1. Simulation of biomass gasification in a BFBG using chemical equilibrium model and restricted chemical equilibrium method
- Author
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Yakup Erhan Boke and Mahmut Caner Acar
- Subjects
Computable general equilibrium ,Wood gas generator ,Renewable Energy, Sustainability and the Environment ,020209 energy ,Thermodynamics ,Biomass ,Forestry ,02 engineering and technology ,0202 electrical engineering, electronic engineering, information engineering ,Environmental science ,Heat of combustion ,Sensitivity (control systems) ,Chemical equilibrium ,Waste Management and Disposal ,Agronomy and Crop Science ,Water content ,Parametric statistics - Abstract
Biomass gasification in fluidized beds is a promising thermo-chemical conversion technology. Bubbling fluidized bed gasifier (BFBG) is considered in the present study, to specify an appropriate model for almond shell gasification. Therefore, the chemical equilibrium model (CEM) and restricted chemical equilibrium method (RCEM) are developed using Aspen Plus. Then, the accuracy of the results obtained from these two modelling approaches is evaluated by comparing with the experimental data. More consistent results are obtained by using RCEM. A sensitivity analysis study is also performed with the specified modelling approach (RCEM) to investigate the effect of operating parameters on the gasification performance. For this purpose, the range of the gasification temperature and steam to biomass ratio are extended and a new parameter (biomass moisture content) is incorporated into the parametric study. Increasing temperature is shown to have a positive effect on cold gas efficiency (CGE) while it has a negative effect on lower heating value (LHV). There is no considerable change in gas heating value and CGE above 850 °C. Both steam to biomass (S/B) ratio and biomass moisture content have a favorable effect on H2 production. However, these parameters have adverse effect on gas heating value and CGE. LHV and CGE reach maximum values for S/B ratio of 0.5 and moisture content of 0.
- Published
- 2019
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