Technology road map for decentralised recycling solutions

UNSW SMaRT Centre has developed a technology road map for decentralised recycling solutions.

The report, undertaken as part of the the Sustainable Communities and Waste Hub which the SMaRT Centre leads, is part of a national research program to enable and encourage Australia’s transition to a circular economy.

The report says that in recent years, there has been an increasing emphasis on innovative recycling technologies that can significantly enhance the efficiency and effectiveness of recycling facilities. These technologies offer a promising avenue for improving recycling operations, reducing environmental impact, and fostering a circular economy. 

This report is dedicated to the exploration and analysis of innovative recycling technologies specifically tailored for recycling facilities operating in regional and remote Australia. The unique challenges posed by these geographically isolated locations require specialised solutions to optimise resource recovery and minimise the environmental footprint. 

This report provide comprehensive insights into the selection and deployment of various recycling technologies within these distinct contexts and report is structured into several key sections, starting with the criteria for selecting recycling technologies, followed by an examination of the technologies relevant to remote and regional Australia. 

See details for SMaRT's very own MICROfactorie^TM Technologies that use various, discreet modules to transform problematic waste materials, such as glass, textiles and plastics, into new value-added materials and products, such as engineered green ceramics for the built environment and plastic filament as a ‘renewable resource’ for 3D printing.

Recycling as a pivotal component of sustainable waste management, has evolved into a complex and multifaceted process. To comprehensively address the challenges and opportunitises associated with recycling in regional and remote Australia, it becomes imperative to dissect this process into distinct phases. These phases, namely Material Sorting, Component Dismantling, Size Reduction, Storage and Material Handling and Re-manufacturing, form the framework upon which this report is built.

Favouring re-manufacturing technologies that undertake measures to minimise material waste, curtail energy consumption, and efficiently utilise resources remains central to the ethos of sustainable resource management and cost-effectiveness.

Considerations extending to the scalability of the re-manufacturing process are indispensable. The technologies in question should exhibit adaptability across various production scales, ranging from small-batch re-manufacturing to extensive large-scale industrial operations.

Delving into an evaluation of the market demand for re-manufactured products constitutes a pivotal step in ensuring the commercial viability of products engendered by the chosen technology. A profound comprehension of consumer preferences and industry requisites assumes a pivotal role in the blueprint for a prosperous re-manufacturing venture.

By harnessing the power of innovative recycling technologies and adhering to well-defined selection criteria, recycling facilities in regional and remote Australia can contribute to a more sustainable future for the region, where waste is transformed into valuable resources and environmental stewardship is at the forefront of every endeavour.