Water footprint
Introduction
An energy technology's water use, sometimes referred to as its water footprint, is the amount of water that is used in order to produce a unit of energy. The water used as fuel for generating hydroelectricity is returned to the water course and remains available for other purposes.
A common and accepted framework for reporting on hydropower’s net water footprint has not yet been established due to inconsistencies in the currently available methodologies for calculating net consumptive water losses, and a lack of clear guidelines on the allocation of these losses in the case of multipurpose reservoirs.
The issue of consumptive use of water, on the other hand, examines how much water is consumed and is, therefore, no longer available. For hydropower, evaporative losses are increasingly considered to be consumptive losses.
However, most watercourses already lost water through evaporation prior to the introduction of a reservoir. Therefore, a net approach is the only way to accurately assess the evaporative losses of a reservoir.
A net evaporation evaluation takes into account the pre-existing characteristics of the site by factoring out the natural evapotranspiration of plants in the flooded area and the evaporation of pre-existing water bodies, both of which occur naturally in any landscape.
Furthermore, reservoirs typically make water available to the system that was previously not available when needed. Wet and dry seasons lead to an uneven hydrograph, with too much water for part of the year and not enough in other parts of the year.
Through the strategic use of a reservoir, hydropower facilities are able to smooth the annual variations in runoff, conserving excess water in the reservoir during high-flow periods for use furing times when natural inflows are insufficient.
This implies a credit may be needed in any true assessment of hydropower's water footprint, recognising the value of making water available when it is most needed.
Our work on water footprint
We are working to examine the issue of quantifying net consumptive water evaporative losses associated with hydropower projects, considering the conditions prior to and after project implementation.
We are also working to establish guidelines on how to apportion these water losses among the multiple services provided by hydropower development, taking into account the seasonality of water value.
Latest associated content
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36 GW of hydropower added in 2014
A new IHA briefing, 2015 Key Trends in Hydropower, shows that hydropower is continuing its strong growth trend with 36 GW of new capacity added in 2014.
Type:Blog postDate:19 May 2015 -
Where are we with the water–energy–food nexus?
One of the things I noted from the discussions at the recent Dresden Nexus Conference, organised by our friends at the UN University FLORES* is that climate
Type:Blog postDate:20 April 2015 -
Video: "We need to look at water as an integrated sector" – Ben Braga, WWC
Benedito Braga is the president of the World Water Council (WWC). In this video interview, he spoke with us about the water and energy nexus, and hydropower’s role in it.
Type:Blog postDate:27 February 2015 -
Interview: James Dalton, Global Initiative Coordinator, IUCN
James Dalton is the coordinator of global initiatives for the IUCN Water Programme. In this interview, he spoke to us about the importance of considering sustainability despite the pressures to address urgent development needs.
Type:Blog postDate:26 February 2015 -
The year in pictures: 2014
We have enjoyed a busy year in 2014 that has taken our team around the world, connecting members regionally and participating in many sector events. Here are just some of the highlights of our travels.
Type:Blog postDate:18 December 2014
