Water Use in Electricity Generation for Water-energy Nexus Analyses: The European Case

Published on January 21, 2019 11:38 by Water Network Research, Official research team of The Water Network in Case Studies

Water use in electricity generation for water-energy nexus analyses: The European case

Morten Andreas Dahl, LarsenMartinDrews

Abstract:

With almost 40% of the global population suffering from water scarcity, the need to manage water resources is evidently urgent. While water and energy systems are intrinsically linked, the availability of comprehensive, integrated data sets across the domains of water and energy is generally lacking. As a result, estimated indicators representing volumes of water usage per unit of electricity or fuel produced are often required to analyse the water-energy nexus. In this paper, an “ensemble” of indicators is assembled representing water usage spanning different electricity-generation technologies based on previously published works in an attempt to depict the level or lack of detail in current large-scale energy-sector water-usage data.

Based on these, the degree in which using such estimates is suitable for reproducing electricity-production water-usage at coarser spatio-temporal scales is assessed. The performance of the ensemble median/min/max as a predictor of water use is evaluated for the period from 1980 to 2015 using additional information about the constituents of the European energy system. Comparing with the reported values for 1980–2015, the median provides a skillful reproduction of historical yearly water use for the EU (EU28) as a whole. A further analysis for 2015 indicates that reasonable agreement is also seen at the country level. Thus, the results suggest that an “ensemble-based approach” has the potential to provide sturdy estimates of yearly water use by energy systems for analyses at both the country and regional levels.

Keywords: Water management, Water withdrawal, Water intensity factor, Energy systems, Europe, Large-scale water analysis

Science of The Total Environment, Volume 651, Part 2, 15 February 2019, Pages 2044-2058
DOI: https://doi.org/10.1016/j.scitotenv.2018.10.045

Source: Science Direct

Taxonomy

Research
Integrated Urban Water Management
Energy
Hydropower
Energy Reduction
Water-Energy Nexus
Energy Efficiency
Water Safety
Water Management
Power Generation
Power Plants
Generators
Environmental Systems
Power Quality Systems
Power Distribution
Hydroelectric Energy
Integrated Water Resources Management (IWRM)