{"id":1832,"date":"2021-10-04T09:03:13","date_gmt":"2021-10-04T09:03:13","guid":{"rendered":"https:\/\/horizon.peachpuff-wolverine-566518.hostingersite.com\/?p=1832"},"modified":"2021-10-04T09:03:13","modified_gmt":"2021-10-04T09:03:13","slug":"quenching-the-worlds-thirst-with-off-grid-water-desalination","status":"publish","type":"post","link":"https:\/\/scienceblog.com\/horizon\/1832\/quenching-the-worlds-thirst-with-off-grid-water-desalination\/","title":{"rendered":"Quenching the world\u2019s thirst with off-grid water desalination"},"content":{"rendered":"

Desalination is the answer to long-term water security, but it\u2019s also expensive and energy-intensive. The good news is that scientists are developing some viable solutions.<\/strong><\/p>\n

The first desalination plant in Europe was built in Spain nearly a half century ago. Since then, facilities have sprung up in water-stressed regions throughout Europe. Just a few years ago, the residents of the small Greek island of Ikaria finally got access to an abundant source of clean drinking water \u2013 all thanks to a new desalination plant.<\/p>\n

The growing importance of desalinising water is undeniable. Once only an issue in Southern Europe, countries in the north like the Netherlands and Belgium are now also investing in desalination technology.<\/p>\n

For many years, the most common method of desalination has been reverse osmosis<\/a> (RO). But RO desalination systems require connection to the electricity grid. Not only is this expensive, it\u2019s often inaccessible to isolated regions. This is why sustainable off-grid desalination systems powered by renewable energy are essential.<\/p>\n

Enter the microbial desalination cells<\/a> (MDCs). With revolutionary technology developed by MIDES<\/a>, these use a sustainable low-energy process to produce safe drinking water from seawater.\u00a0 It means electro-active bacteria desalinate and sterilise water making it suitable and safe. \u2018This technology offers new options to provide clean water and wastewater treatment to small, isolated locations without electricity,\u2019 said Frank Rogalla, director of innovation and technology at Aqualia and a member of the project team.<\/p>\n

Now with this innovative MDC technology, desalination is becoming a low-cost viable solution for water resources in many areas of the world and is putting an end to water scarcity. Rogalla said that two prototypes are now in operation (in Denia and Tenerife in Spain) to optimise the results and detect any opportunities for improvement in performance and cost efficiency.\u00a0 And taking it one step further, the treated wastewater can be reused in irrigation and agriculture which will take pressure off current resources.<\/p>\n

How else can developing countries and isolated island localities gain access to fresh water off-grid desalination systems? Another answer lies in the sea.\u00a0 Islands and coastal regions have access to an incredible, free energy source \u2013 waves.\u00a0 \u2018Harnessing the power of ocean waves with a technology that can produce fresh water to many of the 2.1 billion people globally struggling to access safe drinking water is the answer,\u2019 said Olivier Ceberio, chief operating officer of Resolute Marine and member of the project team.<\/p>\n

As part of W20<\/a>, Ceberio and his colleagues developed an off-grid innovative solution \u2013 the world\u2019s first wave-driven desalination system (called Wave2O\u2122) \u2013 that can be deployed quickly, operate completely off-grid and supply large quantities of fresh water at a competitive cost. There is no catch here. \u2018This technology delivers free energy from a consistent and inexhaustible renewable energy source: ocean waves,\u2019 said Ceberio.<\/p>\n

The magic comes from a Wave Energy Converter<\/a> (WEC) attached to the seabed floor which moves back and forth with the waves. The energy extracted is then used to pressurize seawater that is sent to the shore to directly drive a RO system.\u00a0 Ocean waves alone produce fresh water without requiring any additional source of energy such as electricity.<\/p>\n

Daily production of water can cover the needs of about 40,000 people. This is welcome news for island nations and coastal communities.\u00a0 Another benefit is turning energy into electricity. \u2018While we don’t use electricity in our manufacturing process, we can divert some energy from the pressurized seawater to cogenerate electricity to power our own subsystems and pump fresh water where it is needed and provide both water and power to our customers,\u2019 said Ceberio.<\/p>\n

The team is currently testing a reduced scale version of Wave2O in their facilities in Hingham, MA in the United States. If successful they will move to a first ocean deployment of a reduced scale Wave2O in PLOCAN a test site facility in the Canary Islands followed by a second one at a commercial pilot in Cape Verde.<\/p>\n

Take Cape Verde for example. This group of islands off the west coast of northern Africa suffers from severe water scarcity.\u00a0 It relies on diesel-electric desalination systems to bring in 85% of its water supply and has one of the world\u2019s highest water costs.\u00a0 It is here where this innovative technology can produce water at a third of the cost and provide access to a clean and reliable source of water.<\/p>\n

Persistent water shortages can become a thing of the past in developing countries, remote communities and island nations with viable off-grid solutions that can bring them fresh water.<\/p>\n

The research in this article was funded by the EU. If you liked this article, please consider sharing it on social media.<\/p>\n

See also<\/p>\n