The demand for renewable power is set to climb, driving more project development, especially in solar. To ensure the grid is compatible with this growth, the EU and US need to boost transmission capacity, enhance grid flexibility, and cut permitting backlogs. Trade protection measures can lead to more re-routing and higher supply chain costs.
The demand for renewable electricity is expected to increase substantially in the future. In the US, corporate power purchasing power agreements (PPAs) are leading the growth, especially from data centres. The industry’s rapid adoption of artificial intelligence (AI) is adding tremendous electricity demand, and purchases of solar and wind capacity by sustainability-conscious data centres increased to 34GW last year, contributing to half of all renewable capacity contracted to corporations. It is true that one executive order from Trump’s inauguration calls for an end to the Biden administration’s “EV mandate,” but this would not materially affect short-term electricity demand growth as EV electricity consumption is only a fraction of the country’s total now.
In the EU, the engine for renewable power demand growth has largely been the RePowerEU plan, with a mandate that 42.5% of the bloc’s electricity needs will be drawn from renewables by 2030. This has led to more renewable auctions and power purchasing. Plus, the electrification-led energy transition across the transport, residential, and industrial sectors signals a structural change towards renewable energy power usage.
But will this jump in the need for renewable power be met? Which elements are driving – or complicating – the renewable power market? In this article, we focus on solar and wind power and identify three key trends for 2025.
Call 1: More capacity in 2025 – but wind outlook varies by region
We expect renewed momentum for developers to continue their efforts to keep up with the demand increase in 2025. This is driven by competitive costs, sustained corporate renewable power purchasing, renewable auctions, and existing government funding. Capacity building will continue to translate into increased renewable power generation in 2025, as most projects that are well underway with secured grid connections are unlikely to see disruption. We foresee the share of solar and wind in the total power mix likely growing from 28% in 2024 to 30% in 2025 in the EU, and from 16% to 18% during the same period in the US.
Solar and wind’s share in total power generation continues to climb in 2025
However, it is worth noting that in the EU, renewable capacity and generation growth will likely come from both wind and solar sources, while the US market will be predominantly driven by solar.
In Europe, we anticipate that the upcoming Clean Industrial Deal will position renewables as a strategy for businesses to become greener and remain competitive by reducing power costs. This is achieved through Power Purchase Agreements (PPAs) from renewables, which offer lower power costs compared to market prices driven by gas-fired power plants that run on costly LNG.
In the US, policy disruption is already underway for the wind industry. As expected, offshore wind leasing has been temporarily paused. More surprising is the temporary pause on new and renewed approvals, permits, and loans for both onshore and offshore wind projects. While there are not yet overarching measures on existing permits, Trump’s order does call for a review of wind permitting procedures in general. All this will deal a major blow to the wind industry, especially offshore wind, leading to a plunge in market confidence and slowed project development. We can expect legal challenges to this order; eventually, we could expect much stricter permitting criteria for new projects, with existing permits being assessed on a case-by-case basis. Solar has not been targeted so far, which was not surprising given a more systematically competitive cost profile and less perceived opposition. (We also hold a positive view on biofuels as it has been included in Trump’s ‘Unleashing American Energy’ executive order to support domestic energy development. And we are cautiously positive about technology-neutral clean electricity tax credits under the Inflation Reduction Act, because of the potential benefit to more technologies including nuclear.)
Admittedly, the offshore wind industry has already faced challenges in both the US and Europe. In 2023, the industry was adversely impacted as the large-scale nature of projects and substantial capital investments collided with high inflation, rising interest rates, and supply chain disruptions. Macro conditions have since moderated, and auction re-designs are underway, but the sector’s recovery has been slow. In the US, notable project cancellations in 2024 included those from Ørsted, GE Vernova, Equinor, and BP. In the EU, Vattenfall exited an offshore bid after winning it, while a Denmark offshore tender in the North Sea received no bids. The offshore wind levelised cost of energy (LCOE) has fallen over the past few years but remains more elevated than onshore wind and solar.
However, we still see positive potential for offshore wind in the EU and this is largely driven by government policy support. Many countries, including Germany, the Netherlands and Denmark, will continue to have government support in terms of revenue contracts, grid connection, and tender issuing (there are examples of successful tenders too). We do not therefore foresee tenders becoming less attractive for developers in Europe. Instead, we expect developers to prioritise certain tenders over others and avoid submitting subsidy-free bids.
With the market dynamics presented above, we maintain a positive outlook for solar in 2025, with the wind market less complicated by policy in Europe.
Call 2: Expanding the focus from renewables buildout to grid enhancement
The climbing demand for renewable electricity is keeping developers busy building new plants. But there is a growing threat that grids in the EU and the US may not have enough capacity or flexibility to deliver all the renewable electricity while maintaining stability. Timely actions to improve the grid have therefore become important.
Firstly, more transmission lines are needed to send renewable electricity from generation sites, which are often in remote areas, to urban areas where demand is. This need has grabbed the attention of governments. In the US, the Infrastructure Law and Inflation Reduction Act (IRA) have allocated billions of dollars to expand the grid. In 2024, a cumulative 28,275 miles of transmission lines were under development/planning, visibly higher than previous averages. As for Trump, we think the new administration will be conscious of addressing grid insufficiency, leading to more power capacity to be connected to the grid, including solar and wind.
Across the Atlantic, the EU laid out an Action Plan in 2023 to facilitate new grid projects and enhance access to finance, among others. Admittedly, project developers can find it hard to claim funding as resources are dispersed across EU and state-level programmes. But more improvements in EU policy efficiency are anticipated as the bloc enters the implementation phase of the Draghi report.
Secondly, not only is expansion needed but the existing grid itself needs to be enhanced for higher efficiency and flexibility. Regarding transmission lines, hardware and software improvements can already increase transmission capacity, meanwhile allowing more accurate real-time monitoring and adjustments. Regarding grid flexibility, more efforts are being taken to better manage electricity demand, including peak demand shaving, virtual power plants, and so on. Another key method of enhancing grid flexibility is through energy storage (discussed in closer detail later). Italy is to become the first country among the EU and US to host energy storage auctions starting in 2025 to enhance the grid. This mechanism could potentially be replicated in other countries.
Finally, permitting reform is needed for approving grid-related projects to ensure the grid is improved at a speed matching that of renewable projects. In Germany, onshore wind projects still needed to wait for around two years to be connected to the grid after project approvals from 2018-2022, up from one year in 2011-2017. In response, Germany implemented an EU-enabled Emergency Regulation, which allows special measures to be taken if energy supply difficulties prevail. The country has since then experienced substantial grid project permitting growth, with an estimated 1,772 kilometres of new transmission lines approved by July 2024. Further implementation of the EU Renewable Energy Directive III’s reform on permitting processes will also be helpful.
In short, we are seeing an expansion of focus from capacity buildouts to addressing systematic bottlenecks so that the renewable industry can continue growing to its full potential.