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Furnace for biomass combustion - Comparison of model with experimental data
(International Journal of Heat and Mass Transfer, 2012)
As one of the most easily accessible renewable energy resources, straw can be burned to provide heat energy. In this paper, results of theoretical and experimental research conducted under the proceedings of mathematical ...
Experimental method for determining Forchheimer equation coefficients related to flow of air through the bales of soy straw
(International Journal of Heat and Mass Transfer, 2011)
The paper presents results of experimental investigation conducted to determine permeability coefficient of a porous bed formed by biomass bales, whereby the said coefficient represents one of the most important parameters ...
Sensitivity analysis of different kinetic factors for numerical modeling of Serbian lignite devolatilization process
(International Journal of Heat and Mass Transfer, 2014)
Numerical modeling is widely used tool for prediction of combustion processes. Computational Fluid Dynamics - CFD models use three kinetic rates for description of the coal combustion processes: coal devolatilization, ...
Experimental and numerical investigation of premixed acetylene flame
(International Journal of Heat and Mass Transfer, 2006)
In this paper, the mean velocity, turbulence intensity and temperature profiles in different cross-sections of premixed acetylene flame are given. A mathematical model for prediction of velocity, temperature and concentration ...
Experimental and numerical investigation of gaseous fuel combustion in swirl chamber
(International Journal of Heat and Mass Transfer, 2005)
In this paper the results of experimental and numerical investigations of swirl burner were presented. Mathematical model for prediction of velocity, temperature and concentration fields of axisymmetrical confined swirl ...
Numerical model of gaseous fuel jet injection into a fluidized furnace
(International Journal of Heat and Mass Transfer, 2009)
The paper presents a fluid-porous medium model, developed for stationary 2D predictions of fluidized bed. Dense phase is considered a fixed porous medium, while gas-particle interactions and bubbling phase are modeled ...