brackish water desalination plant Articles

  • Brackish groundwater desalination on the rise

    Brackish water is water that is more saline than fresh. It’s not quite as saline as seawater, but it’s still too salty to be used without treatment. Typically, advanced treatment technologies — reverse osmosis and ultrafiltration, as well as other membrane-based technologies — are needed to purify and desalinate brackish groundwater before its use. Brackish groundwater ...


    By Fluence Corporation

  • Report: California’s Reliance on brackish water desalination to increase

    Years of drought in California may result in the state becoming more reliant on brackish water desalination, according to the Pacific Institute. In “The Cost of Alternative Water Supply and Efficiency Options in California,” the Oakland-based nonprofit research institute looks at the costs of potential water supply sources and other economic factors. The institute states: ...


    By Fluence Corporation

  • U.S. utilities increasing water reuse investment

    Decreased technology costs are prompting more municipal water utilities in the United States to invest in new water reuse infrastructure. In fact, a new forecast projects more than $18 billion in water reuse and desalination projects are on tap in 17 states, according to Bluefield Research analysts. Although water scarcity is a conventional driver for this type of project, the analysts say the ...


    By Fluence Corporation

  • Brackish Water as a Resource

    There’s a great deal of talk and debate about the value of treating brackish water, or water that is more saline than fresh water, but not quite as saline as seawater. Brackish water can result from the mixing of seawater with fresh water, as in surface waters such as estuaries or other watery ecosystems, or it can occur underground in aquifers. Salinity Levels Although ...


    By Fluence Corporation

  • Containerized Brackish Water Reverse Osmosis Desalination Plant - Case study

    Desalinating brackish groundwater eased water shortage in Cyprus city Fluence addressed an increasingly severe water shortage in the city of Limassol in Cyprus by building a containerized brackish water reverse osmosis desalination plant that produces 10,000 L/d of high-quality purified drinking water, which complies with ...


    By Fluence Corporation

  • A brief review of desalination in Australia in 2010

    Recent climate changes and population growth throughout Australia have highlighted the need for more diverse and climate-independent water sources. Australia is the world's driest inhabited continent and the unpredictable climate means that the Australian population generally requires up to five times the water storage than does an equivalent population in the UK. Although 85% of its people live ...


    By Inderscience Publishers

  • Brackish Water as a Resource

    There’s a great deal of talk and debate about the value of treating brackish water, or water that is more saline than fresh water, but not quite as saline as seawater. Brackish water can result from the mixing of seawater with fresh water, as in surface waters such as estuaries or other watery ecosystems, or it can occur underground in aquifers. ...


    By Fluence Corporation

  • New Jersey Water Use Exceeding Supplies

    When people think of water scarcity, arid regions such as Israel, Egypt, and Southern California may come to mind, but the availability of clean, potable water may also be endangered in unexpected places, including New Jersey. Residents in some areas of the Garden State are using “tens of millions of gallons” more water than the ...


    By Fluence Corporation

  • On the performance limitation of reverse osmosis water desalination systems

    The performance of Reverse Osmosis (RO) water desalination processes was investigated using a simulated brackish water plant based on spiral-wound membranes. A semi-rigorous mathematical model was employed in the simulation to calculate the water and salt fluxes at any point along the filtration channel. The effects of two key parameters, namely the transmembrane pressure and membrane surface ...


    By Inderscience Publishers

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