Specific Surface Area and Volume Fraction of the Cherry-Pit Model with Packed Pits | Zendy

Antje Elsner | Zendy; Anett Wagner | Zendy; Tomaso Aste | Zendy; H. Hermann | Zendy; Dietrich Stoyan | Zendy

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Specific Surface Area and Volume Fraction of the Cherry-Pit Model with Packed Pits

Author(s) -

Antje Elsner,

Anett Wagner,

Tomaso Aste,

H. Hermann,

Dietrich Stoyan

Publication year - 2009

Publication title -

the journal of physical chemistry b

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.864

H-Index - 392

eISSN - 1520-6106

pISSN - 1520-5207

DOI - 10.1021/jp806767m

Subject(s) - spheres , volume fraction , homogeneous , hard spheres , volume (thermodynamics) , surface (topology) , non equilibrium thermodynamics , fraction (chemistry) , packed bed , yield (engineering) , thermodynamics , geometry , mechanics , physics , mathematics , materials science , chemistry , chromatography , astronomy

This paper investigates volume fraction phi and specific surface area s for statistically homogeneous systems of partially penetrating spheres, i.e. so-called 'cherry-pit models'. In contrast to the version where the pits form an equilibrium system of hard spheres, here pits or hard spheres are considered which are packed, can be in direct contact, and form a nonequilibrium distribution. For this kind of system, new formulas for phi and s are given, which yield values in good agreement with the ones for large models constructed from hard sphere packings generated both experimentally and numerically. Surprisingly, the existing formulas for phi and s in the equilibrium cherry-pit model lead to values which deviate substantially from the values obtained here.

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