Press Release: Clariant to supply catalyst to SYPOX for world’s largest electric steam methane reformer

• Clariant’s Custom Catalyst Manufacturing delivers optimized catalysts, reducing emissions by up to 40%¹
• World’s largest electric steam methane reformer (e-SMR) is planned to produce 150 tons of syngas daily using 10 megawatts (MW) of renewable electricity
• Commercial operation scheduled for 2026, marking a significant milestone in sustainable chemical production

Clariant, a sustainability-focused specialty chemical company, today announced a supply agreement with SYPOX to manufacture and deliver catalysts for what will be the world’s largest electric steam methane reformer (e-SMR). This groundbreaking project combines SYPOX’s cutting-edge electrical reformer technology with Clariant’s expertise to enable syngas production with significantly reduced CO₂ emissions. Scheduled to begin operations in 2026, the e-SMR will use 10 megawatts of renewable electricity to generate approximately 150 tons of syngas daily.

“We are delighted to partner with SYPOX to optimize and manufacture the high-performance catalyst for the first 10 MW e-SMR plant,” said Xaver Karsunke, Vice President Specialties at Clariant Catalysts. “SYPOX technology revolutionizes the reforming process and supports syngas production. This system is expected to be both the largest of its kind–and the first in commercial operation.”

Martin Baumgaertl, CTO at SYPOX, added, “As pioneers in technologies that electrify chemical processes, we are pleased to collaborate with a globally-renowned catalyst technology partner like Clariant. We look forward to working closely together to deliver this e-SMR to our client.”

Conventional SMR processes rely on fossil fuel combustion outside reactor tubes, resulting in energy-intensive operations and high emissions. In contrast, SYPOX reformers directly electrify the chemical conversion inside the reactor, creating a system almost two orders of magnitude more compact. This technology not only enhances profitability and sustainability but also significantly simplifies plant operations. The flexible design makes SYPOX technology viable for both small, modular applications and large industrial plants.

¹ The emission reduction is understood to be a percentage reduction per ton of synthesis gas produced and relative to a steam methane reformer fired with conventional natural gas.