We deliver new processing options and efficiencies for Australian ores through focused effort and expertise in base and precious metals, light and strategic metals and the design and opitimisation of processes.
We are applying our expertise in process science and innovation to add value to Australian resource sector through better, more efficient and cost-effective ways of processing ores.
Enhancing unit operations
We're helping the minerals processing industry lower operating costs and achieve a higher throughput with significant and tailored improvements to the performance of unit operations.
Gain control and optimise unit operations
Work with us to gain better control of your processing unit operations - lowering operating costs and achieving a higher throughput.
Sounding out machine performance
Our acoustics emission analyser passively monitors machine performance by listening in to the sounds that a machine is making, enabling operators to diagnose issues in real time.
Efficient drag reduction solution for slurry pumps
Our water and energy efficient technology for reducing the problematic 'drag effect' experienced in pipes during industrial pumping has been adopted by Glencore's Minara Resources.
Feedwell optimisation: modelling for process efficiency
Optimising thickener feedwells in minerals processing can enhance throughput, improve unit stability, reduce downtime and save companies costs, particularly when processing low grade ore.
Swirl flow: delivering better safety, energy and cost savings
A simple mixing (agitation) technology, developed using world-class science, proves the best option for the mineral processing industry, saving time and money.
Monitoring froth depth in flotation units
Our researchers have incorporated two separate methods for measuring froth depth in a minerals processing flotation unit into a single device, allowing for greater accuracy and control.
Online Rheometer provides measurements in real time
Sedimentation testing with the newly developed online rheometer software gathers data sets in real time with minimal interference from human or analytical errors.