General Information
Tubular module is a module made of tubular membrane, which has super high anti-fouling properties and are widely used in highly polluted wastewater.Tubular modules are pressurized modules, which are designed and manufactured for the filtration in industrial wastewater, landfill leachate and other critical applications. These UF tubular modules are made of upgraded new generation tubular membrane with extra permeability and service life.
Tubular modules are applied in new systems, as well as directly connected to existing UF systems as replacements, providing high-quality permeate by removing suspended solids and other impurities to protect downstream processes or discharge.
Features
New generation tubular membranes of PVDFInside-to-outside flow direction
Good anti-fouling performance
Robust CPVC housings
Advantages
Standardized design for easy installationHigh-quality permeate
Less energy needed by extra high permeability
Longer service life by high fouling resistance and mechanical strength
Economical module for direct replacement
Applications
Surface waterPre-treatment RO and NF
Drinking and process water production
Effluent treatment
Membrane bioreactor
Industrial wastewater
Landfill leachate
Oil-in-water emulsions treatment
Completion fluids in Oilfield
Dimensions
L* |
L1 |
L2 |
D |
D1 |
D2 |
W |
d |
3000 mm |
240 mm |
90 mm |
220 mm |
240 mm |
214 mm |
165 mm |
73 mm |
Specifications
Model |
TFTP5-33 |
Membrane ID |
5.2 mm (0.2 inch) |
Effective membrane area |
33 m² (356 ft²) |
Dry weight |
45 KG (100 lbs) |
Wet weight filled with water |
110 KG (242 lbs) |
Membrane material |
PVDF (Polyvinylidene Fluoride) |
Pore size |
30 nm |
Flow direction |
Inside-out |
Housing material |
CPVC |
Potting material |
Epoxy resin |
Operating Limits
Clean water flux (25°C, 100 kPa) |
900 L/m2·h (529 gfd) |
Maximum temperature |
65°C (149°F) |
Maximum feed pressure |
8 bar (800 kPa) |
Maximum trans-membrane pressure |
-0.6 - 6 bar (-60 - 600 kPa) |
pH-Continuous operation @25°C |
2 - 10 |
Chlorine exposure |
250,000 ppm·h |