Global collaboration boosts green hydrogen and could spur more green energy partnerships
Public and private institutions must collaborate to achieve the technical breakthroughs required to develop renewable fuels, like green hydrogen. Image: Unsplash/NASA
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- Public and private institutions must collaborate to achieve the technical breakthroughs required to make renewable fuels, such as green hydrogen, broadly available.
- But these partnerships don’t happen by accident — a focus on innovation and a commitment to advancing the state of knowledge is essential.
- Strategic partnerships that combine the right expertise and aligned incentives are essential; when that happens we can achieve important milestones that move the world forward.
Sharply reducing emissions on a global scale is a daunting task. Aside from reaching an agreement on how to tackle and fund climate initiatives, public and private institutions must also collaborate to achieve the technical breakthroughs required to make renewable fuels, such as green hydrogen, broadly available.
Agilent’s partnership with an energy institute in China shows the importance of such cooperation in achieving these breakthroughs. But they don’t happen by accident — a focus on innovation and a commitment to advancing the state of knowledge is essential.
Agilent is a life science technology company spun off from HP during one of the most innovative periods in recent tech history.
We have the benefit of collaborating with scientists worldwide, and we combine our established expertise in lab instrumentation, technology and analytics with the leading-edge insight of those working at the forefront of scientific inquiry, such as China’s SINOPEC Research Institute of Petroleum Processing (RIPP).
Founded in 1956 and based in Beijing, RIPP is a comprehensive research and development organization specializing in petroleum refining and petrochemical engineering.
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Breaking down barriers
We worked with RIPP to address a barrier to the broader adoption of hydrogen fuel: a lack of reliable methods to detect impurities in the gas. Gas impurities are a problem because they can damage hydrogen fuel cells, rendering them useless as an energy source for automobiles. Moreover, the gas must be tested throughout the value chain to ensure it remains stable, from the hydrogen production process to the fuel pump used by consumers.
To address this, RIPP and Agilent scientists worked together to find a better way to detect and measure these impurities. Drawing on Agilent’s advanced analysis instrument platform, RIPP developed a novel and sophisticated analysis schema down to the parts per billion level.
The results were impressive. RIPP’s schema consistently detected impurities in the gas with a 2% or less relative standard deviation at approximately several parts per billion, reaching uncommon levels of precision.
China is now poised to implement this testing method at scale and build out its hydrogen production infrastructure — a critical step to making green hydrogen a viable alternative energy source. RIPP has already employed these methods for the first hydrogen fuel vehicle refuelling station laboratory in China. The method has also been accredited by China’s assessment and measurement bodies and it has been implemented in several laboratories.
Importantly, this breakthrough will benefit all countries seeking to reduce their carbon emissions. The testing methods discovered through this collaboration can be applied anywhere, once approved by regulators and standards boards.
What can others learn from this successful partnership? Having a culture of innovation is critical, as is having enough humility to realize we can’t solve these problems alone. Strategic partnerships that combine the right expertise and aligned incentives are essential. When that happens, we can achieve important milestones that move the world forward.
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