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electronicsJuly 1, 2026

Next Hydrogen's Tritium Extraction Tech to Power ASEAN Fusion Projects

A new collaboration between Next Hydrogen and Fusion Fuel Cycles aims to bring advanced fusion fueling systems to Southeast Asian factories.

A Leap Forward in Fusion Energy for ASEAN Factories \\[10pt] The future of clean, sustainable energy is taking a significant step forward with the collaboration between Next Hydrogen and Fusion Fuel Cycles (FFC). This partnership aims to develop specialized electrolyzers that can extract tritium from heavy water, a critical process for preparing fuel for future fusion reactors. For factories in Thailand, Vietnam, Indonesia, and Malaysia, this could mean a new era of reliable, carbon-free baseload power. \\[10pt] ## Simplifying Fusion Infrastructure \\[10pt] FFC is focused on developing balance-of-plant systems that allow fusion developers to concentrate on reactor technology rather than designing supporting infrastructure from scratch. This approach simplifies deployment and accelerates the transition to demonstration plants and eventually commercial facilities. As interest in fusion energy grows, driven by government and private investments, the need for robust and efficient fuel-cycle equipment becomes paramount. \\[10pt] ## Advanced Electrolyzer Design \\[10pt] Next Hydrogen's electrolyzer stands out with its unique design, which includes internal gas-liquid separation. This feature reduces contamination risks and enhances reliability, making it ideal for fusion applications. Unlike traditional alkaline electrolyzers, Next Hydrogen's system performs gas-liquid separation inside each half-cell, eliminating the need for large external separator vessels. This compact design not only simplifies the balance of plant but also reduces the overall installation footprint. Additionally, the electrolyzer can operate at higher current densities, reducing the equipment footprint by about two-thirds and lowering civil engineering requirements. \\[10pt] ## Longevity and Efficiency \\[10pt] The electrolyzer stacks are designed to operate for approximately 80,000 hours, providing a long-lasting solution for fusion projects. The system consumes between 45 and 55 kilowatt-hours of electricity per kilogram of hydrogen produced and requires about one liter of deionized water for each normal cubic meter of hydrogen. This efficiency and longevity make it an attractive option for factories in ASEAN countries looking to adopt cutting-edge, sustainable energy solutions. \\[10pt] ## Accelerating Fusion Development \\[10pt] By delivering a standardized balance of plant, FFC allows fusion companies to focus on their core reactor technologies, potentially lowering development costs and accelerating demonstration timelines. For ASEAN factories, this means they can benefit from advanced fusion technology sooner, contributing to a more sustainable and energy-secure future. \\[10pt] In conclusion, the collaboration between Next Hydrogen and FFC represents a significant advancement in fusion energy. For factory buyers in ASEAN, this partnership opens up new possibilities for adopting reliable, carbon-free baseload power, driving the region towards a more sustainable and energy-secure future.

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Editorial rewrite by ASEAN Machine team, based on public reporting from Interesting Engineering, with added ASEAN manufacturing context.

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