Electricity is the fastest-growing source of final energy demand, set to outpace energy consumption as a whole over the next 25 years. Economies depend on reliable and affordable electricity. In addition to the urgent need to address climate change, this anticipated growth will require a dramatic transformation of the world’s power systems.
Alongside global efforts to decarbonise energy systems, the world needs innovative approaches to the design and operation of electricity systems. Without such innovation, growing electrification could lead to increased energy insecurity, unnecessary transmission and distribution losses, and missed cost-saving opportunities for energy consumers and producers alike.
Digital technologies can enable more dynamic, efficient, reliable and sustainable electricity systems. The electricity systems of the future will deliver power in response to predicted demand at the right time, in the right place, at the lowest cost and with the lowest emissions. Distributed energy resources, such as energy efficiency, smart demand response, smart electric vehicle charging, building-level energy storage and distributed solar photovoltaics, become more critical every year. These resources provide the flexibility needed to integrate generation from variable renewables. Thus, they are increasingly essential to countries that are growing the share of renewable power in their energy mix.
Digital, demand-driven solutions offer significant benefits to cost reduction, emissions abatement and enhanced energy efficiency. For example, smart demand response could provide 185 GW of system flexibility globally, roughly equivalent to the currently installed electricity supply capacity of Australia and Italy combined. This could save USD 270 billion of investment that would otherwise be necessary for new electricity infrastructure to meet rapid demand growth.
Achieving this transformation requires policy action, enabling regulatory frameworks, new business models and investments at scale, as well as innovation and deployment of technology.
The IEA has launched a four-year cross-agency initiative, Digital Demand-Driven Electricity Networks (3DEN). 3DEN is working to accelerate progress on power system modernisation and effective utilisation of distributed energy resources through policy, regulation, technology and investment guidance.
The project was developed in the context of the 2019 Climate Action Summit and aims to step up global action for clean energy to fight climate change.
Under the 3DEN Initiative, the IEA will leverage analysis, case studies and experiences from across the Agency and the world to develop and disseminate actionable tools and guidance. 3DEN will engage with relevant organisations, bringing together diverse stakeholders to foster dialogue and share experiences, including the International Smart Grids Action Network, the Clean Energy Ministerial, Mission Innovation and the User-Centred Energy Systems, Energy in Buildings and Communities and Energy Efficient End-Use Equipment Technology Collaboration Programmes.
3DEN has a global focus. Initial geographic priorities include Brazil, Colombia, India, Indonesia, Morocco, South Africa, Tunisia, and critical regions like Latin America, Africa and ASEAN.
The IEA gratefully acknowledges the support of Italy’s Ministry for Ecological Transition for this Initiative.
3DEN contributes to and works in coordination with the IEA Clean Energy Transitions Programme (CETP), which includes a broader set of activities and a larger number of focus target countries. The CETP leverages the IEA’s unique energy expertise across all fuels and technologies to accelerate global clean-energy transitions, particularly in major emerging economies. CETP activities include collaborative analytical work, technical cooperation, strategic dialogues, training and capacity building.
For more information on 3DEN and how to get involved, please contact firstname.lastname@example.org.
Global Supply Chains of EV Batteries
Global EV Outlook 2022
Southeast Asia Energy Outlook 2022
Unlocking the Potential of Distributed Energy Resources
Power system opportunities and best practices
The potential of digital business models in the new energy economy
Speeding efficiency gains and increasing demand-side flexibility
Security of Clean Energy Transitions
Empowering Cities for a Net Zero Future
Unlocking resilient, smart, sustainable urban energy systems
Tracking SDG7: The Energy Progress Report, 2021