Energy and Water
Exploring the interdependence of two critical resources
Energy supply depends on water. Water supply depends on energy. The interdependency of water and energy is set to intensify in the coming years, with significant implications for both energy and water security. Each resource faces rising demands and constraints in many regions because of economic and population growth and climate change.
Key findings
Global water consumption in the energy sector by fuel and power generation type in the Net Zero Scenario, 2021 and 2030
OpenClimate change will only increase the water crisis - clean energy can help
Nearly two-thirds of the world’s population experiences severe water scarcity for at least one month each year, and climate change will make water flows more erratic.
In the Net Zero Emissions by 2050 Scenario (NZE) water withdrawals by the energy sector decline by almost 20 bcm by 2030. The biggest reductions happen in the power sector, where withdrawals fall nearly 15% as coal-fired power generation is quickly replaced by solar PV and wind. Greater energy efficiency also plays an important role in reducing the volume of water needed to meet global energy demand.
In the Net Zero Emissions by 2050 Scenario (NZE) water withdrawals by the energy sector decline by almost 20 bcm by 2030. The biggest reductions happen in the power sector, where withdrawals fall nearly 15% as coal-fired power generation is quickly replaced by solar PV and wind. Greater energy efficiency also plays an important role in reducing the volume of water needed to meet global energy demand.
Global water use by the energy sector by scenario, 2016-2030
OpenLow-carbon doesn’t necessarily mean low water
Thermal power plants running on coal or gas are huge consumers of water, but even the fuels or technologies used to achieve the clean energy transition could, if not properly managed, increase water stress or be limited by it. Around the world, droughts have caused hydropower plants to curtail output. Some low-carbon technologies, such as wind and solar PV require very little water, others, such as biofuels, concentrating solar power (CSP), carbon capture, utilization and storage or nuclear power are relatively water-intensive. And nascent technologies such as using electrolysis to produce so-called "green" hydrogen are big water users.
An integrated approach focused on tackling climate change, delivering energy for all and reducing the impacts of air pollution (Sustainable Development Scenario) could result in lower water withdrawals in 2030 relative to today and other scenarios thanks to the increased deployment of solar PV and wind, a shift away from coal-fired power generation and energy efficiency.
An integrated approach focused on tackling climate change, delivering energy for all and reducing the impacts of air pollution (Sustainable Development Scenario) could result in lower water withdrawals in 2030 relative to today and other scenarios thanks to the increased deployment of solar PV and wind, a shift away from coal-fired power generation and energy efficiency.
Key analysis
Further readings
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Clean energy can help to ease the water crisis
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Reducing the impact of extractive industries on groundwater resources
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Distributed energy resources for net zero: An asset or a hassle to the electricity grid?
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Managing the water-energy nexus is vital to India’s future
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If the energy sector is to tackle climate change, it must also think about water
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Outlook for biogas and biomethane: Prospects for organic growth
World Energy Outlook special report
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Thinking about energy and water together can help ensure that “no one is left behind”
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Desalinated water affects the energy equation in the Middle East