Description
- Minimization of membrane scaling and fouling. The system uses short feed flow paths, open channels and high-packing densities to minimize concentration polarization and physical flow impediments. Consequently, scaling and fouling are greatly reduced while high energy efficiency is maintained.
- Long membrane life. The combination of low membrane scaling and fouling, highly stable membranes, and the simple built-in cleaning system means that membrane life-expectancy is not normally limited by feedwater pollution. Useful membrane life of five years or more can be expected.
- Lower membrane replacement costs. Compared to spirally wound and hollow fiber membrane elements which are life-sealed at manufacture (so the complete element must be replaced at relatively high cost), the DT Module system allows the replacement of individual sheets of membrane at a fraction of the cost.
- Easy access to all membranes. Modules can easily be opened up to permit replacement or inspection of each membrane cushion.
- Fail-safe unattended operation. The only moving parts are the pumps and all operating functions are automatically controlled and fail-safe. No special skills are required to operate the system.
- Compact and flexible. Modular design and construction of all standard units simplifies transportation and installation, and enables efficient use of floor space.
Membrane Module | Originally designed to produce drinking water from sea water, Disc Tube technology is now being successfully applied to other markets such as leachate, petroleum contaminated water, and industrial wastewater streams. In addition to RO membrane systems, DT technology can also be used in conjunction with microfiltration, nanofiltration, and ultrafiltration membrane systems. DT systems also allow the use of wastewater as a demineralize feeder while extending demineralizer run length tenfold. |
Applications
Flow Diagram
Flow Diagram
Type
Additional Information
The Pall Disc Tube™ Module System is a major advance in Reverse Osmosis technology. The fluid dynamics and construction of the disc membrane stack result in an open channel, unrestricted and fully turbulent feedwater system. This means that suspended solids carried in the feedwater cannot be trapped or easily settle out inside the membrane module. In frequent maintenance, cleaning of the membranes can be successfully achieved using a standard, built-in system. Round-the-clock reliability and product water quality are also guaranteed. These are achieved through Pall's adherence to the highest standards in components, materials, and methods of design and construction. Advantages of the Disc Tube Module System include:
- Minimization of membrane scaling and fouling. The system uses short feed flow paths, open channels and high-packing densities to minimize concentration polarization and physical flow impediments. Consequently, scaling and fouling are greatly reduced while high energy efficiency is maintained.
- Long membrane life. The combination of low membrane scaling and fouling, highly stable membranes, and the simple built-in cleaning system means that membrane life-expectancy is not normally limited by feedwater pollution. Useful membrane life of five years or more can be expected.
- Lower membrane replacement costs. Compared to spirally wound and hollow fiber membrane elements which are life-sealed at manufacture (so the complete element must be replaced at relatively high cost), the DT Module system allows the replacement of individual sheets of membrane at a fraction of the cost.
- Easy access to all membranes. Modules can easily be opened up to permit replacement or inspection of each membrane cushion.
- Fail-safe unattended operation. The only moving parts are the pumps and all operating functions are automatically controlled and fail-safe. No special skills are required to operate the system.
- Compact and flexible. Modular design and construction of all standard units simplifies transportation and installation, and enables efficient use of floor space.
Membrane Module |
Originally designed to produce drinking water from sea water, Disc Tube technology is now being successfully applied to other markets such as leachate, petroleum contaminated water, and industrial wastewater streams.
In addition to RO membrane systems, DT technology can also be used in conjunction with microfiltration, nanofiltration, and ultrafiltration membrane systems. DT systems also allow the use of wastewater as a demineralize feeder while extending demineralizer run length tenfold. |
Ordering Information
Reviews
Earn 10% off* your next order online by leaving a review of this product. Please login to your account to leave a review. We appreciate and value your feedback.
*Subject to Terms and Conditions.