Paul T. Williams scite author profile

Approximately 1.5 billion tyres are produced each year which will eventually enter the waste stream representing a major potential waste and environmental problem. However, there is growing interest in pyrolysis as a technology to treat tyres to produce valuable oil, char and gas products. The most common reactors used are fixed-bed (batch), screw kiln, rotary kiln, vacuum and fluidised-bed. The key influence on the product yield, and gas and oil composition, is the type of reactor used which in turn determines the temperature and heating rate. Tyre pyrolysis oil is chemically very complex containing aliphatic, aromatic, heteroatom and polar fractions. The fuel characteristics of the tyre oil shows that it is similar to a gas oil or light fuel oil and has been successfully combusted in test furnaces and engines. The main gases produced from the pyrolysis of waste tyres are H 2 , C 1 -C 4 hydrocarbons, CO 2 , CO and H 2 S. Upgrading tyre pyrolysis products to high value products has concentrated on char upgrading to higher quality carbon black and to activated carbon. The use of catalysts to upgrade the oil to a aromatic-rich chemical feedstock or the production of hydrogen from waste tyres has also been reported. Examples of commercial and semi-commercial scale tyre pyrolysis systems show that small scale batch reactors and continuous rotary kiln reactors have been developed to commercial scale.

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Composition of oils derived from the batch pyrolysis of tyres

Cunliffe

Williams

1998

Journal of Analytical and Applied Pyrolysis

381

259

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Comparison of products from the pyrolysis and catalytic pyrolysis of rice husks

Williams¹,

Nugranad²

2000

Energy

557

257

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The influence of temperature and heating rate on the slow pyrolysis of biomass

1996

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Paul T. Williams

Torrefaction of reed canary grass, wheat straw and willow to enhance solid fuel qualities and combustion properties

Pyrolysis of waste tyres: A review

Composition of oils derived from the batch pyrolysis of tyres

Comparison of products from the pyrolysis and catalytic pyrolysis of rice husks

The influence of temperature and heating rate on the slow pyrolysis of biomass

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