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Category: Energy Stocks

Oklo: Pre-Revenue Advanced Microreactor Startup with 14.1GW Pipeline

Posted on July 11, 2025June 30, 2026 by io-fund

Oklo is an advanced nuclear microreactor startup primarily targeting data center customers with long-term power needs, though it is currently pre-revenue and pre-deployment. Its standout 12 GW master power agreement with Switch is one of the largest commercial nuclear power deals ever signed, eclipsing recent Big Tech power purchase agreements (PPAs) in the 1-2 GW range. PPAs are long-term agreements where companies will purchase electricity from a provider for a predetermined price. 

Oklo is aiming to start its first plant operations as soon as late 2027, and as a result its revenue ramp is likely still geared towards the early 2030s.  Backed by the 12 GW deal, Oklo’s pipeline could be worth tens of billions in revenue at its current size, supporting a long-term revenue ramp. However, cash burn is likely to increase significantly as commercialization nears, and break-even remains far in the future, due to its build-own-operate business model.  

Due to the rare, high demand for energy that is incoming, when the market will move on nuclear stocks is unclear as emotions could run high and drive momentum long before revenue materializes. Therefore, we thought it’d be well-worth our time to look at a few of the most popular nuclear stocks. 

Gigawatt-Scale Projects Promise Multi-Billion Dollar Opportunities 

As we discussed in our free newsletter last week, Nuclear Power Emerging as a Clean AI Data Center Energy Source, AI data center electricity demand is forecasted to surge over the next few years. Most estimates from industry groups and analysts forecast 70 GW to 80 GW in demand growth through 2030, with focus turning to nuclear to meet long-term baseload energy needs.  

Though some researchers estimate that at least 85 to 90 GW of nuclear energy is needed to help meet rising data center demand, high costs and lengthy construction timelines inhibit new large-scale deployments. Advanced microreactors and small-modular reactors (SMRs) promise a quicker path to deployment, but they’re likely to only take a small share of this demand growth, as companies in the space, such as Oklo and NuScale, have yet to commercialize modules and subsequently ramp production.  Advanced microreactors tend to be ultra-compact nuclear reactors generally in the 1 MW to 50 MW range, designed to be modular and transportable for use in such as in off-grid or remote areas. SMRs are typically larger in size at 50 MW to 300 MW per module, helping support larger-scale or grid-based deployments while remaining modular in nature and readily deployable.  

Regardless, even capturing just a small share of this demand growth, such as 5 to 10 GW over the next decade, SMR startups could see significant multi-billion dollar revenue opportunities.  

Oklo’s Aurora powerhouse provides customers with flexibility from phased deployment options and multiple power configurations, from 15 MWe to 50MWe and now up to 75 MWe.  

  • In a 12-module power plant design, the 75 MWe module offers up to 900 MWe (0.9 GW) capacity.  
  • Oklo is looking to cap output per module in a “sweet spot” of 60-72 MWe, meaning actual output is likely to range from 720 MWe to 864 MWe  (0.72 to 0.86 GW).  

This is more than enough to power hyperscale data centers with hundreds of thousands of GPUs – the first 200 MW phase of OpenAI’s Stargate data center could house 100,000 of Nvidia’s Blackwell GPUs, meaning a one GW scale could theoretically support nearly half a million GPUs.  

Because Oklo is building, maintaining ownership, and operating the plants itself, instead of selling the modules to developers, revenue will stem primarily from long-term power purchase agreements. This provides some future visibility via recurring revenue streams once operations commence. 

Amazon’s recent 1.92 GW deal with Talen offers a bit of insight into the revenue opportunities that lie ahead for Oklo.  

  • Amazon signed a 17-year deal worth ~$18 billion in revenue to Talen over the deal lifetime.  
  • Talen is set to deliver 0.84 to 1.2 GW by 2029 and scale up to 1.68 to 1.92 GW by 2032.  
  • Rough back-of-napkin math places each GW at nearly $9 billion in lifetime revenue, or ~$500 million annually on average.  

In Oklo’s case, running off these numbers places its non-binding 12 GW agreement with Switch at up to $108 billion in lifetime revenue in a 20-year PPA structure. At maximum, it’s possible that this deal could result in $6 billion in annual revenue for Oklo, though that is unlikely to be seen until the final years of the deal, or beyond 2040.   

Commercialization Timeline  

Oklo’s Aurora powerhouse is built on proven liquid-metal-cooled reactor tech derived from the Fast Flux Test Facility (FFTF) and the Experimental Breeder Reactor-II (EBR-II), supported by more than 400 reactor-years of experience. The fast reactor requires refueling approximately every 10 years, versus every two years for a module such as NuScale’s VOYGR. Oklo is planning to commence its first plant operations as soon as late 2027 to early 2028, making key progress on the regulatory front to achieve this goal.  

Oklo has partnered with RPower on a phased gas and nuclear deployment strategy to help bridge the gap until it reaches full-scale commercialization. Under the partnership, RPower will deploy natural gas generators for select projects until Oklo’s Aurora plants come online, after which the gas generators will serve as backup. The two say that the gas generators are deployable within 24 months, meeting more immediate-term data center demand needs, given the reactors are more than 24 months away.  

Fueling is a limiting factor for Oklo’s upcoming ramp, as it has only secured 5 mega tons of fuel from a 2019 DOE award, enough for the initial load at its first plant at the Idaho National Laboratory. Oklo also signed an MOU with Centrus in 2023 for high-assay low-enriched uranium (HALEU), which should help it support future commercial projects. The company is working to develop an in-house fuel recycling program to support its plants, once operational, though this will be a costly endeavor. CEO Jacob DeWitte has expressed concerns about fuel supply, saying he worries “about the bridge between now and the early 2030s,” which could hinder its ability to ramp if it cannot procure or produce enough fuel. 

Oklo Boasts 14.1 GW Pipeline  

Oklo’s pipeline is significantly concentrated with data center designer Switch, with whom it signed a 20-year, 12 GW non-binding master power agreement to provide power to multiple data center facilities through 2044. Oklo also has a few other deals in its pipeline: 

• Signed a letter of intent (LOI) with data center builder Equinix for 0.5 GW of power, including a $25 million pre-payment clause. 

• Signed a LOI for 0.1 GW of power with Prometheus Hyperscale. 

• Signed a LOI for 0.05 GW of power with Diamondback Energy. 

Fulfilling this pipeline requires significant production capacity. Switch’s deal alone would require at least 160 75 MWe modules, while the entire current pipeline would require 188 75MWe modules, or up to 200-plus if customers select some 50 MWe modules.  

Putting this in perspective, at ~$220 million per 75 MWe module (on a rough estimate), Oklo’s pipeline could be worth at least $35 billion, though this is likely to be spread over the course of the next 10 to 15 years.  

Oklo Provides Little Update on New Customer Progress 

Oklo’s pipeline remained flat QoQ at 14.1 GW, with no new customer engagement announced after substantial growth in 2024. Despite this, Oklo provided a short comment on customer engagements, saying they remain in active discussions especially with customers in the data center space.  

Management explained that they are exchanging term sheets and discussing commercial terms related to PPAs, as well as structuring deals to possibly “include some form of investment in Oklo, either kind of a prepayment like what Equinix did, or potentially some sort of like asset level investment.” 

High Capex Requirements 

Because of the build-own-operate model Oklo is pursuing, capex requirements to build out enough modules to fulfill its current pipeline are extremely high. Oklo has noted that it will aim to secure outside funding in DOE loans, tax equity and other financing.  

Oklo’s 15 MWe design is estimated to cost $70 million, while the 50 MWe could cost up to $145 million, per executives. The company has not disclosed costs for the 75 MWe design, but the module could cost up to $220 million based on pricing for the 50 MWe at almost $3 million per MWe. Oklo expects lower costs for future plants due to economies of scale.  

Oklo is targeting up to one-gigawatt plants in 12-module designs, and these costs suggest each GW plant could cost billions. For a ~0.9 GW plant consisting entirely of 75 MWe modules, this would cost more than $2.6 billion at ~$220 million per module. A 1.2 GW plant consisting of 24 50 MWe modules could cost up to $3.5 billion. This also does not include future opportunities Oklo is working on such as its fuel foundry and recycling business — management has said recycling will require more capex than the fuel foundry, without putting a specific number on either. 

Oklo has explained previously that they do not expect to fund every project 100% in full on their own. Last year, management stated that “over time, we expect to utilize Oklo's equity in the form of cash on the balance sheet to finance anywhere from 25% to 35% of our projects with the remaining 65% to 75% being financed potentially through a mix of budget financing, tax equity structures and the DOE's loan program office.” This could significantly lengthen Oklo’s cash runway and lessen shareholder dilution, though it will still likely need more cash. 

For its entire backlog, capex requirements could be as high as $35 billion, or ~50x its current cash balance. Assuming Oklo funds 30% of this backlog on its own, it would still require up to $10 billion in cash, which may necessitate immense capital raises or revenue pre-payments from long-term PPAs to help fund future builds.  

Regulatory Progress Continues 

Much of Q1’s earnings call Q&A was centered around regulatory progress, primarily updates to Oklo’s COLA and its fuel recycling ambitions.  

Oklo is pursuing a custom combined license application (COLA) process, and it plans to submit the COLA to the NRC this year. Oklo’s COLA covers all of the design, construction and operation of its first commercial plant. Unlike other regulatory pathways, Oklo says the COLA provides a much faster review time, between 24-36 months, compared to ~48-72+ months for other developers.  

Source: Oklo 2024 Shareholder Letter 

For subsequent deployments, Oklo notes that the S-COLA application could range between six to 18 months, with the company noting that timing will likely be determined by on-site specifics. Analysts questioned the timeline given the recent design upgrade to 75MWe, and how this process would work if customers want a different size.  

CEO Jacob DeWitte said that “pretty much everything we're really doing is at a 75 MWe size range. That kind of is the generalized design. And then, if we flex down from that, it's just because there's a customer need or specific need to do so. … So, really just think of it as a kind of a consolidated single platform that we build off of from the licensing side.”  

He further clarified that if a customer wants a 60 MWe plant, it would be the exact same design, the exact same plant, with Oklo simply “underrating it and running it at a lower power level.” This smooths out the regulatory process by keeping all designs under the same licensing while still providing flexibility in deployments.  

Executives also commented on the regulatory process for its fuel foundry, given that it is expected to support its ramp phase via fuel recycling and production. They said that they expect a full application review to take between 24 to 30 months, potentially up to 36 months depending on the amount of infrastructure needed. Bringing this fuel foundry facility online as near to the ramp as possible is critical given that fuel is the primary limitation to scaling deployment and fulfilling its pipeline. 

Financials – Revenue Ramp Years Away, Long Road to Breakeven 

As a pre-revenue startup still firmly in its R&D phase, with no commercial deployments expected until 2027, Oklo’s financials are focused primarily on liquidity. This is especially important given that 2021’s SPAC frenzy failed to finance numerous startups in similar capital-intensive industries such as EVs, where cash runways were not long enough to support a viable path to market. 

Revenue Estimates 

Oklo is expected to remain pre-revenue from its reactor business until at least 2027 to 2028, though it is expecting some potential revenue as early as 2026 from its recent acquisition of Atomic Alchemy from radioisotope sales. 

Analysts currently forecast Oklo to generate no revenue in 2025 and 2026, with just $13.3 million expected in 2027. Further out, analysts are expecting a rapid ramp in revenue, projecting 140% to 193% YoY growth each year through 2031. These forecasts assume that Oklo reaches commercialization and begins to ramp customer projects and deployments accordingly, with no delays or headwinds. Given the long-term duration and potential for deployment timelines to shift, it’s important to treat these estimates with a high degree of caution. 

Oklo is currently planning to bring its first Aurora powerhouse online in late 2027 to 2028, with initial revenue streams limited in size. Since its strategy entails operating the reactors as a power plant and selling power directly to customers via 20-year to 40-year PPAs, it will take time for revenue to scale as energy output scales.  

Additionally, Oklo provided a short update on Atomic Alchemy and initial growth prospects in Q1, after it closed the acquisition in February 2025 in a $25 million, all-stock transaction. Oklo expects Atomic Alchemy to have a minimal impact on operating expenses in 2025, planning to only make some small investments (less than $500K) in lab equipment to support a first radioisotope demonstration project this year. Oklo says that it is expecting potential first revenues from the demo project as early as Q1 to mid-year 2026. This builds into the second project, a commercial four-reactor Versatile Isotope Production Reactor (VIPR) facility expected to begin operating in 2028.  

Operating, Net Loss and EPS 

Oklo reported an operating loss of ($17.9) million in Q1, widening from a ($7.4) million operating loss in the year ago quarter. R&D expenses rose more than 114% YoY to nearly ($7.9) million, driven by increased payroll from a higher R&D employee headcount. G&A expenses were ~($10.0) million, up 170% YoY primarily from increased headcount, SBC and other costs. 

Net loss for Q1 was ($9.8) million, improving by ~59% YoY from ($24.1) million in the year ago quarter. The disconnect between operating and net loss was due to $3.7 million in interest income earned on cash in the quarter and a $4.4 million income tax benefit.  

This corresponds to a ($0.07) loss per share in Q1, ahead of the ($0.10) consensus estimate. EPS is expected to widen slightly throughout the rest of the year as Oklo begins to ramp up spending.  

Oklo is far from reaching its breakeven point, given that it still must progress with initial R&D to reach a commercialization point, and work to scale its business thereafter. This will require significant investments and spending over the next few years, especially considering the construction and capex costs discussed previously.   

Analysts expect Oklo to reach breakeven in late 2029 to 2030, though like its revenue forecast, this must be taken with high caution. Any delays in ramping, a slower ramp trajectory, or loss of customers could easily prolong the path to breakeven given the high construction and operating costs per each powerhouse.  

Cash Burn and Liquidity Profile 

Oklo has a solid liquidity profile currently, with a rather lengthy cash runway based on current burn rates. However, costs are likely to ramp up as Oklo nears commercialization in 2027 to 2028, placing the emphasis on further funding needs.  

Oklo stated that its Q1 cash burn rate remained on track with its expectations, with $12.2 million in cash used in operating activities. This corresponds to an annualized cash burn rate of ~$49 million. 

 For FY25, Oklo is forecasting $65 to $80 million in cash used in operating activities, up from $38.4 million in FY24. This forecast suggests quarterly cash burn and thus annualized burn rate will accelerate into year end, given the lower spend in Q1.  

As of Q1, Oklo reported $260.7 million in cash and marketable securities, with $90 million of that in cash. Based on Q1’s cash burn rate, this implies a cash runway of ~21.3 quarters. However, Oklo recently closed a $440.6 million share offering in mid-June, bringing its cash balance to $701.3 million, excluding cash spent in Q2. This significantly boosts Oklo’s cash runway, likely to >35 quarters as of Q2.

Another way to view Oklo’s liquidity profile is to compare cash to expected losses per share until breakeven. Current analyst estimates point to cumulative losses of ($2.24) per share at the midpoint, while the low end points to ($3.01) at midpoint. The recent share sale will likely boost cash per share to ~$4.80, suggesting that Oklo’s liquidity profile remains healthy and should support its path to initial commercialization. However, future dilution and capital raises cannot be written off.  

Quick Note on Cash Flow Sensitivity 

Given that Oklo is a SPAC combination, it’s important to touch upon some of the financial projections displayed during the time of its merger, as other post-SPACs in capital-intensive industry, most notably Lucid Motors, failed to reach these targets. 

Below is the cash flow sensitivity forecast Oklo provided at its Investor Day in February 2024.   

Source: Oklo 

Based on these projections, Oklo is forecasting $8 million in cash flow per 15 MWe module at small scale, rising ~5% to $8.4M per module at a much larger 125 deployment scale. This projects out to an 11-12% cash flow margin per module. 

For the 50 MWe, Oklo projected much higher margins, at $27 million per module, remaining here regardless of scale. Based on expected costs of ~$145 million, this represents an ~18.6% cash flow margin. Uprating to the 75 MWe design likely allows Oklo to better meet customer needs as data centers scale beyond 500 MW, while also providing more attractive unit economics on a cash flow basis. 

However, the main caution here is that these cash flow targets are likely to be far in the future. The $750 million cash flow projection assumes 45 modules deployed, which could take the better part of the next decade to reach given its ramp may not occur until 2030. This also plays into Oklo’s valuation – working with the projections given, investors are paying more than 10x that $750 million cash flow today, many years before Oklo even reaches that level.  

Valuation Presents High Execution Risk 

Given the timing of Oklo’s revenue ramp with a majority of growth concentrated beyond 2030, Oklo’s $7.8 billion valuation opens the door to a high level of execution risk. Any slight delays in commercialization or ramping could significantly push back this growth curve, and thus delay profitability and cash flow growth.

For example, Oklo was aiming to have its INL plant reach commercial operation as soon as 2026 as of last year, but now that timeline has been pushed back to 2027 to early 2028. Any further delays present a real risk to growth by delaying its ramp.  

Based on current analyst estimates, Oklo is valued at more than 30x FY30 revenue, and this assumes it reaches commercialization on time, successfully ramps production, and records three consecutive years of >140% YoY revenue growth. This valuation does not include any potential dilution, and the forecast does not consider potential limiting factors such as fuel supply, raw material costs, or customer preference shifting to immediate-term power solutions.  

Conclusion 

Oklo is a speculative, high risk play on nuclear’s resurgence and role in serving surging AI data center power demand. Analysts are forecasting multiple consecutive years of triple-digit revenue growth backed by a massive demand pipeline, but its valuation at >30x FY30 revenue is a hard pill to swallow as it embeds a flawless execution and ramp curve. 

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Bloom Energy: Strong Q1, FY Revenue Guide Maintained with Confidence

Posted on May 1, 2025June 30, 2026 by io-fund

Bloom Energy reported a solid Q1 beat, with revenue rising 39% YoY and Q1 positive adjusted EPS for the first time ever. Margins expanded strongly YoY, across all reportable segments, and management maintained its guide for a ~29% adjusted gross margin, implying more potential margin growth ahead. 

The company reiterated their full year guidance, with many comments in the Q&A that showed a level of confidence that will be rare this earnings season. Management stated their sourcing is not dependent on China, their demand is expected to be unwavering in the face of tariffs, and their competitive positioning is second to none for on-site power as data centers continue to face a dire power situation that must be augmented with systems that avoid a “monolithic failure of one unit.” 

Overall, Q1’s growth and FY25’s guide reflects improving fundamentals for Bloom, though they are still far from GAAP profitability. 

Revenue Growth Exceeds Estimates at 39% YoY 

Bloom delivered a record Q1 with 38.6% YoY revenue growth to $326.02 million, more than 11% ahead of the $293.35 million consensus estimate for 24.7% YoY growth. Revenue growth historically has been lumpy, but the 39% growth was a solid improvement from last year’s (-14.5%) YoY decline, benefiting from project timing.  

Management stated that they expect revenue to be weighted in the back half of the year, with approximately 40% in 1H and 60% in 2H. This is currently reflected in quarterly revenue estimates, with Bloom expected to see sequential growth each quarter to exit the year at $621 million in Q4. 

For FY25, management maintained its revenue guidance between $1.65 to $1.85 billion, for YoY growth of 19.1% at midpoint. According to the opening remarks, management is expecting a 40/60 split on revenue with slightly more revenue recognized in the second half.  

The CEO used the word “confident” in many instances when discussing the full year guidance, such as this: " So, we stand by those numbers. We wouldn't likely reiterate that guidance if we didn't have strength in our conviction. So, it's a strong conviction that we can represent it. So, how we do it is internal to us, but the what we will deliver is what I can state with conviction to you. So, that's the key part that I want you to understand in terms of where our guidance is.” 

Key Segments

When discussing end markets, Bloom Energy went into detail in the opening remarks to state they foresee no changes to AI data center demand. For example, even if capex were to slow, Bloom foresees AI data centers continuing to increase spend on power: “Even down the road, should there be a slowdown in the pace of investing, the total gigawatt gap is so large that it will not have a meaningful impact on Bloom's growth in this market.” They also detailed that Commercial and Industrial end markets would also have to continue spending on power. The pocket of weakness that BE foresees would be in the retail space, such as a “stretch out of decision-making cycles.” Ultimately it was stated that, “Based on the bottoms-up customer-by-customer forecast in these three segments, we remain confident in our previously provided 2025 revenue guidance.” The translation is that AI data centers can absorb any slowdown from the retail end market. 

  • Product revenue, from fuel cell systems sales, rose 38.1% YoY to $211.8 million, compared to a (21%) YoY decline in the year ago quarter. 
  • Installation revenue, when Bloom is ready for startup and commissioning new systems, surged 194% YoY to $33.7 million, supporting commentary that project timing aided the quarter’s performance. 
  • Service revenue declined (5.2%) YoY to $53.6 million. 
  • Electricity revenue rose 92% YoY to $27.0 million. 

Gross Margins Show Strong YoY Expansion 

Notably, gross margin has expanded more than 1,000 basis points from 17.5% last year to 28.7% this year. All four of Bloom’s segments reported positive GAAP and adjusted gross margins: 

  • Product adjusted gross margin of 35.0%, up 930 basis points YoY.  
  • Installation adjusted gross margin of 3.8%, up more than 3,300 basis points YoY. 
  • Service adjusted gross margin of 4.8%, up 340 basis points YoY.  
  • Electricity adjusted gross margin of 57.1%, up more than 2,500 basis points YoY.  

For the full year, management held its 29% adjusted gross margin guide, implying some further strengthening though the remainder as the year as seasonal revenue strength begins to kick in. 

Adjusted operating income posted a turnaround at $13.2 million compared to losses of ($30.7 million) last year. Adjusted operating margin was 4.0%, versus (13.1%) in the year ago quarter. Full year adjusted operating income is expected to be between $135 million and $165 million, for ~39% YoY growth at midpoint. EBITDA was $25.2 million compared to losses of ($18.2 million) last year.  

While Bloom’s manufacturing is primarily US-based, management acknowledged that they import some materials and components, although not from China. Given the more geographically diverse 10% tariff in place, management expects up to a 100 bp impact to full-year gross margins if the current tariff structure persists throughout the year.  

With that said, Bloom Energy is maintaining their gross margin guidance this year with management stating they will find ways to absorb this from cost cutting: “So, we are going to take this externality and make it a challenge to find that 100 basis points and other activities we do and speed it up and not use tariff as an excuse to not meet our guidance.” 

Bloom Energy is not GAAP profitable yet, with a (5.8%) GAAP operating margin and a (7.3%) GAAP net margin, but this is certainly a strong beginning to what may be an important turnaround for the company. 

First Ever Positive Q1 Adjusted EPS 

Bloom reported its first ever Q1 positive adjusted EPS, earning a thin $0.03 this quarter. While Bloom is still expected to see positive adjusted EPS in each quarter of this year, estimates have been coming lower, especially for Q2.  

At the end of January, Q2’s adjusted EPS estimate sat at $0.05, before getting revised lower to $0.04 in February. Now, the estimate next quarter stands at just $0.01, with the low end of analysts at a ($0.12) loss, which would likely reflect broader macro-related weakness and margin softness as Bloom is not expecting a high degree of impact from tariffs.  

Cash and Balance Sheet 

Given revenue is lumpy and typically seasonally strong in Q4, Bloom’s negative cash flows are to be expected in the first quarter. However, cash flows did improve on a YoY basis. 

  • Operating cash flow was ($110.8) million in Q1, for a (34.0%) margin. This improved from a cash flow of ($147.3) million last year at a (62.6%) margin. For the full year, management is expecting operating cash flow to remain similar to 2024’s level at $92 million. 
  • Free cash flow was ($124.9) million in Q1, for a (38.3%) margin, improving from ($168.7) million last year at a (71.7%) margin. 
  • Unrestricted cash and equivalents totaled $794.8 million, while debt remained steady at $1.13 billion. 

Earnings Q&A: 

Confidence in Meeting FY Guidance: 

What stood out on the call was management’s willingness to discuss their high level of confidence in meeting fiscal year guidance. Not only did they go into detail as to how they will absorb any economic impact, but they also made it crystal clear they are not dependent on China. At one point, management even used the words “extreme confidence” stating: 

“So, we're super excited about this cycle. Extreme confidence in being able to meet those demands. And will certain projects shift in the short term? Maybe they will, but the amount of projects that get executed is plenty and enough given where we are for us to be able to meet the guidance. That's how we see it.” 

Given so few companies will be able to illustrate confidence in a fiscal year guide, I’d like to share one more quote from the call: 

“We have to book, build, ship and recognize revenue for a portion of our second half revenue in order to meet the guidance. Now, if we didn't have confidence in that entire process, including the bookings, and also timing, because timing means revenue recognition, we wouldn't be making this. So, very strong confidence based on everything that we see.” 

In terms of demand dynamics, they also shared that it’s no longer a question as to whether data centers need on-site power – this helps management to reiterate their guidance. 

“And let me explain a couple things here. The big shift, Andrew, that's happened in our business and I think it's worth taking the two extra minutes to explain this to you. It is — no longer do we see our customers, whether it is data centers or large factories, asking if on-site power is needed. That debate is over. The grid can only do so much in the short term, and without on-site power, people are not going to have power. That is no longer a question to us.” 

In terms of competition, BE pointed toward 30MW and 50MW microturbines as the primary competitor, yet also stated these are not ideal compared to hydrogen backup power. 

“There are many, many reasons why CCGT will not be a good choice for situations like this if they are not connected to the grid for them to load follow. And then, if they're not connected to the grid, remember, they have to be maintained, they have to be shut down, you cannot have a monolithic failure of one unit. So, if you build two of those to back it up, all those become super expensive.” 

Not Dependent on China: 

Part of the reason that Bloom can reiterate guidance is because the company has no reliance on China. After quite a bit of digging by analysts, it appears they literally have zero direct sourcing out of China that cannot be immediately sourced elsewhere.  

“We have two manufacturing and assembly facilities and they are both located in the United States. Our products are proudly made in America. Yes, we do import materials and components from abroad, but not from China. The majority of our material spend is in custom-made components unique to us, which give us control over pricing and sourcing. We have excellent long-standing partners and are jointly invested in each other's success. If the current tariff structure continues throughout the year, we expect to see up to 100 basis point impact on our gross margin for the year.” 

As discussed above, Bloom Energy plans to cut costs in order to aborb the 100 basis points, thus is not changing gross margin guidance this year. 

One analyst pushed about a disclosure in their SEC filings on the use of “scandium in your fuel cell ink coatings” yet management stated they will instead source this elsewhere. 

“So, the first thing for you to know is, like, number one, we are not dependent on China for scandium. I can state that very clearly. Okay. Number one. Number two, we get this from multiple geographies and multiple continents.” 

Taiwan is a Growth Market 

In the noisy backdrop about imports and tariff structures, it was interesting to hear a discussion from a United States company on how they will become an important exporter in the near term. In particular, Bloom pointed to Taiwan as a strong growth market as well as Europe. 

“And if you look at Asia, we are really targeting Taiwan in a major way because the entire AI supply chain, the amount of growth that's happening in Taiwan in the face of them — in the face of their grid not being able to grow fast enough and deliver power and rising costs of power out there and then — and them depending quite significantly on natural gas as their source of, like, energy, all that fits very well for us.” 

Additional Commentary on Deal Cycles 

There were two notable conversations about deal cycles on the call. The first is that for larger utility deals such as the AEP deal it takes about nine months for the Public Utilities Commission (PUC) approval process. The second comment was that Bloom expects implementation cycles to “shrink” the more that utility backup power becomes exhausted from the sheer number of AI data center buildouts. 

Conclusion: 

Bloom Energy had an excellent earnings report – the best I’ve seen yet, which is saying a lot as Big Tech earnings were exceptionally strong last night. The market reaction may not be aligned with this takeaway as there was a minimal response, yet if Bloom Energy continues on this trajectory, that is sure to change.  

The company reiterated its full year guidance while volunteering visibility into how they will achieve this, on top of a material turnaround in their fundamentals. They also offered commentary that matches what we presented in our Q2 webinar, which is that BE looks to be a rare yet important pocket of resilience in the tech sector.  

We will, of course, be monitoring for any changes. Ideally, the company would be GAAP profitable and lower debt, but this is not a quality (or value) stock – it's a momentum stock with the goal of capturing the strong and sudden trajectory of AI data center power consumption the I/O Fund is expecting to see over the next 1-2 years. In that regard, last night’s report was nearly a perfect 10.

Please note: The I/O Fund conducts research and draws conclusions for the Fund’s positions. We then share that information with our readers. This is not a guarantee of a stock’s performance. Please consult your personal financial advisor before buying any stock in the companies mentioned in this analysis.

Resources:

  • Bloom Energy Fuel Ceels for the Booming AI Data Center Trend 
  • Q2 2025 Webinar with Discussions around Pockets of Resilience
Posted in Data Center, Energy StocksLeave a Comment on Bloom Energy: Strong Q1, FY Revenue Guide Maintained with Confidence

AI Data Center Power Wars: Brown vs. Clean vs. Renewable Energy Sources

Posted on March 19, 2025June 30, 2026 by io-fund
AI Data Center Power Wars: Brown vs. Clean vs. Renewable Energy Sources
  • While traditional brown energy remains a significant energy source for AI data centers, clean and renewable energy continues to grow in capacity.
  • Goldman Sachs believes 40% of new data center capacity will be from renewables.
  • Hyperscalers and data centers are adopting a mixed energy portfolio, combining brown, clean, and renewable energy to balance emissions while ensuring 24/7 reliability.

As the artificial intelligence (AI) revolution drives the growth of AI data centers, the topic of energy continues to gain prominence. AI data centers cannot function without energy sources, and how that power is generated seems just as important as how reliable the power is. Energy sources are commonly labeled brown, clean or renewable. Goldman Sachs says AI data center power consumption demand is expected to grow by more than 160% by 2030 from 2023 levels. Let’s take a look at each of these sources and how efficient and reliable they can be for AI data centers.

What is Brown Energy?

For decades, the world has relied heavily on brown energy from fossil fuels like oil, coal and natural gas. These dominant fuels powered the Industrial Revolution and remain the primary sources of electricity for the grid today, with coal and natural gas generating nearly 60%.

  • Coal-fired power plants are some of the worst offenders as they release enormous amounts of carbon dioxide and greenhouse gases into the atmosphere. Thermal efficiency (TE) measures how effectively a fuel’s heat is converted into electricity. Coal has some of the lowest TE efficiency, around 33%.
  • Natural gas is the top fuel source for powering the electric grid at 43% and is cleaner than coal but still contributes carbon emissions when it's burned. TE is between 35% to 42% on a simple cycle gas turbine and up to 62% when using combined cycle gas turbines (CCGT), which use the exhaust heat to boil water in a steam turbine, adding the extra 20% to 25% TE.

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The environmental impact of burning fossil fuels has paved the way for the clean energy and decarbonization movement. The combustion process produces carbon emissions, which contribute to air pollution and climate change. As AI data centers consume massive amounts of electricity, they’re also trying to meet clean energy initiatives.

What is Clean Energy?

Clean energy has much less environmental impact, producing low to zero greenhouse gas emissions. It also generates less pollution and leaves a smaller carbon footprint. Some examples of clean energy are:

  • Solar power generates electricity using sunlight and photovoltaic panels with TE between 15% to 22%.
  • Wind power generates electricity by harnessing kinetic energy from the wind with turbines with mechanical efficiency (ME) between 35% to 50%; since they don’t operate on thermal cycles, there isn’t heat conversion.
  • Hydropower generates electricity from water flowing through turbines, again no thermal cycle but the ME is 85% to 95% since the momentum of the water converts to power with almost no loss.
  • Geothermal power uses the heat emanating from the earth’s core with a low TE ranging from 10% to 23%
  • Nuclear energy generates power through fission, heating water to create steam that drives turbines, with TE averaging between 33% to 37%.

For AI data centers, the most practical clean energy sources come from nuclear, solar and wind power. While the efficiency of hydropower is exceptionally high, it isn’t practical for data centers due to factors like heavy capex to build dams and reservoirs, environmental impacts and geographical limitations. Clean energy enables data centers to lower their carbon footprint and enhance their environmental reputation.

What is Renewable Energy?

Renewable energy comes from natural processes that are replenished at a faster rate than consumed, such as solar, wind, and hydropower. While renewable energy is typically clean, meaning it generates low carbon emissions, not all clean energy sources are renewable. For example, nuclear power is considered clean but not renewable.

While solar and wind power are renewable and clean energy, they aren’t available 24/7. They would require a battery (storage) system to match the 24/7 reliability of nuclear and natural gas. As for supply costs, renewable energy sources are actually cheaper than generating electricity from natural gas. According to a report by Goldman Sachs, solar energy costs $25 per megawatt-hour (MWh) compared to CCGT natural gas at $37/MWh. But there's a reason natural gas costs more: reliability.

“In practice, though, utility-scale solar plants only run around 6 hours per day on average, while wind plants run for an average of 9 hours per day. There is also day-to-day volatility in the capacity of these sources, depending on the radiance of the sun and the strength of the wind.” Solar is not effective during cloudy and overcast days, whereas nuclear and natural gas plants can run around the clock every day regardless of weather. Goldman Sachs believes that 40% of the new capacity built to support data center power demands will be renewables.

The Mixed Energy Sources Portfolio Approach

Many hyperscalers and data centers have adopted a mixed energy portfolio approach utilizing brown energy and clean or renewable energy to balance the emissions and maintain a green stance.

Goldman Sachs Infrastructure analyst Jim Schneider commented, “Our conversations with renewable developers indicate that wind and solar could serve roughly 80% of a data center's power demand if paired with storage, but some sort of baseload generation is needed to meet the 24/7 demand.” While the baseload power preference is nuclear, building them is just too difficult, which makes natural gas and renewables the most practical solution short-term.

The I/O Fund recently entered five new small and mid-cap positions that we believe will be beneficiaries of this AI spending war. We discuss entries, exits, and what to expect from the broad market every Thursday at 4:30 p.m. in our 1-hour webinar. For a limited time, get $20 off a Monthly Pro plan with code PRO20OFFget $20 off a Monthly Pro plan with code PRO20OFF [Learn more here.]Learn more here.]

Please note: The I/O Fund conducts research and draws conclusions for the Fund’s positions. We then share that information with our readers. This is not a guarantee of a stock’s performance. Please consult your personal financial advisor before buying any stock in the companies mentioned in this analysis.

Recommended Reading:

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Posted in Data Center, Energy StocksLeave a Comment on AI Data Center Power Wars: Brown vs. Clean vs. Renewable Energy Sources

Why Gas Pipelines Are the Unsung Heroes of AI Data Center Expansion

Posted on March 19, 2025June 30, 2026 by io-fund
Why Gas Pipelines Are the Unsung Heroes of AI Data Center Expansion
  • AI data centers could need up to 6 billion cubic feet of natural gas per day by 2030 to meet the industry’s rabid energy demand, up from near zero today.
  • Natural gas is the top fuel used to generate electricity in the United States.
  • Some of the largest AI data center projects are located in regions with the densest gas pipelines, like Texas and Louisiana.

Artificial intelligence (AI) data centers are thirsting to feed their growing electricity demands. While there have been a lot of headlines regarding hyperscalers choosing to go with nuclear, new buildouts are still years away. When AI data centers need power now, they are left with the obvious choice of using the electrical grid or setting up co-location deals powered by the nation’s most abundant fuel, natural gas. Natural gas is the top fuel source for powering the electrical grid, accounting for 43% of the power in 2023. However, that fuel has to reach the data centers and that involves pipelines, lots of natural gas pipelines. For this reason, natural gas pipelines are the unsung heroes of AI data center expansion.

AI Data Centers Will Need 3 to 6 Billion Cubic Feet of Natural Gas Per Day by 2030

An October 2024 report from S&P Global found that the additional demand for natural gas to support data centers could reach three to six billion cubic feet per day (bcf/d) by 2030 as the industry struggles to find power for AI data center buildouts. The shocking part is that this figure starts from nearly zero bcf/d today, rising to upwards of 6 bcf/d by 2030.

The Three Types of Natural Gas Pipelines Need for AI Data Centers

Between early 2023 and mid-2024, the U.S. natural gas pipeline infrastructure saw a slight growth across all 3 types of pipelines:

  • Gathering Pipelines are used to transport the natural gas (or crude oil) collected from the wellheads at production sites to a central collection point like a storage facility, a processing plant or a transmission pipeline. Gathering pipelines are the smallest in diameter and operate at low pressure and flow. Gathering pipelines increased 0.97% between 2023 and mid-2024 from 496,051 miles to 500,854 miles.
  • Transmission Pipelines are the larger pipelines that move high volumes of natural gas from the production and processing plants, storage facilities, and distribution centers. These pipelines operate at pressures up to 1,000 pounds per square inch (PSI) and range from a hundred feet to hundreds of miles. Transmission pipelines increased 0.58% between 2023 and mid-2024 from 361,945 miles to 364,030 miles.
  • Distribution Pipelines are the smaller pipelines that deliver natural gas to end-users like individual homes, businesses and facilities. These operate at low pressure and can be made of plastic pipe instead of steel as underground pipes to smaller service lines connecting to properties. These are regulated by the local distribution companies (LDCs) that use them. Distribution pipelines grew 1.14% between 2023 to mid-2024 from 103,897 miles to 105,082 miles.

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Location, Location, Location of Gas Pipelines is Key

AI data center construction tends to be concentrated in regions where gas pipeline infrastructure is densest. Here’s a breakdown of the top regions with dense and bountiful gas pipeline infrastructure:

Texas leads with over 58,500 miles of natural gas transmission pipelines. It’s the epicenter of the Permian Basin and connects to Gulf Coast liquefied natural gas (LNG) export terminals and petrochemical hubs. Project Stargate is the $500 billion joint venture investment by Oracle, Softbank and OpenAI to grow America’s AI infrastructure by 2029. Its first AI data center is under construction in Abilene, Texas. Oracle CEO Larry Ellison stated. “the data centers are already under construction here in Texas. Each building is half a million square feet. There are 10 buildings currently being built, but that will expand to 20 other locations beyond the Abilene location, which is our first location.”

Map of Texas highlighting dense natural gas pipelines, supporting AI data center expansion, including Project Stargate’s Abilene construction site.

Source: U.S. Energy Information Administration

Louisiana has over 18,900 miles of natural gas transmission pipelines. Meta Platforms announced it will be constructing a 2GW+ AI data center located in Richland Parish, Louisiana. The $10 billion project will be built on 2,250 acres, housing 4 million sq ft with nine buildings slated to be almost the size of Manhattan. Entergy will spend $3.2 billion to build a 1.5GW gas plant on Franklin Farms as part of a co-location deal and another build or acquire another 1.5GW of solar power elsewhere to offset the carbon emissions. Bitcoin miner Hut 8 is planning on building a $2.5 billion data center campus with two 450,000 sq ft facilities and investments up to $12 billion from future tenants. Initial deployment will be 300 MW at the West Feliciana Parish, Louisiana location.

Oklahoma has over 18,500 miles of natural gas transmission pipelines. Core Scientific and AI hyperscaler CoreWeave are building a 100MW facility in Muskogee, Oklahoma. Google has invested over $4.8 billion into its Mayes County, Oklahoma, data center campus, expanding it three times since 2007. DAMAC Properties is planning on investing $20 billion in data centers in the U.S., including in Oklahoma.

Fewer Pipelines in the Northeast Relative to the Southwest, But Not to Be Counted Out

The Southwest region dominates, with the top three states having the most gas pipelines. However, that doesn’t mean the Northeast region is deprived of data centers. Virginia is home to 70% of the world’s data centers and hosts 35% of the global hyperscalers. In fact, Northern Virginia is often cited as the “data center capital of the world," with over 300 data centers located throughout Fairfax, Loudoun and Prince William Countries. More than 70% of the world’s internet traffic passes through Northern Virginia's interconnection and co-locations infrastructure. Amazon, Google, Microsoft and Meta all have a significant data center presence in the region.

Natural Gas for AI Data Centers is Here to Stay

As AI data centers continue to scale, natural gas will remain a critical component in providing reliable power. Gas pipelines crisscrossing places like Texas, Louisiana, and Oklahoma, where the infrastructure is thickest, are quietly doing the heavy lifting to fuel these AI hotspots. As the demand for AI-driven services continues to rise, natural gas will remain a key player in supporting the growth of the data center industry, making natural gas pipelines the unsung heroes of the digital economy.

The I/O Fund recently entered five new small and mid-cap positions that we believe will be beneficiaries of this AI spending war. We discuss entries, exits, and what to expect from the broad market every Thursday at 4:30 p.m. in our 1-hour webinar. For a limited time, get $110 off an Annual Pro plan with code PRO110OFF [Learn more here.]get $110 off an Annual Pro plan with code PRO110OFF [Learn more here.]

Please note: The I/O Fund conducts research and draws conclusions for the Fund’s positions. We then share that information with our readers. This is not a guarantee of a stock’s performance. Please consult your personal financial advisor before buying any stock in the companies mentioned in this analysis.

Recommended Reading:

  • AI Data Center Power Wars: Brown vs. Clean vs. Renewable Energy Sources
  • Unlocking the Future of AI Data Centers: Which Fuel Source Reigns Supreme in Efficiency?
  • I/O Fund’s Top 10 of 2024
  • 10 Timeless Free Articles You Won't Want to Miss
Posted in Data Center, Energy StocksLeave a Comment on Why Gas Pipelines Are the Unsung Heroes of AI Data Center Expansion

Vistra Corp: Gearing Up to Power AI Hyperscalers with Nuclear and Natural Gas

Posted on March 14, 2025June 30, 2026 by io-fund
  • Vistra is an independent power product (IPP) with 41 GW capacity, operating the second-largest fleet of nuclear plants in the United States. 
  • Vistra has closed power purchase agreements (PPAs) to supply Amazon with 200 MW and Microsoft with 405 MW of renewable energy for their data centers in Texas and Illinois, respectively.
  • The Company is in talks with two unnamed hyperscalers for natural gas plants co-located with their data centers.
  • Co-location involves building data centers or power plants on-site to provide electricity directly to the data center, bypassing the electrical grid. This is known as "behind the meter."
  • Regulations on co-location builds are materializing as hyperscalers await the precedent-setting decision on Talen Energy/Amazon co-location reliability solution vs FERC/AEP/Exelon push for cost equity as a major catalyst.
  • Vistra has said they are in talks with hyperscalers and data center developers for nuclear power but hasn’t announced any deals yet.

Vistra Corp. (NYSE: VST) is the largest competitive power generation and retail electric company in the United States. It’s an integrated independent power producer (IPP) based out of Irving, Texas, serving five million customers across 20 states and Washington, D.C., with a power generation capacity of 41 GW (41,000 MW). It has the second-largest competitive nuclear fleet in the country, behind Constellation Energy. Texas is a hotspot for data centers and chip manufacturers. 

The company has power purchase agreements (PPA) with Amazon and Microsoft and is actively “speaking with all the major hyperscalers” and actively engaged with the major data center developers, according to Vistra CEO Jim Burke during their Q4 conference call. As of March 1, 2025, Vistra energy has 41 GW capacity, comprised of 27 GW for natural gas, 6.4 GW for nuclear, 6 GW for coal and 2 GW for renewable and battery/energy storage (1 GW), which includes solar assets with 350 MW already online.

The Energy Harbor Acquisition Bolstered Vistra’s Nuclear Footprint

On March 1, 2024, Vistra completed the acquisition of Energy Harbor Corp., adding an additional 4 GW of 24/7 nuclear generation and 1 million retail customers. The Company paid $3 billion in cash and a 15% equity stake in a new subsidiary comprised of all of its nuclear fleet (6.4GW) called Vistra Vision. The transaction closing followed receipt of all required regulatory approvals, including the from the Federal Energy Regulatory Commission (FERC) in February 2024.

In Q3 2024, the Company bought back the remaining 15% minority interest stake in Vistra Vision for approximately $3.248 billion from affiliates of Nuveen and Avenue Capital Management LLC. The buyback increased its nuclear ownership stake to the full 6.4GW capacity, not to be mistaken with adding any more capacity or increasing its licensed output (uprate). This results in keeping all the proceeds they were distributing to the minority stakeholders in Vistra Vision, which will result in a bump up in net income moving forward, however, they still have to pay $3.248 billion for it.

Vista expects to pay in five installments of $1.18 billion on December 31, 2024, $114 million on June 30, 2025, $1.0 billion on December 31, 2025, $54 million on June 30, 2026, and $900 million on December 31, 2026. The net present value of the purchase price as of December 31, 2024, discounted at a 6% interest rate, is $3.085 billion.

Complying with the Electrical Grid Operators and FERC

Here’s a quick summary of the many acronym organizations in the electricity market. As an IPP, Vistra actively deals with the electrical grid operators where they sell their electricity. Vistra sells wholesale electricity to markets managed by the PJM Interconnection (Pennsylvania, New Jersey, Maryland), which covers 13 states. PJM is an independent system operation (ISO) and regional transmission organization (RTO). They run the wholesale electricity markets for the regions, balancing the needs of market participants and ensuring grid reliability. They coordinate the flow of electricity from the power generators to local utilities.

ERCOT (Electric Reliability Council of Texas) performs the same ISO and RTO functions in Texas, managing high-voltage transmission grids. Texas is the only state that owns its power grid. ERCOT was the first ISO in the United States. Vistra also owns power plants and sells electricity to markets managed by ERCOT. The ISOs and RTOs are regulated by the Federal Energy Regulatory Commission (FERC).

Co-Location and BTM are Growth Drivers for Vistra

Front of the meter (FTM) refers to power produced by the power plants that flow to the electrical grid and then to the data center or customer. Behind the meter (BTM) refers to electricity that’s generated and directly delivered to the data center, bypassing the grid. Co-location deals where utilities like Vistra install gas power plants on-premise for the hyperscalers are BTM, as the power is generated on-site and delivered directly to the data center. Vistra can repurpose existing gas plants or construct new builds. BTM and co-location are Vistra’s AI hyperscaler growth strategy, but so far, there haven’t been any deals announced yet.

The time to power depends on the type of gas plant, whether it's repurposing an existing gas plant or constructing a new gas plant. Repurposing an existing gas plant can take six to 24 months, using spare capacity. New builds can take three to five years due to gas infrastructure, permits, construction and commissioning (IE, Building up to 860 MW of new gas plants in West Texas).

Vistra is a Nuclear Energy Powerhouse Primed for AI Data Centers

As of March 5, 2025, Vistra operates four active nuclear plants with a combined power capacity of over 6.4 GW, which is enough zero-carbon baseload capacity to power 3.2 million homes across PRJM and ERCOT markets. These include:

  • Camanche Peak Nuclear Power Plant located in Texas, comprised of two units with 2,400 MW total capacity, with licenses extended to 2050 and 2053, approved by the Nuclear Regulatory Commission (NRC) in July 2024.
  • Beaver Valley Nuclear Power Plant in Pennsylvania is comprised of two units with a 1,800 MW total capacity. NRC licenses expire in 2036 and 2047.
  • Perry Nuclear Power Plant in Ohio is comprised of one unit with a 1,300 MW capacity. NRC license expires in 2046.
  • Davis-Nesse Nuclear Power Plant in Ohio is comprised of one unit with 894 MW capacity. NRC license expires in 2037.

Beaver Valley, Perry and David-Neese Nuclear Plants were acquired from Energy Harbor for $3.4 billion in March 2024. The nuclear plants are operated under Vistra Vision, and the fossil fuel segment operates under Vistra Tradition. Nuclear energy comprises just over 15% of its total energy production. Vistra Energy’s nuclear fleet operates at 92% of its maximum capacity (aka capacity factor) in Q4.

Nuclear Energy and Gas Power Plants Talks with Hyperscalers

Vistra signed a 200 MW power purchase agreement (PPA) with Amazon for a Texas solar facility in October 2024. Vistra signed a 405 MW PPA with Microsoft for a solar project in Illinois during Q3 2024. Incidentally, Vistra hasn’t announced any major nuclear power purchase agreements (PPA) with major hyperscalers yet. However, the Company is in early discussions with some hyperscalers about nuclear uprates and some new builds as well.

Co-location is the trend of building data centers or power plants near data centers to alleviate pressure on the electrical grid and reduce transmission loss to ensure maximum efficiency.

Vistra is in discussions with two unidentified hyperscalers to build new natural gas power plants co-located with data centers. During its Q3 2024 conference call, Vistra's Head of Strategy, Stacey Dore, said this.

“There's a lot of interest, obviously, in the nuclear side. However, we have ongoing conversations with several different development companies about a handful of our gas sites, both in PJM and in ERCOT. And we're in early discussions with some of the hyperscalers about nuclear uprates, and some new build as well as Jim mentioned. And then, finally, we're in discussions with two particular large companies about building new gas plants to support a data center project.”

Diore also cautioned that these talks aren’t an overnight decision, “As we've said before, the diligence process for these deals takes a long time. It's an intense effort because these are very long-term commitments to purchasing power.” The announcement if and when these two hyperscalers closed the deal should be a catalyst for the stock.

How Natural Gas is Used to Generate Electricity

Vistra generates 66% or 27 GW of its energy capacity from natural gas using gas-fired power plants. The primary method for large-scale natural gas generation (1MW or more) is combined-cycle gas turbines (CCGT), which connect a gas turbine with a steam turbine. The natural gas is burned in a combustion chamber with compressed air to spin the turbine connected to a generator producing electricity. The exhaust heat can climb up to 1,000 degrees Fahrenheit, which is used to boil water to generate steam, driving a second turbine to generation addition electricity.

Simple-cycle turbines operate with just the natural gas turbines, without the steam turbines. Natural gas combustion turbines generate 35% to 42% of direct electricity. The steam turbines add another 20% to 25%, yielding total thermal efficiencies between 55% to 67%, which is the energy output vs fuel input. As natural gas is delivered through pipelines, around 92% is actually delivered, as 8% energy loss is common. Coal plants yield around 33% thermal efficiency. Nuclear plants yield 33% to 37% thermal efficiency, similar to or slightly better than coal. The main difference is the carbon emissions, which are virtually none, making nuclear the cleanest option of the three.

On a smaller scale (325 KW), we wrote about how Bloom Energy Servers (BES) can reach 85% to 90% thermal efficiency through its non-combustion, electrochemical reaction method using solid oxide fuel cells and heat capture. 

“BES is designed to work with existing carbon capture utilization and storage (CCUS) and combined heat and power (CHP) technologies. CCUS mitigates emissions from natural gas as BES generates a pure stream of CO2 that can be used or sequestered. CHP allows the exhaust heat generated by BES (operating at a core temperature of 1,500 degrees Fahrenheit or 800 degrees Celsius) to be channeled and made available for use, further increasing the efficiency of the system.“

AI Applications are Driving AI Data Center Power Needs

AI applications require much more electricity to operate, depending on the applications. AI training and inferencing drive power demand, “Wells Fargo is projecting AI power demand to surge 550% by 2026, from 8 TWh in 2024 to 52 TWh, before rising another 1,150% to 652 TWh by 2030. This is a remarkable 8,050% growth from their 2024 projected level. AI training is expected to drive the bulk of this demand, at 40 TWh in 2026 and 402 TWh by 2030, with inference’s power demand accelerating at the end of the decade. In this model, the 652 TWh projection is more than 16% of the current total electricity demand in the US.”

As IO Fund pointed out, “The Electric Power Research Institute forecasts that data centers may see their electricity consumption more than double by 2030, reaching 9% of total electricity demand in the US. The IEA is projecting global electricity demand from AI, data centers and crypto to rise to 800 TWh in 2026 in its base case scenario, a nearly 75% increase from 460 TWh in 2022. The agency’s high case scenario calls for demand to more than double to 1,050 TWh.”

Vistra Leverages Clean Energy Tax Credits and Incentives

Vistra currently does and could leverage many forms of energy credits to help squeeze every bit of margin. Its customers can also benefit from tax credits under these programs. Here are some of the most lucrative credits:

  • The Inflation Reduction Act (IRS) of 2022 introduced a Nuclear Production Tax Credit (PTC) of up to $25 per megawatt-hour (MWh), which runs for 10 years through 2032 for facilities in service prior to January 1, 2023. The PTC kicks in went prices are below set limits. Vistra recognized a $545 million benefit from the nuclear PTC in Q4 2024.
  • The Investment Tax Credit (ITC) was extended by the IRA through to December 31, 2024, under section 48, offering a 30% credit for projects started prior to then with up to four years to go online. New projects starting on January 1, 2025, and after shifts to section 48E, the Clean Electricity Production Credit, which applies to zero-emission projects through 2033
  • The Clean Electricity Production Tax Credit (PTC) under section 48E replaced the traditional PTC with technology-neutral clean electricity PTC, which offers up to 2.75 cents per kilowatt-hour (kWh). Projects that begin construction before 2033 and meet wage/apprenticeship rules can receive the credit. Vistra can receive PTC for any upgrades (capacity increases) or new builds after 2025. It could have the potential for up to $50 million annually in solar and scaling higher with new projects. Vistra’s solar projects with Amazon (200 MW PPA) and Microsoft (405 MW PPA) are likely claiming the ITC of 30%, which covers installation costs. It’s 600 MW planned battery story planned in Texas also qualifies. Nuclear uprates could also apply if started post-2025.
  • The Energy Community Tax Credit Bonus adds a 10% tax credit (10% points) to the existing ITC for projects in energy communities and areas with close coal plants/mines. Vistra operates in many former coal mining regions in Ohio, Pennsylvania and Texas.

The Trump administration has mentioned it plans to rollback many IRA provisions, which could cap or limit tax credits and incentives moving forward.

Financials: MTM Caused a Non-Cash Surge to Financial Metrics

Note that Q3 2024 shows a surge in net income to $3.465 billion, up 159% YoY from $1.335 billion in Q3 2023, driven primarily by unrealized mark-to-market (MTM) gains on derivative positions and the addition of Energy Harbor. This jolted various metrics, including gross and operating margins, GAAP EPS and gross profits. Still, since most of it was a non-cash gain, the operating cash flow didn’t surge proportionally. The mark-to-market gains were non-cash, but the addition of Energy Harbor gains were cash and are here to stay moving forward. Vistra expected $700 million in contributions from the Energy Harbor business for 10 months. The adjusted EBITDA excludes the impact of unrealized gains or losses on derivatives, which makes for a better measure of operating performance. CFO Moldovan clarified this in the Q4 conference call.

“Including the nuclear production tax credit, our adjusted EBITDA was more than $850 million above the midpoint and more than $600 million above the top end. Notably, the 10-month contribution from Energy Harbor, including the nuclear PTC, exceeded our $700 million expectation by approximately $200 million.”

Revenue is Lumpy, But The Energy Harbor Acquisition is Accretive

Q4 revenue rose 31.16% YoY but fell (35.8%) QoQ to $4.04 billion, beating the single analyst estimate by 3.2% or $124 million, driven primarily by the inclusion of results from the Energy Harbor acquisition and an increase in revenues due to the estimated nuclear PTC recorded in the quarter. The negative QoQ was primarily due to the surge in Q3 "driven primarily by unrealized mark-to-market gains on derivative positions."

Adjusted EBITDA from Ongoing Operations: Bypassing the MTM Noise  

Due to the MTM unrealized gains on derivatives, the adjusted EBITDA from the ongoing operations metric provides a more accurate picture of the operations. Q4 adjusted EBITDA from ongoing operations was $1.985 billion, up 104.2% YoY and 37.85% YoY. This was an improvement from Q3 adjusted EBITDA of $1.44 billion, down (10.73%) YoY and up 1.84% QoQ.

Net income for the full year 2024 increased by $1.32 billion, driven primarily by unrealized MTM gains on derivative positions, the addition of Energy Harbor and an increase in revenues due to estimated nuclear PTC recorded in Q4. Ongoing adjusted EBITDA for the full year 2025 increased $1.516 billion YoY primarily due to the inclusion of results from the Energy Harbor acquisition and estimated nuclear PTC recorded in Q4 2024. Full year 2025 adjusted EBITDA from ongoing operations was $5.656 billion. Management guided full year 2025 ongoing operations adjusted EBITDA of $5.5 billion to $6.1 billion, with the midpoint of $5.8 billion. Management has "high confidence" in an adjusted EBITDA midpoint opportunity above $6 billion in the full year 2026, as its hedge ratio has increased from 64% to 80% since Q3. 

The hedge ratio is the percentage of future (2026) expected electricity generation in megawatt hours (MWh) that is already locked in at a fixed price (IE, 80% is locked in at a fixed price) through derivatives like futures, options or swaps. The unhedged portion (IE: 20%) is exposed to market prices, which may rise, thereby raising EBITDA or potential fall and sinking EBITDA.

Margins: MTM and PTC Surge Q4 Improvement by 348.7%

Q4 gross margin was 39.6%, up 348.7% YoY and down (28.14%) QoQ, largely due to the MTM unrealized gains on derivatives, as mentioned earlier. The large YoY surge was due to the near doubling of gross profit to $1.6 billion in Q4 2024 compared to $850 million in Q4 2023, partially driven by the $545 million nuclear production tax credit (PTC), which reflects the full-year credit and the inclusion of results from the Energy Harbor acquisition. However, the jump was primarily based on a non-cash event, which investors shouldn't mistake for organic growth.

Lumpy Cash Flow as Debt Reaches Highest Level of 2024

Q4 cash flow reached $1.353B as operating cash flow rose to its highest level of five quarters at 33.5%. However, cash flow has been lumpy, ranging from $312 million in Q1 to a peak of $1.702B in Q3. Free cash flow closed Q4 at $923 million but was just as lumpy at ($153 million) in Q1, peaking at $1.017 billion in Q3 2024. Vistra closed Q4 2024 with $1.19 billion in cash and cash equivalents. The debt reached its highest level in five quarters, closing the year at $17.49 billion. Net debt to adjusted EBITDA is 2.9X. The Company plans on executing $2 billion in stock buybacks in 2025 and 2026.

Conference Call: Potential 10% Nuclear Capacity Increase by 2030

CEO Jim Burke reviewed 2024 events, including acquiring three nuclear sites and 1 million retail customers. They also completed a 20-year license renewal for the Camanche Plant nuclear power plant and secured Amazon and Microsoft PPA agreements with its renewables pipeline. The pre-Q&A can be summed up with the following:

  • Vista is in the early stages of the development of two natural gas peakers, power plants using natural gas during high demand periods, "peak times," totaling up to 860 MW of capacity. They are targeting mid-2028 for commercial operations.
  • Vistra continues to execute its zero-carbon growth strategy by leveraging existing land and interconnections to develop solar and energy storage projects opportunistically. They brought two solar and energy storage facilities online at its Coffeen and Baldwin, Illinois, sites. These facilities are part of the Illinois coal-to-solar and energy storage initiative. Vistra has begun construction of its Oak Hill, Texas, site for its contract with Amazon and the Pulaski, Illinois, site for its contract with Microsoft. Once they go online, it will add more than 600 MW of renewable capacity to Vistra’s portfolio.
  • Vistra has engineering studies in process with initial estimates indicating the potential uprates across their nuclear fleet of nearly 10%. Uprates increase a nuclear plant's power output without having to build new reactors. This can be performed with technology upgrades and improved turbines. It means they have the potential to add an extra 640 MW of additional capacity to their portfolio by the early 2030s when they expect to go online. This could equate to an extra $258 million a year at $50/MWh x 5.16 TWh, and even higher towards $361 million annually, with hyperscaler PPAs paying a premium of $70/MWh.
  • Texas policymakers are concerned about grid reliability and the challenges of accommodating rapidly growing energy demand, particularly from AI data centers. Despite these concerns, market reforms to incentivize new generations have been limited, raising worries among both generators and large-load customers, including data centers. While it's unclear if data center customers will alter their decisions during ongoing legislative discussions, there are potential solutions.
  • Vistra plans to spend $700 million on solar and energy storage products in 2025, which includes solar projects for Amazon and Microsoft.

Q&A: Gas Power Plants and Nuclear Plants for Data Centers

Analysts had tunnel vision during the Q&A; data centers. Right off the bat, Management was asked about the primary impediment to getting the deal done with the hyperscalers. CEO Burke responded that it’s not as easy as just signing a contract. The “flavor of the deal” matters.

Burke assured, “So you can assume that we're speaking to all the major hyperscalers and that we're actively engaged with them and the major data center developers. But there are flavors of complexity. So, the virtual PPA, which would be a front-ended leader, would be a relatively straightforward deal to execute. We have a number of discussions going on with those. Those do not offer, we think, the same margin potential as the more complicated deals, which do involve co-location, whether it's with existing assets or new assets.”

Burke further elaborated on co-location deals (colo-deals), which include risk-sharing for 10 to 20 years.

“And you've seen not many deals have been announced that have actually been co-location related. We think colo-deals offer a lot of benefits for not only the data center customer and our fleet but the market overall — the overall customer base because it not only provides speed to market for the customer but can also result in more transmission build-out that the grid absorbs today.”

Front-of-the-meter (FTM) power purchasing agreements (PPAs) with data centers are a lower-margin product. Burke elaborated that the highest margins come for co-lo deals offering speed to market using an existing resource. Burke noted that the sweet spot is understanding their value proposition.

The complexity of these deals has sparked elevated discussions in regulatory and policymaking circles, with FERC and Texas recently addressing co-location issues. As customers seek clarity on the rules, the timing of any announcements will depend on the resolution of these regulatory discussions in PJM and Texas. Although front-of-the-meter virtual PPAs are still a possibility, co-location deals—where the load and generation asset are close—remain the ideal. The company is actively engaging in these discussions and is optimistic about progress, though further clarity is needed before any deals are finalized. Burke said the Comanche Peak opportunity is considered the most attractive and fastest to execute in its portfolio.

Status of Gas Power Plants for Co-Located Data Centers 

Morgan Stanley analyst David Arcaro asked about the prospects of potential gas co-location. Vistra Head of Strategy Stacey Dore started by saying they are seeing interest in their existing gas sites from data center developers at this point. Since a grid connection is typically needed at a gas power plant, the regulatory approval process applies even for a front-of-the-meter interconnection, which adds more time and complexity, especially when adding batteries and other backup generators to replicate reliability. Their gas lines don’t have as much land associated with them as a nuclear site, so the challenge of where to build the data center exists but continued to say:

 “Having said that, we're progressing on a lot of those conversations on a handful of our sites in detail, working on agreements to bring those projects to fruition. And in addition to that, we are in a number of conversations about building new gas for data centers as well. So we have a number of conversations going on that are at the papering stage. And as Jim referenced earlier, those agreements can be complex, but we are optimistic about our ability to bring those projects to a close.”

CEO Burke believes a cap and floor and likely to be approved in the next two auctions. While some worry about the grid doubling by 2030, Vistra anticipates a more moderate peak demand growth in the 3% to 5% range rather than double-digit increases.

Talen/Amazon Deal will Set Tone for AI Data Centers and Colocation

The Talen and Amazon deal highlights the resource adequacy issue, sparking a conversation about whether co-location or transmission charges should be addressed. While co-location helps minimize strain on the electrical grid as electricity is funneled directly to the data center bypassing the grid, critics argue it actually deprives consumers of capacity while shifting transmission costs to them unfairly. American Electric Power (AEP) and Exelon made the case that Amazon was getting a “free ride” by co-locating adjacent to Talen’s Susquehanna Nuclear Power Plant and shifting up to $170 million in grid costs to their customers, while depriving them of electric capacity.

Vistra supports efforts to require customers larger than 75 MW to shed load during critical peak hours, and the customers they’re talking to are preparing their designs for this. But when the talk of remote disconnect switches arises, it's unusual and only would exist for these customers, which gives them pause.

Are Microgrids and Off-Grid Energy Servers the Solution?

Shedding loads during critical peak hours could be done through micro-grids. As IO Fund wrote in Bloom Energy: Fuel Cells for the Booming AI Data Center Trend Bloom Energy: Fuel Cells for the Booming AI Data Center Trend in the Discovery Tier, Bloom energy servers (BES) can be stacked. “The 325 kW base blocks can be duplicated and scaled up to multiple MWs for any project. They can also be used as the primary power source. They can be used off-grid or parallel as a microgrid. BES has a high density of 100 MW per acre.” The ideal has gained traction as evidenced by the game changer deal made with Bloom Energy and American Electric Power (AEP) to procure up to 1GW of Bloom’s solid-oxide-fuel-cells (SOFCs) for their hyperscaler customers.

Customers Waiting on Transmission Charges

Burke insists customers need clarity on transmission charges, which was a big choking point with Amazon and Talen. Amazon claims they shouldn’t have to pay transmission fees since their data center is co-located adjacent to Talen Energy’s Susquehanna nuclear plant. The data center would be powered behind the meter directly from the nuclear plant, bypassing the grid. However, FERC rejected the amended interconnection service agreement (ISA) to increase to 480 MW with a potential up to 960 MW. American Electric Power (AEP) and Exelon argued that diverting that much power would reduce the electricity available to the 65 million residents in the regional PHM grid, which could destabilize the grid, and shift up to $140 million in costs onto other ratepayers, essentially giving Amazon a "free ride." The case could set a precedent with co-location agreements around the country. Burke said this:

“They just want to know, are they going to get something that's commensurate with the transmission and grid utilization. These are revisiting potentially of the four coincident peak methodology. That probably does need revisiting because some customers are able to either reduce their load or turn on back up and minimize their transmission exposure, which means those costs go to other customers, including potentially residential customers. And since we serve nearly 5 million customers, we're sensitive to that as well.”

Seaport analyst Angie Storozynski bluntly asked management why they hadn't heard of any gas deals. Dore stated the co-location deals with existing assets are waiting on regulatory clarity as well. Whether gas or nuclear, regulatory clarity is what customers are waiting on.

“I mean the same uncertainty that is applying to behind-the-meter or co-located deals in PJM, for example, with the FERC proceedings, would apply whether the asset is nuclear or gas. Because the question really that's being asked is, what is the transmission charge, if any, that has to be paid on those deals.”

Vistra Expects FERC Clarity in the Second Half of the Year

Dore explained that Vistra isn’t waiting for full clarity from FERC or Texas before announcing deals, but ongoing legal proceedings (Amazon/Talon) are raising questions around risks like changing laws. The company is continuing work on projects like Beaver Valley and Comanche Peak, progressing without pause despite regulatory complexities. Jim Burke added that while co-locating load with plants raises concerns about grid adequacy, the company believes that co-location can benefit the grid by reducing transmission build-out and enhancing efficiency. Customers want to be seen as contributors to economic development, and co-location offers a faster market entry.

Despite regulatory delays, the company remains committed to advancing these discussions. Dore further noted that FERC's recent order sets a positive timeline for co-location and recognizes that there is no resource adequacy difference between front-of-the-meter and behind-the-meter loads. The challenge lies in balancing the customers' desire for fast deployment with policymakers' concerns about grid stability. The company hopes for clarity from FERC within the next 5-6 months to move co-location projects forward.

Conclusion:

Vistra is technically a utility company. Historically, these stocks have been considered defensive income plays due to their stagnant growth and consistent dividend yields. The AI boom has triggered interest in utility company stocks on a convincing thesis that power consumption is the chokepoint with AI. Utility companies will make more money with the explosion of power consumption driven by AI driven by data centers.

For utility companies, there are a number of ways to grow: acquisition (IE: Energy Harbor), rising energy prices (rate hikes), increasing capacity (uprates), increasing customers (IE: Energy Harbor = one million new customers), regulatory incentives (PTC, ITC, CEPTC, ECTC), cost reductions and new service offerings (co-lo). Co-location is the highest margin option with hyperscalers, but they are waiting on the Amazon/Talen FERC ruling in 2H 2025 to set a precedent on transmission fees and whether co-located data centers have to pay their share for grid maintenance and upgrades even without using the grid.

Vistra confirmed they are in talks with hyperscalers for co-location and new builds. However, they haven’t announced any nuclear PPAs so far or named the two hyperscalers getting gas plants. Announcements with hyperscalers will be a catalyst for the stock. Despite the stock being up 87% on a trailing twelve-month basis, the P/E is reasonable at 15.56.

Vistra was just a normal utility company until its announced the completion of the Energy Harbor acquisition on March 1, 2024, adding three nuclear plants and one million additional customers, this sent the stock surging from the $54.69 level gaining momentum on the AI data center “halo” as the markets turned to power producers as the next growth segment. Vistra announced Q2 earnings on August 8, 2024, revealing the two long-term PPA with Amazon and Microsoft, which were the first major hyperscalers they contracted. This sent VST stock on an upward trajectory from $80.46 to a peak of $199.84 on Jan. 23, 2025, just before the Q4 2024 earnings results, which triggered the downward trajectory as the Company only has two hyperscaler under contract (AMZN, MSFT), but are in talks with two hyperscalers for co-located gas plants. Investors put the cart in front of the horse, but shares are pulling back in time for the reveal of some more hyperscaler PPA news.

Investors should see how the stock reacts to announcements with hyperscalers, as it will either put in a new floor on the stock price or trigger a sell the news reaction as the AI “halo” dissolves. For now, it’s a waiting game for announcements and regulatory decisions.

Welcome to the I/O Fund’s new Discovery Tier, where we cover a new stock idea on a weekly or bi-monthly basis. We are excited to bring you more coverage from the I/O Fund team geared toward new idea generation only.

Jea Yu, Equity Analyst at the I/O Fund, contributed to this article.

Please note: The I/O Fund conducts research and draws conclusions for the Fund’s positions. We then share that information with our readers. This is not a guarantee of a stock’s performance. Please consult your personal financial advisor before buying any stock in the companies mentioned in this analysis.

Recommended Reading:

  • Bloom Energy: AI Data Center Demand Looks to Accelerate a Solid Growth Pipeline in 2025
  • Nova Limited: Riding the AI/HPC Wave with Advanced Nodes and Packaging
  • Monolithic Power Systems: A Back-Half 2025 Hyperscaler Story
  • Himax Technologies: A Future Key Player in Silicon Photonics
Posted in Data Center, Energy StocksLeave a Comment on Vistra Corp: Gearing Up to Power AI Hyperscalers with Nuclear and Natural Gas

Bloom Energy: AI Data Center Demand Looks to Accelerate a Solid Growth Pipeline in 2025

Posted on March 7, 2025June 30, 2026 by io-fund

Bloom Energy delivered solid Q4 2024 results, culminating in a top-line beat of $64.85 million and a bottom-line beat of $0.12 per share. Revenue surged 60.4% YoY in Q4 to close out the year with positive free cash flow for the first time since 2019. Adjusted operating margin tripled from last year. 2024 laid out the foundation for deals and revenue to accelerate in 2025. Notably, the game-changer deal with AEP was a large driver for Q4.

With that said, energy-related stocks have lumpy revenue, lumpy margins and lumpy cash. Admittedly, fundamental analysis is challenging in this sector as there are often government subsidies to also consider, deal sizes can be enormous yet infrequent, and things change suddenly depending on macroeconomics. Like crypto, due to being absent of reliable fundamentals,  technicals must be in the driver's seat for energy-related stocks, and investors should be prepared to have an active management stance.

The “Game Changer” AEP Deal up to 1 GW of Bloom Fuels Cells

According to Bloom, the company has key advantages by offering solid oxide fuel cells compared to other power solutions such as quick time to deployment, reliability, not needing backups, electrochemical (non-combustion) electricity generation, low to no carbon emissions and easy to obtain air permits.

The company also offers modular fault tolerant architecture, which we covered in the past stating: “BES uses core 325 kW base blocks customized to work in parallel with the local electric grid in standby or backup mode to kick in when the local power becomes unavailable. The 325 kW base blocks can be duplicated and scaled up to multiple MWs for any project. They can also be used as the primary power source. They can be used off-grid or parallel as a microgrid. BES has a high density compared to solar or wind of 100 MW per acre with features such as stackable servers and combined heat and power solutions. However, nuclear is in the kilowatts per acre, and therefore, is by far the highest density power solution.” Notably, Bloom Energy does not foresee nuclear being a true competitor until 2030: “I really don't think you're going to move the needle, between now and another eight years with nuclear.”

Due to these benefits, utility companies like AEP are contracting Bloom Energy to help serve the outsized power demands that AI data centers requires. We pointed out in our earlier coverage of Bloom Energy, the significant game-changer deal with American Electric Power (AEP) to “secure up to 1 GW of Bloom Energy SOFC for their data center customers and other larger energy users. AEP placed an order for the installation of 100 MW of fuel cells at customer sites, with further expansion orders expected in 2025.

AEP expects commercial load to grow 20% annually over the next three years, driven by data center development. The company is in the process of finalizing the first customer project agreements, and discussions are ongoing with several other customers. AEP’s hyperscaler customers include Google, Amazon, Microsoft and Meta Platforms.

  • AEP will purchase Solid Oxide Fuel Cells (SOFCs) from Bloom Energy with an initial order of 100 MW, with more expected in 2025, and integrate them into their customer energy systems, prioritizing AI data centers. Large customers will cover all costs for the fuel cell projects under a special contract. AEP will oversee deployment and installation at customer sites.
  • Bloom will supply the SOFCs to AEP, providing the core technology for on-site power generation. Bloom will likely offer ongoing support and maintenance services. “

AEP’s initial order of 100 MW at $3 per watt would equate to $300 million for the product hardware and $600 million of maintenance services over the following 20 years. The potential product sales for 1GW would equate to $3 billion with potential service revenues of $6 billion over 20 years. The potential total contract value of AEP’s 1 GW deal would be $9 billion over 20 years including products and services.

Bloom is in Talks with Other Utilities for Similar Deals to AEP

The company is using the AEP deal as a template for more deals with utility companies, who can provide Bloom’s solution for their customers. During the Q4 2024 conference call, Morgan Stanley analyst Andrew Percoco asked if they expect more deals like AEP’s with a large utility serving data center customers rather than directly to the data center.

CEO Shrider answered that Bloom Energy is not competing with the utilities but providing them with the ability to service their hyperscaler customers. He said this.

“This is KR and again on your first question, yes the answer is we are talking to several utilities who are interested in some kind of arrangements along the lines of what we announced with AEP. And it is A, they are realizing that no matter how fast they augment their transmission distribution system, no matter where generation happens or not, getting the power to the end customer, between now and 2030, is going to be a big issue unless you produce power where you need it.”

Revenue Rises to Record Levels in Q4 to Close Out a Record Full Year 2024

On Jan 12, 2025, the I/O Fund pointed out that Bloom Energy would need to have a big Q4 with revenue growing 67.8% YoY towards $598.5 million to achieve management’s mid-point guidance, which would imply a large chuck of product revenue being pushed out into Q4. Bloom Energy delivered close enough with 60.4% YoY revenue growth to $572.39 million, firmly beating the $507.54 million by $64.85M. The revenue spike was driven by collecting large receivables from their related party, SK ecoplant.

  • Q4 revenue grew by 60.4% YoY and 73.2% QoQ to $572.39 million, compared to the Q3 revenue drop of (17.5%) YoY and (1.6%) QoQ to $330.4 million. Nearly 40% of 2024 total revenue came in Q4. The Company received its large related party, SK ecoplant, receivable in the quarter. Bloom Energy also assisted them in selling a majority of the 73MW of energy servers they held as part of a delayed project.
  • Q4 revenue of $572.39507.54 million beat consensus estimates of $507.54 million by 12.78%, compared to Q3 revenue of $330.4 million, missing consensus estimates for $383.19 million by 13.78%.
  • Q4 Product and Service revenue surged 67.2% YoY to $525.5 million, compared to Q4 2023 Product and Service revenue of $314.4 million.

Full-year 2024 revenue rose 10.5% YoY to $1.474 billion. Product and Service revenues rose 12.1% YoY to $1.158 billion. Management provided full-year 2025 revenue guidance of $1.65 billion to $1.85 billion, midpoint is $1.75 billion for 19.1% YoY growth.

Key Metrics and Backlog

Bloom Energy closed out 2024 with a total backlog of $11.5B, down (4.96%) YoY, comprised of Product backlog of $2.5B, down (16.67%) YoY and Service backlog of $11.5B, down (4.96%) YoY. CFO Berenbaum pointed out that due to the supply agreement with SK ecoplant, the Product backlog would have been 30% higher, by $900 million, to $3.9 billion. This indicates the Company is seeing more demand for its products.

“We have $2.5 billion of product backlog. Excluding dynamics around our supply agreement with SK ecoplant, our product backlog would have been up roughly 30% year-over-year. As a reminder, at the end of 2023, we had extended the term of our SK ecoplant distribution agreement to the end of 2027, and increased their purchase commitment to 500 megawatts, all of which was included in our year ending 2023 backlog.”

Dropping Product and MW Accepted Metrics as of Q4

CFO Berenbaum noted on the Q4 2024 conference call that the Company is shifting focus away from earlier used metrics that measure kW shipped (IE: Products Accepted and MW Accepted).

Business has “evolved” as Product revenue is now recognized upon shipments, not acceptance as in the past based on grid-connected baseload power or timing of revenue recognition. The Company is now offering a broader range of solutions ranging from microgrids, carbon capture, AI data center solutions to combined heat and power systems, which provide more complex value to customers. Solutions go beyond just energy production and there the focus has shifted to traditional metrics like revenue growth, non-GAAP gross and operating margins, and cash flow from operations. Berenbaum said this.

“As we've discussed over the past few quarters, management is primarily focused on overall revenue, product revenue growth, non-GAAP gross and operating margin and cash flow from operations. In the past when we were primarily shipping grid connected, baseload power, and timing of product revenue recognition was somewhat divorced from timing of product shipments.”

Margins Consistently Expand in 2024

Q4 gross margin was 38.3%, up 47.8% YoY and 60.9% QoQ. This was an improvement over Q3 2024 gross margin of 23.8% versus gross margin of (1.3%) in Q3 2023. Gross margin improved on a sequential basis for Q3 gross margin improving 16.7% QoQ and Q2 gross margin improving 25.9% QoQ. Q1 gross margin fell by -37.4% QoQ from Q4 2023 gross margin of 25.9%.  Management guided the full year 2025 non-GAAP gross margin around 29%.

Non-GAAP gross margin rose to 39.3% in Q4, up 43.4% YoY and 14.1% QoQ. The operating margin turned positive to 18.3% in Q4, up from 3.6% YoY, and from (2.9%) in the previous quarter. Non-GAAP operating margin closed at a yearly high of 23.3%, compared to 7.7% in the year ago period and 2.5% in the previous period.

Bloom Energy drove another record year of double-digit core energy server product cost reduction, which benefits both Products and Services.

Non-GAAP EPS Rises Consecutively for the Fourth Quarter in 2024

Q4 non-GAAP EPS was $0.43, beating consensus estimates for $0.31 by $0.12 or 38.7%, rising 514% YoY from $0.07. This was an improvement over Q3 GAAP EPS of a loss of ($0.01), which missed consensus estimates for a profit of $0.08 by ($0.09), and fell from $0.15 in the year ago period.

Management hinted that Q1 2025 EPS could be up approximately 20% to 30% YoY. For the full year 2024, EPS was calculated using the basic outstanding share count of 227 million, compared to the fully diluted share count of 294 million.

Cash Flows Surge in Q4 Driven by SK Ecoplant Receivables Collection

The collection of SK ecoplant receivables helped operating cash flow surge to $484.23 million, marking the first positive quarter of operating cash flow in 2024. However, a large portion of the cash flow surge came from collecting the SK receivable which was speculated at $325 million by BMO Capital Markets analyst Ameet Thakkar, which is a one off.

Operating cash flow was down ($69.5 million) in Q3. The operating cash flow margin in Q4 was 84.6%, a vast improvement from -21% in Q3.

Free cash flow improved to $473.3 million from down ($83.76 million) in Q3. The free cash flow margin was 82.7% in Q4, up from down (25.35%) in Q3. Bloom Energy closed out Q4 and 2024 was $960.97 million in cash and cash equivalents and debt of $1.12 billion.

Growth By Segment: Products and Services Climb Out of a Hole in Q4

Bloom Energy revenues come in four segments. The largest segment is Product revenue generated from the sale of Bloom energy servers (BES) directly to customers through partnerships and preferred distributor agreements (PDAs). This segment can be lumpy but has been trending in the right direction, starting Q1 2024 with -27% YoY growth to 80% YoY growth by Q4 2024. Bloom Energy closed out 2024 with $2.5 billion in product backlog, excluding the supply agreement with SK ecoplant.

The Services revenue is less lumpy as these are comprised of maintenance contracts and performance guarantees. Extended maintenance contracts are received at the beginning of each service year. Payment comes in the form of a customer deposit that gets recognized over the service period. Q4 non-GAAP gross profit was $4 million in Q4, a vast improvement over a loss of $33 million in the year-ago period. Service was profitable on a non-GAAP basis in every quarter during 2024. Bloom Energy closed out 2024 with $9 billion of service backlog. The Company has a 100% attach rate of service with their product sales. Service contracts can range anywhere from five to 20 years, which is how the large long-term service backlog forms.

**Electricity is a $10 million segment and has been omitted due to being a small fraction of total revenue.

Valuation

Bloom Energy trades at a forward price/earnings (P/E) ratio of 51.72.

The price/sales (P/S) ratio is 3.41, forward P/S is 2.94.

The price-to-book value ratio is 9

The debt-to-equity ratio is 2.616.

Earnings Call:

AI’s $500 Billion Data Center Boom Is Stranded: Power Shortages Demand Urgent Action

The bottleneck with constructing AI data centers lies in the ability to secure the vast amount of power needed to operate them. Power availability is the chokepoint that dictates the entire ecosystem’s viability. Meanwhile, AI components like GPUs have a short shelf life that risks rapid depreciation if power isn’t secured quickly.

I/O Fund pointed out, “Nvidia’s upcoming Blackwell generation boosts power consumption even further, with the B200 consuming up to 1,200W, and the GB200 (which combines two B200 GPUs and one Grace CPU) expected to consume 2,700W. This represents up to a 300% increase in power consumption across one generation of GPUs with AI systems increasing power consumption at a higher rate.“

CEO Shrider gave an example with NVIDIA’s GPUS, “The earnings call from NVIDIA yesterday, okay. Whatever they shipped in that quarter, 90 days, if it were fully facilitized in a data center, will consume anywhere between 2 and 2.5 gigawatts of new power. That's the capacity that's needed. With the growth guidance that they gave you. You fast forward that for the next 12 months. That's just the chips coming from that one company. Fully facilitized will be somewhere in the range of 10 to 13 gigawatts. More than 50% of that is going to stay in the United States. That's more than 6 gigawatts. You're talking about $500 billion worth of infrastructure outside of power. That has to happen even at $5,000. Sorry, $5 billion in terms of facilitating that per gigawatt, that's less than 10%.”

Sridhar underscored the very real dilemma of rapid depreciation for the chips, while trying to secure power. Bloom’s customers are frantic about being able to secure power for this reason.

 “Let me make this very clear. You're spending more than $500 billion building a data infrastructure that needs power. If power is not available, and the chips you're installing there have a very short shelf life, because they become old, every year the value of that chip drops like crazy. So, the time to power premium is so high, and the cost of bringing that power, even if you pay the premium is worth every penny of it.”

This is where Bloom Energy Servers come into play offering “AlwaysON” continuous 24/7 power that’s independent to the electrical grid or used as a backup power source. A Bloom Microgrid can be installed to take primary control over critical loads and customize power delivery. Energy Server blocks are repeatable and scalable with the 325 kW base block, which can be duplicated and scaled to multiple MW for any project.

Time to Power is a Competitive Advantage and Purchasing Criteria

CEO KR Shridar emphasized the competitive advantages that Bloom brings to the table, one of which is the ability to bring clients online quickly. He stated this.

“Four years ago, most of our bookings took two to three years to deploy and convert to revenue. The majority of 2024 revenue came from deals that were both signed and recognized in the same year. I expect us to continue to deploy orders quickly, just as we did in 2024. Because for many customers today, the most important purchasing criteria, is time to power. They need reliable power and they need it now. Our Bloom solution, is purpose built to meet that need.”

The fear of data centers getting priority over commercial and industrial (C&I) companies with the utilities is causing them to seek out off-the-grid solutions as Bloom Energy provides. This just adds to the demand for Bloom’s solutions.

The Need for Less Infrastructure May be Beneficial in this Administration

President Trump has declared a national energy emergency. However, he favors fossil fuels and has vowed to end delays for federal drilling permits for oil and gas production. Trump has and is repealing many of the Biden era environmental agenda including modifying and cutting back the Inflation Reduction Act. However, Trump is a big supporter of AI infrastructure as evidenced by his promotion of the $500 billion Stargate project which is a joint venture between OpenAI, SoftBank, Oracle and MGX. The project will build AI data centers across the country to create jobs and enable AI innovation. Both of these factors play into Bloom’s wheelhouse. By promoting more natural gas production and infrastructure, it enables Bloom Servers to more readily access its most used fuel source, natural gas, as management stated.

“Gas is available, the infrastructure is there. And our solution, without needing to add additional transmission, distribution, and making the average ratepayer incur that cost, is going to be politically very attractive. For all those reasons, we think that that's a great market for”

ITC Credits to End in 2028 for Section 48 Projects Before 2025

Shrider also noted that Bloom’s customers, financiers and other commercial ecosystem partners have collectively secured the option to receive full investment tax credit (ITC) for future purchases.

He said this.

“They are entitled to 40% credits nationwide in light of our U.S. manufacturing and 50% credits in predefined energy communities. They can enjoy the tax benefits for systems placed in operation in the United States between now and the year 2028. This Safe Harbor, if fully exercised, has the potential to yield between $12 billion and $15 billion of gross product revenue to Bloom.”

Under commercial ITC section 48 which was extended to Dec 31, 2024, it allows for a 30% ITC base. There is a 10% when using U.S. made components and an addition 10% bonus if installed in “energy communities” referring to fossil fuel towns with high unemployment (IE: coal mining towns). These result in a maximum 50% ITC credit for projects that started pre-2025, which get a 4 year continuity window which is the Dec 31, 2028, deadline.

This means any of Bloom’s installations started or contracted in 2024 can claim the 40% to 50% ITC is the project is completed by 2028. New projects shift to Section 48E. The $12 billion to $15 billion in potential projects refers to the 1.2 GW installed base and new orders like the AEP deal. The $2.5 billion product backlog is the floor and the $12 billion to $15 billion is the potential ceiling.

Could this have possibly triggered a pull-forward effect on orders and the backlog for Bloom Energy? Very possible. It doesn’t impact Q4 revenues because Bloom only recognizes the revenue when shipped, not on orders placed. However, projects starting after Dec 31, 2024, fall under section 48E, which is the Clean Electricity Investment Tax Credit (CEITC).

This is a technology-neutral ITC introduced by the IRA to replace section 48. However, section 48E requires electricity generation or storage with zero emissions, which favors solar, wind, nuclear and batteries. It excludes natural gas, biogas, CHOP and non-electrical technology. Hydrogen fuel would qualify since there is no carbon emissions from that, but its not very cost effective.

CFO Dan Berenbaum covered the $2.5 billion in products and $9 billion in service backlog. He spoke about the shifting priorities now with the business model.

“As we've discussed over the past few quarters, management is primarily focused on overall revenue, product revenue growth, non-GAAP gross and operating margin and cash flow from operations. In the past when we were primarily shipping grid connected, baseload power, and timing of product revenue recognition was somewhat divorced from timing of product shipments.”

Question and Answering Session: Reading Between the Lines

Bloom’s Business Relies on Third-Party Financing

Bloom Energy’s business is very cash intensive and its ability to deploy its backlog is directly tied to its ability to secure project financing. Its pointed out in the 10-K filing, “We arrange financing for our customers’ purchases of our products based on certain conditions, such as their credit quality and the expected minimum internal rate of return on the customer engagement. If these conditions are not met, we may not be able to find financing for their purchases of our products, which would have a negative impact on our revenue in a particular period. If we are unable to arrange financing for our products, our business could be harmed. Additionally, certain financing options, as with all leases, are also limited by the customer’s willingness to commit to making fixed payments, regardless of the products’ performance or our performance of our obligations under the customer agreement. If we are unable to arrange future financing for any of our current projects, it could negatively impact our business.”

CEO Shridar pointed out how capital efficiency and their ability to reduce costs has helped, “So for 2025, so we are being pretty tight about how we manage working capital. We're being very tight around how we manage expenses. We are investing prudently in the right things for the business. And to echo KR's comments, as we've said before, we're quickly approaching about 1 gigawatt worth of manufacturing. We've talked about being able to triple that capacity for roughly $150 million. So as KR said, we're able to grow our capacity in a very capital efficient manner. And to be clear, we will do that when we see the growth.”

Revenue is Now Recognized on Shipments

Wolfe Research analyst Chris Senyek tried to get an idea of the shipments in Q4 from the AEP deal, trying to get a clue if all 100 fuel cells for AEP were shipped in Q4. CFO Dan Berenbaum didn't take the bait and stated they don't talk about the specific timing of shipments for specific customers. However, an interesting point was that their revenue recognition policy has changed from being recognized upon transfer of control to the customer when products are delivered, installed and accepted by the buyer, but now Berenbaum said this.

“Let me just get that out upfront. As I said, in general, we recognize product revenue on shipments that, you know, way back the company used to be divorced a little bit; we used to recognize more of our product revenue on customer acceptance. That shifted a while ago. So now in general, our product revenue is recognized on shipments.“

He added, “And using Bloom to do that is very advantageous for them, from a time to deployment permitting ease, reliability, not needing backups, are being air pollution free, therefore being able to get air permits. For all those reasons, they like our technology. And more importantly, if that growth is being driven by data centers, the reliability of our modular fault-tolerant architecture is unbeatable.”

RBC analyst Chris Dendrinos asked about a breakdown of the backlog between AI and C&I. While CFO Berenbaum bluntly said they were "not going to breakdown the components of the backlog specifically", CEO Shrider did provide some clues.

“I think, we've already given you that kind of numbers, is that roughly one-third of our deployed backlog of greater than 1 gigawatt is towards data centers. And what is happening is that sector obviously is growing a lot faster, than everybody else.”

CEO Shrider also added that Bloom Energy is not dependent on China for the supply chain when asked about tariff implications.

Natural Gas Infrastructure Favors Bloom Energy Servers

Colin Rusch asked an important question about natural gas infrastructure since most Bloom servers use natural gas (not hydrogen) as the primary fuel source. Rusch inquired how much of the backlog was dependent on the incremental execution of gas infrastructure put in place in 2025.

Management didn’t really have much of an answer, “Again, it is a big mix. When we look at quarter-to-quarter, what we implement it is about it like depends on how quickly the projects are ready. That's why we gave it, we give a range of numbers. It's not just whether we can build and ship, it is whether those projects are ready. In many places, it's available. In some places it takes months, and in other places it may be more than a year. So not a single answer to your question. It is across the board.”

Since most Bloom servers operate on natural gas, the infrastructure is important. Schrider talked about regions in the United States and access to natural gas. Very large installations are difficult to do in the Northeast (New York and Massachusetts) due to the lack of gas pipeline infrastructure. West Virginia and Pennsylvania have plenty of gas. He expects Virginia to be attractive and the Great Lakes in Michigan is a “sleeping giant”.

“Gas is available, the infrastructure is there. And our solution, without needing to add additional transmission, distribution, and making the average ratepayer incur that cost, is going to be politically very attractive. For all those reasons, we think that that's a great market for us going forward.”

While Gas Turbines Are Competitors, Nuclear is Not a Concern Until At Least 2030

The demand for onsite power has caused many data centers to turn to gas turbines, like the GE Vernova H-class, to power data centers near term, which is an alternative to Bloom. Natural gas turbines mix compressed air with natural gas ignited at temperatures exceeding 2000 degree Fahrenheit. The hot gas expands through rotating blades that spin the turbine to produce electricity. However, gas turbines emit a lot of carbon dioxide due to their combustion process, whereas Bloom energy servers produce an electrochemical reaction to generate electricity, with no combustion resulting in significantly less carbon emissions.

Management feels secure that they have a six to eight year before small modular reactors come to market. By then, hydrogen could also be more readily available as a economically efficient fuel source.

“We can't afford to wait for nuclear to come before we do AI. So that's what creates this opportunity for the next four to six to eight years. And for us, look, when nuclear comes, the hydrogen play becomes really interesting. Other things become really interesting. So we have pathways – where we can play with those dynamics,” said Berenbaum.

Mitigating Tariffs Headwind Impacts in 2025

When asked about input prices, supply chain and tariff impacts in 2025, Shridar acknowledges that tariffs are potential challenges in their attempts to reduce costs. Tariffs are an unpredictable factor that can impact their operations, but cost reduction is deeply embedded into its business model. This is exemplified by the consistent double-digit cost reductions for the past 12 years, excluding a year of the COVID-19 pandemic, through various methods. The Company recognizes the potential headwinds, but they can be mitigated with cost-reduction efforts relying on their supply chain.

“They come from various different mechanisms, from diversity of supply base, the geographies of where we procure our materials from the efficiency with, which we manufacture, the yield that we get, the engineering advances that we make, all those lead to a cost reduction. So while definitely tariff related issues can be a potential headwind for us, it's one of many factors and we as a company are committed to finding ways around, and still getting to cost reduction.” Bloom is also not overly dependent on China for its components, which offers resilience against potential geopolitical conflicts.

Conclusion: A Strong Growth Pipeline Can Bloom in 2025

Bloom Energy has a compelling story and after two decades, it appears like the stars are aligning for them. Their energy server costs continue to decline, leading to margin expansion. The AI data center boom is power hungry and the game changer deal with AEP enables them to partner with the utilities that are selling the electricity to the data centers. Time to power is definitely a competitive advantage for Bloom. They have demonstrated how they’ve cut time to power down from years to months. Natural gas infrastructure is also a key for them since most of their energy servers run on natural gas, and the United States is the world's largest producer of natural gas and liquefied natural gas (LNG).

Heat capture also boosts the efficiency of Bloom energy servers. We previously wrote.

“BES (Bloom Energy Server) is designed to work with existing carbon capture utilization and storage (CCUS) and combined heat and power (CHP) technologies. CCUS mitigates emissions from natural gas as BES generates a pure stream of CO2 that can be used or sequestered. CHP allows the exhaust heat generated by BES (operating at a core temperature of 1,500 degrees Fahrenheit or 800 degrees Celsius) to be channeled and made available for use, further increasing the efficiency of the system. The high-temperature exhaust stream can produce steam in addition to electricity, resulting in 90% lifetime total system efficiency by adding Heat Capture.”

It's also important to note the slight improvement in customer concentration expanding from their related party, SK ecoplant and SK Eternix. Customer concentration has improved. At the end of 2024, three customers accounted for 53% of total revenues, of which the related party SK ecoplant was 28%. This is a vast improvement from the end of 2023, where two customers accounted for 63% of total revenue, of which SK ecoplant accounted for 37%.

At the end of 2024, three customers accounted for 76% of total accounts receivables, of which its related party was 23%. This was a vast improvement from the end of 2023, where a single customer, related party SK ecoplant, accounted for 74% of total accounts receivables.

The potential 50% ITC for projects that started before 2025 are also a value proposition that provides a $2.5 million Product backlog floor and a $12 billion to $15 billion ceiling if fully exercised. Bloom didn’t mention much about the AEP deal and what amount of the 100 fuel cells were shipped in Q4. The dramatic revenue and cash flow surge was driven by collecting on SK ecoplant's account receivables rather than AEP orders. If this is the case, then the AEP deal provides a lot of upside in 2025, and management’s guidance may actually be a lowball.

Like the Chinese bamboo tree, 2025 may be the year Bloom Energy breaks ground and growth surges. The story gets more compelling.

Welcome to the I/O Fund’s new Discovery Tier, where we cover a new stock idea on a weekly or bi-monthly basis. We are excited to bring you more coverage from the I/O Fund team geared toward new idea generation only.

Jea Yu, Equity Analyst at the I/O Fund, contributed to this article.

Please note: The I/O Fund conducts research and draws conclusions for the Fund’s positions. We then share that information with our readers. This is not a guarantee of a stock’s performance. Please consult your personal financial advisor before buying any stock in the companies mentioned in this analysis.

Recommended Reading:

  • Nova Limited: Riding the AI/HPC Wave with Advanced Nodes and Packaging
  • Monolithic Power Systems: A Back-Half 2025 Hyperscaler Story
  • Himax Technologies: A Future Key Player in Silicon Photonics
  • Bloom Energy: Fuel Cells for the Booming AI Data Center Trend
Posted in Data Center, Energy StocksLeave a Comment on Bloom Energy: AI Data Center Demand Looks to Accelerate a Solid Growth Pipeline in 2025

Bloom Energy: Fuel Cells for the Booming AI Data Center Trend

Posted on January 13, 2025June 30, 2026 by io-fund

Key Takeaways:

  • As a utility-based stock, Bloom Energy has lumpy revenue – which is common in this sector. The stock requires strong risk management due to weak cash and not being profitable, however, the upside is immense should more large data center deals be announced.
  • The company has deployed 1.3 GW since 2001, yet announced in November a deal for 1 GW with the utility company AEP to power data centers. The deal announced in November will nearly double the company’s fuel cell deployment from one deal; evidence of the booming energy demand from AI data centers. AEP’s customers include Google, Amazon, Microsoft and Meta Platforms.
  • Bloom Energy has set the bar high for Q4 2024 earnings for growth of 67.7% versus analyst estimates for growth of 42.7%. Results are expected after the market close on February 14, 2025. The CEO and CFO reaffirmed guidance implying Q3 2024 had revenues pushed out to Q4 due to delays.
  • Bloom Energy is not profitable and is cash flow negative – hence, the first bullet point that this stock requires strict risk management (i.e., we will closely adhere to our stops). However, the company is nearing GAAP profitability with a margin of (-3%) last quarter and management has guided for adjusted operating profits of $75 million to $100 million for FY2024. The adjusted EBITDA margin last quarter was 6.5%.
  • Nearly 77% of accounts receivable come from just two customers, who are also related parties.

Bloom Energy Shows Initial Promise of Becoming Data Center-Fueled Stock

The Chinese bamboo tree remains dormant on the surface for five years after planting the seeds. While many farmers chalk it up as a waste of time, those who are believers eventually get rewarded as it can break ground and grow up to 90 feet tall in the following five weeks. What appears to be dormant on the surface overlooks the years spent developing its root system underground.

This metaphor applies to many companies that eventually transform into outliers. In Bloom Energy’s case, it would be more than two decades of dormancy that may be leading up to breaking ground in 2025.

Bloom Energy Inc. provides on-site 24/7 power generation using their proprietary solid oxide fuel cells (SOFCs). The SOFCs are stacked up by the hundreds to thousands in Bloom Energy Servers (BES), which enable the conversion of fuels like natural gas, biogas and hydrogen to electricity through a chemical reaction, not combustion, arguably resulting in less emissions.

Hydrogen and biogas fuel sources enable BES produce zero carbon or carbon neutral power. When BES are fueled with natural gas to generate electricity, they do emit carbon dioxide, but significantly less than through the combustion process. Natural gas is currently the primary fuel source for most BES due to the readily available supply of natural gas, established infrastructure and lower costs.

Bloom Electrolyzers are solid oxide fuel cell electrolyzers (SOECs) that can convert electricity into hydrogen, an important decarbonization tool in the energy transition. With that said, most of Bloom Energy Servers use natural gas as their primary fuel source.

Bloom Energy’s management emphasizes the following key points as to why hydrogen fuel cells are well suited as a power solution for AI data centers:

  • The time response of fuel cells is in the milliseconds. This is a primary point as to why Bloom Energy could secure future data center deals. Here is what management described as to the competitive advantages regarding time to power for fuel cells: “A big shift in our business today is time to power. We are providing solutions to meet the urgent needs of our customers who cannot fulfill their power needs from the grid. In these cases, we rapidly book, build, ship, install and power sites for our customers in a matter of months, a much faster timeline than a grid connection. Such rapid drill activities will necessarily come with timeline variances, both pull-ins and delays, and will affect our quarterly revenue line. You are seeing this in our Q3 numbers.”
  • Using high-temperature heat to provide cooling could become a key way to use hydrogen fuel cells in data centers. As pointed out by the Fuel Cell and Hydrogen Energy Association, excess heat from fuel cells can be used to cool servers.
  • Management also stated fuel cells are “pay-as-you-grow” are offer “high-power density” which makes them an economic choice. However, nuclear offers far more power density than fuel cells and thus this is not a primary point for choosing fuel cells over nuclear (in fact, it’s a primary reason to choose nuclear)

Rapid Deployment for Backup or Primary Power, or Utility Transmission:

BES uses core 325 kW base blocks customized to work in parallel with the local electric grid in standby or backup mode to kick in when the local power becomes unavailable. The 325 kW base blocks can be duplicated and scaled up to multiple MWs for any project. They can also be used as the primary power source. They can be used off-grid or parallel as a microgrid. BES has a high density compared to solar or wind of 100 MW per acre with features such as stackable servers and combined heat and power solutions. However, nuclear is in the kilowatts per acre, and therefore, is by far the highest density power solution.

BES can be purchased, customized and installed with ongoing maintenance and support contracts procured with a maintenance agreement or contracted as an energy service for five to 20 years under a Power Purchase Agreement (PPA) with a tolling rate. BES is compatible with utility companies as backup power or behind-the-meter as a more primary power solution.

Bloom Microgrids offer security and flexibility by running alongside the utility in grid-following mode, taking primary control over critical loads and customizing power delivery. During power outages, the BES briefly disconnects from the utility coming online in grid-forming mode, carrying the predetermined load set by the customer. The BES will maintain this load and resume grid parallel operation after restoring utility power.

Rapid Solution for Utility Transmission:

A few months back, our free analysis pointed toward a critical bottleneck in power consumption as GPUs are increasing in power consumption from 75% from the previous generation of Hopper GPUs to now a 300% increase in the next generation of Blackwell GPUs arriving in 2025. The analysis cited Morgan Stanley’s estimates of 5X increase in power demand over the next three years and Wells Fargo estimating growth of 8,050% from 2024 to 2030.

Bloom Energy pointed out an important aspect of fuel cells in clearing this bottleneck which is time to power, including for utility transmission.

Here is what was stated:

“Transmission in the U.S. is going to be a bottleneck for a very long time to come. So, our asset becomes both a transmission asset and an end-user asset. So, to help a utility mitigate the long cycles it's going to take them to get transmission to where they need to supply the power to their customer, a short circuit to that would be to use our box in front of the meter, not have to do transmission upgrades and supply large blocks of power to a customer.” 

Heat Capture Helps to Cool GPUs

BES are designed to work with existing carbon capture utilization and storage (CCUS) and combined heat and power (CHP) technologies. CCUS mitigates emissions from natural gas as BESs generate a pure stream of CO2 that can be used or sequestered. CHP allows the exhaust heat generated by BES (operating at a core temperature of 1,500 degrees Fahrenheit or 800 degrees Celsius) to be channeled and made available for use, further increasing the efficiency of the system.

Bloom Energy announced their SOFCs have reached 60% electrical efficiency while using 100% hydrogen. The high-temperature exhaust stream can produce steam in addition to electricity, resulting in 90% lifetime total system efficiency by adding Heat Capture. For example, the BES with heat capture includes applications that use a rear-door heat exchanger, which is one way to cool servers. Rear-door heat exchangers offer near-instantaneous cooling. Per Bloom’s website: “With the Heat Capture option, the exhaust heat exits the equipment at the back of the power module instead of the top and is easily transferred to a heat exchanger system.”

Bloom Energy Customers: AI Drives Up Energy Demand

The Gamechanger Deal: AEP Procures up to 1GW of SOFCs for Data Centers

November 15, 2024, Bloom Energy stock gapped 59% higher to $21.14 from $13.28 on news of a deal with American Electric Power (NYSE: AEP), a major utility company serving 5.6 million customers in 11 states with 29,000 MW of diverse generating capacity, to secure up to 1 GW of Bloom Energy SOFC for their data center customers and other larger energy users. The deal coined itself as the largest commercial procurement of fuel cells in the world. AEP placed an order for 100 MW of fuel cells, with further expansion orders expected in 2025.

While Bloom Energy provided no financial information regarding the deal, S&P Global Intelligence estimates the deal could be worth up to $7 billion in revenues if the full 1 GW is deployed. The initial 100 MW order from AEP is valued at around $1 billion (revealed in the Q3 2023 conference call). The AEP deal would accomplish 77% of the 1.3 GW total deployed by Bloom Energy in the past 24 years. The hype and hope have fueled Bloom Energy's stock into the $20s.

AEP is Finalizing the First Customer Project with More to Come

AEP expects commercial load to grow 20% annually over the next three years, driven by data center development. The company is in the process of finalizing the first customer project agreements, and discussions are ongoing with several other customers. AEP’s hyperscaler customers include Google, Amazon, Microsoft and Meta Platformshyperscaler customers include Google, Amazon, Microsoft and Meta Platforms.

  • AEP will purchase SOFCs from Bloom Energy with an initial order of 100 MW, with more expected in 2025, and integrate them into their customer energy systems, prioritizing AI data centers. Large customers will cover all costs for the fuel cell projects under a special contract. AEP will oversee deployment and installation at customer sites.
  • Bloom will supply the SOFCs to AEP, providing the core technology for on-site power generation. Bloom will likely offer ongoing support and maintenance services.

Bloom CEO and founder KR Sridhar commented, “I am delighted that there is strong market recognition that the Bloom Energy platform is the ideal choice for powering AI data centers. We are thrilled to be working with AEP as they lead the charge to bring innovative solutions to the transforming electricity market. With our proven track record of more than 1.3 GW deployed and a fully functional factory that can deliver GWs of products per year, we are ready and able to meet this rapid electricity demand growth."

Customer Concentration is a Concern: Two Customers Account for 77% of AR

As of September 30, 2024, two customers accounted for 77% of total accounts receivables (59% and 18%). The first is the related parties SK ecoplant and a Korean JV. Related parties account for $349.5M in accounts receivables for Q3 2024.

As of September 23, 2023, SK ecoplant held 23.5 million shares of Bloom Energy Class A stock representing 10.5% of outstanding shares, which makes them a related party, valued at around $566 million on December 22, 2023.

Three customers account for 68% of total revenue for Q3 2024, which includes 38% from its "related party" and 20% and 10% from two other customers. Related parties generated $126.6M in revenue in Q3 2024.

SK ecoplant and SK Eternix are subsidiaries of SK Group. SK Eternix was launched in March 2024. On November 7, 2024, SK Eternix and Bloom Energy announced the World’s Largest Fuel Cell Installation in HistoryWorld’s Largest Fuel Cell Installation in History in collaboration with SK Eternix for an 80MW installation looking to commence operations in 2025. The single-site installation will power two ecoparks in the North Chungcheong Province, South Korea.

SK ecoplant: A White Knight with Too Much Leverage

Bloom Energy states that it has incurred losses and negative cash flows since its inception. SK ecoplant (formerly known as SK Engineering and Construction Co.) was a large funder for the company. From 2021 to 2023, Bloom executed new debt offerings, debt extinguishments and conversions to equity (dilution) to grow liquidity to $842 million and $4.6 million in recourse and non-recourse debt at the end of December 31, 2023, classified as long-term debt.

December 22, 2023, SK ecoplant extended its preferred distributor agreement to commit to purchasing 500 MW of Energy Servers from Bloom Energy through 2027, expected to generate $1.5 billion in product and $3 billion in service revenues over 20 years for Bloom Energy. SK ecoplant has made $566 million in equity investment, owning 10% of the company.**

Bloom Energy’s Roster of Customers Are Well Known

Some of Bloom Energy’s well-known customers include Google (400 kW Mountainview, CA, in July 2008), FedEx, Yahoo (1 MW, Sunnyvale, CA, in July 2014), Adobe (1.5 MW San Francisco, CA, 2012), IBM, AT&T (21 MW at 34 sites starting with 10 MW in 2013 in CA, CT, NJ and NY), Honda (1 MW of 5 BES in Torrance, CA), Target, Home Depot, Medtronic (400 kW, Santa Clara, CA), Equinox, Walmart (40+ projects in CA since 2009), Kaiser Permanente (4.3 MW in 7 projects in CA), Comcast and Lockheed Martin. However, the majority of their revenue is derived from three customers. Most of these installs occurred many years ago without follow-on orders.

While Bloom Energy generally has had high renewal rates, some customers opt not to renew their contracts due to various situations ranging from earlier contracts with less favorable terms, shifting energy solutions, changing local regulation and incentives or financial difficulties.

Establishing A Template Moving Forward with Major Utility Companies

Beyond AEP, this deal marks a significant template for future deals with major utility companies. The AEP deal also bolsters Bloom Energy's credibility and sets a standard footprint moving forward. Hyperscalers are in a race for procuring clean energy sources, as evidenced by nuclear energy deals that power their data centers like Constellation Energy's (NYSE: CEG) 20-year PPA with Microsoft Co., Talen Energy’s deal with Amazon.com and Google’s inroads into small modular reactors (SMRs), which AEP is also exploring.

Inflation Reduction Act (IRA) and the Clean Energy Investment Tax Credit (ITC) Impacts

One of the motivating factors for companies to use Bloom Energy Servers is the investment tax credit (ITC) for fuel cells. The ITC provided a 30% tax credit for the installation of renewable energy systems with an efficiency of at least 30%. The credit helped cut down the upfront costs of Bloom’s Energy Servers. Bloom Energy also received a $75.3 million tax credit from the IRS for its manufacturing facility in Freemont, CA, on March 29, 2024. The ITC expired at the end of 2024.

However, the Inflation Reduction Act of 2022 replaces the traditional ITC with the Clean Electricity Investment Tax Credit (CEITC), which is essentially the same but not technology-specific. The focus is on the production of clean energy and not just investment in equipment like the ITC. Clean hydrogen produced through its SOEC qualifies for incentives in the form of production tax credits (PTC). Clean electricity produced by BES when fueled by renewable natural gas and biogas qualifies. Renewable natural gas is produced from natural waste sources, including manure and landfills. While natural gas is a non-renewable fossil fuel, the credit can still apply by meeting emission requirement thresholds.

Additionally, implementing carbon capture technology, blending biofuel additives to natural gas and efficiency improvements can all be applied to reduce emissions. These incentives help to enhance Bloom Energy's value proposition, making its BES more affordable based on the projects and fuel sources.

The new Trump Administration has stated its intention to cut waste from the IRA of 2022, which may impact the clean energy tax credits, PTCs and manufacturing credits to offset the extension of the 2017 Tax Cuts and Jobs Act.

Financials: Improving Trends in 2024 But Still Underperforming 2023 Comparables  

Bloom Energy has shown improvement in its financials since Q1 2024. The Company reported a Q3 2024 EPS loss of a penny, missing consensus analyst estimates by 9 cents. Revenues fell 17.5% YoY to $330.4 million, falling short of the $384.24 million consensus estimates. Incidentally, the stock reacted by rising 23% the following day. The market was more focused on the underlying QoQ improvements in the financial metrics, marking a third consecutive quarter of improvements.

  • Gross margin improved from 16.2% in Q1, 20.4% in Q2 to 23.8% in Q3 2024.
  • Operating margin also improved from -20.8% in Q1, -6.9% in Q2 and -2.9% in Q3 2024.
  • Adjusted EPS has improved from -$0.17 in Q1, -$0.06 in Q2 and -$0.01 in Q3 2024.
  • Free cash flow % has improved from -71.7% in Q1, -54.04% in Q2 and -25.35% in Q3 2024.
  • Operating cash flow % has improved from -62.6% in Q1, 52.26% in Q2 and -21.03% in Q3 2024.

Operating cash flow improved by $102.1 million in the first nine months of 2024 compared to the prior year from $123.1M in inventory reduction, $166.5M from faster customer payments, $85.8M in reduced deferred revenue, $31.5M in reduced accrued expenses and delayed payments to suppliers.

Q3 2024 Earnings Call: Upbeat Management Stands by FY 2024 Guidance

During the conference call, CEO Sridhar noted the big shift in its business is the time to power. Bloom Energy is able to book, build, ship, install and power sites for customers in a matter of months, which is exponentially faster than a grid connection. However, such rapid drill activities come with timeline variances, pull-ins and delays, as evidenced in Q3. Order diversity was good in Q3, with orders from utilities, data centers and international.

Sridhar remained confident, reaffirming their full-year 2024 guidance ($1.4 to $1.6 billion revenues or $1.5 billion mid-point). BES are purpose-built for data centers. He also noted the ability to provide high-temperature heat to provide cooling is an added benefit for data centers.

  • Sridhar disclosed the commercial value of the initial AEP order, “A 100-megawatt data center deal has a commercial value of over $1 billion, and so it takes a minute, maybe a long Texas minute, to get a deal done. We are making good progress.”
  • The SK Eternix deal is also a model the company hopes to replicate in international markets, as the large power block project (80 MW) is a proof point showing Bloom can power large data centers.
  • Bloom Energy closed a front-of-the-meter deal with FPM Development for 20 MW of Bloom SOFC across two locations in Los Angeles, providing additional capacity to Southern California Utilities.

CFO Dan Berenbaum noted that they generally recognize product revenue as they ship their energy servers for customer projects. Customer projects naturally have schedule variability, positive and negative pulling in or pushing out revenue by a quarter. This was the case in Q3 2024, and Berenbaum stands by the $1.4 billion to $1.6 billion full-year 2024 guidance too.

Analysts Are Mixed on Whether Bloom Energy Can Achieve Full Year 2024 Targets

The Company reaffirmed full year 2024 revenue of $1.4 billion to $1.6 billion or $1.5 billion midpoint, up 12.5% YoY. In order to achieve the mid-point, Q4 revenue would need to grow 67.8% YoY to $598.5 million. This is a tall order, but due to schedule variability, a large chunk of product revenue may have been pushed into Q4.

Bloom Energy could achieve this based upon strong key metrics, such as the high number of products accepted and MW accepted. Products accepted pertain to BES that have been installed, tested and accepted by the customer. MW accepted means the MW capacity of fuel cells is fully installed, operational and accepted by the customer. The revenue can finally be recognized upon acceptance of both metrics when they turn the power on or upon delivery of the product and is subject to the terms of each contract.

  • The SK Eternix 80MW ecoplant project in South Korea is expected to go online in 2025. If they were able to get a surge in the two acceptance metrics from October through December, then they may recognize the revenue in Q4. In the Q3 conference call Q&A, CFO Dan Berenbaum hinted at SK's receivables, “So, I mean, we're not being specific about what's included in factoring, but I will say that that specific receivable that we've spoken to, the SK receivable, we do expect to collect that before the end of the year.”
  • Keep in mind that Bloom Energy has $142.1 million in deferred revenues as of Q3 2024. Accounts receivables are $590.79 million of which 59% are from the Korean JV and SK ecoplant (related parties) or $348.67 million.

The trend has been rising consecutively, as evidenced by:

  • Products accepted rose from 477 in Q1, 673 in Q2 and 737 in Q3 2024.
  • MW accepted rose from 48 in Q1, 67 in Q2 and 74 in Q3 2024.

In order to achieve the $598.5 million revenue mid-point guidance, with all things being equal, Bloom Energy would need to generate more than Q1 and Q2 2024 combined, meaning at least 1,150 products accepted and 115 MW accepted, theoretically generating $571.1M in Q4 2024. Both the CEO and CFO of Bloom reaffirmed the FY 2024 revenue guidance. This could be a case of revenue pushed-out by a quarter due to schedule variability due to unexpected delays, as Q3 2024 had many installation and maintenance delays.

Here is what was stated on the call regarding the high level of confidence in meeting the total year guidance.

“Based on our current projects and the visibility we have to year-end, I'm extremely confident that Bloom Energy will meet our total year guidance.”

Conference Call Q&A Session Noteworthy Moments

  • UBS Analyst Manav Gupta noted how the press release underscored the diversity of orders as they came from three different markets including utilities, international power projects and data centers, inquiring if that trend will continue. CEO Shridar expounded on the importance of diversity to make their business less vulnerable to market cycles. Diversity positions them for long-term growth addressing the growing global need for clean and reliable energy solutions. It’s more than power generation but also transmission.
  • RBC Capital Markets analyst Chris Dendrinos inquired about the rationale for expanding manufacturing capacity in the Fremont, California facility. CEO Sridhar answered that they will have a GW worth of capacity next year for their fuel cells. It’s a preemptive move in light of the rapidly growing market. They also have enough space to add an additional GW as needed. Bloom Energy not only has time to power play but also time to expansion play to meet the “voracious demand” brewing in the marketplace adding, “So we built, we not only selected the factory and the size, but also how we scale to be able to scale extremely quickly as we see the demand go up.”
  • CEO Sridhar noted that, outside of data centers, Korean volumes are up and stable, but U.S. commercial and industrial are experiencing significant uptake across sectors. Bloom Energy is in active negotiations with multiple partners for the opportunity in large AI data centers. He stated, "Data centers and the entire AI supply chain are going to create a demand unlike any other that we have ever seen since Edison put a grid together. And we are hand in glove for that market.”
  • Wolfe Research Analyst Chris Senyek wanted clarity on what drives management’s conviction they will meet end of year forecasts. He mentioned the 20 MW FPM order being expected to be delivered by year’s end and SK Eternix deliveries. Berenbaum cited that SK Eternix is 2025 revenue upon commissioning and commented, “But very specifically, when we look at Q4, we're looking at very specific projects that are in various stages of contracting, for example, that lead us to be confident in our ability to hit that full-year guidance. So these are very specific conversations that we have looking at our relationships with our customers on the projects that they are moving forward with.”

Conclusion:

Bloom Energy still loses money on every BES. Demand slowed down in Q3 2024, as evidenced by a 23.3% YoY drop in product revenue, but the CEO and CFO ensured it was due to schedule variability. Underlying metrics have been improving in 2024, with large expectations in Q4 2024 to set the tone in 2025. The SK Eternix 80MW single-site installation is expected to commence operations and generate revenues in 2025. Bloom Energy will also get revenue from the initial 100MW of SOFCs ordered from the AEP deal, but revenue won't be recognized until the product and MW are accepted. The potential upside of $7 billion in revenue looms on additional MWs up to the 1 GW procurement. Bloom Energy has a loan interest payment of $115 million due in August 2025.

The AEP deal has given Bloom Energy stock a 52% premium halo that may erode unless new deals are announced. AEP has already indicated that it’s in the process of finalizing the first customer project agreements, and discussions are ongoing with several other customers. Material revenue growth is likely several quarters away from the AEP deal.

I/O Fund Equity Analyst, Jea Yu, contributed to this analysis

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  • Coinbase Q3 24: Strong Cash and Adjusted EBITDA; Technicals Matter

** On October 23, 2021, Bloom entered into a securities purchasing agreement (SPA) in connection to a strategic partnership. SK ecoplant purchased 10 million shares of Bloom Energy Series A preferred stock at $25.50 per shares for $255 million, with an option to purchase additional Class A common stock.

August 10, 2022, SK ecoplant notified its intention to exercise its option to purchase additional Class A common stock, pursuant to a Second Tranche Exercise Notice. SK ecoplant elected to purchase 13,491.701 shares at $23.05 per share for a total of $311 million.

March 20, 2023, Bloom amended the SPA, as they issued and sold 13,491,701 Series B redeemable convertible preferred stock (RCPS) for $311 million in cash. Bloom also entered into a Shareholders Loan Agreement for up to $311 million if needed.

September 23, 2023, SK ecoplant converted all 13,491,701 of the RCPS into Class A common stock. Shares opened the following morning at $13.71.

According to its 2023 10-K pg. 88, Bloom Energy recognizes revenue when they "satisfy a performance obligation ."Revenue is recognized at the time the related performance obligation is satisfied by transferring control of the promised products or services to a customer. However, they don't report remaining performance obligations (RPOs) or backlog information.

Please note: The I/O Fund conducts research and draws conclusions for the Fund’s positions. We then share that information with our readers. This is not a guarantee of a stock’s performance. Please consult your personal financial advisor before buying any stock in the companies mentioned in this analysis.

Posted in Data Center, Energy StocksLeave a Comment on Bloom Energy: Fuel Cells for the Booming AI Data Center Trend

Bloom Energy: Fuel Cells for the Booming AI Data Center Trend

Posted on January 13, 2025June 30, 2026 by io-fund

Key Takeaways:

  • As a utility-based stock, Bloom Energy has lumpy revenue – which is common in this sector. The stock requires strong risk management due to weak cash and not being profitable, however, the upside is immense should more large data center deals be announced.
  • The company has deployed 1.3 GW since 2001, yet announced in November a deal for 1 GW with the utility company AEP to power data centers. The deal announced in November will nearly double the company’s fuel cell deployment from one deal; evidence of the booming energy demand from AI data centers. AEP’s customers include Google, Amazon, Microsoft and Meta Platforms.
  • Bloom Energy has set the bar high for Q4 2024 earnings for growth of 67.7% versus analyst estimates for growth of 42.7%. Results are expected after the market close on February 14, 2025. The CEO and CFO reaffirmed guidance implying Q3 2024 had revenues pushed out to Q4 due to delays.
  • Bloom Energy is not profitable and is cash flow negative – hence, the first bullet point that this stock requires strict risk management (i.e., we will closely adhere to our stops). However, the company is nearing GAAP profitability with a margin of (-3%) last quarter and management has guided for adjusted operating profits of $75 million to $100 million for FY2024. The adjusted EBITDA margin last quarter was 6.5%.
  • Nearly 77% of accounts receivable come from just two customers, who are also related parties.

Bloom Energy Shows Initial Promise of Becoming Data Center-Fueled Stock

The Chinese bamboo tree remains dormant on the surface for five years after planting the seeds. While many farmers chalk it up as a waste of time, those who are believers eventually get rewarded as it can break ground and grow up to 90 feet tall in the following five weeks. What appears to be dormant on the surface overlooks the years spent developing its root system underground.

This metaphor applies to many companies that eventually transform into outliers. In Bloom Energy’s case, it would be more than two decades of dormancy that may be leading up to breaking ground in 2025.

Bloom Energy Inc. provides on-site 24/7 power generation using their proprietary solid oxide fuel cells (SOFCs). The SOFCs are stacked up by the hundreds to thousands in Bloom Energy Servers (BES), which enable the conversion of fuels like natural gas, biogas and hydrogen to electricity through a chemical reaction, not combustion, arguably resulting in less emissions.

Hydrogen and biogas fuel sources enable BES produce zero carbon or carbon neutral power. When BES are fueled with natural gas to generate electricity, they do emit carbon dioxide, but significantly less than through the combustion process. Natural gas is currently the primary fuel source for most BES due to the readily available supply of natural gas, established infrastructure and lower costs.

Bloom Electrolyzers are solid oxide fuel cell electrolyzers (SOECs) that can convert electricity into hydrogen, an important decarbonization tool in the energy transition. With that said, most of Bloom Energy Servers use natural gas as their primary fuel source.

Bloom Energy’s management emphasizes the following key points as to why hydrogen fuel cells are well suited as a power solution for AI data centers:

  • The time response of fuel cells is in the milliseconds. This is a primary point as to why Bloom Energy could secure future data center deals. Here is what management described as to the competitive advantages regarding time to power for fuel cells: “A big shift in our business today is time to power. We are providing solutions to meet the urgent needs of our customers who cannot fulfill their power needs from the grid. In these cases, we rapidly book, build, ship, install and power sites for our customers in a matter of months, a much faster timeline than a grid connection. Such rapid drill activities will necessarily come with timeline variances, both pull-ins and delays, and will affect our quarterly revenue line. You are seeing this in our Q3 numbers.”
  • Using high-temperature heat to provide cooling could become a key way to use hydrogen fuel cells in data centers. As pointed out by the Fuel Cell and Hydrogen Energy Association, excess heat from fuel cells can be used to cool servers.
  • Management also stated fuel cells are “pay-as-you-grow” are offer “high-power density” which makes them an economic choice. However, nuclear offers far more power density than fuel cells and thus this is not a primary point for choosing fuel cells over nuclear (in fact, it’s a primary reason to choose nuclear)

Rapid Deployment for Backup or Primary Power, or Utility Transmission:

BES uses core 325 kW base blocks customized to work in parallel with the local electric grid in standby or backup mode to kick in when the local power becomes unavailable. The 325 kW base blocks can be duplicated and scaled up to multiple MWs for any project. They can also be used as the primary power source. They can be used off-grid or parallel as a microgrid. BES has a high density compared to solar or wind of 100 MW per acre with features such as stackable servers and combined heat and power solutions. However, nuclear is in the kilowatts per acre, and therefore, is by far the highest density power solution.

BES can be purchased, customized and installed with ongoing maintenance and support contracts procured with a maintenance agreement or contracted as an energy service for five to 20 years under a Power Purchase Agreement (PPA) with a tolling rate. BES is compatible with utility companies as backup power or behind-the-meter as a more primary power solution.

Bloom Microgrids offer security and flexibility by running alongside the utility in grid-following mode, taking primary control over critical loads and customizing power delivery. During power outages, the BES briefly disconnects from the utility coming online in grid-forming mode, carrying the predetermined load set by the customer. The BES will maintain this load and resume grid parallel operation after restoring utility power.

Rapid Solution for Utility Transmission:

A few months back, our free analysis pointed toward a critical bottleneck in power consumption as GPUs are increasing in power consumption from 75% from the previous generation of Hopper GPUs to now a 300% increase in the next generation of Blackwell GPUs arriving in 2025. The analysis cited Morgan Stanley’s estimates of 5X increase in power demand over the next three years and Wells Fargo estimating growth of 8,050% from 2024 to 2030.

Bloom Energy pointed out an important aspect of fuel cells in clearing this bottleneck which is time to power, including for utility transmission.

Here is what was stated:

“Transmission in the U.S. is going to be a bottleneck for a very long time to come. So, our asset becomes both a transmission asset and an end-user asset. So, to help a utility mitigate the long cycles it's going to take them to get transmission to where they need to supply the power to their customer, a short circuit to that would be to use our box in front of the meter, not have to do transmission upgrades and supply large blocks of power to a customer.” 

Heat Capture Helps to Cool GPUs

BES are designed to work with existing carbon capture utilization and storage (CCUS) and combined heat and power (CHP) technologies. CCUS mitigates emissions from natural gas as BESs generate a pure stream of CO2 that can be used or sequestered. CHP allows the exhaust heat generated by BES (operating at a core temperature of 1,500 degrees Fahrenheit or 800 degrees Celsius) to be channeled and made available for use, further increasing the efficiency of the system.

Bloom Energy announced their SOFCs have reached 60% electrical efficiency while using 100% hydrogen. The high-temperature exhaust stream can produce steam in addition to electricity, resulting in 90% lifetime total system efficiency by adding Heat Capture. For example, the BES with heat capture includes applications that use a rear-door heat exchanger, which is one way to cool servers. Rear-door heat exchangers offer near-instantaneous cooling. Per Bloom’s website: “With the Heat Capture option, the exhaust heat exits the equipment at the back of the power module instead of the top and is easily transferred to a heat exchanger system.”

Bloom Energy Customers: AI Drives Up Energy Demand

The Gamechanger Deal: AEP Procures up to 1GW of SOFCs for Data Centers

November 15, 2024, Bloom Energy stock gapped 59% higher to $21.14 from $13.28 on news of a deal with American Electric Power (NYSE: AEP), a major utility company serving 5.6 million customers in 11 states with 29,000 MW of diverse generating capacity, to secure up to 1 GW of Bloom Energy SOFC for their data center customers and other larger energy users. The deal coined itself as the largest commercial procurement of fuel cells in the world. AEP placed an order for 100 MW of fuel cells, with further expansion orders expected in 2025.

While Bloom Energy provided no financial information regarding the deal, S&P Global Intelligence estimates the deal could be worth up to $7 billion in revenues if the full 1 GW is deployed. The initial 100 MW order from AEP is valued at around $1 billion (revealed in the Q3 2023 conference call). The AEP deal would accomplish 77% of the 1.3 GW total deployed by Bloom Energy in the past 24 years. The hype and hope have fueled Bloom Energy's stock into the $20s.

AEP is Finalizing the First Customer Project with More to Come

AEP expects commercial load to grow 20% annually over the next three years, driven by data center development. The company is in the process of finalizing the first customer project agreements, and discussions are ongoing with several other customers. AEP’s hyperscaler customers include Google, Amazon, Microsoft and Meta Platformshyperscaler customers include Google, Amazon, Microsoft and Meta Platforms.

  • AEP will purchase SOFCs from Bloom Energy with an initial order of 100 MW, with more expected in 2025, and integrate them into their customer energy systems, prioritizing AI data centers. Large customers will cover all costs for the fuel cell projects under a special contract. AEP will oversee deployment and installation at customer sites.
  • Bloom will supply the SOFCs to AEP, providing the core technology for on-site power generation. Bloom will likely offer ongoing support and maintenance services.

Bloom CEO and founder KR Sridhar commented, “I am delighted that there is strong market recognition that the Bloom Energy platform is the ideal choice for powering AI data centers. We are thrilled to be working with AEP as they lead the charge to bring innovative solutions to the transforming electricity market. With our proven track record of more than 1.3 GW deployed and a fully functional factory that can deliver GWs of products per year, we are ready and able to meet this rapid electricity demand growth."

Customer Concentration is a Concern: Two Customers Account for 77% of AR

As of September 30, 2024, two customers accounted for 77% of total accounts receivables (59% and 18%). The first is the related parties SK ecoplant and a Korean JV. Related parties account for $349.5M in accounts receivables for Q3 2024.

As of September 23, 2023, SK ecoplant held 23.5 million shares of Bloom Energy Class A stock representing 10.5% of outstanding shares, which makes them a related party, valued at around $566 million on December 22, 2023.

Three customers account for 68% of total revenue for Q3 2024, which includes 38% from its "related party" and 20% and 10% from two other customers. Related parties generated $126.6M in revenue in Q3 2024.

SK ecoplant and SK Eternix are subsidiaries of SK Group. SK Eternix was launched in March 2024. On November 7, 2024, SK Eternix and Bloom Energy announced the World’s Largest Fuel Cell Installation in HistoryWorld’s Largest Fuel Cell Installation in History in collaboration with SK Eternix for an 80MW installation looking to commence operations in 2025. The single-site installation will power two ecoparks in the North Chungcheong Province, South Korea.

SK ecoplant: A White Knight with Too Much Leverage

Bloom Energy states that it has incurred losses and negative cash flows since its inception. SK ecoplant (formerly known as SK Engineering and Construction Co.) was a large funder for the company. From 2021 to 2023, Bloom executed new debt offerings, debt extinguishments and conversions to equity (dilution) to grow liquidity to $842 million and $4.6 million in recourse and non-recourse debt at the end of December 31, 2023, classified as long-term debt.

December 22, 2023, SK ecoplant extended its preferred distributor agreement to commit to purchasing 500 MW of Energy Servers from Bloom Energy through 2027, expected to generate $1.5 billion in product and $3 billion in service revenues over 20 years for Bloom Energy. SK ecoplant has made $566 million in equity investment, owning 10% of the company.**

Bloom Energy’s Roster of Customers Are Well Known

Some of Bloom Energy’s well-known customers include Google (400 kW Mountainview, CA, in July 2008), FedEx, Yahoo (1 MW, Sunnyvale, CA, in July 2014), Adobe (1.5 MW San Francisco, CA, 2012), IBM, AT&T (21 MW at 34 sites starting with 10 MW in 2013 in CA, CT, NJ and NY), Honda (1 MW of 5 BES in Torrance, CA), Target, Home Depot, Medtronic (400 kW, Santa Clara, CA), Equinox, Walmart (40+ projects in CA since 2009), Kaiser Permanente (4.3 MW in 7 projects in CA), Comcast and Lockheed Martin. However, the majority of their revenue is derived from three customers. Most of these installs occurred many years ago without follow-on orders.

While Bloom Energy generally has had high renewal rates, some customers opt not to renew their contracts due to various situations ranging from earlier contracts with less favorable terms, shifting energy solutions, changing local regulation and incentives or financial difficulties.

Establishing A Template Moving Forward with Major Utility Companies

Beyond AEP, this deal marks a significant template for future deals with major utility companies. The AEP deal also bolsters Bloom Energy's credibility and sets a standard footprint moving forward. Hyperscalers are in a race for procuring clean energy sources, as evidenced by nuclear energy deals that power their data centers like Constellation Energy's (NYSE: CEG) 20-year PPA with Microsoft Co., Talen Energy’s deal with Amazon.com and Google’s inroads into small modular reactors (SMRs), which AEP is also exploring.

Inflation Reduction Act (IRA) and the Clean Energy Investment Tax Credit (ITC) Impacts

One of the motivating factors for companies to use Bloom Energy Servers is the investment tax credit (ITC) for fuel cells. The ITC provided a 30% tax credit for the installation of renewable energy systems with an efficiency of at least 30%. The credit helped cut down the upfront costs of Bloom’s Energy Servers. Bloom Energy also received a $75.3 million tax credit from the IRS for its manufacturing facility in Freemont, CA, on March 29, 2024. The ITC expired at the end of 2024.

However, the Inflation Reduction Act of 2022 replaces the traditional ITC with the Clean Electricity Investment Tax Credit (CEITC), which is essentially the same but not technology-specific. The focus is on the production of clean energy and not just investment in equipment like the ITC. Clean hydrogen produced through its SOEC qualifies for incentives in the form of production tax credits (PTC). Clean electricity produced by BES when fueled by renewable natural gas and biogas qualifies. Renewable natural gas is produced from natural waste sources, including manure and landfills. While natural gas is a non-renewable fossil fuel, the credit can still apply by meeting emission requirement thresholds.

Additionally, implementing carbon capture technology, blending biofuel additives to natural gas and efficiency improvements can all be applied to reduce emissions. These incentives help to enhance Bloom Energy's value proposition, making its BES more affordable based on the projects and fuel sources.

The new Trump Administration has stated its intention to cut waste from the IRA of 2022, which may impact the clean energy tax credits, PTCs and manufacturing credits to offset the extension of the 2017 Tax Cuts and Jobs Act.

Financials: Improving Trends in 2024 But Still Underperforming 2023 Comparables  

Bloom Energy has shown improvement in its financials since Q1 2024. The Company reported a Q3 2024 EPS loss of a penny, missing consensus analyst estimates by 9 cents. Revenues fell 17.5% YoY to $330.4 million, falling short of the $384.24 million consensus estimates. Incidentally, the stock reacted by rising 23% the following day. The market was more focused on the underlying QoQ improvements in the financial metrics, marking a third consecutive quarter of improvements.

  • Gross margin improved from 16.2% in Q1, 20.4% in Q2 to 23.8% in Q3 2024.
  • Operating margin also improved from -20.8% in Q1, -6.9% in Q2 and -2.9% in Q3 2024.
  • Adjusted EPS has improved from -$0.17 in Q1, -$0.06 in Q2 and -$0.01 in Q3 2024.
  • Free cash flow % has improved from -71.7% in Q1, -54.04% in Q2 and -25.35% in Q3 2024.
  • Operating cash flow % has improved from -62.6% in Q1, 52.26% in Q2 and -21.03% in Q3 2024.

Operating cash flow improved by $102.1 million in the first nine months of 2024 compared to the prior year from $123.1M in inventory reduction, $166.5M from faster customer payments, $85.8M in reduced deferred revenue, $31.5M in reduced accrued expenses and delayed payments to suppliers.

Q3 2024 Earnings Call: Upbeat Management Stands by FY 2024 Guidance

During the conference call, CEO Sridhar noted the big shift in its business is the time to power. Bloom Energy is able to book, build, ship, install and power sites for customers in a matter of months, which is exponentially faster than a grid connection. However, such rapid drill activities come with timeline variances, pull-ins and delays, as evidenced in Q3. Order diversity was good in Q3, with orders from utilities, data centers and international.

Sridhar remained confident, reaffirming their full-year 2024 guidance ($1.4 to $1.6 billion revenues or $1.5 billion mid-point). BES are purpose-built for data centers. He also noted the ability to provide high-temperature heat to provide cooling is an added benefit for data centers.

  • Sridhar disclosed the commercial value of the initial AEP order, “A 100-megawatt data center deal has a commercial value of over $1 billion, and so it takes a minute, maybe a long Texas minute, to get a deal done. We are making good progress.”
  • The SK Eternix deal is also a model the company hopes to replicate in international markets, as the large power block project (80 MW) is a proof point showing Bloom can power large data centers.
  • Bloom Energy closed a front-of-the-meter deal with FPM Development for 20 MW of Bloom SOFC across two locations in Los Angeles, providing additional capacity to Southern California Utilities.

CFO Dan Berenbaum noted that they generally recognize product revenue as they ship their energy servers for customer projects. Customer projects naturally have schedule variability, positive and negative pulling in or pushing out revenue by a quarter. This was the case in Q3 2024, and Berenbaum stands by the $1.4 billion to $1.6 billion full-year 2024 guidance too.

Analysts Are Mixed on Whether Bloom Energy Can Achieve Full Year 2024 Targets

The Company reaffirmed full year 2024 revenue of $1.4 billion to $1.6 billion or $1.5 billion midpoint, up 12.5% YoY. In order to achieve the mid-point, Q4 revenue would need to grow 67.8% YoY to $598.5 million. This is a tall order, but due to schedule variability, a large chunk of product revenue may have been pushed into Q4.

Bloom Energy could achieve this based upon strong key metrics, such as the high number of products accepted and MW accepted. Products accepted pertain to BES that have been installed, tested and accepted by the customer. MW accepted means the MW capacity of fuel cells is fully installed, operational and accepted by the customer. The revenue can finally be recognized upon acceptance of both metrics when they turn the power on or upon delivery of the product and is subject to the terms of each contract.

  • The SK Eternix 80MW ecoplant project in South Korea is expected to go online in 2025. If they were able to get a surge in the two acceptance metrics from October through December, then they may recognize the revenue in Q4. In the Q3 conference call Q&A, CFO Dan Berenbaum hinted at SK's receivables, “So, I mean, we're not being specific about what's included in factoring, but I will say that that specific receivable that we've spoken to, the SK receivable, we do expect to collect that before the end of the year.”
  • Keep in mind that Bloom Energy has $142.1 million in deferred revenues as of Q3 2024. Accounts receivables are $590.79 million of which 59% are from the Korean JV and SK ecoplant (related parties) or $348.67 million.

The trend has been rising consecutively, as evidenced by:

  • Products accepted rose from 477 in Q1, 673 in Q2 and 737 in Q3 2024.
  • MW accepted rose from 48 in Q1, 67 in Q2 and 74 in Q3 2024.

In order to achieve the $598.5 million revenue mid-point guidance, with all things being equal, Bloom Energy would need to generate more than Q1 and Q2 2024 combined, meaning at least 1,150 products accepted and 115 MW accepted, theoretically generating $571.1M in Q4 2024. Both the CEO and CFO of Bloom reaffirmed the FY 2024 revenue guidance. This could be a case of revenue pushed-out by a quarter due to schedule variability due to unexpected delays, as Q3 2024 had many installation and maintenance delays.

Here is what was stated on the call regarding the high level of confidence in meeting the total year guidance.

“Based on our current projects and the visibility we have to year-end, I'm extremely confident that Bloom Energy will meet our total year guidance.”

Conference Call Q&A Session Noteworthy Moments

  • UBS Analyst Manav Gupta noted how the press release underscored the diversity of orders as they came from three different markets including utilities, international power projects and data centers, inquiring if that trend will continue. CEO Shridar expounded on the importance of diversity to make their business less vulnerable to market cycles. Diversity positions them for long-term growth addressing the growing global need for clean and reliable energy solutions. It’s more than power generation but also transmission.
  • RBC Capital Markets analyst Chris Dendrinos inquired about the rationale for expanding manufacturing capacity in the Fremont, California facility. CEO Sridhar answered that they will have a GW worth of capacity next year for their fuel cells. It’s a preemptive move in light of the rapidly growing market. They also have enough space to add an additional GW as needed. Bloom Energy not only has time to power play but also time to expansion play to meet the “voracious demand” brewing in the marketplace adding, “So we built, we not only selected the factory and the size, but also how we scale to be able to scale extremely quickly as we see the demand go up.”
  • CEO Sridhar noted that, outside of data centers, Korean volumes are up and stable, but U.S. commercial and industrial are experiencing significant uptake across sectors. Bloom Energy is in active negotiations with multiple partners for the opportunity in large AI data centers. He stated, "Data centers and the entire AI supply chain are going to create a demand unlike any other that we have ever seen since Edison put a grid together. And we are hand in glove for that market.”
  • Wolfe Research Analyst Chris Senyek wanted clarity on what drives management’s conviction they will meet end of year forecasts. He mentioned the 20 MW FPM order being expected to be delivered by year’s end and SK Eternix deliveries. Berenbaum cited that SK Eternix is 2025 revenue upon commissioning and commented, “But very specifically, when we look at Q4, we're looking at very specific projects that are in various stages of contracting, for example, that lead us to be confident in our ability to hit that full-year guidance. So these are very specific conversations that we have looking at our relationships with our customers on the projects that they are moving forward with.”

Conclusion:

Bloom Energy still loses money on every BES. Demand slowed down in Q3 2024, as evidenced by a 23.3% YoY drop in product revenue, but the CEO and CFO ensured it was due to schedule variability. Underlying metrics have been improving in 2024, with large expectations in Q4 2024 to set the tone in 2025. The SK Eternix 80MW single-site installation is expected to commence operations and generate revenues in 2025. Bloom Energy will also get revenue from the initial 100MW of SOFCs ordered from the AEP deal, but revenue won't be recognized until the product and MW are accepted. The potential upside of $7 billion in revenue looms on additional MWs up to the 1 GW procurement. Bloom Energy has a loan interest payment of $115 million due in August 2025.

The AEP deal has given Bloom Energy stock a 52% premium halo that may erode unless new deals are announced. AEP has already indicated that it’s in the process of finalizing the first customer project agreements, and discussions are ongoing with several other customers. Material revenue growth is likely several quarters away from the AEP deal.

I/O Fund Equity Analyst, Jea Yu, contributed to this analysis

Recommended Reading:

  • Lumentum FQ1 Update: Strong Contender in AI Optical Networking
  • AppLovin Q3: Market Leader in AI-Driven Ad-Tech
  • AOSL Q1 2025: Foreshadowing Consumer Weakness
  • Coinbase Q3 24: Strong Cash and Adjusted EBITDA; Technicals Matter

** On October 23, 2021, Bloom entered into a securities purchasing agreement (SPA) in connection to a strategic partnership. SK ecoplant purchased 10 million shares of Bloom Energy Series A preferred stock at $25.50 per shares for $255 million, with an option to purchase additional Class A common stock.

August 10, 2022, SK ecoplant notified its intention to exercise its option to purchase additional Class A common stock, pursuant to a Second Tranche Exercise Notice. SK ecoplant elected to purchase 13,491.701 shares at $23.05 per share for a total of $311 million.

March 20, 2023, Bloom amended the SPA, as they issued and sold 13,491,701 Series B redeemable convertible preferred stock (RCPS) for $311 million in cash. Bloom also entered into a Shareholders Loan Agreement for up to $311 million if needed.

September 23, 2023, SK ecoplant converted all 13,491,701 of the RCPS into Class A common stock. Shares opened the following morning at $13.71.

According to its 2023 10-K pg. 88, Bloom Energy recognizes revenue when they "satisfy a performance obligation ."Revenue is recognized at the time the related performance obligation is satisfied by transferring control of the promised products or services to a customer. However, they don't report remaining performance obligations (RPOs) or backlog information.

Please note: The I/O Fund conducts research and draws conclusions for the Fund’s positions. We then share that information with our readers. This is not a guarantee of a stock’s performance. Please consult your personal financial advisor before buying any stock in the companies mentioned in this analysis.

Posted in Data Center, Energy StocksLeave a Comment on Bloom Energy: Fuel Cells for the Booming AI Data Center Trend

Solar Stocks Still Searching For A Bottom

Posted on November 7, 2023June 30, 2026 by io-fund
Solar Stocks Still Searching For A Bottom

This article was originally published on Forbes on Nov 3, 2023,01:00am EDTForbes Forbes on Nov 3, 2023,01:00am EDT

Solar is arguably one of the market’s most sold-off industries at the moment, with the Invesco Solar ETF falling more than 42% YTD as the industry struggles to find growth in a high-rate environment. With implied Fed funds futures suggesting interest rates will remain above 5% through Q2 2024 before slowly dropping to the 3.75% range by year-end 2025, the industry is still facing a high-rate environment with more possible adverse demand effects for multiple quarters ahead.

SolarEdge and Enphase are among the S&P 500’s worst performers this year, falling more than 70% each; a significant weakening in US demand starting in Q2 worsened with weakening European demand in Q3, causing revenues to nosedive. Residential solar companies SunPower, Sunrun, and Maxeon have all declined more than 55% to 70%, as well.

SolarEdge Says Weak EU Demand Caused Q3 Revenue Slump

SolarEdge sent the solar sector for a tumble on October 20th as it pointed to significant weakening in EU demand for a major Q3 shortfall and lower Q4 revenues. Shares fell over -27% as the company cut its revenue guide nearly (20%) from $880M-$920M to $720M-$730M, its gross margin forecast from 28%-31% to 20.1%-21.1%, and its operating margin forecast from $115M-$135M to $12M-$31M. CEO Zvi Lando said the company “experienced substantial unexpected cancellations and pushouts of existing backlog from our European distributors” in the second half of Q3, while installation rates “were much slower at the end of the summer and in September.”

Q3 results reported on Wednesday showed a marginal beat in revenues to $725M, an 1190 bp contraction in gross margin, and a shift to negative EPS, but the focal point of the report was a brutal Q4 guide. Consensus estimates for Q4 heading into the report were floating between $660M to $675M – the actual guide was far lower, with SolarEdge pointing to $300M to $350M in total revenues, with $270M to $325M in solar revenues.

That correlates to a (55%) QoQ decline from Q3’s $725M, and (67%) lower than the nearly $1B in quarterly revenues SolarEdge generated in Q2. Non-GAAP gross margins are expected to decline another 1280 to 1580 bp from Q3’s 20.8% to just 5% to 8% in Q4, including a 130 bp benefit from IRA credits. Given the operating expense outlook and major gross margin contraction, SolarEdge could see Q4 non-GAAP EPS fall further from the ($0.55) reported in Q3 to ($2.40) or lower in Q3 — not even in the same universe at the $0.63 consensus estimate.

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Enphase Earnings Echo Demand Woes

Enphase echoed SolarEdge’s commentary about weakening EU demand, as European revenues fell (34%) sequentially in Q3, after recording +25% QoQ growth in Q2. That’s a pretty swift QoQ decline in European revenues, which Enphase attributed to “high inventory at our distribution partners along with a softening in demand in our key markets – the Netherlands, France, and Germany.”

US revenues fell (16%) sequentially in Q3, continuing a (12%) sequential decline in Q2 as high rates and the shift to NEM 3.0 continued to impact US demand. Management said that in California, the “sell-through of our microinverters was 25% lesser in Q3 compared to Q2 due to the NEM 3.0 transition. It will take a few more quarters for our installers to fully transition to NEM 3.0 and normalize sales to NEM 2.0 levels.”

For Enphase, US revenues have been declining, and Europe’s stronger growth is not enough to absorb the losses in the US; now, that picture is even clearer: California is set to drag on US growth until NEM 3.0’s normalization completes sometime in 2024, while European demand has weakened substantially. Combined, this is causing a snowballing decline in revenues that may not bottom until Q1 or even Q2 2024, one to two quarters later than previously expected.

Enphase guided a nearly (40%) QoQ revenue decline for Q4: $300M to $350M, compared to $551M in Q3 and $711M in Q2. Management provided some clarity on the very low Q4 guide, saying it “reflects approximately $150M of channel inventory correction in the U.S. and Europe. In other words, we are under shipping to the end market demand for our products by approximately $150M. We anticipate under shipment will continue in Q1 and expect our channel inventory to normalize in Q2.”

That raises some doubts about when microinverter shipments will bottom, as shipments are plummeting, falling (24.9%) sequentially from more than 5.1M in Q2 to just over 3.9M in Q3. Q4’s revenue guide suggests microinverter shipments could fall by ~1.5M QoQ to ~2.4M, or the lowest level since Q2 2021.

Enphase Microinverter Shipments

Source: I/O FUND

A quick V-shaped recovery in early 2024 for microinverter shipments and revenues looks to be out of the picture, based on management’s commentary around inventories and California’s normalization trend. In addition, US residential installations are projected to decline next year, while demand in the Netherlands may have peaked last year and fall through 2025 to 2026.

US Residential Growth Forecast to Decline In 2024

The near-term outlook for solar has definitely taken a hit from high rates impacting demand – a forecast from Wood Mackenzie/SEIA is pointing to a YoY decline in US residential solar installations in 2024, weighed down by a sharp contraction in California. Overall, the group expects installations to drop (4%) in 2024, dragged down by a (38%) contraction in California primarily due to the shift to NEM 3.0.

Q2 recorded growth of +6% QoQ and +30% YoY to 1.77 GW installed, reaching a new record. However, SEIA noted that “growth has not been as strong in traditionally larger markets with lower retail rates like Arizona and Texas, where high interest rates are creating headwinds.” That interest rate headwind has persisted through Q3, into Q4, and most likely will cause demand softening through much of 2024. Combined with a “lower urgency to go solar due to the ITC extension” and heightened recession fears, the broader macro backdrop for solar remains muddled, reflected by Enphase’s and SolarEdge’s troublesome revenue guides.

Residential Solar Installations and Forecast 2020 - 2028

Source: SEIA / WOOD MACKENZIE SOLAR MARKETING INSIGHT REPORT Q3 2023

The long-term outlook for residential is more positive, as growth is expected to pick back up to about +8% on average from 2025 through 2028, boosted by IRA benefits and more projects qualifying for ITC adders. However, that inflection back to growth in 2025 is not set in stone and may not occur as quickly as anticipated, should rates remain at or above 4% heading into the first half of the year.

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EU Key Market Demand at Risk in the Near-Term

SolarEdge cited weakening demand across the EU, while Enphase pointed out softened demand in three key markets: the Netherlands, France, and Germany. These three markets are expected to account for a lion’s share of annual capacity in Western Europe over the next decade, so softening demand in the three nations is not something to be taken lightly.

Western Europe Regional Solar PV Outlook 2023 - 2032

Source: WOOD MACKENZIE

In the Netherlands, annual installed capacity is forecast to have peaked in 2022 to about 1.8 GW. A further decline from the peak is projected to occur in 2024 before stabilizing around 1.4 GW per year, nearly (22%) lower than 2022’s levels. This decline to stagnation in capacity installed would be a stark contrast to the strong growth seen from 2018 through 2022.

Figure GW 4 Netherlands Solar PV Market Scenarios 2022 - 2026 By Holland Solar

Source: HOLLAND SOLAR

Germany is also seeing some near-term effects to solar demand, although its medium-term and long-term view remains brighter than that of the Netherlands. Germany saw 3.4 GW of solar capacity installed in Q3, a (5.5%) sequential decline from 3.6 GW in Q2 as rooftop solar installations pulled back. September’s installed capacity was just 0.92 GW, a (32%) decline from July’s 1.35 GW additions and the lowest monthly level since February. While this slump in installations is likely to continue through Q4 and possibly extend into 2024, residential’s outlook over the decade is strong: Wood Mackenzie sees Germany’s “residential segment will experience the most growth, with cumulative installed capacity expected to grow fivefold” through 2032.

France witnessed 12% growth in installed capacity in the first half of 2023, with total installed capacity of 1.37 GW. Nearly 42% of the installed capacity in 1H came from fully or partially self-consumed systems, while 94% of installations in Q2 were systems smaller than 9 kW, suggesting the residential market had been relatively robust heading into 2H. Over the long-run, France is expected to see residential solar installations climb, with projections for “cumulative totals for home solar in France to quadruple by 2032.”

Valuations at Multi-Year Lows

Residential solar stocks have seen valuations drop to multi-year lows. Enphase currently trades at 3.77x EV/revenue and 4.4x forward EV/revenue, far below its 5-year median 12.11x multiple and far below the high double-digit multiples it commanded in 2021 and late 2022. SolarEdge’s 1.04x EV/revenue and 1.15x forward EV/revenue also sit far below its 5-year median multiple of 5.17x. Forward P/E ratios for the two have dropped to the teens, nearly 70% lower than their 5-year averages, respectively.

Solar Energy Company Comparison

Source: I/O FUND

However, forward revenue projections have pulled back substantially – revenue targets have essentially shifted back by one to two fiscal years.

Plummeting Forward Revenue Projections for Enphase, SolarEdge

Source: YCHARTS

As of June 30, Enphase was projected to generate revenues of $3.04B in FY23, before growing to $3.80B in FY24 and $4.72B in FY25. As of October 30, just 4 months later, Enphase’s forward revenue forecast has plunged around (40%): FY24’s forecast has declined by more than $1.6B to just $2.15B, below FY23’s projected $2.3B, while FY25’s forecast has pulled back $1.8B to below $3B– a figure that Enphase was previously expected to hit this year.

SolarEdge was projected to see similar growth, with revenues rising from $4.13B in FY23 to $5.05B in FY24 and $5.89B in FY25. Again, forward projections have pulled back significantly, with FY24’s estimate now just $3.74B, around (26%) lower than it had been on June 30.

Near-term demand weakness in multiple major end markets is the main theme for solar stocks heading into 2024. Forward revenue projections have plummeted as a result, while valuations have reached multi-year lows – Enphase and SolarEdge are trading at deep discounts in anticipation of a bottom in revenues occurring over the next two to three quarters.

By respecting our risk management, the I/O Fund closed Enphase twice with minimal losses. When the fundamental picture changed, we stepped aside. If there is any lesson 2022 has taught tech investors, it’s that long-term buy and hold can create unnecessary losses. In April, we closed Enphase for a (-15%) loss following an earnings analysis for our premium members, avoiding a (-64%) loss from the original cost basis. When we attempted again in September, we closed the position when the setup failed, avoiding the losses from the solar sector selloff and Enphase’s most recent report. We share our trades in real time with our research members.

I/O Fund Equity Analyst Damien Robbins contributed to this report.

Please note: The I/O Fund conducts research and draws conclusions for the Fund’s positions. We then share that information with our readers. This is not a guarantee of a stock’s performance. Please consult your personal financial advisor before buying any stock in the companies mentioned in this analysis.

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Posted in Energy Stocks, SolarLeave a Comment on Solar Stocks Still Searching For A Bottom

Enphase: Price is Low for a Global Solar Leader

Posted on September 22, 2023June 30, 2026 by io-fund

Enphase is expected to resume growth in the June quarter of 2024, according to analyst estimates. This feels like a long way off to growth investors, yet we’d love nothing more than to enter close to a bottom for this global leader in solar. Interest rates will continue to weigh on the company, yet the difference between Enphase and many other consumer-facing tech stocks is that Enphase is trading at a deep discount. The stock is down (-53%) YTD and is down (-62%) since it’s December high, which was less than a year ago.

The analysis below revisits Enphase given its deep discount. Overall, Enphase is a strong product story, a strong management team, and the fundamentals will (eventually) improve. We are not at an inflection point yet on the financials, they’re still a little messy, but we could be within 1-2 quarters of the inflection point. Also, while the market has been preoccupied with selling Enphase, the margins have been quietly improving. This is not being priced in yet, but once top line growth resumes, Enphase will emerge a stronger company fundamentally.

Interest rates continue to be a headwind, and this is out of Enphase’s control. The systems they provide are pricey in the $10K to $20K range or higher, somewhat similar to an automobile. The overall message from Tesla, Apple, Enphase and others that offer high ticket consumer items is that their products are effectively more expensive when interest rates are high. This results in fewer buyers or results in aggressive price cuts. We outlined this here when a Tesla analysis that stated: “The comment on interest rates is the most important comment from the call as high interest rates mean Tesla must lower prices. In a way, management is agreeing that quite a bit about the current situation is out of management’s control. While some will talk about recurring software revenue from robotaxis as the most important catalyst, the harsh reality is that the FED lowering rates is the most important catalyst for Tesla today.”

The same can be said for Enphase as this company is at the cutting edge of solar technology – but reality is that the FED matters more. This seems simple and straight forward, yet the stock market has rallied in some cases despite a worsening outlook for pricing power. So, it’s important to be really clear about this, and repeat it again, now that tech is trading at high valuations. Except Enphase, which is a rate-sensitive stock that is trading at a 4-year low, hence the reason we are attracted to this stock whereas we are trimming others that have outperformed this year.

Most importantly for Enphase, United States revenue has been declining. Despite Europe reporting hypergrowth, it’s not enough to absorb the losses in the United States. Additionally, the IQ8 microinverter is a steady product in terms of sales, yet battery sales and EV chargers are declining. It’s expected that batteries see a recovery in the second half of the year due to NEM 3.0. We cover this plus more details on IRA, NEM 3.0 and Channel Inventory in the section “Key Metrics” and “Earnings Call Notes” below.

Revenue and EPS:

In the June quarter, Enphase reported revenue of $711 million, for growth of 34%. The company’s growth rate had been decelerating gradually over the past two years from a peak of 97%, and will now enter negative territory. 

Next quarter, the company is expected to report revenue of $550 million to $600 million, for a decline of (-9.4%). According to analyst estimates, the revenue decline should bottom in December at (-12.5%). By June, the company will be in positive territory again, and by September, Enphase will see a sizable rebound.

Source: YCharts/Seeking Alpha

The company reported Adjusted EPS of $1.47 compared to estimates of $1.27. Similar to the top line, the bottom line is expected to rebound in H2 2024. In fact, Enphase is expected to go through a period of strong bottom-line growth as the company exits 2024 due to IRA making a substantial impact on the bottom line. By Q4 2024, IRA will be contributing an additional $112.5 million compared to the $157.2 million in net income Enphase reported in the previous quarter, or roughly 58% more income (if we assume all things are equal).

Source: Company IR/Seeking Alpha

Margins:

Overall, the margins are stronger due to reducing component costs and the better margins on IQ8 microinverters. For next quarter, management stated the net IRA benefit will be $15.5 million, at the midpoint, based on estimated shipments of 600,000 units of U.S. manufactured microinverters. So, there is some nominal impact from IRA for next quarter, as well.

  • Gross margin of 45.5% reflects IRA benefits of $1.6 million. Product mix of increased IQ8 sales also helped the margins, plus negotiations around logistics and pricing for components.
  • For next quarter, gross margin is expected to be 42.5% before reflecting IRA benefits of between $14.5 million and $16.5 million on estimated shipments of 600,000 units of U.S.-manufactured microinverters.
  • GAAP operating margin of 24% compares to 17.8% in the year ago quarter. Adjusted operating margin of 32.4% is 365 basis points higher than the year ago quarter.
  • GAAP net margin of 22% compares to a margin of 14.5% in the year ago quarter.
  • Adjusted net margin of 28.91% for adjusted profits of $205.6 million reflects stock-based compensation that is 7.6% of revenue. SBC has been ticking downward from the 10% range.

It’s quite rare to expand margins while revenue falls rapidly, which is why I’ve copied the full explanation from the earnings call:

“We have non-GAAP guidance that we gave is 42% to 45%. And like what I said, we – like, for example, I didn't even say this to the gentlemen who asked me the question before. For example, in logistics, last quarter, we saved $8 million. Last quarter. Like we have a lot of initiatives from a world-class cost on saving the cost of a capacitor, resister, parting, semiconductors, ASIC, not only by second source qualification or multisource qualification, but simply, purely by negotiation.For example, in logistics, last quarter, we saved $8 million. Last quarter. Like we have a lot of initiatives from a world-class cost on saving the cost of a capacitor, resister, parting, semiconductors, ASIC, not only by second source qualification or multisource qualification, but simply, purely by negotiation.

So we do that, and we do that on microinverters. We do that on batteries. We do that on combiner buses and accessories. So our world-class cost effort is invaluable and has saved us a lot of dollars. And we are now moving to a higher and higher mix of IQ8, which has got a little bit more gross margin than IQ7.And we are now moving to a higher and higher mix of IQ8, which has got a little bit more gross margin than IQ7.”

It was also mentioned on the call that $1 savings on microinverters leads to $20 million in savings total, assuming 20M microinverters are shipped. This also helps illustrate how Enphase plans to expand margins in the future. 

Cash Flow:

Cash flow margins are also strong at 37.9% this quarter for operating cash flow, and 31.7% for the free cash flow margin. Q2 is seasonally higher than other quarters. Free cash flow of $225.2 million reflected $44 million spent on capex for new R&D equipment.

The company has $1.8B in cash and marketable securities with $1.3 billion in debt.

The company recently announced $1 billion additional authorization for share repurchases. Previously, the company had $500 million authorized for repurchases, of which the final $200 million was used in Q2 to repurchase 1.25 million shares at an average price of $159.43.

Key Metrics:

As discussed in the intro, the problem area for Enphase’s earnings reports has been the decline in United States revenue. As a percentage of revenue, the United States has fallen from 80% of revenue in Q2 of last year to 59% of revenue in the most recent quarter. This refers to percentage of revenue, while total revenue in the United States was down 12% QoQ and decreased 1% YoY.

Source: Earnings Call Transcripts

We tried to get in front of this by closing our position in April when regions outside of California reported a 25% sequential decline. This foreshadowed weak price action as the stock was down (-33%) YTD when we closed it, and it is now down (-54% ) YTD. However, through active management, our combined cost basis for the position was around $215, which means we were able to close it for only a ~17% loss. Without our process, we would instead be dealing with a 44% loss if we held onto it. Notably, management attempted to keep investors hopeful by stating Q1 is seasonally weaker than Q2, yet this did not pan out, as Q2 was weaker than Q1.

Per management, non-California states declined (-6%) QoQ on microinverters and (-11%) year-over-year. This is better than the (-25%) QoQ but is suggesting we do not have evidence of a bottom yet.

California revenue was 20% higher QoQ and 34% higher YoY – yet this comes with uncertainty because the sales are coming from a backlog on NEM 2.0 installation whereas we do not know yet how California will perform under NEM 3.0. Per our research notes below, although NEM 3.0 looks like it’ll be a positive outcome, it’s speculative until we get actual results.

Europe is growing rapidly, and is up 25% QoQ and tripled YoY. However, the United States made up 80% of revenue last year (and is now at 59%), and Europe is not large enough to make up for these losses.

Per management: “The overall U.S. market is experiencing a broad-based slowdown due to high interest rates. As I said earlier, our Q2 sell-through of microinverters in the U.S. was only up 2% compared to Q1 and only up 2% year-on-year. The second quarter is typically stronger than the first quarter that did not happen this year due to the market environment.” We covered this last quarter here.

Additionally, management stated that non-California is not likely to resume growth until interest rates are lower: “Yes. I think to answer your question on sell-through for non-California, I mean it has not changed much in Q1 and Q2. In fact, I said Q2 was a little bit worse compared to Q1, about 6% worse and I think it is expected to probably be at this level until the interest rates take a meaningful turn for the better. That in non-California.”

Enphase’s revenue has become increasingly driven by IQ8 microinverters at 78% of microinverters compared to 65% of microinverters in the previous quarter. The company reported 2121 Megawatts DC of microinverters, which was up 74.8% year over year, and was up 8.4% QoQ.

Other segments, such as IQ Batteries are trending down on megawatt hours at 82.3 MW hours this past quarter compared to 132.4 megawatt hours last quarter, for a decline of (-60.9%). The number of EV chargers shipped is also trending down for a decline of (-25%) with 6,600 U.S. EV Chargers shipped compared to 8,250 chargers shipped in the year ago quarter.

Regarding weakness in batteries, there was a suggestion on the call that Tesla is causing a pricing war. However, NEM 3.0 is expected to help accelerate battery growth as the new provisions favor storage.

Update on Net Energy Metering (NEM) 3.0:

Per our previous write-up on NEM 3.0, last year, California passed controversial solar policies that will initially benefit Enphase and other “solar plus storage” companies because the new policies greatly reward solar systems that have storage.

The new policies introduce high tariffs for high-priced evening power whereas rooftop solar systems with storage will offset these prices and potentially export power back to the grid. This was a controversial policy because it benefits utility companies by also slashing the value of solar returned to the grid by nearly 75%.

Another controversial tariff is the grid participation charge, which is proposed to be $8.00 per kW, or $56 a month and $672 per year.

This will initially benefit Enphase as the company sells storage with its comprehensive systems, and systems installed before the new policy takes effect (mid-April) will be grandfathered into the current rates offered for selling power back to the grid.

As discussed in a previous analysis, Enphase’s microinverters use a proprietary ASIC chip to change loads and grid events, which reduces the required size of battery and battery power. The solution that Enphase designed with IQ8 is that the models are “always on” by combining the inverters, batteries, system controllers and load controllers for a mini grid that can produce power from the sun and efficiently store this power at night.

The small upside to the new policy is that over the next 9 years, residential customers can receive credits by using the Avoided Cost Calculator (ACC) to calculate the cost a utility avoids for each kilowatt-hour that it doesn’t buy from the wholesale market. The extra credits will result in residential customers saving $100 to $136 per month on the average electricity bill. There is an additional $630 million in state funding set aside for low-income housing installations.

The reason I use the word “initially” is because solar installations ultimately fell in Nevada and Hawaii after similar policies.

Per SolarBuilderMag, Enphase has previously stated the following:

“Enphase Energy states, ‘Based on data from other states, cutting (the) solar value proposition by more than half — four months from now — will lead to a deluge of installation requests in the first quarter of 2023, followed by a precipitous curtailment. This will not only fail to sustainably grow the solar market, but it also risks debilitating it, exacerbating supply chain issues, disrupting small business cashflows, and jeopardizing roughly 65,000 California solar jobs.”

In December, NEM 3.0 passed with the new policy set to take effect April 13, 2023. Enphase had previously cautioned it will cause a spike in installations because solar + storage that is installed prior to NEM 3.0 can continue to sell to the grid at the higher rate before the policies go into effect.

Fast forward, and today Enphase is saying the following about NEM 3.0 — notably, the tone is more positive today compared to when NEM 3.0 had not passed yet:

“We think NEM 2.0 will continue through Q3. That's what we are hearing from our installers. It will continue through the summer until September. We believe Q4, NEM 3.0 will start. And the anecdotes we are hearing from some of our installers, some of our big installers who say that their battery attach rates are pretty nice, higher than 50% […] So payback comes down from the 7 to 8 years to 5 to 6 years with a high enough battery system. So once the installer has realized that economics, then they are a lot more confident of selling them NEM 3.0.”

Despite these positive comments, I think the reality is that nobody can accurately predict how NEM 3.0 will impact Enphase. Management at one point acquiesced that it’s an unknown right now. I will also add that when we closed the position in Q1, management had provided comments that Q2 will be seasonally stronger but this was not the case. Although management has been reliable in the past, interest rates and consumer behavior is out of their control; this is compounded by the new legislation.

“On NEM 3.0, I mean, we only have anecdotal evidence right now. The channel is still NEM 2.0. And NEM 2.0 installations are happening. Many – some of our distribution partners said that a few installers may even do NEM 2.0 until October or November. We are hearing that for most of Q3, it will be NEM 2.0. And we will start getting data on NEM 3.0 sell-through data only in Q4.”

Takeaway: We are at a speculative juncture for how NEM 3.0 plays out, however, because Enphase is the premiere “solar + storage” company and has been preparing for NEM 3.0 with the third-generation battery (available now) and fourth-generation battery (available soon), the most likely outcome is that Enphase does well. There could be a bumpy transition around Q4, Q1, etc. However, with the stock down 50% YTD and down 60% since the December high, one could argue a bumpy transition is priced in.

Third-Generation and Fourth-Generation Battery:

The third-generation battery was released in the second quarter. This is the battery that is expected to support a softer landing from NEM 3.0. Per management: “The higher charging and discharge rate of our third-generation battery will be uniquely beneficial for NEM 3.0 systems in California through its ability to generate revenue by exporting into the grid at appropriate time.”

The battery has 5KW modularity and 2X the power of the existing battery plus 3X the peak power. Due to this, management has stated “we expect our battery business to perform well in the second half of the year.” Notably, battery sales were weak this quarter as management cut pricing on the second-generation battery during the third-generation battery launch.

The benefit to being modular is that if the battery fails, a homeowner can replace parts that cost about $40 instead of the entire battery, which costs about $3,000. In this case, the third-generation battery allows for only those parts that have failed to be replaced, such as the power electronics.

Enphase will improve margins with the fourth-generation battery by reducing the number of components and costs. The 4th Gen battery is due over the next 9-12 months.

Notably, analysts on the call commented that their channel checks have stated that Enphase is under pricing pressure from Tesla. This is something to monitor as the third-generation rolls out in H2.

Inflation Reduction Act (IRA):

We’ve written extensively about IRA which you can reference here and also here.

Based on an analysis by McKinsey and Company , IRA will direct nearly $400B in federal funding to clean energy, with the goal of substantially lowering the US’s carbon emission by the end of this decade. The funds will be dispersed via a mix of tax incentives, grants and loan guarantees. Clean electricity and transmission will receive the highest funding, followed by clean transportation, including electric-vehicle (EV) incentives.

In the past, the US has generally relied on imports for solar equipment. This law will encourage more production at home with incentives for domestic solar panels and inverter manufacturing. It is also designed to support the construction of renewable electricity plants.

Enphase has been moving its manufacturing over to United States soil in order to capture the IRA credit. Although Q2 impact was nominal at $1.6M, we are starting to see this ramp for Q3. Management expects to ship 600,000 units from United States manufacturing facilities in Q3 for an estimated IRA benefit of $14.5 million to $16.5 million. Calculating per unit comes to about $24.17 to $27.5, with management guiding for $24 to $28 per microinverter sold. The net benefit per unit will differ each quarter as the company manufactures high-power products in certain quarters and low-power products in others, depending on customer demand.

The management expects robust demand of 4.5 million US shipments in Q4 2024. However, this could change depending on the macroeconomic conditions over the next year. Per management: “Well, it all depends. That is why we qualified it with saying pending robust demand. And if that demand is, for example, let us say we go through another recession next year, then I mentioned earlier that we would look at how to balance this out between U.S. and international, and we will give you the appropriate guidance at that time.”

At an average of $25 per unit, they expect a net IRA benefit of $112.5 million in Q4 2024. This has led analyst consensus to see EPS of $1.97 by Q4 of next year. Assuming there are no changes, Enphase will see 76% and 66% growth to its bottom line in Q3 and Q4 of next year. From there, EPS continues to grow.

The management also gave more clarity on how the manufacturing production credit from IRA is reported in the company’s earnings. They expect the production credit to be a reduction in the cost of goods sold. The company’s CFO, Mandy Yang, said in the recent earnings call, “We had originally thought that the production credit will be reflected in income tax expenses. But based on the latest guidelines from the U.S. Treasury, we expect to claim the production credit by direct pay, and therefore, account for the production credit as a reduction in cost of goods sold.”we expect to claim the production credit by direct pay, and therefore, account for the production credit as a reduction in cost of goods sold.”

IQ9 and IQ10 Microinverters:

For the IQ9, Enphase plans to increase the power of the microinverter by 50% from 320 watts to 480 watts DC in the same footprint. This is made possible by gallium nitride (GaN), which has the thermal characteristics to withstand high power. GaN also allows a higher frequency, so what operates at 100 kilohertz today in the IQ8 will operate at 200 to 300 kilohertz on the IQ9 and 1 megahertz in the IQ10.

The other major benefit is that the footprint of the transformer size will be the same despite a much more optimized system. At one point, it was stated the IQ9 would arrive in 2024. There have not been any new comments on the launch date, so we will need to wait for confirmation if 2024 is still on track.

Launching later this year, the small commercial microinverter IQ8P supports 480 watts of AC power, yet has a larger form factor. This will also be used in emerging markets, such as Brazil, Mexico, India and Spain. For the IQ9, gallium nitride makes it possible to shrink the form factor while achieving 480 watts of AC. The IQ8P was discussed on the most recent earnings call and is generally understood to be warm-up for the 480-watt IQ9s.

Channel Inventory:

Enphase’s ideal channel inventory pipeline is 8 to 10 weeks. Europe is currently at the high end of this at 10 weeks. However, management comments on the call that “we are now left with two quarters of inventory that is added on. And meaning two quarters of extra inventory” would imply 34 weeks of inventory in the United States. If ever there was a comment to get a stock to drop, it is a comment like this — that inventory is 3-4 times higher than average.

Julien Dumoulin-Smith

Excellent. Thank you. Good afternoon, team. I appreciate it. Can you talk a little bit more about the inventory levels and any write-down risk here? Can you talk a little bit about just the backdrop on that front? And more importantly, just the normalizing functions as you think about these different inventory levels across geographies, especially thinking to continued European growth, what might be implied by inventory levels, et cetera?

Badri Kothandaraman

Yes. I just now answered the question for Europe. The inventory level in Europe is a little bit normal, although it's on the higher side at about approximately 10 weeks. And that is why we said Q3 is a seasonally down quarter in Europe, and we expect to be slightly down in revenue as compared to Q2. But then I talked about we are introducing several new products […]  Our sell-through rate was the highest, and our channel inventory was very healthy at the end of Q4. What happened is the sell-through rates declined overall in the U.S., 20%, with respect to Q4, for Q1 and for Q2.

And therefore – and in response to that, we did throttle our shipments into the channel, but we didn't throttle it enough because we assumed Q2 will be a seasonally good quarter, which turned out to not be the case.

So therefore, we are now left with two quarters of inventory that is added on. And meaning two quarters of extra inventory. And we are also assuming, going forward, we are not making any aggressive assumptions. We are saying the demand will be at the same level as it is today. And therefore, we are taking a onetime correction for shipments into the channel. And that is why our guide is light for Q3.”

Valuation:

Enphase is cheap right now. While other tech stocks have participated in the rally this year, Enphase has not. What is pictured below is a time stamp that shows the last time Enphase traded this cheap was at the end of 2019.

With earnings, it was during Covid that Enphase traded this cheap.

Conclusion:

If we do enter Enphase, it’s not because the fundamentals have bottomed, as the next one to two quarters could show further sequential decline. Rather, it’s based on a combination of getting a solid company at a deep discount with the idea that the fundamentals will be much better in time, as well as technicals.

According to the I/O Fund Portfolio Manager, Knox: “We are seeing very bullish momentum patterns, while ENPH is basing in price. It is setting up for a nice bounce, which could signal the low. My base case is that this bounce will fail and we will make one more low; however, if the bounce breaks above $167, the odds will favor a low being in.” 

If you own ENPH or are looking to own ENPH, please join us on our weekly webinar where the Portfolio Manager goes into great detail about our positions and buy plans for each stock. On the Advanced premium plan, we offer real-time trade alerts for every buy/sell or add/trim. Learn more about Advanced Market Signals here.Learn more about Advanced Market Signals here.

Recommended Reading:

  • CrowdStrike: Steady Growth, Strong Bottom Line
  • Lam Research: Wafer Fab Equipment Leader & HBM/DRAM Memory
  • AEHR: Strong Top Line & Strong Bottom Line – Fiscal Q4 2023 Earnings
  • Enphase – Post Q123 takeaways
  • Enphase – what to look for in Q1
  • Enphase Q4 Earnings: A Perfect 10
  • First Solar Q1 Earnings: IRATC Timing, Strong Backlog, Higher ASP Per Watt
Posted in Energy Stocks, SolarLeave a Comment on Enphase: Price is Low for a Global Solar Leader

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