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Investment Opportunities in SMRs: The Future of Nuclear Power

06 November 2024

Read Time 8 MIN

As global demand for electricity continues to grow, nuclear power has risen as a key solution. Small modular reactors (SMRs) allow for more scalable and flexible instillation of nuclear power that would allow for wider adoption.

Nuclear is a major component of the energy mix needed to satisfy growing electricity demand while the world transitions to cleaner energy sources. To see this trend play out in real time, look no further than the various announcements in recent months by tech companies to secure nuclear power sources. Nuclear offers a long list of beneficial characteristics: its emissions levels are some of the lowest among energy sources, it is very efficient and can produce consistent power throughout the day, and its land-use footprint is small compared to other energy sources.

Historically, one hurdle for broader nuclear power adoption has been the slow development pace. The infrastructure required to build a large-scale nuclear reactor can be significant, and the regulatory approval process can often move at a snail’s pace. For this reason, industry, customers, and public officials have turned their attention to small modular reactors (SMRs). SMRs are expected to allow for more scalable and flexible installation of nuclear power that, once further developed, may reduce the time to market significantly, with many other potential benefits.

As their name implies, SMRs are small and modular. They are much smaller than large-scale traditional nuclear reactor facilities, in some cases as small as 1/10th the size of traditional nuclear reactors. Being modular allows them to be manufactured offsite and assembled on-site.

These features are important for several reasons. Their small scale may allow SMRs to be used in locations that could not otherwise support a large reactor. Also, SMRs can add additional capacity at existing nuclear power sites. The modular design allows reactors to be manufactured at scale and assembled on-site. This can significantly reduce the up-front capital costs associated with large reactor sites and significantly reduce construction times.

Safety is another attractive feature of SMR innovation. Traditional nuclear reactors rely on physical barriers between the radioactive reactor core and the environment, along with extensive protocols to monitor the reactor’s safety and serve as backup to address human and computer errors. Many SMRs are designed with passive, self-cooling features that don’t rely on operator intervention or computer action.

The elephant in the room when discussing SMRs is that they have long been in the design and innovation phase but have yet to be deployed in a meaningful way. The primary hurdle has been the cost associated with being first. Many plans have been canceled or reassessed as inflation and rising interest rates drove financing costs higher over the last several years. However, that is expected to change in short order as nuclear has been more widely recognized as an important “green” or “sustainable” power source, and significant amounts of financing have been made available to this space in recent years. Several projects are targeting completion by 2029, but the early 2030s may be a more reasonable timeline.

Many recent nuclear-related announcements by large tech firms such as Amazon have involved SMRs as an important component of their targeted nuclear power mix. As computing power related to generative AI and other technologies increases, the need for expanding data centers is driving the expected demand for electricity higher. Nuclear, with its efficiency and clean footprint fits the bill as other power sources such as coal are dwindling and other renewable energy sources face adoption hurdles.

  • Microsoft: While Microsoft made headlines in September 2024 by announcing an agreement with Constellation Energy to revive the Three Mile Island nuclear power plant, it has also been researching SMRs behind the scenes. In October 2023, the firm posted a job description for a nuclear technology expert who will be asked to “ensure technical feasibility and optimal integration of SMR and microreactor systems.”
  • Alphabet (the parent company of Google): Announced on October 14, 2024, that it had agreed to purchase nuclear energy from SMRs being developed by Kairos Power and expects them to be up and running by 2030.
  • Amazon: on October 16, 2024, Amazon announced an agreement with Energy Northwest, a consortium of Washington state public utilities, to enable the development of SMRs in Washington and is targeting the early 2030s.
  • Amazon: On the same day, Amazon also announced a $500 million investment in X-energy, a leading developer of next-generation SMRs and fuel technology.
  • Amazon: In addition to the aforementioned announcements, Amazon also disclosed an agreement with Dominion Energy to explore an SMR project near Dominion’s existing North Anna nuclear power plant, a major data center hub in Virgina.

Many of the innovative companies in the SMR space remain private. Early-stage and venture capital investment is often a leading indicator of investment opportunities, and major investors such as Bill Gates, Sam Altman, Peter Thiel, and Ken Griffin have backed various start-ups developing next-generation technologies in this space.

How to Invest in SMRs

While many names catching headlines such as TerraPower, X-energy, and Kairos Power are private companies, several high-profile companies have gone public in recent years offering pure-play exposure to SMRs.

Investors can also look for more diversified companies participating in the SMR space. Several defense and engineering companies are heavily investing in SMR technologies and the advanced fuel required to power these SMRs while also participating in other areas of the nuclear ecosystem, such as the construction and maintenance of existing early-generation power plants. Public utilities are also investing in this space as they look to scale up capacity at existing facilities.

Exchange-traded funds or ETFs are also a great way to access this investment opportunity while diversifying exposure among SMR participants. Some funds offer broad-based exposure to the entire nuclear ecosystem while also including meaningful exposure to this more nascent segment of the market.

This area of the market is still in the early stages and there are somewhat limited options to invest in publicly. Of those pure-play SMR companies in the market, they are all susceptible to different commercial and regulatory paths to market, meaning that first mover advantage may reward the winner(s) of the race to build at scale.

Another risk to consider is the close association of SMRs with the artificial intelligence investment boom. While this association has fueled notable growth in the space, it certainly leaves SMR investments susceptible to market corrections and re-ratings as investors digest each company’s path forward and the segment’s position as a whole.

Diversification may be a prudent approach to mitigate the risk associated with single company exposure. The potential opportunity is robust, but a diversified, risk-aware approach may allow for a better risk-adjusted return experience over the long term.

Several public companies that are relatively new to the market are making great progress toward making SMRs a reality:

  • NuScale (SMR) (3.82% of NLR assets*): NuScale’s path to public listing was via the SPAC merger process in May 2022. It has projects in Ohio, Pennsylvania, Quebec, Asia, and Europe, with notable attention paid to its efforts in Romania.
  • Oklo (OKLO) (3.98% of NLR assets*): Oklo also used the SPAC process to go public in May 2024. It is developing small scale SMRs that can utilize recycled uranium. It is targeting 2026 to break ground at their first site in Idaho and is aggressively hoping to have the reactor up and running by 2027, pending regulatory hurdles.

Other long-standing public companies are heavily involved in the SMR ecosystem:

  • BWX Technologies (BWXT) (6.13% of NLR assets*): BWX traces its history to the 1800s and was involved in the Manhattan Project of the 1940s, among many other notable associations and accomplishments. It is involved in a range of nuclear and defense-related areas and has been heavily involved in commercial SMR design since 2009. It is also at the forefront of nuclear fuel innovation.
  • Kepco Engineering and Construction Company (2.11% of NLR assets*): A Korean company, Kepco is a diversified business that focuses on nuclear, thermal, and other clean power sources. It has been developing an offshore small modular reactor for years with the hopes of deploying as early as 2031.

Within the private markets, several companies (among many others) are making significant progress and doing very exciting things in the SMR space and are worth watching in the event they eventually decide to tap the public markets:

  • TerraPower: Backed by Bill Gates, TerraPower is currently developing its first advanced reactor in Wyoming near the site of a retiring coal plant. It hopes the Wyoming proof of concept will be scaled broadly in the future.
  • X-energy: After announcing a plan to go public in 2022, the firm reversed course scrapping its SPAC merger arrangement in light of market conditions in late 2023. X-energy designs SMRs and manufactures a proprietary version of TRISO advanced fuel.
  • Kairos Power: Kairos caught headlines from its Google announcement in October 2024 and is currently working toward SMR development in Tennessee.

The VanEck Uranium and Nuclear ETF offers investors comprehensive exposure to the nuclear energy ecosystem. In addition to uranium miners, the strategy targets nuclear energy producers, companies involved in the construction, engineering, and maintenance of nuclear projects, and companies providing equipment, technology, and/or services to the nuclear power industry, with notable exposure to innovative SMR companies.

* NLR holdings above are stated as of 11/1/2024.

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