Power hungry: Why the energy transition may depend on storage and flexibility

Multiple authors
2024-09-30
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The views expressed are those of the authors at the time of writing. Other teams may hold different views and make different investment decisions. The value of your investment may become worth more or less than at the time of original investment. While any third-party data used is considered reliable, its accuracy is not guaranteed. For professional, institutional, or accredited investors only.

Key points

  • Electricity demand is expected to grow significantly through the next 30 years.
  • At the same time, electricity supply may become less stable, as renewables represent a larger share of the electric mix, leading to pricing volatility.
  • These dynamics could create significant tailwinds for batteries and flexible-power generation assets.
  • We believe diversified exposure to renewables, battery storage, and flexible-generation assets could produce competitive investment returns. 

Demand for electricity is growing

The transition to a lower-carbon economy will likely require staggering amounts of electricity. As the world advances toward its decarbonization goals, demand for electric vehicles and appliances, heat pumps, and a wide range of electrified industrial, transportation, and agricultural processes should increase dramatically. At the same time, the exploding appetite for data from expanding connectivity, automation, and the dizzying pace of machine learning and artificial intelligence, will also likely intensify the draw on electrical grids. The International Energy Agency (IEA) estimates that electricity demand in North America and Europe alone will grow by more than 2% per year through 2050, a nearly tenfold expansion over the 2010 – 2021 period (Figure 1). Electricity demand will likely rise even faster in emerging markets.1

Figure 1

power-hungry-why-the-energy-transition-fig1

Electricity supply may become less stable

Renewable power sources, including solar and wind, supply power intermittently. Without large-scale storage capacity, solar panels can only provide power when the sun is shining, and wind farms only when turbines spin. Despite their intermittency, the cost to develop renewables continues to decline, and sweeping policy and legislation have supported their adoption. As a result, wind and solar supply a greater share of power to electric grids. At the same time, baseload coal, natural gas, and nuclear plants — which can generate power 24 hours a day, seven days a week — are gradually being retired. As Figure 2 shows, in North America and Europe, solar and wind are projected to account for 66% of electricity supply by 2050, up from just 14% in 2021. Conversely, the contribution from baseload power is projected to shrink to 17%, down from 68% in 2021 — a symmetrical reversal. 

Figure 2

power-hungry-why-the-energy-transition-fig2

Underappreciated value of flexibility

In our view, the combination of structurally higher electricity demand and transitional power-supply instability will result in greater power-price volatility than consumers currently experience. To mitigate jarring intraday and seasonal power-price swings and ensure a constant supply of electricity, grids may rely on two mainstays: large-scale batteries and flexible-power generation. 

Intraday price fluctuations may boost demand for batteries

Batteries can help mitigate intraday power-supply instability, particularly for grids with heavy reliance on renewables. Solar power best illustrates the reasons why. Solar panels generate all their electricity during daytime hours; they generate little to no power after the sun has set. In places with high solar concentration on the grid, power prices tend to be lower during the day and higher during nighttime hours. The inverse relationship between renewables’ supply capabilities and power prices means that solar essentially reduces its own value by generating electricity when power prices are low, and going dormant when prices are high. 

Figure 3 shows a day in the electrical life of California, the state with the highest share of solar power in the continental US, with 19% of its electricity generated from solar installations. The red shaded area shows the hours when power prices were lowest, while the green area shows the hours when prices were highest. During the lowest-cost hours, renewables supplied more than half of California's electricity needs. At night, when prices were highest, renewables supplied far less (with solar dropping to zero). Natural gas, on the other hand, supplied most of California’s electricity during the evening hours, when prices were highest. Because natural gas generators can ramp up production during peak-demand hours when renewables are unable to supply power, they function as critical stabilizers for electric grids like those of California. 

Figure 3

power-hungry-why-the-energy-transition-fig3

This brings us to the importance of batteries. Batteries help smooth intraday supply and pricing volatility by charging during daytime hours, when solar is abundant and electricity prices are lowest, and discharging power at night, when solar is absent and prices are highest. Because batteries can improve the supply/demand balance during low-priced hours, solar products and batteries are increasingly deployed as a package.  

Seasonal pricing volatility may be a tailwind for flexible-power generation

Expanding reliance on renewables will also likely result in higher seasonal power-price volatility. Figure 4 shows Europe’s trailing seven-day electricity demand and trailing seven-day solar supply in 2022. During the winter months, solar panel production drops dramatically given lower solar irradiance (weaker sunlight and fewer hours of it). Conversely, during the summer months when solar irradiance is higher (stronger sun for more hours), solar panels generate lots of power. Data shows that the price of power in Europe is typically lowest during the second and third quarters — the spring and summer months when solar is most productive. Prices are highest during the first and fourth quarters, which coincide with autumn and winter, the least productive periods for solar.2

Figure 4

power-hungry-why-the-energy-transition-fig4.1

A solution to seasonal instability and pricing volatility is flexible-power generation. Power plants that can flex, shifting from intermittent renewables to natural gas and other baseload power sources during the winter months should be able to ensure grid stability and benefit from these periods of higher power prices. While batteries are unable to solve seasonal power-price mismatches (it is not feasible to charge a battery once during the summer and wait several months to discharge it in the winter), flexible-power generation is highly effective. 

Conclusion and investment implications

As the low-carbon transition progresses, the world will consume far more electricity than it does today. At the same time, as the supply mix includes a greater share of intermittent renewables, particularly in Europe and North America, grids may become less stable and prices more volatile. The resulting instability may increase the value of large-scale batteries and flexible-power generation, which will be necessary to stabilize the power system on daily and seasonal bases. By diversifying their power-supply mix and incorporating these capabilities, grids may be better equipped to provide uninterrupted power to consumers at more stable prices. 

Similarly, we believe that investors will see the most value by diversifying among investments in renewables, batteries, and flexible-power generation assets. To date, the market has treated last year’s flexible-power-generation profits as a one-time event — a simple windfall profit. It is our view that power-price variability will be a recurring, disruptive factor for energy grids across developed markets. The profits reaped by flexible-power companies may therefore be repeatable. Specifically, we expect companies with focused exposure to flexible gas-power generation, battery and storage technology, and renewables may continue to surprise to the upside, as the market appears to underappreciate the value of this asset mix. Other beneficiaries could include integrated utilities that own a portfolio of renewables, batteries, and flexible-power assets, albeit in smaller proportion to their total business mix. Similarly, regulated electric networks may see tailwinds from investments in grid hardening and the capacity to balance growing demand with the intermittency of renewables. 

Please also see our white paper from 2021: Power move: Why electric utilities may be the key to the energy transition


1 In our view, developed markets represent the bulk of the current investment opportunity in this space, as alternative energy capacity as a percentage of total power production is higher than it is across the developing world. | 2Wind speeds and consistency lack the seasonally predictable patterns of solar irradiance. The contribution to the grid also varies widely by geography, so we have excluded it here.

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