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Engineering, Science

Making light work! Researchers create synthetic methane using only the sun

UNSW Sydney 3 mins read

Engineers at UNSW have developed a way to produce a synthetic fuel from carbon dioxide using only sunlight. The research team’s process involves utilising light and heat to induce a reaction which creates synthetic methane from CO₂.

Their research, published in EES Catalysis, could help to reduce reliance on fossil fuels.

“Methane is the major component of natural gas, and already widely used as a source of fuel, but is also a powerful greenhouse gas. Creating synthetic methane using only the natural resource of the sun is a cleaner and greener alternative for usage in heavy transportation, shipping, and other specific industries where gas usage is essential," Dr Emma Lovell says.

“By employing specific catalysts and support materials, we have demonstrated a new pathway for visible light to drive the conversion of CO₂ into methane. This not only contributes to the reduction of carbon emissions, but also adds value to the captured CO₂ by creating a valuable chemical product.”

Led by the team from the School of Chemical EngineeringProfessor Rose Amal, Dr. Priyank Kumar, Dr. Emma C. LovellYi Fen (Charlotte) ZhuAssociate Professor Jason Scott, Dr. Bingqiao Xie, and Dr. Jodie A. Yuwono, their work not only tackles environmental concerns, but also leverages renewable energy to power the conversion process.

The greater impact: what this all means

“Being able to directly use sunlight reduces the costs required for energy generation to facilitate the reaction. This alleviates one of the major challenges in the pursuit and application of CO₂ derived fuel, which is contingent on the availability of low-cost, low carbon energy inputs”, PhD candidate Zhu says.

The transformation of waste CO₂ into synthetic fuel creates a circular fuel economy. This means it creates a closed-loop system addressing environmental concerns and lessening reliance on fossil fuel extraction. This approach fosters sustainability by reusing carbon emissions and mitigating impact on the environment.

Affordable energy generation also plays a crucial role in this process as the direct and efficient utilisation of sunlight offsets power consumption and associated overhead costs for the reaction. This leads to reduced production costs for synthetic fuel, making it more economically viable and accessible.

Finally, the diverse chemical applications of this research extend beyond fuel production. The team is currently applying the findings to visible light-assisted CO₂ conversion into other high-value chemicals, potentially impacting a wide range of industries, from fuel production to pharmaceuticals. This versatility highlights the potential for broader innovations and solutions stemming from sustainable energy research.

“One of the most promising aspects of this research is its potential impact on industries like fuel production, cement manufacturing, biomass gasification and pharmaceuticals. I would say it represents a more sustainable fuel alternative by closing the carbon loop," A/Prof. Scott says.

"In terms of converting the CO₂ into value-added products, this represents a much cleaner alternative than products which currently rely on fossil-fuel derived precursors for their manufacture. 

“Looking ahead, we are already envisioning a new future direction."

That direction could be an expansion of the range of carbon-based products that can be synthesised from CO₂ with high selectivity, and secondly, designing and constructing larger-scale prototype systems capable of demonstrating the light-assisted approach on an industrial scale.

“The biggest challenge lies in being able to effectively introduce the light into a larger-scale system to illuminate the particles completely. We are exploring methods such as harnessing sunlight to drive multiple phenomena simultaneously, like solar-thermal alongside light assistance," A/Prof. Scott adds.

“Currently, we are conducting experiments at the lab scale, aiming to advance to demonstration/prototype scale within approximately a year. Following that milestone, our goal is to transition to pilot scale and ultimately to commercial/industrial scale.”

This research involved a collaborative effort by the UNSW School of Chemical Engineering and School of Photovoltaic & Renewable Energy Engineering, the University of Adelaide, and CSIRO.


Key Facts:

A UNSW-led team have developed a process that turns CO₂ into a cleaner and greener form of methane that could reduce reliance on natural gas that fuels climate change.


Contact details:

Neil Martin, News & Content Coordinator, UNSW

Email: n.martin@unsw.edu.au

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