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Modeling of heat and mass transfer during thermal decomposition of a single solid fuel particle

Wardach-Święcicka I., Kardaś D.

Archives of Thermodynamics

2013

Vol. 34, no. 2

53--71

The aim of this work was to investigate the heat and mass transfer during thermal decomposition of a single solid fuel particle. The problem regards the pyrolysis process which occurs in the absence of oxygen in the first stage of fuel oxidation. Moreover, the mass transfer during heating of the solid fuels is the basic phenomenon in the pyrolysis-derived alternative fuels (gas, liquid and solid phase) and in the gasification process which is focused on the generation of syngas (gas phase) and char (solid phase). Numerical simulations concern pyrolysis process of a single solid particle which occurs as a consequence of the particle temperature increase. The research was aimed at an analysis of the influence of particle physical properties on the devolatilization process. In the mathematical modeling the fuel grain is treated as an ideal sphere which consists of porous material (solid and gaseous phase), so as to simplify the final form of the partial differential equations. Assumption that the physical properties change only in the radial direction, reduces the partial derivatives of the angular coordinates. This leads to obtaining the equations which are only the functions of the radial coordinate. The model consists of the mass, momentum and energy equations for porous spherical solid particle heated by the stream of hot gas. The mass source term was determined in the wide range of the temperature according to the experimental data. The devolatilization rate was defined by the Arrhenius formula. The results of numerical simulation show that the heating and devolatilization time strongly depend on the physical properties of fuel. Moreover, proposed model allows to determine the pyrolysis process direction, which is limited by the equilibrium state.

Segregacja ziaren paliwa w cyrkulacyjnej warstwie fluidalnej

Sekret W., Nowak W.

Inżynieria Chemiczna i Procesowa

2002

T. 23, z. 2

229-244

Dokonano analizy segregacji ziaren paliwa w cyrkulacyjnej warstwie fluidalnej. Przedstawiono model matematyczny stopnia segregacji ziaren paliwa; do weryfikacji eksperymentalnej wykorzystano laserowy nóż świetlny. Stwierdzono, że wzrost prędkości gazu i gęstości strumienia masy cyrkulujących ziaren inertu powoduje intensyfikację mieszania ziaren paliwa oraz zmniejszenie stopnia ich segregacji.

There is made the analysis of the phenomenon of the fuel segregation in a circulating fluidized bed (CFB). A mathematical model of the degree of segregation of fuel particles is presented. Experimental data used to verify the model have been obtained with the aid of the laser knife technique. It has been found that higher superficial gas velocities and mass flux of circulating inert particles lead to more intensive mixing and diminishing the segregation of the fuel particles.