NanoH2O to Build First Advanced Reverse Osmosis Membrane Manufacturing Facility in China Company's Second Manufacturing Plant Will Serve Fast-Growing Demand for Its Seawater Reverse Osmosis Membranes and Future Membrane Products
EL SEGUNDO, Calif., Oct. 20, 2013 /PRNewswire/ -- NanoH2O, Inc., manufacturer of the most efficient and cost-effective reverse osmosis (RO) membranes for seawater desalination, today announced plans to build a manufacturing facility in Liyang, China, a city in the Yangtze River Delta 250 kilometers west of Shanghai. The 10,000 square meter facility will be the company's second fully integrated manufacturing plant, following the first located in Los Angeles, California. The China facility comes at a total investment of $45 million and is expected to be operational by the end of 2014.
China, which represents one-fifth of the world's population but just six percent of the global fresh water supply, plans to increase its seawater reverse osmosis desalination capacity three-fold by 2015. The overall membrane market in China is estimated to grow more than 20 percent per year over the next 10 years. The Chinese government's current five-year plan also calls for 70 percent of equipment used in desalination plants to be produced domestically. Establishing a new NanoH2O facility in China will allow the company to take advantage of the growing domestic market for both desalination and wastewater treatment.
"Developing new sources of affordable, clean water is a priority for China's ongoing economic development," said Jianghua Su, Mayor of Liyang. "Liyang is excited to welcome NanoH2O and its leading desalination membrane technology to China, adding to Liyang's growing roster of multi-national industrial and cleantech corporations looking to expand global operations and commercial efforts."
Marketed under the QuantumFlux brand, NanoH2O's thin-film nanocomposite (TFN) membrane represents the first significant RO membrane technology innovation in 25 years. By incorporating benign nanomaterials into its patented thin-film layer, NanoH2O has improved key performance characteristics by controlling membrane structure. QuantumFlux RO membranes have demonstrated a 50-100% increase in permeability when compared to traditional thin-film RO membranes. This increased permeability means less pressure is required to produce fresh water through the membrane, thus lowering a desalination plant's energy costs. Alternatively, at the same operating pressure, the increased permeability leads to an increase in the amount of fresh water produced.
"Just two years after our commercial entry into the RO membrane and desalination markets, the opening of this second facility marks a major expansion for our company that will allow us to support a rapidly growing international market," said Jeff Green, Chief Executive Officer and Chairman of NanoH2O. "The Liyang plant is the first RO membrane manufacturing facility in China to utilize advanced nanotechnology. We look forward to working closely with our colleagues in Liyang to bring the next generation of energy efficient reverse osmosis membranes to China and other strategic markets across the globe."
About NanoH2O, Inc.
NanoH2O, Inc. designs, develops, manufactures and markets reverse osmosis (RO) membranes that lower the cost of desalination. Based on breakthrough nanostructured materials and industry-proven polymer technology, NanoH2O's QuantumFlux membranes dramatically improve desalination energy efficiency and productivity. QuantumFlux seawater reverse osmosis (SWRO) membranes, Standard 61 certified by NSF International for the production of drinking water, deliver the highest flux and the highest salt rejection of any SWRO membrane on the market. QuantumFlux membranes are available in standard 8-inch (20 cm) diameter elements that fit easily into new and existing desalination plants, purifying water from a broad range of sources with improved productivity and water quality. NanoH2O is headquartered in Los Angeles, California. For more information, visit www.nanoh2o.com.
SOURCE NanoH2O, Inc.