1. Injection Type Effects on Pulverized Biomass (solid olive waste) Combustion in a 50 kW Combustor
- Author
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Y, Rahib, Elorf, Abdallah, Sarh, Brahim, Bonnamy, Sylvie, Asbik, Mohamed, RAHIB, Yassine, Chaoufi, Jamal, CHAUVEAU, Christian, Institut de Combustion, Aérothermique, Réactivité et Environnement (ICARE), Université d'Orléans (UO)-Centre National de la Recherche Scientifique (CNRS)-Institut des Sciences de l'Ingénierie et des Systèmes (INSIS), Interfaces, Confinement, Matériaux et Nanostructures ( ICMN), Université d'Orléans (UO)-Centre National de la Recherche Scientifique (CNRS), Université Moulay Ismail (UMI), and Université Ibn Zhor
- Subjects
[SPI.FLUID]Engineering Sciences [physics]/Reactive fluid environment ,Olive waste Combustion ,Numerical simulation ,[SPI.FLUID] Engineering Sciences [physics]/Reactive fluid environment ,Pulverized biomass ,CFD ,Swirling flame - Abstract
International audience; The paper describes a 3D numerical simulation of pulverized solid olive waste (OW) combustion in a vertical combustor. This study is developed, in order to design a new efficient burner which operates with olive waste as a biomass fuel. Two types of injection modes are studied. The first named (R) where the biomass particles is perpendicularly injected to symmetric axis close to the co-flow entry by four injection square shape tubes and the second named (P) where particles are injected in parallel to the furnace central axis. The mean diameter of the pulverized particles is about 70 µm. The designed system is a vertical cylindrical furnace with swirling co-flow burner entry. The k-ε, mixture fraction PDF and discrete phase DPM models are used for turbulence closure, turbulence-chemistry interactions and tracking the particle motion respectively. Results show that the flame is more stabilized in the recirculation zones and achieved the higher temperature at 1560 K for (R) case. The particles residence time inside to the combustor is very important for the (R) case in comparison to (P) case. The analyses and comparison of the formed species for CO, CO2 and NOx formation profiles at several longitudinal locations between (R) and (P) cases are performed.
- Published
- 2019