Hydrogen’s buzz isn’t slowing down. But the real energy play might surprise some folks—it’s not solar panels or wind farms. It’s natural gas, especially when paired with carbon capture. And ExxonMobil is betting big on it.
While headlines scream about clean hydrogen, the truth is, most of the world’s hydrogen still comes from steam methane reforming (SMR)—a process using natural gas. In fact, over 95% of global hydrogen is made this way. The U.S. is already producing around 10 million metric tons annually, and thanks to domestic gas abundance, it’s doing it at scale.
This isn't about clinging to the past. It's about recognizing what already works—and using it to lead.
Let’s talk scale. Over in Texas, ExxonMobil is building something huge at its Baytown facility. If completed, it could become the largest low-carbon hydrogen plant in the world. The plan? Produce 1 billion cubic feet of hydrogen per day and capture 10 million metric tons of CO₂ annually.
That’s not a prototype. It’s a working model of how the U.S. could power industrial sectors—like steel and shipping—without waiting decades for green hydrogen tech to catch up.
But it hinges on one thing: policy support. Specifically, the 45V tax credit, part of the Inflation Reduction Act. According to Darren Woods, CEO of ExxonMobil, “Without 45V locked in, the facility won’t move forward.” That’s not a bluff. It’s economics.
>> RELATED: Ammonia Offtake, Advancing the World’s Largest Low-Carbon Hydrogen Project
Critics call it dirty. But U.S. natural gas is some of the cleanest on the planet, thanks to methane leak controls and strict regulations. Plus, it’s abundant and cheap—two words energy execs love.
Unlike China or the UAE, the U.S. doesn't have to worry about supply chains or foreign imports. It has everything it needs right at home. And when you add CCS into the mix, blue hydrogen becomes a low-emission, scalable solution—not just a placeholder.
The International Energy Agency even noted in 2023 that “blue hydrogen will be critical to meeting global decarbonization goals in hard-to-electrify sectors.”
Here’s something most people don’t know. The U.S. already has more than 1,600 miles of hydrogen pipelines, mostly along the Gulf Coast. That’s infrastructure other countries are still dreaming of.
And it’s not just pipelines. America’s industrial know-how, workforce, and CCS expertise—built from decades in oil and gas—gives it a massive head start.
So while Australia experiments with electrolysis, and China doubles down on coal-heavy hydrogen, the U.S. could win the race simply by doing more of what it already knows how to do.
Hydrogen isn’t just a climate story anymore. It’s a trade story.
By 2050, Europe, Japan, and South Korea are expected to import over 50 million metric tons of hydrogen per year. These countries aren’t just looking for fuel—they want data-backed, transparent, low-carbon options. America can offer that.
South Korea’s Hydrogen Economy Roadmap highlights a strong demand for blue hydrogen imports starting this decade.
If the U.S. moves fast, hydrogen could become the next liquefied natural gas (LNG) moment—another major export boom.
>> In Other News: Anaergia and Capwatt Sign Binding Letter of Intent for Nine New Biogas Plants in Europe
The shale revolution made natural gas cheap, reliable, and secure. No other country can match this mix of price and control. With massive reserves and decades of production experience, the U.S. has the upper hand in cost and supply chain stability. It’s also less vulnerable to the geopolitical risks that plague other energy sources—a huge plus in today’s uncertain global climate.
From Gulf Coast pipelines to Baytown’s planned output, the U.S. already has the bones of a global hydrogen leader. This head start means less time spent building from scratch—and more time producing, moving, and exporting hydrogen at scale. That infrastructure isn’t just pipes and plants—it’s also the trained workforce and regulatory familiarity that other countries are still trying to develop.
Getting 45V right could unlock billions in hydrogen investment. Without it, projects stall, and rivals move in. It’s a make-or-break incentive that signals whether America is serious about clean energy leadership. If implemented well, it could trigger a wave of new projects across the country—fueling job growth, emissions reductions, and a competitive edge in global trade.
While the world waits for green hydrogen costs to drop, blue hydrogen can scale today. It’s not perfect, but it’s practical.
If the U.S. acts now—supporting CCS, easing permitting for plants and pipelines, and aggressively promoting exports—it could lead the hydrogen economy for decades.
But that window? It won’t stay open forever.
Baytown isn’t just a hydrogen plant. It’s a message. It says the U.S. doesn’t need to reinvent the wheel to lead in clean energy. It just needs to use what it already has—and use it smartly.
The global hydrogen game is on. And if the U.S. plays its cards right, it won’t just participate—it’ll dominate.
Follow the money flow of climate, technology, and energy investments to uncover new opportunities and jobs.
Inside This Issue ⚡ SB 1350: California Makes Hydrogen Power Count as Clean 🏭 Europe's Carbon Capture Push Shifts From Ambition To Delivery At CCSA EU Conference 2026 🍁 Canada and Alberta Tie New ...
Inside This Issue 🛢️ ExxonMobil Relinquishes 850,000 Acres of Gulf Federal CCS Leases as Interior Rulemaking Stalls 🌱 Climate Action Reserve Adopts Revised Permanence Approach 🧪 Mitsubishi Gas Che...
Inside This Issue 🍁 Inside the $1.2 Billion Deal Derisking Alberta CCUS 🌍 Nine Countries Join CCSA-Led Forum To Coordinate CCUS Policies Across Europe 🌀 Deep Sky Delivers North America's First Cer...
Airbus and MTU Aero Engines intend to deepen their collaboration by establishing a joint venture dedicated to the development and commercialisation of a fully electric hydrogen fuel cell engine. Th...
Deal represents the first commercial integrated model to pair Engineered Mineral Hydrogen (EMH) with SAF, aiming to increase SAF supply and reduce barriers that limit adoption Partnership will...
Nova Scotia Approves Largest-Ever Wind Farm to Power EverWind’s Hydrogen Plans
Nova Scotia has conditionally approved its largest wind energy project to date, an onshore wind farm that will help power a green hydrogen and ammonia facility planned for Cape Breton. “I am satis...
Randolph County Selects Waga Energy to Convert Landfill Gas into RNG in North Carolina
FOR IMMEDIATE RELEASE Asheboro, NC – June 30, 2026 – Randolph County has selected Waga Energy to build, own, and operate a renewable natural gas (RNG) production unit at the Great Oak Landfill in ...
Follow the money flow of climate, technology, and energy investments to uncover new opportunities and jobs.