Energy Sector Is One Of The Largest Consumers Of Water In A Drought-threatened World

Energy Sector Is One Of The Largest Consumers Of Water In A Drought-threatened World karamysh/Shutterstock

With a quarter of the world’s human population already living in regions that suffer from severe water scarcity for at least six months of the year, it is perhaps not surprising that the World Economic Forum recently rated water crises as the largest global risk in terms of potential impacts over the next decade.

Electricity generation is a significant consumer of water: it consumes more than five times as much water globally as domestic uses (drinking, preparing food, bathing, washing clothes and dishes, flushing toilets and the rest) and more than five times as much water globally as industrial production.

Energy Sector Is One Of The Largest Consumers Of Water In A Drought-threatened World Figure 1: Water abstraction for human activities globally, based on data from Mekonnen et al., (2015) and Hoekstra and Mekonnen (2012). Gary Bilotta, Author provided

While electricity generation consumes far less water than food production globally, it is expected that there will be enormous changes in the water demands of electricity over the course of the 21st century. The International Energy Agency projected a rise of 85% in global water use for energy production between 2012 and 2032 alone.

These changes will be driven by a combination of factors. First, human population growth, which is estimated to rise from 7.4 billion people today to between 9.6 to 12.3 billion by 2100. Second, by improvements in access to energy for the 1.4 billion people who currently have no access to electricity and the billion people who currently only have access to unreliable electricity networks. And third, progressive electrification of transport and heating as part of efforts to reduce dependence on fossil fuels and reduce greenhouse gas emissions.

Exactly how these changes in the water footprint of electricity are going to play out will depend on the national and international energy policies enacted over the next few decades. Historically, energy policies have been influenced by a multitude of factors (national availability of energy resources, financial costs, reliability of supply, security of supply and the like).

Following on from the Paris COP21 agreement, the carbon footprint of energy should have an increased influence on decision making in the sector. As can be seen from Figure 2, there are considerable differences in the lifecycle greenhouse gas emissions from different electricity generation technologies (g CO2eq/kWh), with average values ranging from just 4g CO2eq/kWh for hydropower to 1,001g CO2eq/kWh for coal, though there are significant regional and technological variations in values reported for the same energy source.

Energy Sector Is One Of The Largest Consumers Of Water In A Drought-threatened World Figure 2: Lifecycle assessments of greenhouse gas emissions from electricity generation technologies (g CO2eq/kWh), displaying minimum, median and maximum reported values for each technology, based on IPCC literature reviews. Gary Bilotta, Author provided

Thirsty work

While it is important to consider these factors in policy making within the energy sector, it would be a wasted opportunity if policy makers were to overlook the other environmental footprints of electricity generation – and in particular the water footprint – when making decisions on which technologies to support and prioritise. The fairest way to compare electricity sources in terms of their water demand, is to consider their lifecycle water footprint – the consumptive demand of water for construction and operation of the plant, fuel supply, waste disposal and site decommissioning, per unit of net energy produced.

As can be seen from Figure 3, there are staggering differences in the water footprint of different electricity generation technologies. Minimum life cycle consumptive water footprints vary from 0.01 litres per kWh for wind energy, to 1.08 litres per kWh for storage-type hydroelectric power, though there are significant regional and technological variations in values reported for the same energy source.

Energy Sector Is One Of The Largest Consumers Of Water In A Drought-threatened World Figure 3: Life-cycle assessments of consumptive water use (litres per kWh) of different electricity generation technologies, displaying minimum and maximum reported values for each technology based on data from Mekonnen et al (2015). Gary Bilotta, Author provided

When these differences between sources are scaled up by the number of units of electricity required to meet the needs of the global population, the implications of the global water footprint of energy generation are phenomenal. Failure to plan and consider the water demands of energy will likely result in insecure and unreliable energy supplies and negative effects on the other important users of freshwater.

We have recently observed the impacts of droughts on US energy supplies from thermoelectric plants and hydropower plants. If policy makers fail to take into account the links between energy and water, we may come to a point in many parts of the world where it is water availability that is the main determinant of the energy sources available for use.

This will inevitably force countries to make emergency decisions on the distribution of scarce water between generating electricity or producing food, maintaining health and sanitation, maintaining industrial production, and/or conserving nature.The Conversation

About The Author

Gary Bilotta, Principal Lecturer in Physical Geography and Environmental Science, University of Brighton

This article is republished from The Conversation under a Creative Commons license. Read the original article.

Related Books

Climate Adaptation Finance and Investment in California

by Jesse M. Keenan
0367026074This book serves as a guide for local governments and private enterprises as they navigate the unchartered waters of investing in climate change adaptation and resilience. This book serves not only as a resource guide for identifying potential funding sources but also as a roadmap for asset management and public finance processes. It highlights practical synergies between funding mechanisms, as well as the conflicts that may arise between varying interests and strategies. While the main focus of this work is on the State of California, this book offers broader insights for how states, local governments and private enterprises can take those critical first steps in investing in society’s collective adaptation to climate change. Available On Amazon

Nature-Based Solutions to Climate Change Adaptation in Urban Areas: Linkages between Science, Policy and Practice

by Nadja Kabisch, Horst Korn, Jutta Stadler, Aletta Bonn
3030104176
This open access book brings together research findings and experiences from science, policy and practice to highlight and debate the importance of nature-based solutions to climate change adaptation in urban areas. Emphasis is given to the potential of nature-based approaches to create multiple-benefits for society.

The expert contributions present recommendations for creating synergies between ongoing policy processes, scientific programmes and practical implementation of climate change and nature conservation measures in global urban areas. Available On Amazon

A Critical Approach to Climate Change Adaptation: Discourses, Policies and Practices

by Silja Klepp, Libertad Chavez-Rodriguez
9781138056299This edited volume brings together critical research on climate change adaptation discourses, policies, and practices from a multi-disciplinary perspective. Drawing on examples from countries including Colombia, Mexico, Canada, Germany, Russia, Tanzania, Indonesia, and the Pacific Islands, the chapters describe how adaptation measures are interpreted, transformed, and implemented at grassroots level and how these measures are changing or interfering with power relations, legal pluralismm and local (ecological) knowledge. As a whole, the book challenges established perspectives of climate change adaptation by taking into account issues of cultural diversity, environmental justicem and human rights, as well as feminist or intersectional approaches. This innovative approach allows for analyses of the new configurations of knowledge and power that are evolving in the name of climate change adaptation. Available On Amazon

From The Publisher:
Purchases on Amazon go to defray the cost of bringing you InnerSelf.comelf.com, MightyNatural.com, and ClimateImpactNews.com at no cost and without advertisers that track your browsing habits. Even if you click on a link but don't buy these selected products, anything else you buy in that same visit on Amazon pays us a small commission. There is no additional cost to you, so please contribute to the effort. You can also use this link to use to Amazon at any time so you can help support our efforts.

 

enafarzh-CNzh-TWdanltlfifrdeiwhihuiditjakomsnofaplptruesswsvthtrukurvi

follow InnerSelf on

facebook icontwitter iconyoutube iconinstagram iconpintrest iconrss icon

 Get The Latest By Email

Weekly Magazine Daily Inspiration

LATEST VIDEOS

The Great Climate Migration Has Begun
The Great Climate Migration Has Begun
by Super User
The climate crisis is forcing thousands around the world to flee as their homes become increasingly uninhabitable.
The Last Ice Age Tells Us Why We Need To Care About A 2℃ Change In Temperature
The Last Ice Age Tells Us Why We Need To Care About A 2℃ Change In Temperature
by Alan N Williams, et al
The latest report from the Intergovernmental Panel on Climate Change (IPCC) states that without a substantial decrease…
Earth Has Stayed Habitable For Billions Of Years – Exactly How Lucky Did We Get?
Earth Has Stayed Habitable For Billions Of Years – Exactly How Lucky Did We Get?
by Toby Tyrrell
It took evolution 3 or 4 billion years to produce Homo sapiens. If the climate had completely failed just once in that…
How Mapping The Weather 12,000 Years Ago Can Help Predict Future Climate Change
How Mapping The Weather 12,000 Years Ago Can Help Predict Future Climate Change
by Brice Rea
The end of the last ice age, around 12,000 years ago, was characterised by a final cold phase called the Younger Dryas.…
The Caspian Sea Is Set To Fall By 9 Metres Or More This Century
The Caspian Sea Is Set To Fall By 9 Metres Or More This Century
by Frank Wesselingh and Matteo Lattuada
Imagine you are on the coast, looking out to sea. In front of you lies 100 metres of barren sand that looks like a…
Venus Was Once More Earth-like, But Climate Change Made It Uninhabitable
Venus Was Once More Earth-like, But Climate Change Made It Uninhabitable
by Richard Ernst
We can learn a lot about climate change from Venus, our sister planet. Venus currently has a surface temperature of…
Five Climate Disbeliefs: A Crash Course In Climate Misinformation
The Five Climate Disbeliefs: A Crash Course In Climate Misinformation
by John Cook
This video is a crash course in climate misinformation, summarizing the key arguments used to cast doubt on the reality…
The Arctic Hasn't Been This Warm For 3 Million Years and That Means Big Changes For The Planet
The Arctic Hasn't Been This Warm For 3 Million Years and That Means Big Changes For The Planet
by Julie Brigham-Grette and Steve Petsch
Every year, sea ice cover in the Arctic Ocean shrinks to a low point in mid-September. This year it measures just 1.44…

LATEST ARTICLES

green energy2 3
Four Green Hydrogen Opportunities for the Midwest
by Christian Tae
To avert a climate crisis, the Midwest, like the rest of the country, will need to fully decarbonize its economy by…
ug83qrfw
Major Barrier to Demand Response Needs to End
by John Moore, On Earth
If federal regulators do the right thing, electricity customers across the Midwest may soon be able to earn money while…
trees to plant for climate2
Plant These Trees To Improve City Life
by Mike Williams-Rice
A new study establishes live oaks and American sycamores as champions among 17 “super trees” that will help make cities…
north sea sea bed
Why We Must Understand Seabed Geology To Harness The Winds
by Natasha Barlow, Associate Professor of Quaternary Environmental Change, University of Leeds
For any country blessed with easy access to the shallow and windy North Sea, offshore wind will be key to meeting net…
3 wildfire lessons for forest towns as Dixie Fire destroys historic Greenville, California
3 wildfire lessons for forest towns as Dixie Fire destroys historic Greenville, California
by Bart Johnson, Professor of Landscape Architecture, University of Oregon
A wildfire burning in hot, dry mountain forest swept through the Gold Rush town of Greenville, California, on Aug. 4,…
China Can Meet Energy and Climate Goals Capping Coal Power
China Can Meet Energy and Climate Goals Capping Coal Power
by Alvin Lin
At the Leader’s Climate Summit in April, Xi Jinping pledged that China will “strictly control coal-fired power…
Blue water surrounded by dead white grass
Map tracks 30 years of extreme snowmelt across US
by Mikayla Mace-Arizona
A new map of extreme snowmelt events over the last 30 years clarifies the processes that drive rapid melting.
A plane drops red fire retardant on to a forest fire as firefighters parked along a road look up into the orange sky
Model predicts 10-year burst of wildfire, then gradual decline
by Hannah Hickey-U. Washington
A look at the long-term future of wildfires predicts an initial roughly decade-long burst of wildfire activity,…

 Get The Latest By Email

Weekly Magazine Daily Inspiration

New Attitudes - New Possibilities

InnerSelf.comClimateImpactNews.com | InnerPower.net
MightyNatural.com | WholisticPolitics.com | InnerSelf Market
Copyright ©1985 - 2021 InnerSelf Publications. All Rights Reserved.