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Researcher
Jo Van Caneghem
- Disciplines:Materials recycling and valorisation
Affiliations
- Sustainable Materials Processing and Recycling (SeMPeR) (Division)
Member
From1 Aug 2020 → Today - Process Engineering for Sustainable Systems (ProcESS) (Division)
Member
From1 Aug 2020 → 30 Sep 2013 - Materials Technology, Group T Leuven Campus (Technology cluster)
Member
From1 Oct 2013 → 31 Jul 2020
Projects
11 - 17 of 17
- Facing plastics: Quantification and characterization of plastic packaging in mixed household waste streams as a guide to increased circularityFrom21 Feb 2019 → 24 May 2023Funding: Own budget, for example: patrimony, inscription fees, gifts
- Optimization of thermal waste processing: CFD study on aspects of flow, heat and mass transfer, chemical kinetics and thermodynamicsFrom1 Nov 2018 → 19 Nov 2022Funding: Baekeland
- Prediction of the Minimum Ignition Energy and Minimum Ignition Temperature of Dust CloudsFrom19 Oct 2018 → 3 Oct 2022Funding: Own budget, for example: patrimony, inscription fees, gifts
- Re-use and recycling of (G)FRP wasteFrom28 Mar 2018 → 28 Mar 2022Funding: BOF - Doctoral projects, BOF - doctoral mandates
- Increasing the valorization potential of critical raw materials from solid residues of waste-to-energy processesFrom20 Nov 2017 → 30 Sep 2019Funding: IOF - Industrial Research Fund
- Phosphorus recovery from incineration ash of phosphorus rich waste streamsFrom29 Sep 2016 → 13 Jan 2022Funding: FWO Strategic Basic Research Grant, BOF - Doctoral projects
- Study and quantification of the role of fuel and ash composition in formation mechanisms of persistent organic pollutants (POPs) in thermal industrial processes.From1 Oct 2011 → 30 Sep 2013Funding: BOF - Other initiatives
Publications
1 - 10 of 79
- Prediction of the minimum ignition energy of dust clouds based on heat transfer and particle reaction kinetics(2024)
Authors: Jo Van Caneghem, Jan Degrève, Maarten Vanierschot
Pages: 217 - 230 - A CFD-based porous medium model for simulating municipal solid waste incineration grates: A sensitivity analysis(2023)
Authors: Maarten Vanierschot, Jo Van Caneghem
- Exploratory compositional analysis of street bin litter: Empirical study in a regional city in Belgium(2023)
Authors: Anneleen Verstegen, Johan De Greef, Jo Van Caneghem
- Towards Waste-to-Energy-and-Materials Processes with Advanced Thermochemical Combustion Intelligence in the Circular Economy(2023)
Authors: Johan De Greef, Raf Vandevelde, Giuseppe Granata, Mathias Verbeke, Mariya Ishteva, Jo Van Caneghem, Maarten Vanierschot
- A numerical model for the prediction of the minimum ignition temperature of dust clouds(2023)
Authors: Tengfei Chen, Jo Van Caneghem, Jan Degrève, Maarten Vanierschot
- Novel comprehensive CFD-based model for municipal solid waste incinerators based on the porous medium approach (vol 326, 124963, 2022)(2022)
Authors: Quynh Hoang, Jo Van Caneghem, Maarten Vanierschot
- Optimization of thermal waste processing: CFD study on aspects of flow, heat and mass transfer, chemical kinetics and thermodynamics(2022)
Authors: Quynh Hoang, Jo Van Caneghem, Maarten Vanierschot
- Comparison between a numerical model and the classic thermal explosion theories for the calculation of the minimum ignition temperature of dust clouds(2022)
Authors: Tengfei Chen, Jo Van Caneghem, Jan Degrève, Maarten Vanierschot
Pages: 222 - 231 - Recovery of phosphorus from sewage sludge ash: Influence of chemical addition prior to incineration on ash mineralogy and related phosphorus and heavy metal extraction(2022)
Authors: Jo Van Caneghem
- A numerical model for the calculation of the minimum ignition energy of pure and mixture dust clouds(2022)
Authors: Tengfei Chen, Jo Van Caneghem, Jan Degrève, Maarten Vanierschot
Pages: 271 - 282