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Water Treatment: Reverse Osmosis Elements Higher Performance Levels With New Reverse Osmosis Elements

| Editor: Wolfgang Ernhofer

Speciality chemicals company Lanxess launches new reverse osmosis elements on the market. By the use of this elements the company expect dwell times to be extended.

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Specialty chemicals company Lanxess is launching a new, Lewabrane-brand reverse osmosis membrane element with improved performance on the market. Strands of different thickness are used for the novel, multifunctional feed spacers. They create space between the membrane surfaces for fast-flowing water, support the membrane in the process and cause turbulent water flow. The new product family is named after the alternating strand design (ASD).
Specialty chemicals company Lanxess is launching a new, Lewabrane-brand reverse osmosis membrane element with improved performance on the market. Strands of different thickness are used for the novel, multifunctional feed spacers. They create space between the membrane surfaces for fast-flowing water, support the membrane in the process and cause turbulent water flow. The new product family is named after the alternating strand design (ASD).
(Picture: Lanxess / Thorsten Martin, all rights reserved, Urh.-Nr.: 1910742 )

Cologne/Germany – German chemical company Lanxess is taking advantage of this year's Membrane Technology Conference & Exposition, hosted by the American Membrane Technology Association (AMTA) and the American Water Works Association (AWWA), to introduce novel reverse osmosis (RO) elements from its Lewabrane product line that display improved performance. The conference and exposition are being held in San Antonio, Texas, from February 1 to 5, 2016.

“We succeeded in a very short time in developing a market-ready, novel feed spacer used in the membrane element. It provides for optimized flow in the RO element and thus lower energy consumption. Combining it with our proven, Lewabrane-brand reverse osmosis membrane results in high-performance products suitable for any number of applications,” explained Dr. Carsten Schellenberg, head of Research and Development at the membrane facility operated by the Liquid Purification Technologies (LPT) business unit in Bitterfeld, Germany.

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Initially, two, new products are to be introduced: Lewabrane B400 LE ASD and Lewabrane B400 FR ASD. Optimized for applications in brackish water, these elements have standard geometries (length: 40 inches, diameter: 8 inches) and are characterized by very low energy consumption (LE = low energy) and high fouling resistance (FR = fouling resistant).

Development partnership

The new products in the Lewabrane line were developed as part of a cooperative research project involving Lanxess as well as regional and international partners. The feed spacers incorporated in the membrane elements are multifunctional. They create space between the membrane surfaces for fast-flowing water, support the membrane in the process and cause turbulent water flow. Although turbulent flow helps to lower salt concentrations at the surface of the membrane, and to reduce the extent of concentrate polarization, it also causes an increased pressure drop compared, for instance, to laminar flow. The optimal design of the feed spacers therefore is of critical importance to the properties of the elements. Filaments or strands of different thickness are used for the novel feed spacers. The new product family is named after this alternating strand design (ASD).

Lower energy consumption, longer dwell times

Computational fluid dynamic (CFD) simulations had previously indicated that RO elements with ASD feed spacers would indeed be capable of achieving higher performance levels. Tests of prototypes later fabricated as part of the project confirmed these calculations. The prototypes were shown to have a significantly lower pressure drop than standard grades and competitor products. Furthermore, the tendency towards scaling in the element was reduced. “With the new elements, we expect energy usage to decline and dwell times to be extended,” said Schellenberg, summarizing the results.

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