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Kennedyplatz 1,
50569 Cologne,
Germany
T: +49 (0)221-8885-8558
E: lewabrane@lanxess.com

LANXESS is a major global solution provider for liquid purification, with a leading position in ion exchange resins (IX) and a strong commitment to its reverse osmosis (RO) membrane business. We have 80 years of experience in water treatment and purification applications. This knowledge is essential for complex combined processes, which are requested to reuse or recycle water in minimal liquid discharge (MLD) processes. The Lewabrane® product line includes elements for all the main RO applications, including desalinating seawater, brackish water, and low-salinity water. Leading fields of application include the production of drinking water, but also the treatment of process water and wastewater. LANXESS manufactures its RO membrane elements in a modern production plant in Bitterfeld, Germany. All Lewabrane® products are compliant with NSF/ANSI Standard 61. In July 2018, LANXESS has entered into an agency agreement with French company Polymem for the distribution of Polymem's Gigamem ultrafiltration (UF) modules range featuring Neophil hollow fiber membranes worldwide excluding the territories USA and Canada. With the intuitive design software LewaPlus® LANXESS offers a comprehensive tool for the planning and designing of industrial water treatment systems. It allows the dimensioning of IX and RO systems for a for a wide variety of unique system configurations. Numerous modules are available for the calculation of every step of the water treatment process. With the latest 2.0 release, users now have the unique ability using drag and drop to combine different technologies into one design.

 


Selected References: Membrane supplier

  • Najran, Saudi Arabia 2018, 8,000 m³/d RO
  • Riyadh, Saudi Arabia 2018, 4,000 m³/d RO
  • Milazzo, Italy 2018, 3,840 m³/d RO
  • San Salvador, El Salvador 2018, 2,448 m³/d RO
  • Roermond, Netherlands 2018, 2,400 m³/d RO
  • Torino, Italy 2018, 2,400 m³/d RO
  • Texas, U.S.A. 2018, 2,180 m³/d RO
  • Perunduarai, India 2018, 2,160 m³/d RO
  • Kansas, U.S.A. 2018, 2,040 m³/d RO
  • Al-Madinah, Saudi Arabia 2018, 2,000 m³/d RO
  • Dammam, Saudi Arabia 2018, 2,000 m³/d RO
  • Tocancipa, Colombia 2018, 1,920 m³/d RO
  • Jhagadia, India 2018, 1,800 m³/d RO
  • Lima, Peru 2018, 1,560 m³/d RO
  • Rabigh, Saudi Arabia 2018, 1,000 m³/d RO
  • Virginia, U.S.A. 2018, 830 m³/d RO
  • North Carolina, U.S.A. 2018, 555 m³/d RO
  • California, U.S.A. 2018, 432 m³/d RO
  • Dammam, Saudi Arabia 2018, 400 m³/d RO
  • Chennai, India 2018, 240 m³/d RO
  • Krasnystaw, Poland 2018, 240 m³/d RO
  • Tampico, Mexico 2017, 21,600 m³/d RO
  • Guandong, China 2017, 12,000 m³/d RO
  • Tuapse, Russia 2017, 9,240 m³/d RO
  • Mangalore, India 2017, 7,512 m³/d RO
  • Ghent, Belgium 2017, 6,000 m³/d RO
  • Henan, China 2017, 4,800 m³/d RO
  • Liaoning, China 2017, 4,800 m³/d RO
  • West Thurrock, U.K. 2017, 3,980 m³/d RO
  • Granbury, Texas, U.S.A. 2017, 3,785 m³/d RO
  • Hubei, China 2017, 3,600 m³/d RO
  • Anhui, China 2017, 3,600 m³/d RO
  • Shanxi, China 2017, 3,600 m³/d RO
  • Liaoning, China 2017, 3,600 m³/d RO
  • Neimenggu, China 2017, 3,600 m³/d RO
  • Shandong, China 2017, 3,600 m³/d RO
  • Telangana, India 2017, 3,445 m³/d RO
  • Keansburg, New Jersey, U.S.A. 2017, 3,380 m³/d RO
  • Oland, Sweden 2017, 3,000 m³/d RO
  • Ford City, Pennsylvania, U.S.A. 2017, 2,950 m³/d RO
  • Arizona, U.S.A. 2017, 2,725 m³/d RO
  • Tirupur, India 2017, 2,700 m³/d RO
  • Mendeleevsk, Russia 2017, 2,640 m³/d RO
  • Randfontein, South Africa 2017, 2,640 m³/d RO
  • Beijing, China 2017, 2,400 m³/d RO
  • Hebei, China 2017, 2,400 m³/d RO
  • Jiangxi, China 2017, 2,400 m³/d RO
  • Guandong, China 2017, 2,400 m³/d RO
  • Shanxi, China 2017, 2,400 m³/d RO
  • Jiangsu, China 2017, 2,400 m³/d RO
  • Roermond, Netherlands 2017, 2,400 m³/d RO
  • Tirupur, India 2017, 2,040 m³/d RO
  • Beni Suef, Egypt 2017, 1,680 m³/d RO
  • Scarlino, Italy 2017, 1,680 m³/d RO
  • Sydney, Australia 2017, 1,360 m³/d RO
  • Tirupur, India 2017, 1,320 m³/d RO
  • Devnia, Bulgaria 2017, 1,260 m³/d RO
  • Henan, China 2017, 1,200 m³/d RO
  • Jiangxi, China 2017, 1,200 m³/d RO
  • Parma, Italy 2017, 1,200 m³/d RO
  • Pordenone, Italy 2017, 1,200 m³/d RO
  • Medan, Indonesia 2017, 912 m³/d RO
  • Sw. Katarzyna, Poland 2017, 840 m³/d RO
  • Kagoshima, Japan 2017, 720 m³/d RO
  • Porbandar, India 2017, 720 m³/d RO
  • West Java, Indonesia 2017, 600 m³/d RO
  • Surabaya, Indonesia 2017, 600 m³/d RO
  • Bukowno, Poland 2017, 600 m³/d RO
  • Suzzara, Italy 2017, 552 m³/d RO
  • Katowice, Poland 2017, 528 m³/d RO
  • Aceh, Indonesia 2017, 480 m³/d RO
  • Valencia, Spain 2017, 450 m³/d RO
  • Algemesi, Spain 2017, 360 m³/d RO
  • Bor, Serbia 2017, 360 m³/d RO
  • Czarnkow, Poland 2017, 288 m³/d RO
  • Bursa, Turkey 2016, 14,400 m³/d RO
  • Neimenggu, China 2016, 4,800 m³/d RO
  • Guangdong, China 2016, 4,800 m³/d RO
  • Frankfurt/Main, Germany 2016, 3,600 m³/d RO
  • Leuna, Germany 2016, 3,240 m³/d RO
  • Barranquilla, Colombia 2016, 2,592 m³/d RO
  • Xalostoc, Mexico 2016, 2,180 m³/d RO
  • Gedebey, Azerbaijan 2016, 2,160 m³/d RO
  • Jakarta, Indonesia 2016, 1,560 m³/d RO
  • São Paulo, Brazil 2016, 1,440 m³/d RO
  • Tirupur, India 2016, 1,320 m³/d RO
  • Ixtlahuacin, Mexico 2016, 1,090 m³/d RO
  • Windhoek, Namibia 2016, 1,044 m³/d RO
  • Veracruz, Mexico 2016, 1,000 m³/d RO
  • Gorontalo, Indonesia 2016, 936 m³/d RO
  • Arizona, U.S.A. 2016, 908 m³/d RO
  • Surabaya, Indonesia 2016, 840 m³/d RO
  • Cartagena, Colombia 2016, 816 m³/d RO
  • Chennai, India 2016, 800 m³/d RO
  • Czarnków, Poland 2016, 768 m³/d RO
  • Texas, U.S.A. 2016, 636 m³/d RO
  • Liaoning, China 2015, 14,400 m³/d RO
  • Tampico, Mexico 2015, 13,824 m³/d RO
  • Triunfo, Brazil 2015, 10,800 m³/d RO
  • Shchekino, Russia 2015, 7,800 m³/d RO
  • Foshan, China 2015, 7,680 m³/d RO
  • Alexandria, Egypt 2015, 5,760 m³/d RO
  • Gumi, South Korea 2015, 5,300 m³/d RO
  • Manzhouli, China 2015, 4,800 m³/d RO
  • Perth, Australia 2015, 4,000 m³/d RO
  • Bratislava, Slovakia 2015, 3,000 m³/d RO
  • South East, U.S.A. 2015, 2,180 m³/d RO
  • Ploiesti, Romania 2015, 2,040 m³/d RO
  • Wiesbaden, Germany 2015, 1,440 m³/d RO
  • Lippendorf, Germany 2015, 1,200 m³/d RO
  • Glogów, Poland 2015, 1,200 m³/d RO
  • Alexandria, Egypt 2015, 750 m³/d RO
  • Haiphong, Vietnam 2015, 720 m³/d RO
  • Trujillo, Peru 2015, 720 m³/d RO
  • Hurghada, Egypt 2015, 600 m³/d RO
  • Bursa, Turkey 2015, 600 m³/d RO
  • Hurghada, Egypt 2015, 500 m³/d RO
  • Sharm El Sheikh, Egypt 2015, 500 m³/d RO
  • Czarna Woda, Poland 2015, 480 m³/d RO
  • Tirupur, India 2015, 480 m³/d RO
  • Surat, India 2015, 240 m³/d RO
  • Bratislava, Slovakia 2014, 16,200 m³/d RO
  • Huhehaote, China 2014, 8,640 m³/d RO
  • Ningxia, China 2014, 8,400 m³/d RO
  • Pancevo, Serbia 2014, 7,200 m³/d RO
  • Sydney, Australia 2014, 6,000 m³/d RO
  • Ansan, South Korea 2014, 4,750 m³/d RO
  • Pingxiang, China 2014, 4,320 m³/d RO
  • Wuhai, China 2014, 4,032 m³/d RO
  • Australia 2014, 3,600 m³/d RO
  • Pyeongtaek, South Korea 2014, 3,400 m³/d RO
  • Taiyuan, China 2014, 2,400 m³/d RO
  • Lingfeng, China 2014, 2,400 m³/d RO
  • Changzhou, China 2014, 2,400 m³/d RO
  • Shenzhen, China 2014, 2,400 m³/d RO
  • Qingdao, China 2014, 1,920 m³/d RO
  • Tampico, Mexico 2014, 1,728 m³/d RO
  • Texas, U.S.A. 2014, 1,500 m³/d RO
  • Wuhan, China 2014, 1,440 m³/d RO
  • Shanghai, China 2014, 1,200 m³/d RO
  • Nava, Mexico 2014, 1,008 m³/d RO
  • Shenzhen, China 2014, 1,000 m³/d RO
  • Ain Sokhna, Egypt 2014, 960 m³/d RO
  • Nanjing, China 2014, 960 m³/d RO
  • Maryland, U.S.A. 2014, 950 m³/d RO
  • Jacksonville, U.S.A. 2014, 681 m³/d RO
  • Chennai, India 2014, 600 m³/d RO
  • Japan 2014, 288 m³/d RO
  • Australia 2013, 7,920 m³/d RO
  • Chemnitz, Germany 2013, 2,880 m³/d RO
  • Nizhnekamsk, Russia 2013, 2,448 m³/d RO
  • Bad Köstritz, Germany 2013, 2,400 m³/d RO
  • Beijing, China 2013, 2,400 m³/d RO
  • Florida, U.S.A. 2013, 2,270 m³/d RO
  • Shandong, China 2013, 1,920 m³/d RO
  • Cabo de Santo Agostinho, Brazil 2013, 1,680 m³/d RO
  • Shandong, China 2013, 1,440 m³/d RO
  • Shanghai, China 2013, 1,296 m³/d RO
  • Lima, Peru 2013, 1,080 m³/d RO
  • Nagda, Madhya Pradesh, India 2013, 760 m³/d RO
  • Shanghai, China 2013, 720 m³/d RO
  • Lebork, Poland 2013, 480 m³/d RO
  • Shanghai, China 2013, 480 m³/d RO
  • Jiangxi, China 2013, 432 m³/d RO
  • Texas, U.S.A. 2013, 380 m³/d RO
  • Shanghai, China 2013, 360 m³/d RO
  • Newcastle, South Africa 2013, 312 m³/d RO
  • Hangzhou, China 2013, 288 m³/d RO
  • Alabama, U.S.A. 2013, 270 m³/d RO
  • Jedlicze, Poland 2013, 240 m³/d RO
  • Australia 2013, 240 m³/d RO
  • Suzhou, China 2013, 240 m³/d RO
  • Shanghai, China 2013, 240 m³/d RO
  • Jiangxi, China 2013, 192 m³/d RO
  • Lanzhou, China 2013, 192 m³/d RO
  • Shanghai, China 2013, 144 m³/d RO
  • Suzhou, China 2013, 120 m³/d RO
  • Shanghai, China 2013, 96 m³/d RO

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