On the Capability of the Generalized Gamma Function to Represent Spray Drop‐Size Distribution |
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Authors: | Matthieu Lecompte Christophe Dumouchel |
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Affiliation: | UMR 6614 – CORIA, Université et INSA de Rouen, Avenue de l'Université BP. 12, 76801 Saint Etienne du Rouvray (France) |
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Abstract: | The three‐parameter, Generalized Gamma function solution of a recent MEF formulation used to derive liquid spray drop‐size distribution, is applied to sprays resulting from three different atomization processes. The objectives of these applications are to determine the sign of the parameters for which this function reports a more reliable fit and to further understand the parameter stability problem reported elsewhere. It is found that the lack of stability of the parameters is related to a characteristic feature of the mathematical function and appears for a series of spray drop‐size distributions with constant shape. For each situation analyzed in the present study, the Generalized Gamma function provides a very good fit with parameters that are either constant or correlated to the working conditions. As far as the sign of the parameters is concerned, the results show that the best formulation is a function of the spray and that it is impossible to know, a priori, which parameter sign will report the best fit. Finally, for one situation, it is found that the Generalized Gamma function allows extrapolation of drop sizes outside the measured values. All of the results converge to conclude that the three‐parameter Generalized Gamma function, which is identical to the well‐known Nukiyama‐Tanasawa distribution, accumulates valuable attributes to represent liquid spray drop‐size distributions. |
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Keywords: | drop‐size distribution Generalized Gamma function Maximum Entropy Formalism Nukiyama‐Tanasawa distribution spray |
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