화학공학소재연구정보센터
International Journal of Heat and Mass Transfer, Vol.54, No.19-20, 4325-4332, 2011
A quasi-discrete model for heating and evaporation of complex multicomponent hydrocarbon fuel droplets
A quasi-discrete model for heating and evaporation of complex multicomponent hydrocarbon fuel droplets is suggested and tested in Diesel engine-like conditions. The model is based on the assumption that properties of components are weak functions of the number of carbon atoms in the components (n). The components with relatively close n are replaced by the quasi-components with properties calculated as average properties of the a priori defined groups of actual components. Thus the analysis of heating and evaporation of droplets consisting of many components is replaced by the analysis of heating and evaporation of droplets consisting of relatively few quasi-components. In contrast to previously suggested approaches to modelling the heating and evaporation of droplets consisting of many components, the effects of temperature gradient and quasi-component diffusion inside droplets are taken into account. The model is applied to Diesel fuel droplets, approximated as a mixture of 21 components CnH2n+2 for 5 <= n <= 25, which correspond to a maximum of 20 quasi-components with average properties for n = n(j) and n = n(j+1), where j varies from 5 to 24. It is pointed out that droplet surface temperatures and radii, predicted by a rigorous model taking into account the effect of all 20 quasi-components, are very close to those predicted by the model, using just five quasi-components. Errors due to the assumptions that the droplet thermal conductivity and species diffusivities are infinitely large cannot be ignored in the general case. Crown Copyright (C) 2011 Published by Elsevier Ltd. All rights reserved.