Industries

Sharing our expertise in resource recovery, hazardous material treatment, decarbonisation and clean heat solutions

By listening, learning, responding and adapting our solutions to our customer needs, we constantly stretch ourselves to remain at the forefront of technological advancements for delivering effective resource recovery, hazardous material treatment,  decarbonisation and clean heat solutions

Resource recovery solutions

Tetronics are the global leader in the supply of Direct Current (DC) plasma arc systems for a wide range of resource recovery applications. Our recovery solutions offer class leading recovery rates and are perfectly suited to treat a range of materials to generate maximum value, the benefits provided by our technology are;

  • Rapid precious metal returns in a closed loop system
  • Industry leading recovery rates, >98.5%
  • Decades of experience delivering precious metal recovery systems
  • Lower capital and operating costs than competing technologies

 

Hazardous material treatment solutions

Tetronics is the global leader in the supply of Direct Current (DC) plasma arc systems for a wide range of hazardous material Treatment applications. Our plasma solutions are perfectly suited to treat a range of hazardous material streams and the benefits provided by our technology are:

  • High Destruction and Removal Efficiency (DRE) of associated organics
  • Material is vitrified into a stable building product called Plasmarok®
  • Compact process that is simple to operate and maintain
  • Can be co-located or retrofitted to new or existing facilities

 

Decarbonisation and clean heat solutions

Our plasma solutions provide an environmentally beneficial alternative to fossil fuel based heat sources used in high CO2 generating industrial processes such as glass, cement, ceramics and metal manufacture . Our plasma solutions provide greater control of the heating process, increasing throughput and efficiency whilst potentially eliminating CO2 emissions and reducing specific energy consumption.