Hydrogen technology (New Technology) and to Produce green hydrogen will be essential as the world moves towards a future with cleaner energy sources. A greener and more sustainable future is being aided by the work of Dr. Gurpreet Kaur and her team, who are at the forefront of innovative technologies for producing green hydrogen.
One of the most promising methods being explored to manufacture hydrogen is the Solid Oxide Electrolysis (SOE) technique developed by Australia’s Commonwealth Scientific and Industrial Research Organisation (CSIRO). The development of hydrogen technology is becoming more and more significant.
The team is being led by Dr. Gurpreet Kaur, an Indian-Australian senior scientist at CSIRO and a fervent supporter of clean energy.
Dr. Kaur claims that because the SOE technology employs waste or inexpensive heat as an energy input, it effectively produces hydrogen while having minimal operating and capital expenditure costs. The method can also create syngas, a carbon-neutral fuel that cannot be produced by current technologies, using captured CO2 and H2O.
Dr. Gurpreet Kaur, who immigrated to Australia from India, admits that juggling motherhood and a career has been difficult. She is appreciative of the ongoing assistance from CSIRO and her family, though.
“My prior coursework at the IIT Delhi and my diligent effort under Prof. Suddhasatwa Basu’s guidance made me a great candidate to seize such possibilities in Australia.
Though having two growing children has been difficult, Dr. Kaur said that she has received unwavering support from her family and the CSIRO.
Scaling up and commercializing this technology still presents difficulties, though. Although CSIRO’s technology is modular and scaleable to multiple kW, it is currently undergoing testing with top industrial partners to see how well it integrates with renewable energy sources.
Despite the difficulties, Dr. Gurpreet Kaur thinks that this technology could have a big influence on lowering greenhouse gas emissions. “Water is converted into hydrogen (and oxygen) during electrolysis, which can dramatically lower emissions. But a lot of electricity is needed for electrolysis, and making that electricity can produce pollutants.
For the creation of hydrogen, our SOE technology uses less electricity, explains Dr. Kaur.
The method can also create syngas, a carbon-neutral fuel that cannot be produced by current technologies, using water and CO2 that has been absorbed.
Dr. Kaur further draws attention to the capability of SOE technology to generate hydrogen, syngas, and oxygen, which are the raw materials for numerous products with added value like petrol, methanol, and dimethyl ether.
Industries are very interested in using green hydrogen as the feedstock for a variety of value-added products as renewables become more and more popular on the worldwide market. The adoption of and integration with current technology, according to Dr. Kaur, are still in their infancy.
She explained that since the Indian government has set a goal of installing 500 GW of renewable energy by 2030, the adoption of these technologies for green hydrogen will be on the rise.
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