A1 Journal article (refereed), original research

Assessment of the water footprint for the European power sectorduring the transition towards a 100% renewable energy system

Open Access hybrid publication

Publication Details
Authors: Lohrmann Alena, Child Michael, Breyer Christian
Publisher: Elsevier
Publication year: 2021
Language: English
Related journal or series: Energy
Journal acronym: Energy
Volume number: 233
ISSN: 0360-5442
eISSN: 1873-6785
JUFO level of this publication: 3
Open Access: Open Access hybrid publication
Location of the parallel saved publication: http://urn.fi/URN:NBN:fi-fe2021061436802


The transition towards a 100% renewable energy system may be an opportunity to resolve the water-energy
nexus. However, deployment of some technologies might impose additional strain on water
ecosystems. An energy-system-wide analysis of water demand in Europe was performed for the period
2015e2050 using the LUT Energy System Transition model for two scenarios: Area (with electricity
interconnections) and Regions (without). For fossil-fuelled power plants, the water footprint in 20 European
regions may decrease considerably until 2050, by 28.3% in the ‘Area scenario’ and 24.2% in the
‘Regions scenario’. However, total water demand in the Area scenario increases in 5 regions on average by
14%, from 7% (Balkan-West countries) to 24% (Sweden). Further, Turkey, Norway and Sweden may have
the largest water demands in Europe due to the commissioning of new hydropower plants. Results
indicate discussions on the sustainability of energy transition scenarios should be expanded to include
water footprint.

LUT Focus Areas

Last updated on 2021-16-06 at 07:31

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