Ultra-Performance, Anti-pollution Series of Reverse Osmosis Membrane Element
JBW-8040-400/34-XFR reverse osmosis membrane element adopts advanced anti-fouling and anti-biofouling technologies, and is specially designed for wastewater treatment scenarios with high organic matter and high microbial content. It can reduce cleaning frequency by 50% and operating energy consumption by 10%.
Available Documentations
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Applied Industries
Dyeing and Printing Wastewater, Textile Wastewater
Paper Making Wastewater (containing high concentrations of organic matter)
Electroplating Wastewater, Surface Treatment Wastewater
Coal Chemical, Petrochemical, and Coking Wastewater
Pharmaceutical Wastewater, Fermentation Wastewater
Product Overview
JOZZON XFR series membrane elements, at the membrane flat sheet process and roll manufacturing process, all contain JOZZON's latest anti-pollution technology, which effectively improves the ability of the membrane element to withstand contamination, compared with other ordinary anti-pollution membrane, the application of this type of membrane element system, is expected to achieve a 50% reduction in the frequency of cleaning. This series of membrane elements through a special design, effectively change the membrane element inlet water flow distribution, can achieve low-pressure differential operation, in the case of the same amount of water production, can effectively reduce the operating energy consumption of about 10%, cost savings. It is suitable for the scenario where organic matter and microbial contamination are more common in wastewater treatment. Non-chlorination treatment process ensures that the membrane element can maintain high performance throughout the operation cycle.
Features & Benefit
1. Advanced Anti-fouling and Anti-biofouling Technologies
The latest anti-fouling technologies are fully integrated into the membrane sheet and winding processes, significantly improving the membrane element's tolerance to organic and microbial contamination.
2. 50% Reduced Cleaning Frequency, Improved Operating Efficiency
Compared to ordinary anti-fouling membrane elements, systems using this series of membrane elements can reduce chemical cleaning frequency by 50% in actual operation, minimizing downtime for maintenance.
3. Optimized Water Flow Distribution, Achieving Low Pressure Drop Operation
Special hydraulic design effectively alters the influent water flow distribution, reducing the operating pressure drop of the membrane element and lessening the system's pumping burden.
4. Significant Energy Savings and Consumption Reduction, Approximately 10% Reduction in Operating Energy Consumption
Under the same water production conditions, approximately 10% savings in operating energy consumption can be achieved, effectively reducing long-term system operating costs.
5. Chlorination-Free Treatment Process, Stable Performance Throughout the Life Cycle
The use of a non-chlorination treatment process avoids membrane material degradation due to chlorination, ensuring that the membrane element maintains high desalination rates and high water production performance throughout the entire operating cycle.

Available Models
|
Model |
Effective Membrane Area ft (m2)   |
Average Permeated Flow  GPD (m³/d)   |
Stable Rejection (%)Â Â |
Minimum Rejection (%)Â |
wide inlet conduit mil |
|---|---|---|---|---|---|
|
JBW-8040-400/34-XFR |
400 (37.2) |
11200 (42.4) |
99.7 |
99.4 |
34 |
Operation Limits and Conditions
| Max. Working Pressure | 600 psi (4.14 MPa) |
| Max. Feedwater Flow | 85gpm (19 m³/h) |
| Max. Feedwater Temperature | 45℃ |
| Max. Feedwater SDI15 | 5 |
| Residual Chlorine Concentration of Feedwater | < 0.1 ppm |
| PH Range of Feedwater During Continuous Operation | 2~12 |
| PH Range of Feedwater During Chemical Cleaning (Short-term 30 minutes Period) | 1~13 |
| The Max. Pressure Drop of Single Membrane Element | 15psi (0.1Mpa) |
Test Conditions
| Test Pressure | 225psi (1.55Mpa) |
| Temperature of Testing Solution | 25℃ |
| Concentration of Testing Solution (NaCl) | 5000ppm |
| pH Value of Testing Solution | 7.5 |
| Recovery Rate of Single Membrane Element | 15% |
Membrane Element Size
Units in the illustration: Millimetre (inch).

