Scientia Professor Veena Sahajwalla HonFIEAust CPEng

Known for spearheading the high temperature transformation of waste to produce a new generation of ‘green’ materials, Scientia Professor Veena Sahajwalla HonFIEAust CPEng is leading a five-year research and development program that aims to transform Australia’s waste and resource recovery industry by equipping it with advanced manufacturing capability. 

An Engineers Australia Honorary Fellow and Chartered engineer and Australian Research Council (ARC) Laureate, Sahajwalla is the founder and Director of the UNSW Sustainable Materials Research and Technology (SMaRT) Centre. She is also head of two new national research and industry hubs, the ARC Microrecycling Research Hub and the Sustainable Communities and Waste Hub .

As a coffee lover, one new project close to Sahajwalla’s heart is the UNSW SMaRT Centre’s research into using waste coffee grounds in SmaRT’s patented ‘green steel’ Polymer Injection Technology®.

“We’ve proven that we can use waste coffee as a source of carbon instead of coke and coal, which is needed as a reductant to make iron,” she says.

“It can also provide the element hydrogen which vastly improves the efficiency and energy required for the steel manufacturing process. Coffee is another resource which will allow us to move more and more towards decarbonisation.”

In the latest research breakthroughs on [email protected]’s Green Steel Polymer Injection Technology®, industrial trials with partner, steel maker Molycop, have shown various wastes can be used to make steel more sustainably in electric arc furnaces.

“This is not a waste, it’s a really useful resource,” she says. “It’s going to be an interesting shift towards valuing our waste resources and thinking about those innovative supply chains where recycling and manufacturing can be coupled together.”

Sahajwalla says to produce green metals, such as steel or nickel, manufacturers will ultimately need to reduce their reliance on coke and coal, which traditionally have been required to enable various chemical reactions in the furnaces.

“This is the next big thing for us in the journey of decarbonisation,” she says. “It’s so important that we have alternatives up our sleeve.”

Sahajwalla and her team have also been working to set up a Green Ceramics MICROfactorie® in partnership with Shoalhaven City Council on the south coast of New South Wales.

‘Green ceramics’ are SMaRT’s new generation of high performance, non-toxic, engineered bio-composites. They are designed for use in buildings, as furniture and ceramic tiles and for a range of architectural and decorative applications.

Products are typically made from waste glass and textiles that are either too highly contaminated or made from composite materials, rendering them difficult to recycle. 

“It’s been really special,” Sahajwalla says. “We’re all on a journey together, building up local supply chains and a relationship both with the Council and with our industry partners.”

The MICROfactorie® has already begun processing and crushing waste glass. 

“The demand for this product is already very high, but it’s a great problem to have,” she says. 

Sahajwalla launched the world’s first e-waste MICROfactorie® in 2018, following this with a plastics MICROfactorie® the following year.

She says microrecycling recognises that complex products like laptops or phones contain a number of recoverable materials.

“The science we are developing, called microrecycling science, is to reveal what happens at the micro level and below when materials react with each other,” Sahajwalla told create in 2020.

“It’s not just about the metals, it’s not just about glass or plastics, it’s about every individual material and every component and every part that is so intricately connected that needs to be recognised and reformed into high value outputs.

“If we look at the example of a magnet that contains a rare earth element like neodymium, how do we isolate that element in order to recycle it?

“That comes back to understanding micro-recycling science. If somebody gave me a brand-new machine that can crush these magnets down to a fine powder, that is not going to help me. But the science will show us a way.”

Elle is a freelance journalist. She has written for industry publications including the Australian Water Association's Current magazine, Mercer Magazine and BPay Banter.

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