Converting waste plastics into diesel and other fuels could be performed by pyrolysis and gasification. A litterature review on plastics carbonization is developed. Pyrolysis and gasification technologies and fuels valorization ways are presented. 89 references. keywords: waste plastics, pyrolysis, gasification, substitution fuels, diesel and other fuels.

Industrial waste is usually sorted in order to valorise most of minerals, polymers and metals. This sorting does generate a sorting residue with a rather high calorific value. The present study shows the opportunities of producing gaseous or liquid substitution fuels by pyrolysis or gasification of industrial sorting residues. By the use of the predictive model, it is possible to evaluate, for various inputs (tyres, fluffs, mixed plastics and biomass residues), the mass en energy balance for each of these thermal treatments. Opportunities to produce substitution fuels issued from these waste streams are evaluated.

Pyrolysis is the initial step in most of the biomass thermal conversion processes, and the most depending on the properties of biomass. In the current study, three agricultural residues: olive tree prunnings, rapeseed residues and soya residues have been pyrolyzed and gasified in a captive sample and a fixed bed reactor, respectively. Yields and heating values of the gaseous and solid products were estimated. The experimental results were further compared with the results from a predictive model based in the proximate analysis estimated from the raw materials thermogravimetric and ultimate analysis. The comparison between the pyrolysis results and the predictions from the model showed to have deviations ranged between almost zero to 17%. The higher deviations appeared in the amount of heating values of the char. For the gasification results, on the other hand, the model is only be used for predictions in the energetic value the gas produced due to the differences in the assumptions taken respectively in the experimental procedure and the model.

When the recovery of mixed plastics is not economically viable, the main issue today is land filling or incineration. The present study shows the opportunities in producing gaseous or liquid substitution fuels by pyrolysis or gasification. By both processes, the issued fuels characteristics are quite different so that the application fields have to be optimized. If plastics are mixed with other waste, sorting could be too expensive. Using our predictive model, pyrolysis mass balance could be evaluated so that the fuels qualities could be predicted.

La caractérisation de déchets est une démarche essentielle pour pouvoir prévoir leur comportement par différents types de technologie. Cette approche devrait permettre le choix d’un mode de traitement de manière à optimiser les objectifs de valorisation matière ou énergie. Sur base de cette caractérisation, le modèle prédictif présenté dans ce chapitre permet de prévoir les bilans matière et d’estimer les PCI des phases produites lors de traitements tels l’incinération, la pyrolyse, la gazéification et la biométhanisation.