The state of desalination and brine production: A global outlook

Rising water demands and diminishing water supplies are exacerbating water scarcity in most world regions. Conventional approaches relying on rainfall and river runoff in water scarce areas are no longer sufficient to meet human demands. Unconventional water resources, such as desalinated water, are...

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Published inThe Science of the total environment Vol. 657; pp. 1343 - 1356
Main Authors Jones, Edward, Qadir, Manzoor, van Vliet, Michelle T.H., Smakhtin, Vladimir, Kang, Seong-mu
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 20.03.2019
Subjects
Concentrate stream
desalination
Desalination technology
economic costs
environmental impact
Feedwater type
hypersalinity
Kuwait
Middle East
Northern Africa
Product water
Qatar
rain
Recovery ratio
rivers
runoff
Saudi Arabia
United Arab Emirates
water shortages
Middle East
Northern Africa
Saudi Arabia
United Arab Emirates
Kuwait
Qatar
Recovery ratio
Concentrate stream
Feedwater type
Product water
Desalination technology
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Abstract Rising water demands and diminishing water supplies are exacerbating water scarcity in most world regions. Conventional approaches relying on rainfall and river runoff in water scarce areas are no longer sufficient to meet human demands. Unconventional water resources, such as desalinated water, are expected to play a key role in narrowing the water demand-supply gap. Our synthesis of desalination data suggests that there are 15,906 operational desalination plants producing around 95 million m3/day of desalinated water for human use, of which 48% is produced in the Middle East and North Africa region. A major challenge associated with desalination technologies is the production of a typically hypersaline concentrate (termed ‘brine’) discharge that requires disposal, which is both costly and associated with negative environmental impacts. Our estimates reveal brine production to be around 142 million m3/day, approximately 50% greater than previous quantifications. Brine production in Saudi Arabia, UAE, Kuwait and Qatar accounts for 55% of the total global share. Improved brine management strategies are required to limit the negative environmental impacts and reduce the economic cost of disposal, thereby stimulating further developments in desalination facilities to safeguard water supplies for current and future generations. [Display omitted] •Unconventional water resources are key to support SDG 6 achievement.•Desalinated water production is 95.37 million m3/day.•Brine production and energy consumption are key barriers to desalination expansion.•Brine production is 141.5 million m3/day, 50% greater than previous estimates.•Innovation and developments in brine management and disposal options are required.
AbstractList Rising water demands and diminishing water supplies are exacerbating water scarcity in most world regions. Conventional approaches relying on rainfall and river runoff in water scarce areas are no longer sufficient to meet human demands. Unconventional water resources, such as desalinated water, are expected to play a key role in narrowing the water demand-supply gap. Our synthesis of desalination data suggests that there are 15,906 operational desalination plants producing around 95 million m3/day of desalinated water for human use, of which 48% is produced in the Middle East and North Africa region. A major challenge associated with desalination technologies is the production of a typically hypersaline concentrate (termed ‘brine’) discharge that requires disposal, which is both costly and associated with negative environmental impacts. Our estimates reveal brine production to be around 142 million m3/day, approximately 50% greater than previous quantifications. Brine production in Saudi Arabia, UAE, Kuwait and Qatar accounts for 55% of the total global share. Improved brine management strategies are required to limit the negative environmental impacts and reduce the economic cost of disposal, thereby stimulating further developments in desalination facilities to safeguard water supplies for current and future generations.
Rising water demands and diminishing water supplies are exacerbating water scarcity in most world regions. Conventional approaches relying on rainfall and river runoff in water scarce areas are no longer sufficient to meet human demands. Unconventional water resources, such as desalinated water, are expected to play a key role in narrowing the water demand-supply gap. Our synthesis of desalination data suggests that there are 15,906 operational desalination plants producing around 95 million m3/day of desalinated water for human use, of which 48% is produced in the Middle East and North Africa region. A major challenge associated with desalination technologies is the production of a typically hypersaline concentrate (termed ‘brine’) discharge that requires disposal, which is both costly and associated with negative environmental impacts. Our estimates reveal brine production to be around 142 million m3/day, approximately 50% greater than previous quantifications. Brine production in Saudi Arabia, UAE, Kuwait and Qatar accounts for 55% of the total global share. Improved brine management strategies are required to limit the negative environmental impacts and reduce the economic cost of disposal, thereby stimulating further developments in desalination facilities to safeguard water supplies for current and future generations. [Display omitted] •Unconventional water resources are key to support SDG 6 achievement.•Desalinated water production is 95.37 million m3/day.•Brine production and energy consumption are key barriers to desalination expansion.•Brine production is 141.5 million m3/day, 50% greater than previous estimates.•Innovation and developments in brine management and disposal options are required.
Rising water demands and diminishing water supplies are exacerbating water scarcity in most world regions. Conventional approaches relying on rainfall and river runoff in water scarce areas are no longer sufficient to meet human demands. Unconventional water resources, such as desalinated water, are expected to play a key role in narrowing the water demand-supply gap. Our synthesis of desalination data suggests that there are 15,906 operational desalination plants producing around 95 million m³/day of desalinated water for human use, of which 48% is produced in the Middle East and North Africa region. A major challenge associated with desalination technologies is the production of a typically hypersaline concentrate (termed ‘brine’) discharge that requires disposal, which is both costly and associated with negative environmental impacts. Our estimates reveal brine production to be around 142 million m³/day, approximately 50% greater than previous quantifications. Brine production in Saudi Arabia, UAE, Kuwait and Qatar accounts for 55% of the total global share. Improved brine management strategies are required to limit the negative environmental impacts and reduce the economic cost of disposal, thereby stimulating further developments in desalination facilities to safeguard water supplies for current and future generations.
Rising water demands and diminishing water supplies are exacerbating water scarcity in most world regions. Conventional approaches relying on rainfall and river runoff in water scarce areas are no longer sufficient to meet human demands. Unconventional water resources, such as desalinated water, are expected to play a key role in narrowing the water demand-supply gap. Our synthesis of desalination data suggests that there are 15,906 operational desalination plants producing around 95 million m3/day of desalinated water for human use, of which 48% is produced in the Middle East and North Africa region. A major challenge associated with desalination technologies is the production of a typically hypersaline concentrate (termed 'brine') discharge that requires disposal, which is both costly and associated with negative environmental impacts. Our estimates reveal brine production to be around 142 million m3/day, approximately 50% greater than previous quantifications. Brine production in Saudi Arabia, UAE, Kuwait and Qatar accounts for 55% of the total global share. Improved brine management strategies are required to limit the negative environmental impacts and reduce the economic cost of disposal, thereby stimulating further developments in desalination facilities to safeguard water supplies for current and future generations.Rising water demands and diminishing water supplies are exacerbating water scarcity in most world regions. Conventional approaches relying on rainfall and river runoff in water scarce areas are no longer sufficient to meet human demands. Unconventional water resources, such as desalinated water, are expected to play a key role in narrowing the water demand-supply gap. Our synthesis of desalination data suggests that there are 15,906 operational desalination plants producing around 95 million m3/day of desalinated water for human use, of which 48% is produced in the Middle East and North Africa region. A major challenge associated with desalination technologies is the production of a typically hypersaline concentrate (termed 'brine') discharge that requires disposal, which is both costly and associated with negative environmental impacts. Our estimates reveal brine production to be around 142 million m3/day, approximately 50% greater than previous quantifications. Brine production in Saudi Arabia, UAE, Kuwait and Qatar accounts for 55% of the total global share. Improved brine management strategies are required to limit the negative environmental impacts and reduce the economic cost of disposal, thereby stimulating further developments in desalination facilities to safeguard water supplies for current and future generations.
Rising water demands and diminishing water supplies are exacerbating water scarcity in most world regions. Conventional approaches relying on rainfall and river runoff in water scarce areas are no longer sufficient to meet human demands. Unconventional water resources, such as desalinated water, are expected to play a key role in narrowing the water demand-supply gap. Our synthesis of desalination data suggests that there are 15,906 operational desalination plants producing around 95 million m /day of desalinated water for human use, of which 48% is produced in the Middle East and North Africa region. A major challenge associated with desalination technologies is the production of a typically hypersaline concentrate (termed 'brine') discharge that requires disposal, which is both costly and associated with negative environmental impacts. Our estimates reveal brine production to be around 142 million m /day, approximately 50% greater than previous quantifications. Brine production in Saudi Arabia, UAE, Kuwait and Qatar accounts for 55% of the total global share. Improved brine management strategies are required to limit the negative environmental impacts and reduce the economic cost of disposal, thereby stimulating further developments in desalination facilities to safeguard water supplies for current and future generations.
Author Jones, Edward
Kang, Seong-mu
Qadir, Manzoor
van Vliet, Michelle T.H.
Smakhtin, Vladimir
Author_xml – sequence: 1
  givenname: Edward
  surname: Jones
  fullname: Jones, Edward
  organization: United Nations University: Institute for Water, Environment and Health (UNU-INWEH), Canada
– sequence: 2
  givenname: Manzoor
  orcidid: 0000-0003-0904-2568
  surname: Qadir
  fullname: Qadir, Manzoor
  email: Manzoor.Qadir@unu.edu
  organization: United Nations University: Institute for Water, Environment and Health (UNU-INWEH), Canada
– sequence: 3
  givenname: Michelle T.H.
  surname: van Vliet
  fullname: van Vliet, Michelle T.H.
  organization: Water Systems and Global Change, Wageningen University, the Netherlands
– sequence: 4
  givenname: Vladimir
  surname: Smakhtin
  fullname: Smakhtin, Vladimir
  organization: United Nations University: Institute for Water, Environment and Health (UNU-INWEH), Canada
– sequence: 5
  givenname: Seong-mu
  surname: Kang
  fullname: Kang, Seong-mu
  organization: United Nations University: Institute for Water, Environment and Health (UNU-INWEH), Canada
BackLink https://www.ncbi.nlm.nih.gov/pubmed/30677901$$D View this record in MEDLINE/PubMed
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Snippet Rising water demands and diminishing water supplies are exacerbating water scarcity in most world regions. Conventional approaches relying on rainfall and...
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SubjectTerms Concentrate stream
desalination
Desalination technology
economic costs
environmental impact
Feedwater type
hypersalinity
Kuwait
Middle East
Northern Africa
Product water
Qatar
rain
Recovery ratio
rivers
runoff
Saudi Arabia
United Arab Emirates
water shortages
Title The state of desalination and brine production: A global outlook
URI https://dx.doi.org/10.1016/j.scitotenv.2018.12.076
https://www.ncbi.nlm.nih.gov/pubmed/30677901
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