• Sign Up or Sign In

Tetronics International

About

Tetronics International is a global leader in the supply of Direct Current (DC) Plasma Arc systems for a wide range of applications including Waste Recovery, Hazardous Waste Treatment, Metal Recovery and Production Processes. We support our customers through the complete cradle to grave lifecycle management of the waste recovery plant, from the initial testing of the material at Tetronics f test facility, the most comprehensive in Europe, through design and supply to the physical on-site installation of a full commercial plant and subsequent technical support and service. How do we do it? Our patented Plasma Arc technology provides a safe, eco-friendly and future proof solution for managing hazardous waste and material recovery with the closest to zero waste achievable with current technology. This sustainable ggreen h alternative for waste management uses ultra ]high temperatures and functional light to melt, gasify or vaporise any waste material, in order to treat, recover or generate valuable commercial products. Our technology has been tried and tested over five decades and has been used globally in more than 80 plants across a wide and varied range of applications.

Contact

Mrs Kate Colclough
Unit A2, Marston Gate, South Marston Park
Off Stirling Road
Swindon
Wiltshire
SN3 4DE
www.tetronics.com

Furuya Metal Selects Tetronics Plasma Technology to Recover Platinum Group Metals from Waste Catalysts

The technology will be used to reclaim high levels of Platinum Group Metals from chemical, automotive and other industrial waste catalysts.

Tetronics Ltd., the global leader in the supply of Direct Current (DC) plasma waste recovery plants for the treatment of hazardous waste and metal recovery, today announced that it has been selected by Furuya Metal Co. Ltd., Japan to supply a new plasma system for the reclamation of Platinum Group Metals (PGM's) from spent catalysts.

Preparations for the project are now underway and the plasma recovery plant will be delivered to Japan in early 2013. Following comprehensive due-diligence, including test work at Tetronics comprehensive UK trials facility, the plant will allow technical recovery rates in excess of 98% of PGM's from the spent catalysts.

Catalyst wastes, including automotive catalytic converters and industrial catalysts, for example from the chemical and petrochemical industries, contain Precious Metals and specifically the PGMs that are valuable as a result of their low natural abundance, unique properties and the complex processes that are required for their extraction and refining from primary sources.

The principal advantages of Tetronics patented plasma technology are that it couples the highest technical recovery/operational flexibility with the lowest environmental impacts and cost base. The process chemistry in Tetronics' plasma waste recovery technology is designed to smelt and preferentially separate the precious metals from the less valuable material, which is vitrified into an inert, safe reusable product called Plasmarok®, in a single processing step. The technology will also destroy any hazardous organic material, such as dioxins etc. that may be contained within the waste material.

Speaking about the project, Furuya comments;

"We selected Tetronics as they are considered the world leader in the supply of plasma systems and have extensive experience in the delivery of metal recovery solutions specifically designed for the recovery of PGMs from catalyst wastes."

Stephen Davies, CEO for Tetronics comments;

"We are delighted to be working with Furuya Metals on this project, it is an application we know very well and we have a number of systems that have been running for many years. Our objective on the project is to ensure Furuya maximises their return from the plant as well as providing them with a competitive advantage that the recovery performance makes possible."


For further information please email Tetronics Ltd

© Faversham House Group Ltd 2019. WWT and WET News news articles may be copied or forwarded for individual use only. No other reproduction or distribution is permitted without prior written consent.

Cookie Policy   |   Privacy Policy