News Release

Load up the hydrogen but hold the carbon

KyotoU-led collaboration yields clean hydrogen from solar power and wood chips

Peer-Reviewed Publication

Kyoto University

Solar-powered zero-carbon emission hydrogen production

image: Proposed facility design view more 

Credit: KyotoU/Shutaro Takeda

Kyoto, Japan -- In the global race to curb climate change and reduce carbon emissions, hydrogen is considered a serious contender to replace fossil fuels. Although hydrogen 'burns' cleanly, with only water as a by-product, the current way of making hydrogen a reliable fuel alternative is energy- and carbon-intensive. 
Whether water is split with electricity or hydrogen is released from fossil fuels or other hydrocarbon sources, every step forward in making hydrogen is accompanied by at least two steps back in terms of associated CO2 emissions. In some processes, every kilogram of hydrogen is accompanied by almost 30 kilograms of CO2 output. 
Now, a Kyoto University-led team of international researchers has developed a novel hydrogen plant design that draws on fully renewable resources to produce the lowest amount of associated CO2 reported to date. They have published their proposal in the International Journal of Hydrogen Energy
"Solar energy is the obvious candidate for driving any hydrogen production, but the problem has often been that sunlight is too intermittent," says author Shutaro Takeda.
The team's novel approach of using solar heating to gasify biomass looks to be the most effective and practical way of making hydrogen with a low carbon footprint. They are working on combining two different systems to create a new type of hydrogen facility called the solar-driven advanced biomass indirect-gasification hydrogen production plant, or SABI-Hydrogen plant.
First, to effectively capture sunlight, they chose an arrangement of special mirrors, called heliostats, that focus light onto a receiver at the top of a tower structure. Under these conditions, a heat-transfer material in the receiver can reach temperatures up to 1,000 degrees Celsius.
Next, this heat is transferred from the receiver to the gasifier part of the system, where a vessel containing wood chips as biomass is intensely heated in the absence of oxygen. Rather than burning by combustion, the wood chips are converted to a mixture of gases containing a large proportion of hydrogen.
Alternatively, in the absence of solar heating, this gasifier could also be heated conventionally by burning fuel to deliver heat to the system. 
Finally, the team assessed the overall environmental impact of the design, based on an international standard impact assessment method, ReCiPe2016. The result showed that the SABI-Hydrogen system would only emit 1.04 kg of CO2 per kg of hydrogen produced: the smallest value among all existing hydrogen production methods.
Takeda sees nature as our greatest resource and gives us everything we need to combat global warming. "Our modeling shows that using solar power and biomass resources from managed forests could allow us to make hydrogen sustainably and with a low environmental impact," he concludes.

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The paper "Low-carbon energy transition with the sun and forest: Solar-driven hydrogen production from biomass" appeared 22 December 2021 in the International Journal of Hydrogen Energy, with doi: 10.1016/j.ijhydene.2021.11.203


About Kyoto University
Kyoto University is one of Japan and Asia's premier research institutions, founded in 1897 and responsible for producing numerous Nobel laureates and winners of other prestigious international prizes. A broad curriculum across the arts and sciences at both undergraduate and graduate levels is complemented by numerous research centers, as well as facilities and offices around Japan and the world. For more information please see: http://www.kyoto-u.ac.jp/en


 


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