Concrete mixed with biochar made from spent coffee grounds has been used by Major Road Projects Victoria (MRPV) and project contractor BildGroup as a replacement of a portion of the river sand that is normally used, in the Pakenham Roads Upgrade.
Organic waste going to landfill, including spent coffee grounds, contributes 3 per cent of greenhouse gas emissions.
This waste cannot be added directly to concrete because it would decompose over time and weaken the building material. This is why the used coffee is converted into biochar before being added to the concrete mix.
Australia generates 75 million kilograms of ground coffee waste every year – most of it goes to landfills, but it could replace up to 655 million kilograms of sand in concrete because it is a denser material.
Globally, 10 billion kilograms of spent coffee is generated annually, which could replace up to 90 billion kilograms of sand in concrete.
For this project, Earth Systems converted 5 tonnes of spent coffee grounds –about 140,000 coffees worth of grounds – into 2 tonnes of usable biochar.
This has been laid into the 30 metres cubed footpath along McGregor Road in Pakenham.
The use of coffee biochar is one of several circular economy initiatives delivered for the Pakenham Roads Upgrade that include reusing the in-fill soil and material for the Princes Freeway embankments and using foam bitumen and rubber tyre road barriers.
MRPV program director Brendan Pauwels said coffee concrete had the potential to cut costs and remove vast amounts of waste material from landfill.
“These numbers are remarkable in terms of ecological benefit, and we’re excited to see the Pakenham Roads Upgrade be the first Victorian Big Build project to use the coffee concrete,” said Pauwels.
RMIT Postdoctoral Research Fellow Dr Rajeev Roychand, the lead inventor of the coffee concrete, was excited to partner with BildGroup and MRPV.
“This proactive support plays a significant role in creating a potential for diverting all forms of biodegradable organic waste, which is currently ending up in landfills and contributing to 3% of Australia’s greenhouse gas emissions,” said Roychand.
BildGroup CEO, Stephen Hill, an RMIT alumnus, said he was happy for the company to lead the way and be the first to bring coffee concrete to a major infrastructure project for the Australian construction industry.
“With the coffee concrete we’ve poured, we’re diverting an estimated 140,000 coffees from landfill and saving over 3 tonnes of sand, which have enormous environmental benefits,” said Hill.
“From a triple bottom line perspective, this just makes good business sense.”
Earlier this year, RMIT teamed up with Macedon Ranges Shire Council to conduct a successful world-first trial of coffee concrete in a footpath in Gisborne, Victoria.
The RMIT team developed a technique to make concrete 30 per cent stronger by turning waste coffee grounds into biochar, using a low-energy process without oxygen at 350 degrees Celsius.
Due to current supply chain limitations, the team couldn’t use their low-energy process to produce biochar. Therefore, the coffee concrete used in the Gisborne trial had a similar strength to standard concrete.
To translate the team’s innovation into a commercial reality, RMIT is engaging with a commercialisation partner and with companies in the construction and agriculture sectors that would potentially benefit from using biochar products.
The RMIT researchers acknowledged the support from ARUP Australia Pty Ltd, Earth Systems Pty Ltd and RMIT University, including the Strategic Capability Deployment Fund, Rheology and Materials Characterisation Laboratory, the X-Ray Facility and the Microscopy and Microanalysis Facility.
The researchers also acknowledged the Indigenous-owned coffee supplier Talwali Coffee Roasters for providing used ground coffee for the research.