A New Lynn construction site has successfully diverted an impressive 91% of its construction and demolition waste from landfill thanks to a partnership with Auckland Council.
The Council worked with Unitec’s Environmental Solutions Research Centre (ESRC) and developer Benton Ltd on the project, with a focus on recycling plastics as they make up a large volume of the waste that goes to landfill.
Auckland Council Senior Waste Planning Advisor, Mark Roberts says it is a great result.
“This example strongly demonstrates that builders and demolition companies can stop a huge amount of waste going to landfill,” he said.
“The challenge that lies ahead is educating the wider industry about how to achieve significant reductions themselves and embrace the change. It is heartening to see that suppliers are also beginning to play their part by repurposing waste generated from products they sell. It all helps.”
Mr Roberts said change was definitely needed, with construction and demolition sites currently sending huge amounts to landfill; 568,935 tonnes a year – twice that of all household refuse collected throughout Auckland.
The New Lynn project with ESRC began with the removal of a house in 2021 that was repurposed by Junk Run. Then drainage and earthworks began on site to prepare for construction of an eight-unit residential townhouse complex. To prepare the site, staff, and subcontractors for the waste sorting, the ESRC team delivered training to introduce the ‘how to’ of plastics sorting.
ESRC managed the plastic waste and hazardous waste. Plastics were sorted into pipes, polystyrene, and all other plastics. Junk Run collected and managed timber, cardboard, and ‘builder’s waste’ (mostly construction materials), scrap metal, fence palings and posts, paper, and sweepings.
ESRC Director Dr Terri-Ann Berry says, “It was incredible how much plastic waste was produced, especially soft plastics. It was also amazing to see how quickly and efficiently Caleb and the boys on site separated their waste streams and how justifiably proud they were at the end of the build.”
Developer, Nigel Benton, and his team were determined to prevent at least 90% of the waste going to landfill. However, they surpassed their target by preventing 91% of the site waste going to landfill.
A total of 22,434 kg of waste was collected during construction and audited by Junk Run and ESRC, of which 18,442 kg was recycled or repurposed. Plastic waste made up 830kg of this collected waste, which was audited by ESRC as follows:
- 33% soft plastics
- 24% polystyrene
- 19% pipes
- 6% other hard plastics
Of the soft plastics, about 32% has been recycled, and it is expected that the reminder will be sent off soon. Also sent off for recycling were 156 kg of pipes to Marley, and 201kg of polystyrene to Divert NZ. Currently, 54% of plastic waste has been recycled, and it is estimated that the final outcome will be 80%, Council said in a statement.
Junk Run diverted 91% of its collected waste (by volume) and 82.6% by mass. This was made up of construction fixtures, fence palings and posts, which were reallocated back into the community; and timber, cardboard, some builder’s waste, scrap metal, some polystyrene, and paper, which were recycled.
Once landscaping and finishing touches are complete on the site, it is estimated that total waste diversion by volume will be 91%.
The council is currently working with Naylor Love at AUT Akoranga on the North Shore on a similar project and Junk Run also have some other projects underway, Council said.
“The concept is beginning to gather momentum and industry support, including a new website that we’ve developed along with Builders Base, which is a great tool for the industry with advice on how to reduce construction and demolition waste going to landfill,” Mr Roberts said.
The ESRC, Aliaxis New Zealand companies, Marley and RX Plastics, and Waste Management New Zealand (WMNZ) were also recipients of a $4.46 million grant from the Plastics Innovation Fund to forward work with the construction industry to reduce plastic from the waste stream.