Itziar Iraola Arreguia Correspondent
The number of vehicles is growing worldwide and as a result the number of tyres is increasing too. Hundreds of millions of tyres are discarded each year. Their disposal represents a major global problem.
There are serious hazards associated with stockpiling used tyres, such as uncontrollable fires. There is also the problem of illegal dumping, which results in pollutants and promotes growth of pests and insects. And burning tyres leads to the emission of harmful compounds.
Recycling tyres has been the main focus so far, but it is not enough to get rid of the massive number of waste tyres generated each year. There are alternatives, such as retreading, but they have major limitations. More eco-friendly recycling alternatives are now being explored. But finding efficient recycling technologies for tyres is difficult because of their composition.
Tyres are made of rubber, carbon black, steel and some additives. These are difficult to break down and separate, which makes reprocessing hugely challenging. Hence the need to develop new technologies.
One avenue being explored is valorisation — the processing (at industrial scale) of waste products and turning them into useful products or sources of energy.
For example, raw materials such as rubber, carbon black or steel can be recovered from used tyres and used in other applications. It is also possible to extract energy in the form of combustible materials with high calorific value.
Materials recycling goes in several directions. These include civil engineering applications like road constructions, the manufacture of swings and shoe soles, and shoring up embankments.
For example, in Ethiopia and Indonesia, indigenous people are producing shoes from waste tyres that will otherwise end up dumped. Thus, the landfills are less clogged and these enterprises are creating employment in disadvantaged communities. Other alternatives, such as retreading, incinerating and reclaiming (obtaining rubber from old tyres by grinding and chemical treatments) all have major limitations. For example, incineration involves combustion, which releases hazardous emissions.
Although with retreading, almost 90 percent of the tyre can be reused, the safety issues and regulations for passenger vehicles’ tyres make it a non-profitable market.
Reclaimed rubber, too, has limitations: the altered properties of reclaimed rubber make it unsuitable for use in tyres.
There are more promising eco-friendly ways to process used tyres. The most important ones are:
Devulcanisation involves breaking the bonds that hold the individual polymer chains together and create a network.
There are different methods to breaking the bonds, including using chemicals or microwaves and biological and ultrasonic methods. During devulcanisation, rubber waste is converted into smaller fragments that can be mixed, processed and vulcanised again.
Depending on the system chosen, in addition to rubber, other constituents can be recovered, such as oils, solvents and sulphur. But the processes involved generate a host of problems and a great deal of research is being done to solve them. This includes finding ways to reduce the amount of chemicals used. Grinding is focused on reducing the size of the waste tyre to a fine, crumb-like substance. These powder-like particles can then be blended and used as a filler in plastics.
The process also allows for the steel and other fabrics to be separated. These can then be recycled too. The downside to grinding is that the very high temperatures needed lead to the end-product being downgraded.
This can be managed if temperatures are controlled. But this can only be done by using large quantities of liquid nitrogen that, in turn, increase the cost of the process.Crumbs, or small fragments of tyres. Supplied ground tyre rubber can be blended with all kinds of polymers (thermoplastics, thermosets and rubbers).
There is a new trend focused on using these materials as sound absorbers.
Pyrolysis is proving to be a promising form of waste tyre recycling, with the production of potentially valuable products.
It consists of “burning” the material at high temperatures in an atmosphere free of air to obtain a gas, an oil and a solid.
Pyrolysis products can be managed easily and separated for different applications. The gas fraction can be used in boilers to obtain energy.— Conversation Africa.
Itziar Iraola Arregui is a Post doctoral Fellow at Stellenbosch University REDISA waste tyres research programme, Stellenbosch University.