The impressive growth in clean energy investments in recent years has been led by renewable power. Annual spending on solar PV and wind projects has risen by more than USD 300 billion in the last five years, and now accounts for one-third of the total USD 1.8 trillion that we expect to go to clean energy investments in 2023. Deployment has been driven by a virtuous circle of policy support and cost reductions. The global energy crisis, coupled with acute concern over emissions and competition among countries for positions in the clean energy economy, has redoubled policy momentum in recent years.

Through the 2010s, renewable investors and governments designing policies became used to two supportive trends: relatively cheap capital in an era of low interest rates, and steadily falling costs. However, this context changed as the world emerged from the Covid-19 pandemic into the global energy crisis.

An environment of higher interest rates (outside China) means financing becomes more expensive, with multiple effects for renewables. Projects become harder to finance; companies’ profitability is affected as they need to increase their reliance on more expensive equity; and very leveraged companies have a higher risk of default. Clean energy investments are more vulnerable to a rise in borrowing costs than other types of energy investments, as they typically involve relatively high upfront costs that are compensated over time by much lower operating expenses.

High borrowing costs exacerbate challenges facing renewable project developers in many emerging and developing economies, where the cost of capital is already two or three times higher than in advanced economies and China. According to the latest survey data from the IEA’s Cost of Capital Observatory, nine out of ten respondents expect increases in the cost of capital in emerging and developing economies in 2023.

In addition, the extended run of cost declines for key clean energy technologies has been interrupted by volatile commodity prices and supply chain constraints. The IEA’s Clean Energy Equipment Price Index tracks prices for a basket of solar PV modules, wind turbines and lithium-ion batteries. There was a noticeable uptick in prices that started towards the end of 2020 and which remains visible for many clean technologies with the exception of solar PV. 

Average producer price for selected technologies, Q1 2015 to Q2 2023

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Inflation in selected regions, January 2015 to October 2023

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The renewable power industry as a whole has demonstrated considerable resilience over the last few years. But the change in broader market conditions has brought signs of strain, especially in the wind sector.

Project commitments and economics have been upset by higher financing costs and higher input costs for key raw materials, including critical minerals, meaning that these projects have become difficult or impossible to deliver as planned. This has led wind developers to request price negotiations to accommodate higher costs, and in some cases to project delays and cancellations. It has also sapped willingness to bid in new auctions where the price expectations are not aligned with today’s costs. As reported in the latest Renewable Energy Market Update, auctions have been left undersubscribed as a result, especially in Europe. In 2022, unallocated capacity globally reached its highest-ever level with only around 85% of capacity awarded – compared with 90-95% in 2020 and 2021. Europe accounted for 14 out of the total 20 GW auctioned capacities that were left unallocated globally. This trend continued in 2023; a striking example came in the UK when an offshore wind auction was left with no bids.

This uncertainty is having cascading implications for supply chains, with wind manufacturing facilities operating at well under full capacity. Many manufacturers of wind turbines in the sector in Europe and the United States have posted negative net margins for seven consecutive quarters over the last two years.

The offshore wind sector has been particularly affected, with 12 GW of offshore wind capacity facing delays or cancellation in the UK and US alone. As a result, Ørsted wrote off USD 4 billion against US offshore wind projects. BP and Equinor also wrote off USD 800 million, and Iberdrola cancelled an 800 MW project in the US due to financial complications.

The solar PV industry has also been exposed to cost and financing pressures, but from a slightly different direction. Higher borrowing costs have been a concern for developers, but the main issue has been the emergence of a large excess in manufacturing capacity that is reducing the profitability of players throughout solar PV supply chains. As described in detail in the Special Report on Solar PV Global Supply Chains, the solar industry is dominated by large integrated Chinese companies and manufacturing capacity in China and elsewhere has been running ahead of deployment.

The resulting fierce competition for market share has reduced the profits of vertically integrated manufacturers while non-integrated firms are struggling to attain profitability altogether. Smaller manufacturers are faced with extremely challenging conditions, as prices for solar PV modules reached record lows despite rising levels of demand. 

Some of the challenges facing the wind and solar industries are primarily cyclical or temporary in nature. Cost pressures along supply chains are starting to ease: prices for key clean energy technologies have either levelled off or resumed their downward trajectory. Some issues facing projects have been attributable to delays in policy implementation, for example with aspects of the EU Green Deal or in finalising detailed tax credit guidance in the case of the US Inflation Reduction Act.

But the recent difficulties facing renewable projects also highlight some broader structural issues that policymakers need to address. Four issues stand out:

  • Inflexible tender designs: the trend in recent years in tenders was that renewables were able to offer increasingly lower prices in a low cost, low interest rate environment. This set expectations among governments that auction prices would only ever head downwards. Procurement and contracting terms were not flexible enough to accommodate changing macroeconomic conditions or cost pressures.
  • Long waiting times for permitting and connection: financial pressures have been compounded by long lead times required to connect to the grids and gain necessary permits. As the recent IEA report on Electricity Grids and Secure Energy Transitions makes clear, at least 3 000 GW of renewable power projects, of which 1 500 GW are in advanced stages, are awaiting grid connection. This is to equivalent to five times the solar PV and wind capacity added in 2022. In some countries, early-stage project contracts are awarded prior to securing permits and connection, which complicates final generation cost estimates for power producers.

Capacity of renewable energy projects in different development stages in connection queues vs actual capacity additions, 2022

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  • High geographical concentration in clean energy manufacturing. The IEA’s November 2023 update on the State of Clean Energy Manufacturing highlights the continued expansion in manufacturing capacity for clean technologies, which has been a crucial enabler for rapid deployment, although it notes that newly announced facilities for manufacturing onshore wind components only just outweighed others that were cancelled. The update highlights the continued strong degree of country regional concentration in manufacturing: China is expected to continue to account for the majority of manufacturing capacity for wind, batteries, and especially solar PV, as well as for their key components, through to 2030. China is expected to have a solar PV module production capacity of more than 900 GW this year, enough to meet expected global solar PV capacity additions in 2023 almost three times over. Chinese-produced solar PV modules are around half the price of those manufactured in the United States or the European Union.
  • Risks that push up the cost of capital for renewable projects in many emerging and developing economies. A high cost of capital is related in many cases to broad country risks and macroeconomic factors, but our latest survey data from the Cost of Capital Observatory also highlights the importance of sector-specific issues related to regulation, uncertainty over payment by offtakers, and weak transmission grids.

A tripling of installed renewable capacity is high on the agenda at the meeting of COP28. This is one of five crucial issues highlighted by the IEA that need to be addressed in Dubai to keep the door open to a 1.5-degree stabilisation in rising global average temperatures.

Such an acceleration in deployment of renewables has to be led by solar PV and wind, accompanied by measures that allow for their integration into power systems around the world. Policies promoting deployment need in turn to adapt to the challenges highlighted in this commentary, in the following ways:

  • Ensure that auction designs have sufficient flexibility to accommodate fluctuating macroeconomic conditions and costs. These risk and benefit-sharing mechanisms need to cover the pre-development phase (interest rate changes), construction (commodity prices) and operation (inflation). This is especially important in sectors with relatively long lead times like offshore wind.
  • Assign value to the security and resilience of clean energy supply chains. Healthy, diverse supply chains should be a legitimate aim of public policy alongside the pursuit of economic efficiency and low prices. This means incorporating some non-economic criteria (e.g. manufacturing emissions, social factors, supply chain security) in tender designs.
  • Increase confidence in the reliability of demand. Supply chains need a reliable flow of projects, but auction volumes have been inconsistent in some cases and too many projects are being held up by slow permitting processes and delays with grids and other infrastructure. Regular auctions, faster permitting and grid built-out are essential.
  • Address the factors that push up the cost of capital in emerging and developing economies. Climate and other sustainable development goals will not be met without a rapid increase in capital flows to clean energy projects across the developing world. Actions by national policymakers and regulators are essential but there is a strong role too for the international community to bring all countries into the clean energy economy, including much greater financial and technical support.

Cost of Capital Observatory

Tracking the cost of capital for clean energy projects in emerging and developing economies