Google has taken another major step toward its clean energy goals by signing a 15-year Power Purchase Agreement (PPA) with French energy company TotalEnergies. Under the agreement, Google will purchase 1.5 terawatt hours (TWh) of renewable electricity from TotalEnergies’ Montpelier solar farm in Ohio.
The 50-megawatt (MW) solar facility, which is nearing completion, will be connected to the PJM grid system, the largest electricity market in the United States. Once operational, the project will supply clean electricity directly to Google’s data centers in Ohio, helping the company reduce its carbon footprint and support local grid decarbonization.
Will Conkling, Director of Clean Energy and Power, Google, said:
“Strengthening the grid by deploying more reliable and clean energy is crucial for supporting the digital infrastructure that businesses and individuals depend on. Our collaboration with TotalEnergies will help power our data centers and the broader economic growth of Ohio.”
Ohio Powers the Next Wave of Data Center Growth
According to S&P Global, data center electricity demand in the U.S. is set to rise sharply — from 75.8 GW in 2026 to 134.4 GW by 2030. This surge is driven largely by the growing adoption of artificial intelligence (AI), cloud computing, and high-performance computing workloads.
In Ohio alone, Central Ohio leads the state with over 100 data centers, including those operated by Google, AWS, and Meta. New projects from companies like Cologix, QTS Data Centers, and Vantage Data Centers continue to expand the region’s energy demand.
This booming digital infrastructure is reshaping the U.S. electricity landscape. Many utilities are now planning for massive grid expansions to support this load growth. Yet, questions remain about how quickly clean energy projects can keep up with the rising power needs of hyperscale data centers.

A Shared Commitment to Building a Carbon-Free Digital Economy
The press release highlights that both companies share a strong commitment to sustainability. The partnership aligns with Google’s 2030 goal for 24×7 carbon-free operations and with TotalEnergies’ strategy to expand its clean power portfolio for digital infrastructure.
Together, they showcase how strategic corporate partnerships can accelerate decarbonization and fuel the clean energy transition.
Stéphane Michel, President Gas, Renewables & Power at TotalEnergies, commented,
“We are delighted to strengthen our partnership with Google with this agreement to supply renewable electricity to their data centers in Ohio. This agreement illustrates TotalEnergies’s ability to meet the growing energy demands of major tech companies by leveraging its integrated portfolio of renewable and flexible assets. It also contributes to achieving our target of 12% profitability in the power sector.”
Corporate PPAs: Driving the Energy Transition
Corporate PPAs are becoming key to cutting global emissions. These long-term contracts let companies buy clean electricity directly from renewable energy developers. By doing this, they skip middlemen and make sure new renewable projects get built.
For companies, PPAs provide steady energy prices and clear proof of their green energy use. For developers, they offer financial security to invest in new projects.
In Google’s case, the deal with TotalEnergies supports its goal to power every data center and office with carbon-free energy from the same grid. This approach goes beyond buying renewable energy certificates or offsets. Instead, it adds real clean energy to local grids and helps reduce emissions where it matters most.
TotalEnergies’ Expanding Renewable Footprint
TotalEnergies is one of the world’s leading integrated energy companies, and its renewable power ambitions are accelerating. By October 2025, the company had reached 32 GW of installed renewable capacity and aims to hit 35 GW by year-end. By 2030, TotalEnergies targets over 100 TWh of net electricity production from renewables.
In the U.S., the company is developing a 10 GW clean energy portfolio, including solar, onshore wind, and battery storage projects. Of this, 1 GW is located within the PJM market and 4 GW in Texas under ERCOT.
The new PPA with Google joins a list of corporate deals TotalEnergies has signed with major firms such as Amazon, Microsoft, Air Liquide, LyondellBasell, Saint-Gobain, STMicroelectronics, and Merck. These partnerships significantly help stabilize project revenues while accelerating the clean energy transition for large industrial and technology customers.

Google’s Journey to 24/7 Carbon-Free Data Centers by 2030
Google’s data centers run its global operations but also create most of its emissions. In 2024, Scope 2 emissions hit 3.1 million metric tons of CO₂, mostly from electricity use.
To address this, Google improved efficiency, reaching an average PUE of 1.09—much better than the industry average of 1.56. This means its data centers use 84% less extra energy.
At the same time, Google signed over 8 GW of new clean energy contracts. These solar, wind, and other carbon-free projects help the company move toward running 24/7 on carbon-free energy by 2030.

Solar Energy: The Core of Clean Power Strategy
Solar energy is a cornerstone of Google’s sustainability roadmap. Since 2017, the company has maintained a 100% renewable energy match globally and has now signed more than 170 clean energy agreements totaling over 22 GW of capacity.
Recent highlights include:
- A 1 GW solar pipeline in Taiwan, developed in partnership with BlackRock’s Climate Infrastructure business.
- A 1.5 GW portfolio of new solar projects across the PJM grid in the U.S., aligned with Google’s data center locations.
- Investments that help semiconductor suppliers and manufacturers in Asia decarbonize their operations.
Through initiatives like Project Sunroof and the Solar API, Google is also using AI and satellite imagery to make rooftop solar more accessible to homeowners and developers. In 2024, solar panels installed through partners using Google’s API were estimated to enable 6 million metric tons of lifetime GHG reductions. It’s roughly 6,000 times greater than the emissions produced by the model’s computing energy that same year.
A Blueprint for Energy and Technology Synergy
The Google–TotalEnergies partnership goes beyond energy supply—it shows how tech and clean energy can work together. However, energy equity remains important. Policymakers and utilities must ensure local communities also benefit from clean energy, not just large data centers.
As AI and digital demand grow, scaling renewables will be key. Partnerships like this help lay the foundation for a sustainable, carbon-free digital future.
The post Google and TotalEnergies Unlock Carbon-Free Future for Ohio Data Centers with 15-Year Solar Deal appeared first on Carbon Credits.
Carbon Footprint
How to improve Scope 3 data accuracy for CSRD
For most businesses, the emissions that matter most sit outside their own walls. Scope 3 emissions, everything generated across your value chain, from the suppliers who make your inputs to the customers who use your products, typically make up the majority of a company’s total carbon footprint. Under the Corporate Sustainability Reporting Directive (CSRD), those value-chain emissions now have to be measured and disclosed with a rigour that spend-based estimates alone struggle to satisfy. This guide sets out how to improve Scope 3 data accuracy for CSRD: the calculation methods open to you, how to move from estimates to verified supplier data, and how to govern that data so it holds up to audit.
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Carbon Footprint
How community stewardship makes carbon credits durable
A carbon credit is a commitment that extends well into the future. The tonne of CO₂ compensated for today from a nature-based carbon project must remain out of the atmosphere for good, which means the forest behind the credit has to remain standing long after the transaction is complete. For any buyer, this raises a defining question: What ensures that the forest endures?
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Carbon Footprint
Why Conventional Carbon Offsets Are Losing Boardroom Credibility
What replaced the cheap REDD credit on the boardroom slide deck, and why procurement is leading the rewrite.
Three years ago, a corporate slide showing a portfolio of cheap REDD+ credits could carry a board meeting. The number was big, the price was low, and the press release wrote itself. Today, that same slide gets sent back with questions. The questions are uncomfortable, the answers are unclear, and your general counsel is suddenly in the room.
Conventional carbon offsets are not dead. The voluntary carbon market retired 202 million tonnes in 2025, and the Morgan Stanley Institute for Sustainable Investing survey published in January 2026 confirmed that interest from corporate buyers remains substantial. What changed is the credibility threshold. The integrity floor has risen, the disclosure scrutiny has tightened, and the buyer profile has shifted. This article tracks what changed, what sophisticated buyers now ask before signing, and what serious corporates are putting on the board slide instead.
What boards used to buy, and why it stopped working
The 2020 to 2022 model was simple: buy a large tranche of avoidance credits at low single-digit prices, retire them against the company footprint, announce the carbon-neutral claim, and move on. Most of those credits came from REDD+ projects, renewable energy installations in countries where the renewable energy was already economic, or methane projects with thin documentation.
Several things broke that model. Academic research published in 2023, including a widely cited Science paper, found that the majority of REDD+ credits issued under the most common methodologies did not represent additional reductions when tested against rigorous counterfactuals. The Voluntary Carbon Markets Integrity Initiative published its Claims Code of Practice, which sets requirements for what companies can credibly claim from credit use. The European Union finalised its Green Claims Directive, restricting how companies can describe products as climate-neutral. France’s Décret 2022-539 already restricts carbon neutrality advertising. California’s AB 1305 imposes disclosure requirements on any company making net-zero or carbon-neutral claims while doing business in the state.
The collective effect: the cheap credit no longer buys the announcement, and the announcement now carries litigation risk.
The integrity reset: ICVCM, VCMI, and what changed
The Integrity Council for the Voluntary Carbon Market published the Core Carbon Principles in 2023 and began assessing methodologies against them in 2024. The first methodologies received the CCP label later that year. The point of the label is to give corporate buyers a defensible quality screen they can cite in disclosure.
The Voluntary Carbon Markets Integrity Initiative complements this on the demand side. Its Claims Code of Practice defines what a buyer can say (Silver, Gold, or Platinum claims, with associated requirements) based on the quality of credits used and the underlying decarbonisation strategy. Together, CCP and VCMI build a quality stack: CCP on the supply, VCMI on the claim, with the science-based target sitting underneath both.
The reset is not a ban on offsets. It is a ratchet. Credits that meet the new bar continue to clear; credits that do not, do not. The Morgan Stanley survey found that 61% of current buyers like the CCP label concept but that supply of labelled credits remains limited. That supply constraint is now visible in pricing.
What sophisticated buyers ask before they sign
The questions on the procurement scorecard have changed. A 2022 buyer might have asked about price, vintage, and project type. A 2026 buyer asks five different questions before any of those.
- What does the counterfactual look like, and who validated it.
- What is the permanence regime, and what is the buffer pool exposure.
- What is the leakage risk, and how is it mitigated.
- What rating has the project received from the independent ratings agencies (Sylvera, BeZero, Calyx Global), and what was the rationale.
- What is the documentation discipline that survives an audit four years from now when the procurement team that signed the contract has moved on.
If the vendor cannot answer those five questions on a first call, the conversation ends. Conversely, if the vendor can answer them with documented specificity, the conversation often expands beyond a single transaction toward a multi-year engagement.
Where this leaves your near-term commitments
You probably have near-term commitments that pre-date the integrity reset. Public targets to be carbon neutral by 2025 or 2030. Product-level claims that ran in last year’s marketing. Disclosed reduction trajectories that assumed continued access to cheap credits.
You have three workable paths. The first is to re-baseline your strategy, replacing the most exposed credits with higher-quality alternatives and adjusting the public language to match what you can defend. The second is to shift the underlying spend from offsetting outside your value chain to investing inside your value chain, where reductions count against Scope 3 directly and the audit trail is cleaner. The third is to keep the strategy and absorb the risk, which is increasingly the most expensive option once you price in litigation, restatement, and reputational exposure.
Most serious buyers are choosing the second path. It moves the carbon spend from a compliance cost to a procurement and resilience investment, and it removes the central failure point of the legacy model: the disconnect between where the emissions occurred and where the reductions sat. Nature-based supply chain investments, structured under the GHG Protocol Land Sector and Removals Standard and aligned to the SBTi FLAG Guidance, are the asset class that fits this brief. They generate inventory-grade reductions, they produce audit-grade documentation, and they survive the new claim restrictions because the carbon math sits inside the value chain that the disclosure already covers.
If you are reassessing a carbon strategy under the new integrity bar, or rebuilding a board narrative that has to survive a more skeptical audience, the carbon and sustainability experts at Carbon Credit Capital can help. The Dual-Value Model gives you a defensible alternative to legacy offset purchases, with the documentation and operational integration that survives the procurement scorecard and the audit. Schedule a consultation.
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