Towards the chemical recycling of plastic wastes: Understanding plastic pyrolysis oil hydrodechlorination
23 Mar 2024
Job Information
- Organisation/Company
IFP Energies Nouvelles (IFPEN)- Research Field
Engineering » Process engineering
Chemistry- Researcher Profile
Recognised Researcher (R2)
Leading Researcher (R4)
First Stage Researcher (R1)
Established Researcher (R3)- Country
France- Application Deadline
30 May 2024 - 22:00 (UTC)- Type of Contract
Temporary- Job Status
Full-time- Offer Starting Date
4 Nov 2024- Is the job funded through the EU Research Framework Programme?
Not funded by an EU programme- Is the Job related to staff position within a Research Infrastructure?
No
Offer Description
In the context of growing interest in circular economy solutions, chemical recycling by pyrolysis is a promising way of converting plastic and tyre waste into pyrolysis oil and then back into monomers and/or chemical bases in steam cracking or refining processes.
However, the presence of chlorine in pyrolysis oils poses major problems for downstream recovery processes: deactivation of catalysts, fouling and corrosion. Dechlorination by hydrotreatment of pyrolysis oils is therefore a necessary purification step upstream of recovery processes.
Due to the presence of various contaminants (nitrogen, sulphur, oxygen) and cracking products (olefins, diolefins) in pyrolysis oils, dechlorination reactions are strongly affected by matrix effects, involving, for example, competitive adsorption between reactants as well as recombination of HCl with olefins or nitrogen compounds. Understanding these phenomena is essential for the design of innovative catalyst formulations and dedicated process schemes, as well as for the kinetic modelling of hydrodechlorination reactions in pyrolysis oils.
The aim of this thesis will therefore be to further our understanding of hydrodechlorination reaction kinetics and the associated matrix effects. To this end, the thesis will comprise two parts focusing on experimentation and kinetic modeling of the test data obtained. The experiments will be carried out on a continuous flow pilot-scale reactor at IFPEN to study the reactivity, kinetics, and effects of operating conditions on various reactions. The experiments will be carried out with several model molecules (organochlorine, olefin, and nitrogen compounds), and finally on a real feedstock of pyrolysis oil from plastics. Advanced analytical techniques will be used to characterize the feedstocks and effluents. Finally, a kinetic model based on mass balances will be used to study the kinetics and matrix effects between the molecules, and then to apply the knowledge obtained to the hydrotreatment of real feedstocks.
Academic supervisor | Prof. Melaz TAYAKOUT, LAGEPP, UCBL1, ORCID: 0000-0002-0667-3535 Dr. Gerhard PIRNGRUBER, IFPEN, ORCID: 0000-0003-0688-425X |
IFPEN supervisor | Dr. Minh Tuan NGUYEN, ORCID: 0000-0003-1284-9354 |
Duration and start date | 3 years, starting in the fourth quarter 2024 (Novembre 4) |
Employer | IFPEN |
Funding category: Financement public/privé
IFPEN
PHD title: Doctorat de Génie Chimique
PHD Country: France
Requirements
Specific Requirements
Academic requirements
University Master’s Degree in Chemical Engineering / Chemistry
Language requirements
English level B2 (CEFR), willing to learn French
Other requirements
Knowledge in kinetics with aptitude and interest in heterogeneous catalysis. Knowledge in mathematical modeling is a plus.
Additional Information
Work Location(s)
- Number of offers available
- 1
- Company/Institute
- IFP Energies Nouvelles (IFPEN)
- Country
- France
- City
- Solaize (near Lyon)
- Geofield
Where to apply
- Website
https://www.abg.asso.fr/fr/candidatOffres/show/id_offre/121675
Contact
- Website
https://theses.ifpen.fr/en/thesis/towards-chemical-recycling-plastic-wastes-understanding-plastic-pyrolysis-oil
STATUS: EXPIRED