Energy transition market reaches $3.17 trillion in 2026 as grid connection backlogs stall 1,650 GW of capacity
The global energy transition market is projected to reach $3.17 trillion by 2026. However, the market faces challenges, with 1,650 GW of renewable energy capacity stalled in grid connection queues worldwide. This highlights the need for improved infrastructure and policy solutions to facilitate the energy transition.
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Key facts, context, and what it means, in one minute.
Key takeaways
The energy transition market will be worth $3.17 trillion by 2026.
1,650 GW of renewable capacity is currently delayed in grid connection queues.
Infrastructure and policy improvements are needed to support energy transitions.
The global energy transition market is valued at $3.17 trillion in 2026, and a P&S Intelligence forecast projects it will reach $5.99 trillion by 2032 at a compound annual growth rate of 11.1%. The size of that number signals that the market is well past the planning stage. Utilities, industrial operators, and independent power producers are executing simultaneously across solar, wind, battery storage, and hydrogen infrastructure.
Renewable energy holds a 35% share of the overall market, with solar technology alone making up 30% of the technology mix. Its cost competitiveness and deployment speed across utility-scale, commercial, and residential installations explain why capital commitments have concentrated there. Utility-scale deployment accounts for 40% of the market by deployment mode, according to P&S Intelligence.
Grid connection backlogs are the defining operational constraint
The most consequential figure for operators isn't the market's size. It's the infrastructure gap underneath it. The International Energy Agency reported that at least 1,650 GW of renewable capacity in advanced stages of development was waiting for grid connections worldwide in 2024. These are not projects still in planning. They are construction-ready or near-ready assets stalled because transmission networks are not keeping pace.
Connection delays extend the time between capital deployment and revenue generation, complicate power purchase agreement negotiations, and create scheduling uncertainty for equipment suppliers and EPC contractors. For utilities and IPPs working against decarbonization deadlines, the grid constraint has shifted from a policy discussion to a procurement and operations problem.
Global renewable power capacity grew by 585 GW in 2024, bringing total installed capacity to 4,448 GW by year-end, per the International Renewable Energy Agency. That pace of addition is outrunning the expansion of the transmission and distribution infrastructure needed to carry it. Utilities are simultaneously managing new renewable asset deployment and the modernization of aging grid networks.
Battery storage and green hydrogen are reshaping procurement priorities
Utility-scale battery storage is no longer supplementary to renewable projects. Global utility-scale battery storage additions reached 63 GW in 2024, pushing total installed capacity to 124 GW, per IEA data cited in the P&S Intelligence report. The IEA also projects that battery storage will account for roughly 90% of the growth in global energy storage capacity needed by 2030.
Green hydrogen remains in early commercial stages but is drawing growing capital. Global installed water electrolysis capacity reached 2 GW in 2024 and crossed 3 GW in 2025, per IEA figures. Global hydrogen production hit nearly 100 million metric tons in 2024, with less than 1% from low-emissions sources. That gap between current low-carbon output and industrial demand is pushing investment toward electrolyzer manufacturing, hydrogen infrastructure, and associated storage systems.
Developers are increasingly combining renewable generation, battery storage, hydrogen production, and digital energy management within integrated infrastructure platforms. The P&S Intelligence report identifies this bundled approach as a dominant emerging trend, particularly for hard-to-electrify industrial sectors including chemicals, steel, and heavy transport.
Software-driven grid management and distributed systems gain ground
Schneider Electric launched its One Digital Grid Platform globally in 2025, integrating grid planning, operations, and asset management into a unified utility software product. The platform is designed to support renewable energy integration and operational efficiency across electricity networks, reflecting the broader shift toward software-driven grid management as utilities look to scale without proportional headcount increases.
On the policy side, the IEA's State of Energy Policy inventory tracked more than 5,000 policy records across 50 policy types from over 60 countries in 2024. The United Nations Framework Convention on Climate Change recorded 64 new Nationally Determined Contributions in 2025. For compliance and procurement teams, that volume of activity across multiple jurisdictions requires a structured tracking process, not an ad hoc one.
Distributed energy systems are the fastest-growing deployment category in the P&S Intelligence forecast, expanding at roughly 11.5% CAGR. Commercial and industrial buyers are driving this segment by adopting on-site generation, microgrids, and behind-the-meter storage. For sites where grid connection timelines are uncertain, distributed systems offer a faster path to energy cost control and operational resilience.
Asia-Pacific sets the pace; the 1,650 GW queue is the figure to watch
Asia-Pacific is both the largest and fastest-growing region in the market, expanding at approximately 12.0% CAGR. Rapid renewable buildout, rising industrial electricity demand, and accelerating infrastructure investment are the primary drivers. The region's pace increasingly serves as the benchmark against which North American and European grid operators are measured by investors and regulators.
What this means for your team
- Audit your project pipeline for grid connection exposure. With 1,650 GW globally stuck in interconnection queues, extended timelines need to be factored into financial models and contract structures for any new renewable or storage project.
- Treat battery storage as a standard procurement line item. The IEA projects it will cover roughly 90% of required energy storage capacity growth through 2030; sourcing strategies should reflect that trajectory now, not at the point of project execution.
- Assess distributed energy systems as a parallel path. For sites where grid connection delays or capacity constraints are a material risk, behind-the-meter and microgrid options offer faster access to energy cost certainty.
- Map policy exposure across operating regions. With more than 5,000 active policy records across 60-plus countries, compliance and procurement teams need a structured process for tracking changes to clean energy incentives, permitting requirements, and grid access rules.
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