![]() Thermal energy recovery from flue gases to produce steam for electricity generation is also another advantage of incineration. One of the advantages of incineration is that, it decreases the volume of solid wastes by 80% to 95%, and it is a suitable method of disposal when there is a shortage of dumps which brings the idea of dumping costs. It is obvious that, incineration of MSW has the maximum overall degree of destruction and control for various types of waste materials. The increasing amount of Municipal Solid Waste (MSW) generation and its disposal without environmental effects is now a serious problem which at present has caused a great concern. The model simulation was positively achieved during combustion process and temperature in combustion chambers ranged between 930 K and 1700 K. The elemental composition MSW consists of 54.8%, 5.27%, 34.61%, 2.37% and 0.3% for Carbon, Hydrogen, Oxygen, Nitrogen and Sulphur respectively which are the input parameters for the CFD. The solid waste characterization was done, and the laboratory analysis shows that, the Higher Heating Value (HHV) of the MSW is 11.65 MJ/kg on dry basis. The model predicts the temperature in combustion chambers as well as at stack outlet of the incinerator. CFD model was developed to reveal these features of the incineration process in the MSW incinerator. The paper explains the design and development of MSW incinerator involving details of the Computational Fluid Dynamics (CFD) procedures through model design to the post process. ![]() ![]() The objective of this study was to design and develop a model for the MSW incineration process. Municipal Solid Waste (MSW) incineration is among the important opportunities to control the pollutions caused by improper dumping and flue gas emissions so as to meet the environmental guidelines. ![]()
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