Fuel from disused tyres

Research from the UPV/EHU-University of the Basque Country is seeking a solution for used tyres by means of catalytic pyrolysis

Used tyres pose a serious environmental risk owing to the damage that may be caused when they are stored in the environment. They are emerging in ever greater numbers from one year to the next in developed countries so revalorizing them is a subject that is attracting great interest and is being spurred on by the increasingly stringent regulations in terms of their management.

“Pyrolysis is a hugely interesting alternative when it comes to revalorizing tyre materials in order to obtain alternative fuels and petrochemical products with high added value. In this context, pyrolysis involves degrading the rubber of the tyre by applying heat in the absence of oxygen. The products and their yield depend on the conditions in which the pyrolysis is carried out,” said Miriam Arabiourrutia-Gallastegui, lecturer in the UPV/EHU’s PROCAT-VARES (Catalytic Processes-Waste Valorization) group.

In a paper recently published in the journal Renewable and Sustainable Energy Reviews, the research group analysed the most important advantages in valorizing used tyres using catalytic pyrolysis. “The main interest in valorizing tyre waste by pyrolysis is based on the potential of the products obtained: gas, liquid and a solid known as char. The yield and composition of each of them depend on the pyrolysis conditions,” said Arabiourrutia.

“Liquid is the main product obtained in catalytic pyrolysis. This liquid is basically what is of the greatest interest because it could be used as fuel if it were to be incorporated, for example, into a refinery. Its composition is complex and includes compounds of different types (aromatics, paraffins, olefins and naphthenes), plus sulphur compounds that limit its direct use as a fuel. So the interest in catalytic pyrolysis tends to be linked to the improvement in the properties or yield of this part. So with respect to catalytic pyrolysis great interest has been placed in the production of chemical products, such as aromatic compounds (benzene, toluene, etc.), because they have commercial applications,” explained the UPV/EHU researcher.

“Pyrolysis gases can also be used as fuel to produce energy. Finally, char is the solid left behind that is not degraded and mainly comprises the carbon black present in the tyre; carbon black is the compound that provides the tyre with its anti-abrasive properties. The possible activation of char for use as activated carbon is being explored; it could be reused as carbon black in the manufacture of tyres,” Arabiourrutia added.

“In the process we used and based on the use of the conical spouted bed reactor, catalytic pyrolysis has certain, very specific conditions: the time the gases generated remain in the reactor is short and that promotes a series of reactions which, for example, lead to the production of a high yield of the liquid part. We have also seen that, more than anything, this process enables the liquid product obtained to be used in refineries to obtain fuel,” stressed Miriam Arabiourrutia-Gallastegui.

As the researcher pointed out, “thanks to all these pieces of work we are gradually adjusting and improving the pyrolysis process to try and bring about a distribution of products with a more suitable composition with a view to their potential application as fuel or raw material to obtain compounds of interest”.


Additional information

The PROCAT-VARES group is involved in proposals, progress and innovation in processes of interest in terms of energy and the environment. The aim is to develop lines of research that are a benchmark on an international level in Chemical Reaction Engineering, are highly topical and focus on sustainable development. This activity involves training researchers and technologists, transferring knowledge to the international scientific and technological community in the form of publications, and collaborating with the industrial sector in matters combining subjects of academic, technological, social and industrial interest.

Media Contact
Matxalen Sotillo
[email protected]