2008
DOI: 10.1002/ppsc.200701098
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On the Capability of the Generalized Gamma Function to Represent Spray Drop‐Size Distribution

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 feat… Show more

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Cited by 14 publications
(15 citation statements)
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“…The most encountered mean diameters are listed in Table 1. As pointed out by Sowa [10], the mean diameter D 10 corresponds to the arithmetic mean of the number-based distribution f n and D 43 to the arithmetic mean of the volume-based distribution f v . Often encountered in the literature, the Sauter mean diameter D 32 corresponds to the diameter of the drop that has the same volume to surface area ratio as the entire spray.…”
Section: Mathematical Representation Of Spray Drop-size Distributionmentioning
confidence: 94%
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“…The most encountered mean diameters are listed in Table 1. As pointed out by Sowa [10], the mean diameter D 10 corresponds to the arithmetic mean of the number-based distribution f n and D 43 to the arithmetic mean of the volume-based distribution f v . Often encountered in the literature, the Sauter mean diameter D 32 corresponds to the diameter of the drop that has the same volume to surface area ratio as the entire spray.…”
Section: Mathematical Representation Of Spray Drop-size Distributionmentioning
confidence: 94%
“…It is therefore possible to consider drop size and velocity separately. They developed a simplified MEF model to predict the number-based drop-diameter distribution (d = dD) using the normalization, the mass conservation, the surface energy conservation and the partition constraints (Equations 18, 19, 22 and 38), which, in dimensional form, can be rewritten as: (43) leading to the following number-based drop-diameter distribution:…”
Section: Application Of Mef To Determine Liquid Spray Drop-size Distrmentioning
confidence: 99%
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