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Is Desalination a Solution to Freshwater Scarcity in Developing Countries?

期刊

MEMBRANES
卷 12, 期 4, 页码 -

出版社

MDPI
DOI: 10.3390/membranes12040381

关键词

water scarcity; population growth; desalination; developing countries

资金

  1. Wetsus-European Center of Excellence for Sustainable Water Technology
  2. Dutch Ministry of Economic Affairs
  3. European Union European Regional Development Fund
  4. Province of Fryslan
  5. city of Leeuwarden
  6. EZ/Kompas Program of the Samenwerkingsverband Noord-Nederland

向作者/读者索取更多资源

Rapid population growth and urbanization are the main causes of excessive abstraction of conventional freshwater resources, leading to water scarcity worldwide. Predictions indicate that by 2050, 2 billion people living in 44 countries, mostly developing countries, will likely suffer from water scarcity. Uganda, Burundi, Nigeria, and other countries are expected to be the most affected by water scarcity by 2050. Desalination technology is being increasingly used in water-scarce countries to meet growing water demand, but challenges such as cost, energy consumption, and environmental issues exist.
Rapid population growth and urbanization are two main drivers for the over-abstraction of conventional freshwater resources in various parts of the world, which leads to the situation of water scarcity (per capita availability <1000 m(3)/year). Predictions based on the World Bank projected population data and the FAO AQUASTAT database for freshwater availability show that by 2050, 2 billion people living in 44 countries will likely suffer from water scarcity, of which 95% may live in developing countries. Among these, the countries that will likely be most strongly hit by water scarcity by 2050 are Uganda, Burundi, Nigeria, Somalia, Malawi, Eritrea, Ethiopia, Haiti, Tanzania, Niger, Zimbabwe, Afghanistan, Sudan, and Pakistan. Currently, these countries have not yet established desalination to meet their freshwater demand. However, the current global trend shows that membrane-based desalination technology is finding new outlets for supplying water to meet growing water demand in most of the water-scarce countries. These 14 water-scarce countries will demand an additional desalination capacity of 54 Mm(3)/day by 2050 in order to meet the standard of current municipal water demand and to compensate for the withdrawal of renewable resources. Case studies from India, China, and South Africa have highlighted that other countries may apply the strategy of using desalinated water for industrial users. Moreover, challenges to the widespread adoption of desalination exist such as expense, significant energy use, the need for specialized staff training, the large carbon footprint of facilities, environmental issues such as greenhouse gas emission (GHGs), chemical discharge, and operational problems such as membrane fouling.

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