SolarGas is ‘Delhi-cious’

By CSIRO

20 December 2013

3 minute read

by Meg Rive

SolarGas technology can be used to make liquid fuels for transport. (Image: istock.com)

SolarGas technology can be used to make liquid fuels for transport. (Image: istock.com)

What do you get when you mix solar energy and natural gas? High-efficiency electricity, improved energy and food security, new jobs, cleaner transport fuels and some good Aussie-Indian collaboration.

There is no single solution to the world’s energy challenge and sometimes it takes creative thinking to get the best out of our energy sources.

We’ve embarked on a type of energy dating service to get water and natural gas together (in a chemical way). We’ve developed new technology that concentrates the sun’s rays to drive a reaction between water and natural gas, storing the solar energy in the form of chemical bonds. The resulting SolarGas™ can then be used to produce high-efficiency electricity in a gas engine or turbine.

It can also be used to produce pure hydrogen for industrial use (for example, fertiliser production, petrochemical processing, steel making and hydrogen fuel cells used in transportation or stationary energy), as well as providing cleaner transport fuels.

The sun's energy is concentrated at the SolarGas reactor.

The sun’s energy is concentrated at the SolarGas reactor.

Mirrors focused on a SolarGas reactor mounted on a tower.

Mirrors focused on a SolarGas reactor mounted on a tower.

A study, funded by the Australian Government in collaboration with the Solar Energy Commission of India, identified that SolarGas technology has the potential to provide a sustainable and cost-effective alternative for hydrogen production in some of India’s most important industries.

It’s hoped that deploying SolarGas in India will lead to job creation through local manufacturing and operation of the technology. It could also help energy and food security, because less natural gas would be needed for hydrogen production, the cost of and carbon emissions from making fertiliser would reduce, and there would be less pressure on future gas prices.

In particular, there’s strong potential to roll out the technology in Gujarat and Rajasthan, because both states have great solar resources and natural gas infrastructure, as well as being major industrial users of hydrogen.

Australia’s High Commissioner to India, Patrick Suckling, said “Energy and energy security are critical issues for Australia and India, and we have much to offer each other by sharing our renewable technology expertise and technology.

“SolarGas could provide both our countries with an exciting new commercial opportunity, and I hope this technology can play a part in India’s drive towards energy security.”

We’re now hoping to start a pilot project in India, using the study’s findings to develop a concept design for a pilot-scale SolarGas facility and find a good site for it.

Find more info on the SolarGas technology.

While you’re at it…