Ricky Mulvey: As we wrap up the year, we’re looking back on some industries on the show. For energy, one of the industries that has dominated the S&P top performing stocks of the year, even though you may not have heard about it as much, we’re bringing in Nick Sciple to talk about it. Nick, what are your top energy headlines for 2024?
Nick Sciple: Thanks, Ricky. Great to be here. I’d say really that the big energy headline this year, the headlines that dominated everything this year is AI and how is that related to energy at all? It’s really this is the year. Energy demand or expectations around electricity demand really went straight vertical. I think a lot of folks don’t realize energy consumption in the US hasn’t really increased that much in the past 20 years, up about 5% since 2005. Now we’ve got energy consumption, end user demand from AI expected to increase rapidly, both from AI and other data center applications, training an AI model uses more energy than 100 households do in a year. Some of these next generation AI data centers might need as much power as some big cities. Estimates of AI energy consumption or that it’s expected to more than double by 2026 could triple by 2030 and that would take data centers responsibility for energy demand from 2% than it was in 2022 up to 6% more in the coming years. That doesn’t sound like much. But again, a four or five percentage point increase in energy demand is what we’ve seen in the past 20 years. This is just the beginning of what we expect AI energy demand to drive, and that’s what’s been driving lots of activity in the energy space this year, and some of the companies we’re going to talk about.
Ricky Mulvey: There’s a pretty close correlation between economic growth and energy usage when you look at developing and modern economies. But when we think about the grid right now, one of the great questions that a lot of these big tech companies are trying to figure out is, can we power the needs of artificial intelligence? Right now, where the grid stands, is it ready for the demands of AI?
Nick Sciple: As of today, no. We need additional energy capacity. You’ve seen Elon Musk talk about this. You’ve seen Sam Altman from OpenAI talk about this. You mentioned all the big tech companies rushing to try to acquire energy to meet their long term power demands. Just over the past year and a half, you look at electric utilities estimates, they’ve doubled their forecasts for the additional power they’re going to need over the coming decade, and that’s really again, creating incremental demand, seeing folks rush to secure energy supply, whether that’s nuclear, natural gas, or others.
Ricky Mulvey: Energy taking the top spot, many of the top spots in the top five best performing stocks of the year. Three of them Vistra, Constellation, and GE Vernova. Vistra has the top spot, and this is a power generator with the capacity to serve 20 million homes. Right now, it serves about five million. This company plays in natural gas, coal, solar, also has a few nuclear plants. You may be surprised listening to the show that the top performer in the S&P 500 is, in fact, a utility company. Nick, why have investors become so excited about Vistra over the past year?
Nick Sciple: Yes, you mentioned Vistra Energy, Constellation Energy, both of these companies, independent power producers. Meaning, these are companies that compete in the competitive energy markets that’s as compared to your regulated utility that earns a regulated rate, obviously, this expectation of increased electricity, demand for folks with existing generation as demand goes up, you expect them to benefit. Also, I think, importantly, these folks are two of the largest nuclear power generators in the US, Constellation, the number 1 and competitive nuclear power generation, Vistra, number 2, and those assets have become significantly more valuable in the past year, you’ve seen existing plants get license extensions where they can last for another 20 or 30 more years. You’ve also seen Inflation Reduction Act subsidies that have helped these companies, produce more nuclear power and keep some of these plants online. There’s been growing demand.
Again, as I mentioned, for new nuclear capacity, both these companies have existing sites that can expand their production. A lot of headlines this year, Microsoft working with Constellation Energy to bring back online the 3 Mile Island nuclear plants. These existing nuclear facilities aren’t valuable just for the power of the plants that exist, can generate, but they can be upgraded and also you can add a disc in capacity over time. So really, these companies are direct beneficiaries from the expectations for increased electricity demand over time, and that’s part of why those stocks have moved up into the right.
Ricky Mulvey: You keyed in on the expectations. It’s not the business performance that has dramatically changed quite yet for a lot of these energy companies. This is an expectations game where investors are getting really excited about these companies. Do you think this excitement is warranted, though?
Nick Sciple: Well, it depends how much of this energy demand materializes over the long term. Certainly lots of expectations about what we could see from AI. However, there could be more efficiency or there could be fewer data centers than expected. However, these nuclear assets are super valuable and scarce. If you value these companies at replacement value for these plants, you could argue there’s still more upside for the companies. But at the end of the day, they’re operating in a commodity market that is difficult to predict. But I do think it highlights just how valuable these existing energy assets are. That’s why these companies perform so well. Now, can they maintain that performance? Over the long term, you’re not going to see utilities return hundreds of percent a year in a normal market environment.
Ricky Mulvey: Let’s talk about some of the ways we get energy for a little bit. Number 1 is oil. Oil in the United States hit records this year. Our nation’s crude output rose to about 13 million barrels per day. According to Bloomberg, that’s about 50% more than what Saudi Arabia is putting out. This is also at a time of increased efficiency. This record number is being done with less than one third of the rigs that were needed a decade ago. Looking at this big picture Nick, how has the US become so much more efficient in getting oil out of the ground?
Nick Sciple: I think the short answer really is technology, learning innovation. We’re 15 plus years into the shale revolution here in the US and these companies, because of the conditions we saw in the market in the late 2010 and just because of just natural efficiency, these companies had to get more productive. You see things like longer laterals drilled for wells. You see, different changes in fracking fluid, fracking multiple wells at once, better drilling technology utilize automation. These companies are really, really good at pulling oil and gas out of the ground, and they’ve gotten better and better year after year. At some point, we will hit the limit of this efficiency, but it’s really been impressive the ability to continue to grow production in the US. We’ve heard calls for peak shale. Year after year after year, and production keeps going up to the right.
Ricky Mulvey: There’s a limited supply of oil in the ground, but there sure is a lot of it. Looking at these efficiencies, it costs less money to get oil out of the ground, the break even price going down. Is this a trend that you expect to continue for the long term?
Nick Sciple: Well, the growth can’t continue forever. There’s a certain point in which all the oil and gas that is in these rocks is squeezed out. But I think the shale revolution, the importance of the US as an energy producer has been changed for, you know, what I think will be a long time. I think the balance of power in oil and gas has been changed such that OPEC isn’t quite as important as they’ve been in the past. They still are very important and whenever they turn the spigots back on, we’ll see some impact on price. But I think the US is in a much better position energy security wise than it was, 20 plus years ago. I don’t expect that to change anytime soon. Can we maintain this level of growth? Forever, probably not. But I think the US is position as a significant oil producer unlikely to change anytime soon.
Ricky Mulvey: Let’s move on to nuclear. There’s been a lot of investor interest. Stocks for these companies have done quite well this year, and especially in the SMR space, the small modular reactor space. Two companies that play here are NuScale and Oklo. Both of these have seen a lot of interest. We had the CEO of Oklo on the show earlier this year, Jacob DeWitte, and Oklo is up almost 100% over the past year. Also a name in the chairman seat you might know with Sam Altman, NuScale, which is appropriately tickered SMR is up more than 700%. Here’s the kicker, though. These look a little bit like biotech companies to me, Nick, where they’re not generating revenue, and a lot of this is expectations over an exciting new technology. Neither of these have a fully operational small modular reactor up and running. Right now, as we stand at the end of 2024, what are the challenges these companies are facing getting these off the ground or on the ground, you don’t want them in the air?
Nick Sciple: That’s right. If we start having them in the air, we’ve really had an incredible breakthrough. It’s really all of the above regulatory challenges, permitting, lack of skilled labor, really the cost. NuScale, they’re the company that has the first small modular reactor that’s approved on the market. They had plans to deploy in 2026, but last year, their partners pulled out because the cost estimates came in significantly above what I think is 50% or more above the original plans. I think it just really highlights a challenge. These companies, you mentioned, NuScale and Oklo. Both of these are companies that have plans to build reactors are in certain stages of the regulatory process. But at the end of the day, these reactors are still on paper. If you think about these on paper designs, they can be simple. They can be small. They can be cheap. They can be light. They can be easy to be built quickly, but you start to run into some of these other challenges as you deploy these reactors.
Often you see these things come in behind schedule delayed. This has been something from the onset of nuclear power in the 50s onto today. We just saw it in the past year or so in Georgia, we saw Vogtle Unit 3 and 4 come online. These are the first big large scale reactors built in the US in a number of decades. They had originally those projects started in 2009, had been planned to be done seven years ago at a cost of $14 billion came in in the past couple of years at over $30 billion. The gap between these plans for nuclear reactors and actually getting to construction are quite wide, and we’ll see whether Oklo or NuScale or any number of companies that remain private are able to get there. But I think a lot of what you’re seeing with the price moves today aren’t about the operating company. It’s that, oh, my gosh, we’ve got two companies available to invest in that are operating in this small modular reactor space, and let’s rush out to gobble them up. For one, I’m skeptical about whether we actually get to operation, and I gave you a couple of reasons. You know the cost of these things end up coming in significantly higher in the real world than they do on paper.
Ricky Mulvey: But if you have that Sam Altman tech money going behind you, he might want to operate some of those data centers with small modular reactors. I got my string out in my cork board. I can see how this works out, even if it comes in a little bit over budget, Nick. With your skepticism, do you think we’ll see any small modular reactors running in the next, let’s say, 3-5 years in the United States?
Nick Sciple: Yes, in the United States, not commercially, but we will see at least one running in the US in the next five years. The Department of Defense has the Project Pele microreactor, project is going to be the first micro reactor deployed in North America. That’s currently under construction here in the US right now and is expected to be completed by 2026. That’s Department of Defense program. If we look in North America, in general, the earliest deployment of small modular reactors is expected to come in Canada with Ontario Power Generation. They’re building the BWRX-300 reactor, which is built by GE Hitachi, which is a subsidiary of GE Vernova, which you mentioned earlier, they’re already doing some of the pre construction work, building some of the components that will go into that, and construction is going to start next year. The plan is for that plant to be operational in late 2028 or early 2029. That just sneaks us under that 3-5 year timeline. Oklo has talked about having a commercial reactor available by 2027. If everything goes exactly according to plan, they can make that happen.
I’ve laid out my skepticism for that. But I think there’s a couple plants under construction. Today, both the military one I talked about Project Pele and this one in Canada that should get to market by 2028 and that are under construction. Not totally looking down on this market, but just some of these companies that don’t have operations or don’t have the shovel in the ground today. It’s a long way to go to get there in the next 3-5 years. That’s for sure.
Ricky Mulvey: You’re not trying to dismiss the difficulty of nuclear science. I get where you’re coming from. There’s big tech companies, mentioned Sam Altman, but there’s other big tech companies that are very interested in nuclear energy. How are you seeing them getting this game?
Nick Sciple: Well, we’ve seen lots of deals this year, and it’s you can put them into two buckets. It’s securing capacity from existing nuclear plants. You had Amazon make a deal with Talen Energy for $650 million to acquire nuclear energy from their existing plants, Microsoft in the existing plan bucket, I mentioned earlier, made a deal constellation energy to draw power from their existing plants, both reactivating the 3 Mile Island nuclear reactor, but also having a power matching agreement to power their data centers with nuclear power there. We’re also seeing activity by big tech to build new nuclear reactors or at least explore that type of activity. This is using utility partners primarily. Amazon has a deal to explore deploying small modular reactors with Energy Northwest in Washington State, also has a relationship with Dominion Energy that’s exploring a small modular reactor in Virginia. Amazon also invested in X-energy, which is another one of these small modular reactor design companies.
Nick Sciple: Google also investing in a small modular reactor design company, Kairos Power, and then also in the world of building new nuclear reactors just this week, Meta announced that they’re going to put out a request for proposal to build 1-4 gigawatts of new nuclear generation capacity in the US by the 2030s. Whether it’s building new capacity or trying to lock up existing nuclear capacity, you’ve got all the big techs really swirling around for lots of reasons. It’s not just powering AI, it’s that these companies have taken the climate pledge, and in order to power these facilities in a way that’s carbon neutral, nuclear is only available way to do that, given that you need to run these things 24/7 and the intense power needs. Lots of demand from Big Tech, and you’re seeing lots of money getting 30 around. Almost panic spending, I would say.
Ricky Mulvey: Panic spending. That sometimes isn’t a good thing. I’m imagining though, there could be some shareholder calls, a few years from now. You know what? Over here at Meta, we’ve learned that it’s really difficult to store nuclear waste. That was not something we’ve been able to figure out over the past few years, so we’ve had to turn to a new energy source. This is something I’m imagining and also, to be clear. I’m optimistic about the future of nuclear. I think it’s a really cool technology. As you said, if you’re trying to achieve carbon neutrality, it’s a good place to get energy. Let’s say if Big Tech can’t accomplish their nuclear dreams to power these cloud servers, these AI chat bots that are sucking up so much energy. You mentioned the power earlier. It takes 10 times more energy to do a ChatGPT query than it does to do a Google search. If Big Tech can’t get nuclear up and running, where would you expect them to turn?
Nick Sciple: Well, I really think it’s an all of the above, regardless of if you get nuclear up and running. They’ve been some of the largest deployers of renewables over the past several years. You’re going to see companies turn to natural gas in the near term because of what I mentioned about needing, a capacity 24/7 without any of this intermittency so, 2024 is supposed to be the year, if things finish out the way we started the year, it’s going to be the year where we have the most new natural gas generation announced in the US since 2017, we’ve got more than 200 gas units at various stages of development, across the US. This increase in energy demand isn’t just going to fall on building new nuclear plants.
We’re not going to be able to solve it just with new natural gas plants, and we’re not going to be able to do it just with renewables. I think there’s really growth everywhere, and natural gas is one of those areas where we’ve seen a return of interest in the past year or so, this is another one of those segments of energy where folks have continued to call peak demand for the commodity, and it continues to go up and up and up as demand surprises.
Ricky Mulvey: As we talk about nuclear, you mentioned your skepticism toward some of the companies that don’t have small modular reactors going. But last year, you also pitched BWX technologies for our stock March Madness game, which you won. I’ll remind the listeners or those who don’t know Nick won stock March Madness with this company, which supplies fuel for nuclear submarines in the US Navy. Company also makes real revenue and is profitable. Another one where expectations have changed for the company as more interest in nuclear comes in. With investors who are also excited about this space, do you recommend should they look to the more established companies? Should they look at the start-up? Should they take a basket approach?
Nick Sciple: For me, I think there’s really three buckets you can look at to invest in nuclear power. It’s folks who own and operate existing nuclear sites. Think about these as the utility companies we talked about earlier. You can have folks who play in the supply chain. Whether that’s, folks like BWX technology who make fuel components, that thing or the uranium producers, which is an interesting segment of the market where there’s a potential crunch there. Or you can look at folks who are developing reactors. If it’s me, I’m really looking in those first two buckets, folks that have operating businesses today that have been doing this for quite a long time. If I had one company, BWX Technologies still is, I would say the highest quality nuclear business that I think is the lowest risk for folks to invest in. Today, you mentioned the military, nuclear sub and aircraft carrier business. They make fuel for those. They also manufacture the reactor components.
They’ve been doing that for decades. Basically a monopoly business, makes up the majority of the revenue. They also are one of these companies building that project Pee Micro reactor in the US, generating revenue. They’re also working with DARPA and the Space Force on the first nuclear rocket engine in space with Project DRACO. They really have the flagship nuclear programs of the Navy of the Air Force/Space Force and of the Army, if you think about Project Pele, if you think about the history of nuclear power, a lot of the innovation in nuclear has been driven by US military programs and for quite a long time.
When you’re looking at micro reactors, they do have the ability, toward the end of the decade to potentially deploy the Project Pele reactor commercially or kind of derivative designs from the Pele reactor commercially, which puts them in the competitive market that Aklos trying to get to. In Micro reactors, if you look at small modular reactors, they’re positioned as a merchant supplier in the market. That means that they can provide services to lots of these potential small modular reactor design companies, the most notable of which I talked about the BWRX 300 reactor that’s being built in Ontario at the Darlington site.
They are building the reactor pressure vessel. For that reactor and are currently generating revenue on that today. If you think about the small reactor designs in North America that are getting built right now, BWX technologies has shots on goal on both of those, and also have the potential to offer business to lots of these other small modular reactor design companies. They’re the only company that’s able to manufacture large nuclear reactor components. I think they’re well positioned regardless of who wins in small modular reactors to really gobble a portion of that business. Then, without spending too much time here, they have a medical business that’s in a position to grow rapidly, providing nuclear radioisotopes.
Aklo has invested in there as well. I think this is a business that a lot of companies are talking about doing things in these SMR space, marker reactor space, but BWX technologies is generating revenue today and has the potential to continue to do that as the space grows over the next 10 plus years. I think this is a business that is high quality, is going to grow with the market and also doesn’t carry the same risk that, some of these paper reactor companies have today.
Ricky Mulvey: They’ve got plans. They’ve got people who want their reactors, Nick. Quick question before we move on. For the Project Pele reactor, that’s something that the Department of Defense ordered. Where’s the energy flat going? Do you know?
Nick Sciple: Yeah. It’s going to be built at the Idaho National Laboratory, which is one of the there’s a handful of US nuclear, laboratories. The Oak Ridge National Laboratory here in Tennessee is another one. It’s going to be deployed at the test center. Over the long term, if it proves viable would be something that would be deployed at remote military bases, across the country and across the world, really solves the problem of how do you provide logistics to these bases. I think that the stat was something like 50% of the casualties in Iraq and Afghanistan were related to just transporting diesel and other types of fuel to remote military bases. Obviously, if you could put a small nuclear reactor on these bases, you could save a lot of lives. Certainly there’s a military application here that makes a lot of sense.
Ricky Mulvey: Let’s move on to some renewables because renewable stocks outside of nuclear have had a rough few years. For example, the iShares global clean energy, ETF. It’s about flat over the past five years and has had a selling off basically since the pandemic hype. Many of these companies, it’s impossible right now, Nick, to talk about these companies without talking about the political situation. Travis Hoium was writing on fool.com about First Solar, which is a company that makes solar panels and operates, we’ll call them solar power plants. You can imagine the large fields of solar panels that are generating energy. Hoium pointed out that basically, if it did not receive clean energy subsidies, then its operating income would fall by more than two thirds. The Trump administration coming into office has talked about rolling back these clean energy subsidies. What are the impacts you’re going to be watching if that happens?
Nick Sciple: Well, very hard to predict, especially given how the president likes to negotiate. But if you look across the board, if Inflation Reduction Act went out the board, you could certainly see lots of impact in some of these renewable companies, nuclear benefits from some of these subsidies under the Inflation Reduction Act. Renewable diesel is another area of the market that you look at that’s had lots of investment over the past few years that if you look at the economics of that business without subsidies, doesn’t really work.
Electric vehicles have talked about rolling back electric vehicle tax credits certainly would hurt the folks that are benefiting from that today. You could see really effects across the board. Some folks might argue maybe you see some marginal projects that only existed because of subsidy get abandoned and create breathing space for other projects. But I think it’s really difficult to predict and I think if you have an investment thesis that is wholly dependent on the government doing X or not doing X, it often is going to put you in a bad spot as an investor. I just don’t let the political narrative drive your investing decisions.
Ricky Mulvey: Do you think the investing thesis for a lot of these renewable energy companies remain strong or for any of these renewable energy companies?
Nick Sciple: Renewable is continuing to grow rapidly. Solar deployment in the US grew 25%, utility scale grew 30%. About 90% of total new electrical generating capacity in the US in 2024 came from renewable. You’re seeing really rapid growth in renewable. However, it is more challenged than it was a few years ago. Interest rates were higher, which is making some of these projects that would have penciled out at lower interest rates not work in the same way they would have previously. Potentially, you have fewer subsidies.
You saw some of that in California. For me, I think it’s hard to find super attractive places to invest in renewables today. That doesn’t mean that they’re not out there, but I do feel like some of these segments of the market becoming a little bit commoditized, and there’s a little bit more attraction to invest in some of these other areas. If I had to invest, in the renewable kind of area, I would be looking at some of these, companies like Brookfield Renewable Energy, folks who own a broad basket of renewable assets and less in some of these companies that make panels and that thing, which for solar would fall in that bucket. One other thing to mention, too, you talk about, what happens with changes in subsidies. But for solar in particular, if you see a return of tariffs, they have a lot of manufacturing capacity in the US, and a lot of the low priced solar panels are imported from China. There’s more puts and takes that could happen here than just, well, you pull subsidies over here, you add tariffs over there. I don’t know, your mind could spin if you spend too much time thinking about some of this stuff.
Ricky Mulvey: You start doing a lot of bank shots. While renewable energy capacity is still expanding, it seems to me the fundamental problem for a lot of these companies is baseline power needs. That’s something that nuclear energy addresses, but the sun isn’t always shining. The wind is not always blowing, and you can’t have rolling blackouts because of that. Are these renewable companies in the wind and solar space? Are you seeing them meaningfully address these baseline power needs?
Nick Sciple: Everybody is trying to get involved in battery storage in some way, and some of that is driven by subsidies or incentives, California change their rebate mechanism, which puts you in a better position if you have battery storage. But again, on the flip side of things, if you have a solar panel farm plus battery storage, that’s another additional spend that you have to make. Listen, I think there’s a growing realization that it’s going to have to be in all of the above strategy to solve our energy needs. We’re not just going to have renewables with battery storage that, replaces all of our natural gas and nuclear.
I think we’re going to need more of everything to achieve our needs. Just because renewables won’t provide 100% of baseload power all the time, doesn’t mean that there’s not a bright future ahead for the market, and we’re not going to be producing a heck of a lot more, solar energy in particular five and 10 years from now than we are today. I just think the market is not as optimistic about renewable energy as it was a few years ago. I think they were probably too optimistic a few years ago.
Ricky Mulvey: Finally, what energy story lines are you watching as we enter into 2025?
Nick Sciple: I’ll give you three. The first one, what is OPEC going to do with their idled capacity? For the past couple of years, there’s been a question of, when is this potential oil production on the sidelines going to be brought online? Sooner or later, the cartel is going to give and decide, hey, we want to sell more of our product into the market, and we’re tired of waiting around for higher prices. If that does happen, then the trickle down effects to producers in the US and around the world, obviously, could be significant.
Number 2, looking in North America, in 2025, the LNG Canada project will begin exporting. I believe it’s this summer. It’s scheduled to do its first exports, that’s going to be the first liquefied natural gas project in Canada. Canadian natural gas has been significantly below rolled benchmarks for quite a while because of a lack of offtake capacity. I would expect that to drive price of Canadian natural gas up in 2025, and there’s some producers there that could stand to benefit.
Then the last one is what’s going to happen. I mentioned earlier, this BWX 300 reactor that’s going to start construction in Canada in 2025. Want to watch the progress of that reactor under construction. If it starts to see some of the same cost overruns and delays that we’ve seen at prior new nuclear projects we’ve seen in recent years, then that could start to, lessen some of the optimism in the nuclear sector. However, Canada has been working for the past several years to extend the lives of existing nuclear reactors has been able to do that actually below budget and ahead of schedule if some of that same expertise can drive some of the same results for construction of small modular reactors, then maybe you see the Order Book pick up. Be interested to see what happens there. Lots going on. I’m sure there’s going to be some stories that surprise us in 2025, as well.
Ricky Mulvey: Nick Sciple, appreciate your insight, appreciate you being here. Thanks for joining us on Motley Fool Money.
Nick Sciple: Anytime, Ricky, thanks so much.
Mary Long: As always, people on the program may have interest in the stocks they talk about, and the Motley Fool may have formal recommendations for or against buy or sell stocks based solely on what you hear. All personal finance content follows Motley Fool editorial standards and are not approved by advertisers. The Motley Fool only picks products that it would personally recommend to friends like you. I’m Mary Long. Thanks for listening. We’ll see you tomorrow, Fools.
John Mackey, former CEO of Whole Foods Market, an Amazon subsidiary, is a member of The Motley Fool’s board of directors. Randi Zuckerberg, a former director of market development and spokeswoman for Facebook and sister to Meta Platforms CEO Mark Zuckerberg, is a member of The Motley Fool’s board of directors. Mary Long has no position in any of the stocks mentioned. Nick Sciple has positions in BWX Technologies, Constellation Energy, and Meta Platforms. Ricky Mulvey has positions in Meta Platforms. The Motley Fool has positions in and recommends Amazon, Meta Platforms, and Microsoft. The Motley Fool recommends BWX Technologies, Brookfield Renewable Partners, Constellation Energy, Dominion Energy, First Solar, and NuScale Power and recommends the following options: long January 2026 $395 calls on Microsoft and short January 2026 $405 calls on Microsoft. The Motley Fool has a disclosure policy.
Motley Fool Money’s 2024 Energy Review was originally published by The Motley Fool