Ultipleat® High Flow Series Filter Cartridges product photo Primary L

Ultipleat® High Flow Series Filter Cartridges

The Ultipleat® High Flow filter is a large-diameter, coreless, single open-ended, pleated cartridge with an inside-to-outside flow pattern.

The filter’s unique crescent-shaped pleat geometry, combined with its large 152.4 mm (6-inch) diameter and proprietary range of available Pall filter media, allows you to use significantly fewer filters and smaller housings for high flow-rate applications.

Feature and Benefits

  • Coreless large diameter cartridge, synthetic construction, to minimize waste disposal
  • High flow rate per filter cartridge
    • Up to 40 times fewer cartridges to change out
    • Up to 50% smaller filter system possible
  • Available in a variety of filter lengths and grades
  • Absolute-rated filter medium for reproducible performance
  • Features proprietary unique crescent-shaped pleat geometry
  • Inside-to-outside flow pattern that traps contaminant inside the element, thus preventing polluting the treated water during the cartridge change-out
  • Handle for easy cartridge replacement


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Description

The Ultipleat® High Flow filter is a large-diameter, coreless, single open-ended, pleated cartridge with an inside-to-outside flow pattern.

The filter’s unique crescent-shaped pleat geometry, combined with its large 152.4 mm (6-inch) diameter and proprietary range of available Pall filter media, allows you to use significantly fewer filters and smaller housings for high flow-rate applications.

Feature and Benefits

  • Coreless large diameter cartridge, synthetic construction, to minimize waste disposal
  • High flow rate per filter cartridge
    • Up to 40 times fewer cartridges to change out
    • Up to 50% smaller filter system possible
  • Available in a variety of filter lengths and grades
  • Absolute-rated filter medium for reproducible performance
  • Features proprietary unique crescent-shaped pleat geometry
  • Inside-to-outside flow pattern that traps contaminant inside the element, thus preventing polluting the treated water during the cartridge change-out
  • Handle for easy cartridge replacement

Specifications

Materials of construction

 
Filter Medium Type Filter Medium Support/Drainage Materials End Caps Wrap Materials
HDC® II Medium High Area Polypropylene Structure Polypropylene Glass Filled Polypropylene Polypropylene and Polyolefin Hotmelt
Profile® Medium in Ultipleat Format Pleated Polypropylene Depth Structure Polypropylene Glass Filled Polypropylene Polypropylene
Ultipor® GF Medium Resin Bonded Glass Fiber / Polyester Support Polyester / Nylon Glass Filled Acetal Polyester and Polyamide Hotmelt
Ultipleat HT Medium Glass Fiber Media with Aramid Support Craneglass/ Polybutylene Terephthalate Acetal Aramid
Ultipleat CAS Medium Pleated Polypropylene / Polyether Sulfone Membrane Polypropylene Glass Filled Polypropylene Polypropylene
 

Operating Conditions1

 
  Polypropylene Medium/ CAS Composite Medium Glass Fiber Medium and HT Medium1 and 2
Maximum Differential Pressure2
(normal inside to outside flow)
3.44 bard at 82°C/ 50 psid at 180°F 3.44 bard at 121°C/ 50 psid at 250°F
 
1) Maximum temperature in wet hydrocarbon applications is 60°C / 140°F for GF medium and 100°C / 212°F for HT medium.
2) For fluids compatible with the filter element at the stated temperature.

Type

Large Format Filters

Ordering Information

Filter Cartridge Part Number: HFU


 
Code Filter Dimensions, (nominal) Diameter (in. / mm) x Length (in. / mm) Suggested Maximum Water Flow Per Cartridge- US gpm / L/min / MGD
620 6 / 152.4 x 20 / 508 175 / 663 / 0.25
640 6 / 152.4 x 40 / 1016 350 / 1325 / 0.5
660 6 / 152.4 x 60 / 1524 500 / 1900 / 0.7
680 6 / 152.4 x 80 / 2032 500 / 1900 / 0.7
 

 
Code-Filter O-Ring Material
H13 (Standard for glass fiber and aramid fiber filters) Nitrile
H13U3 Nitrile U-Cup
J (Standard for polypropylene filters) Ethylene Propylene
JU3 Ethylene Propylene U-Cup
H4 Silicone
H Fluoroelastomer
 
3 U-Cup seal is standard for the 1 micron composite filter.

Filter Cartridge Pressure Drop (typical) per Filter Length Shown4

 
Medium Type Grade Absolute Liquid Removal Rating (microns) at 99.98% by particle count5 508 mm / 20 inch length 1016 mm / 40 inch length 1524 mm / 60 inch length 2032 mm / 80 inch length
psid/100gpm mbar/M3/hr psid/100gpm mbar/M3/hr psid/100gpm mbar/M3/hr psid/100gpm mbar/M3/hr
HDC II Medium J060 6 0.158 0.48 0.080 0.24 0.058 0.17 0.040 0.12
J100 10 0.120 0.36 0.060 0.18 0.040 0.12 0.30 0.09
J200 20 0.100 0.30 0.050 0.15 0.033 0.10 0.025 0.08
Profile Medium in Ultipleat Format UY0206 2 1.091 3.31 0.540 1.64 0.362 1.10 0.270 0.82
UY045 4.5 0.489 1.48 0.242 0.73 0.162 0.49 0.121 0.37
UY060 6 0.395 1.20 0.196 0.59 0.131 0.40 0.098 0.30
UY100 10 0.344 1.04 0.170 0.52 0.114 0.35 0.085 0.26
UY200 20 0.234 0.74 0.120 0.36 0.080 0.24 0.060 0.18
UY4007 40 0.182 0.55 0.090 0.27 0.060 0.18 0.045 0.14
UY7007 70 0.040 0.12 0.020 0.06 0.013 0.04 0.010 0.03
UY10007 90 0.027 0.08 0.013 0.04 0.009 0.03 0.007 0.02
Ultipor GF Medium GF010 1 0.718 2.164 0.361 1.087 0.240 0.723 0.180 0.542
GF020 2 0.219 0.66 0.110 0.33 0.073 0.22 0.055 0.17
GF060 6 0.180 0.55 0.090 0.27 0.060 0.18 0.045 0.14
GF100 10 0.159 0.48 0.080 0.24 0.053 0.16 0.040 0.12
GF200 20 0.119 0.36 0.060 0.18 0.040 0.12 0.030 0.09
GF4007 29 0.100 0.30 0.050 0.15 0.033 0.10 0.025 0.08
HT Medium HT060 6 0.130 0.40 0.097 0.030
Ultipleat CAS Medium HT060 1 1.496 4.54 0.740 2.25 0.496 1.51 0.370 1.12
4 Multiply this value by the total system flow to determine the aqueous pressure drop. For fluids other than water, multiply this value by the fluid’s viscosity at the operating temperature in centipoise. This value is the pressure drop across the Ultipleat High Flow filter(s) only; it must be added to the pressure drop contribution from the Ultipleat High Flow filter housing.
5 The test procedure used is an adaptation of ISO 4572, modified to determine the micron size above which particles are quantitatively removed
6 2 micron at 99% efficiency.
7 Precision evaluation of the 99.98% removal efficiency for these coarse grades is not possible with the ISO modified test procedure utilized. The removal efficiency was determined by the maximum spherical particle analysis

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