Module-Ordering
At a soybean-processing facility in Thailand, large volumes of treated sewage effluent (TSE) created persistent fouling challenges: oils, proteins, algae, and suspended solids pushed conventional filtration systems to their limits.
H2: When Conventional Filtration Reaches Its Limits
Industrial facilities that rely on municipal treated wastewater for reuse face two major issues: high organic content and rapid membrane fouling. At this site, the existing polymeric ultrafiltration system required frequent chemical cleaning and suffered severe capacity losses—leading to high operational cost, inconsistent water quality, and downtime.
H3: Replacing Polymers with Proven Ceramic Strength
Industrial facilities that rely on municipal treated wastewater for reuse face two major issues: high organic content and rapid membrane fouling.
H4: Replacing Polymers with Proven Ceramic Strength
Industrial facilities that rely on municipal treated wastewater for reuse face two major issues: high organic content and rapid membrane fouling.
Cerafiltec replaced the polymeric system with a submerged ceramic flat-sheet membrane configuration.
H5: Replacing Polymers with Proven Ceramic Strength
Cerafiltec replaced the polymeric system with a submerged ceramic flat-sheet membrane configuration.
Cerafiltec replaced the polymeric system with a submerged ceramic flat-sheet membrane configuration.
The solution is designed for:
Continuous operation with minimal fouling
Simple mechanical cleaning
Long membrane lifetime exceeding 20 years
Its modular design allows compact installation and easy expansion as demand grows.
Cerafiltec replaced the polymeric system with a submerged ceramic flat-sheet membrane configuration.
Cerafiltec replaced the polymeric system with a submerged ceramic flat-sheet membrane configuration.
H2: When Conventional Filtration Reaches Its Limits
Industrial facilities that rely on municipal treated wastewater for reuse face two major issues: high organic content and rapid membrane fouling. At this site, the existing polymeric ultrafiltration system required frequent chemical cleaning and suffered severe capacity losses—leading to high operational cost, inconsistent water quality, and downtime.
H3: Replacing Polymers with Proven Ceramic Strength
Industrial facilities that rely on municipal treated wastewater for reuse face two major issues: high organic content and rapid membrane fouling.
H4: Replacing Polymers with Proven Ceramic Strength
Industrial facilities that rely on municipal treated wastewater for reuse face two major issues: high organic content and rapid membrane fouling.
Cerafiltec replaced the polymeric system with a submerged ceramic flat-sheet membrane configuration.
H5: Replacing Polymers with Proven Ceramic Strength
Cerafiltec replaced the polymeric system with a submerged ceramic flat-sheet membrane configuration.
Cerafiltec replaced the polymeric system with a submerged ceramic flat-sheet membrane configuration.
The solution is designed for:
Continuous operation with minimal fouling
Simple mechanical cleaning
Long membrane lifetime exceeding 20 years
Its modular design allows compact installation and easy expansion as demand grows.
Cerafiltec replaced the polymeric system with a submerged ceramic flat-sheet membrane configuration.
Cerafiltec replaced the polymeric system with a submerged ceramic flat-sheet membrane configuration.
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