Sustainable Recycling Using Electrochemistry: Carl Zeiss Foundation Supports New Research Project

Typography

Increasing the recovery of valuable fossil raw materials, avoiding climate-damaging carbon dioxide emission, and stabilizing our energy supply network – these are the three major objectives of a new joint research project of Johannes Gutenberg University Mainz (JGU) and TU Kaiserslautern.

Increasing the recovery of valuable fossil raw materials, avoiding climate-damaging carbon dioxide emission, and stabilizing our energy supply network – these are the three major objectives of a new joint research project of Johannes Gutenberg University Mainz (JGU) and TU Kaiserslautern. With their pioneering concept, the two partners convinced the Carl Zeiss Foundation (CZS) to fund their project in its CZS Breakthroughs program with around EUR 4 million over the next six years. In the new Halocycles project, the researchers aim to develop an electrochemical technique to recover halogens – such as bromine, chlorine, and fluorine – from waste products. The carbon structure present in halogen compounds will be preserved in the process, thus preventing the corresponding emissions, while the flexibility of the technique will help contribute to the stabilizing of power grids.

Previous methods of recovering halogens from compounds were highly complex and unsustainable

Halogen compounds are present in a wide range of everyday products. Polyvinyl chloride (PVC), for example, is used in various construction materials, while polytetrafluroethylene (Teflon) is employed for non-stick coatings or in batteries. It is difficult if not impossible to find alternatives to them because they often have unique properties. Unfortunately, the halogens most in demand – fluorine, chlorine, bromine, and iodine – are becoming increasingly expensive, while in some cases resources are growing scarce. Recycling is difficult. Where it is at all possible, halogens have to be recovered from the flue gases generated by burning the corresponding waste, meaning large amounts of energy are required. To exacerbate the problem, many halogen compounds are also used in flame retardants so that the burning process requires assistance by additional gas or oil. This results in the disintegration of the carbon structures and thus the release of large quantities of carbon dioxide. "In our new Halocycles project, we are approaching this issue a completely different direction," said Professor Siegfried Waldvogel of JGU's Department of Chemistry, who is the project's spokesperson. "Our idea is to use an electrochemical technique to recover the halogens without burning the carbon structures. Thus, we also avoid the formation of dioxins." The results then form the basis for a circular economy of halogens.

Read more at: Johannes Gutengerg Universitaet Mainz

The Halocycles research project aims to use green electricity to reclaim halogens while leaving the carbon structures of the related waste compounds intact. (Photo Credit: ill./©: Waldvogel group)