The top tier value source for membrane water & wastewater Solution.
What We Do
SWRO/BWRO System
System Integration
Engineering & Service
Industrial Wastewater Treatment
Membrane Bioreactor Modules
Ultrafilteration Seperation
Commerical Water Treatment
Industrial Water Treatment
Residental Wastewater Treatment
Electromembrane Processes consist of those technologies that apply the electric potential gradient as the driving force of ion transport. The main electromembrane processes are:
Electrodeionization (EDI)
Electrodialysis (ED)
Electrodialysis reversal (EDR)
Electrodialysis with bipolar membrane (EDBM)
Capacitive deionization (CDI)
RO is very effective in treating brackish (surface and ground), tap and sea water for both small and large applications. Some examples of applications:
Municipal drinking water
Food and beverage industry
Agricultural irrigation
Industrial ultrapure water
Industrial process water
Waste water reuse
Power industry (boiler feed water, cooling towers)
Municipal/industrial water reuse
MBRs stand out for their efficiency in treating high-strength wastewaters and their smaller footprint compared to traditional systems. They are ideal for places where space is limited or where environmental regulations require high-quality effluent. Their automated nature also makes MBRs a low-maintenance, user-friendly choice for effective wastewater management.
Ion exchangers are used to remove salts (cations and anions) from the water. The typical application are
Softeners - Removal of Calcium (Ca) and Magnesium (Mg)
Cationic/Anionic demineralisation plants
Mixed Bed Polishing plants
Selective ion-exchange for the removal of heavy metals
Technology We Apply
MEMTIK FMBR SERIES MBR ADVANTAGES
PVDF Material
Permanently hydrophilic (dry storage)
Higher MLSS concentration
High & stable flux
High tensile strength
High chemical resistance
No backwash required
MEMTIK HMBR SERIES MBR ADVANTAGES
PVDF Material
Permanently hydrophilic (dry storage)
Reinforced hollow fibre
High & stable flux
High tensile strength
High chemical resistance
Suitable for backwash
FMBR-E100 Series
• Membrane area: 1.0m2
• Design Flux (LPD): 400~600FMBR-A80 Series
• Membrane area: 0.8m2
• Design Flux (LPD): 320~480FMBR-A150 Series
• Membrane area: 1.5m2
• Design Flux (LPD): 600~800FMBRE100/A80/A150Module
HMBR-MA10 Series
• Surface: 10m2
• Design Flux (LPD): 2,000~5,000HMBR-MB25 Series
• Surface: 25m2
• Design Flux (LPD): 5,000~12,500FMBR-MA10/MB25 Modules
MEMTIK TMF SERIES Tubular Membrane ADVANTAGES
High velocity
High filtration precision
Low fouling
Excellent pore distribution
Resistant to pH extremes
Cross-flow filtration
Optimized for purification & concentration of feed liquids with high suspended solids.
Structured with Hyper™ PVDF (polyvinyl difluoride) for high alkali resistance or PS (polysulfone) for high caustic resistance, delivering high strength and molecular weight cut-off precision (100k ~ 500k Daltons).
TMF 10" Series
• 6mm Tubular Surface: 68m2 / 50m2
• 8mm Tubular Surface: 56.7m2 / 42.5m2TMF 8" Series
• 6mm Tubular Surface: 43.6m2 / 34m2
• 8mm Tubular Surface: 36.3m2 / 27.2m2TMF 6" Series
• 6mm Tubular Surface: 19m2
• 8mm Tubular Surface: 15.2m2TMF 4" Series
• 6mm Tubular Surface: 8.5m2 / 5.5m2
• 8mm Tubular Surface: 6.4m2 / 2.1m2
The Benefit of Membrane Bioreactor MBR in Aerobic/Anaerobic Biological Process
Enhanced Treatment Efficiency:
Membrane Bioreactors (MBRs) improve the treatment efficiency of aerobic/anaerobic biological processes by providing a physical barrier that separates the biomass from the treated water, resulting in higher quality effluent.
Enhanced Treatment Efficiency:
Membrane Bioreactors (MBRs) improve the treatment efficiency of aerobic/anaerobic biological processes by providing a physical barrier that separates the biomass from the treated water, resulting in higher quality effluent.
Reduced Sludge Production:
MBR technology leads to reduced sludge production due to the retention of biomass within the system, resulting in lower disposal costs and environmental impact.
An MBR, or Membrane Bioreactor, is an advanced solution for wastewater treatment that combines biological degradation and membrane filtration. MBRs are highly effective for both industrial and municipal wastewater applications, excelling in removing BOD (biological oxygen demand), COD (chemical oxygen demand), total nitrogen, and phosphorus.
In an MBR system, wastewater is treated through a bioreactor where a suspended growth of microorganisms breaks down pollutants. The key element is the membrane unit, which is immersed in the bioreactor. This membrane acts as a filter, separating solids and microorganisms from the treated water, resulting in a high-quality effluent that can often be reused or safely discharged.
MBRs are known for their efficiency in treating high-strength wastewaters and their smaller footprint compared to traditional systems. They are ideal for places where space is limited or where environmental regulations require high-quality effluent. Additionally, their automated nature makes MBRs a low-maintenance, user-friendly choice for effective wastewater management.