 @ 100 psig
PORT CONNECTION (INCH)
¾”
DRYER TECHNOLOGY
Heatless Adsoprtion
MAXIMUM OPERATING PRESSURE (BARG)
16
MAXIMUM OPERATING PRESSURE (PSIG)
232
WEIGHT (KG)
32
WEIGHT (LBS)
70
WIDTH (MM)
284
WIDTH (INCH)
11.2
DEPTH (MM)
302
DEPTH (INCH)
11.9
HEIGHT (MM)
837
HEIGHT (INCH)
33
CONNECTION TYPE
BSPT or NPT
MAXIMUM AMBIENT TEMPERATURE (C)
55
MAXIMUM AMBIENT TEMPERATURE (F)
131
MINIMUM AMBIENT TEMPERATURE (C)
1
MINIMUM AMBIENT TEMPERATURE (F)
34
MINIMUM OPERATING TEMPERATURE (C)
5
MINIMUM OPERATING TEMPERATURE (F)
41
MAXIMUM OPERATING TEMPERATURE (C)
50
MAXIMUM OPERATING TEMPERATURE (F)
122
PRESSURE DEW POINT (C)
-40 / -70 options available
PRESSURE DEW POINT (F)
-40 / -100 options available
BRAND
Parker Zander
PREFILTER TYPE
High Efficiency: AAP020D FI
AFTERFILTER TYPE
Dust Filter: AOP020D MI
MINIMUM OPERATING PRESSURE (BARG)
4
ELECTRICAL REQUIREMENTS
110 or 230 1ph50/60Hz
Heatless compressed air dryers for applications requiring volume flows up to 940m³/h and dew points of -25°C to -70°C.
The Parker Zander K-MT 10-95 range of heatless adsorption dryers are designed to dry industrial compressed air reliably and efficiently down to a pressure dew point of -70°C. The units are compact and are designed to be installed free-standing. They come equipped with integrated high performance pre- and post filtration and are capable of volume flows up to 940 m³/h @ 7 barg (100 psig).
Features
• Pressure dew points down to -70°C
• Volume flows up to 940 m³/h @ 7 barg (100 psig)
• High performance pre- and post filters installed as standard
• Energy saving dew point dependent switching (DDS) as an option
Benefits
• Highest quality air
• Energy efficient
• Very flexible due to a wide range of options and accessories
Energy Savings
Where an application calls for a unit able to cope with variations in operating pressure and load, the installation of a dew point sensor at the outlet of the dryer is available as an option. In such an operating mode, the changeover cycle between chambers only takes place when required, and is dependent on the required dew point being achieved. Only upon reaching this adjustable set dew point, does changeover to the regenerated chamber occur. This feature enables the drying phase to be lengthened and thus avoids the unnecessary use of purge air for regeneration and consequently provides energy savings.
Compressed air can be selectively dried to meet a dew point of -25°C down to -70°C.
Sizing and Selection
To ensure quoted air purity performance is met, a compressed air dryer must be sized correctly for minimum operating pressure, maximum inlet temperature and maximum inlet flow rate using the correction factors found in the Product Information Sheet.
MAXIMUM FLOW RATE (CFM)
553 @ 101 psig / PDP -13°F and -40°F
MAXIMUM OPERATING PRESSURE (BARG)
16
MAXIMUM OPERATING PRESSURE (PSIG)
232
MAXIMUM AMBIENT TEMPERATURE (C)
50
MINIMUM AMBIENT TEMPERATURE (C)
1.5
IP RATING
65
MAXIMUM OPERATING TEMPERATURE (C)
50
MAXIMUM OPERATING TEMPERATURE (F)
122
MINIMUM OPERATING TEMPERATURE (C)
25
MINIMUM OPERATING TEMPERATURE (F)
77
PORT SIZE
1½” to 2½”
CONNECTION TYPE
BSP-P DIN ISO 228
WEIGHT (KG)
210 to 510
WIDTH (MM)
830 to 1020
DEPTH (MM)
585 to 670
HEIGHT (MM)
1810 to 2020
ELECTRICAL REQUIREMENTS
230V/50-60Hz
CONTROLLER TYPE
Multitronic
MINIMUM OPERATING PRESSURE (BARG)
5
MINIMUM OPERATING PRESSURE (PSIG)
72.5
POWER CONSUMPTION
17.2
DRYER TECHNOLOGY
Heatless
PRESSURE DEW POINT (C)
-25°C to -70°C
PRESSURE DEW POINT (F)
-13°F to -97°F
BRAND
Parker Zander
CERTIFICATES
PED 97/23/EG Module D+B Category II, others on request
PREFILTER TYPE
GL11XLD to GL14XLD
AFTERFILTER TYPE
GL9ZLDH to GL14ZLDH
Before establishing the Family Run Business in 1978, Bob Payne worked for Hydrovane as a service engineer in Kent and the South East. We originally focused on air compressor servicing. Due to increasing demand and reputation, our services have now expanded to include supply, installation and maintenance of all compressed air systems.
Whatever you’re looking for, if it’s related to compressed air systems, we’ll be able to help you. We can complete compressed air system installations, including Hydrovane systems, supply aftercoolers, dryers and air filters, and install and maintain pipework.
Our fully qualified staff are F Gas Certificated (Click To View) and have City & Guilds Level 3 Certificate In The Requirements For Electrical Installations(Click To View).
Compressor system maintenance and repair experts in Kent
Hydropayne Services highly trained engineers work closely with you to provide comprehensive wide range of compressed air systems repairs and maintenance, including all pipework and electrical work
Contact A Member Of Our Team
Before establishing the Family Run Business in 1978, Bob Payne worked for Hydrovane as a service engineer in the South East. We originally focused on air compressor servicing. Due to increasing demand and reputation, our services have now expanded to include supply, installation and maintenance of all compressed air systems.
Why choose Hydropayne Services?
Our fully qualified staff are F Gas Certificated (Click To View) and have City & Guilds Level 3 Certificate In The Requirements For Electrical Installations(Click To View).
We also aim to provide flexible solutions tailored to your specific business requirements. We provide a professional, cost effective service, keeping down-time to a minimum by carrying out all work on-site where possible.
Whatever you’re looking for, if it’s related to compressed air systems, we’ll be able to help you. We can complete compressed air system installations, including Hydrovane systems, supply aftercoolers, dryers and air filters, and install and maintain pipework.
We proudly can cater for any business and industry looking for Air Compressors Kent, London, Surrey and the South East.
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