Ozahi, EmrahCutay, ArifAbusoglu, AysegulTozlu, Alperen2024-10-042024-10-042020978-3-030-22365-62195-43562195-4364https://doi.org/10.1007/978-3-030-22365-6_83http://hdl.handle.net/20.500.12403/29732nd International Conference on Design, Simulation, Manufacturing - The Innovation Exchange (DSMIE) -- JUN 11-14, 2019 -- Lutsk, UKRAINEBiodegradable wastes are becoming a serious problem in terms of health and ecological balance in parallel with the increasing of local and global populations in recent years. These wastes should be disposed in both efficient and eco-friendly ways. Considering biodegradable wastes as an energy source, it is necessary to be sure that those disposal methods should be focused on energy recovery. However, the existing waste disposal methods have not reached technologically targeted lines yet. It is very important that waste-to-energy recovery systems should have high energy conversion efficiency. Nowadays, there are many current studies based on the methods of wastes incineration. One of the most significant among these systems is fluidized or spout-fluidized bed incineration system. Unfortunately, the targeted points of the technological development of these systems in view of efficient energy recovery have not been reached yet. Existing incineration systems and current studies on this issue are generally concentrated on conventional fluidized bed systems. However, there are few studies of new generation spout-fluidized bed incineration systems which increase homogeneity and prevent waste from adhering to inner wall of a combustor. This study is focused on the conducted numerical studies in this research field. The latest developments and researches on both fluidized and spout-fluidized bed incineration systems will be investigated and discussed. The remarkable results will be pointed out by using the comparison in order to identify the gaps of the scientific literature.eninfo:eu-repo/semantics/closedAccessBiodegradable wasteSpouted bedFluidized bedCombustionConference Object83284210.1007/978-3-030-22365-6_832-s2.0-85066995446Q4WOS:000515081800083N/A