Optimal Mass Diffusion Transfer in Solids Using Heat Transfer Similarities

Jaber; Samar;Alahmer; Ali;Borowski; Gabriel;Alsaqoor; Sameh;

Optimal Mass Diffusion Transfer in Solids Using Heat Transfer Similarities

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ID: 100045

2019

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Abstract

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A new concept of solid-solid mass diffusion fin was introduced in this paper. The authors described the mass diffusion in fluid flows to analyze the transfer process in solids and its applications, especially in metallurgical research. Using the advantage of the similarity between heat transfer and mass diffusion transfer will make this issue more practical. The authors suggested a new approach to determine the maximum mass diffusion transfer between two solids by implementing of the extended surface on each solid, where the optimal mass diffusion between solids is required. Then, meshing the surfaces together in order to increase the transfer efficiency was carried out. A complete analysis of the extended surfaces design (diffusion fins), its efficiency and effectiveness were presented. Moreover, mathematical models of each consideration were constructed. The authors found that the total surface efficiency increased along with the number of mass diffusion fins attached to the base, but its effectiveness did not. The mass diffusion for an extended plate increased the total mass diffusion transfer between two materials.

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Reference Key	jaber2019optimaladvances Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors	Jaber, Samar;Alahmer, Ali;Borowski, Gabriel;Alsaqoor, Sameh;
Journal	advances in science and technology research journal
Year	2019
DOI	DOI not found Searching for DOI...
URL	http://www.journalssystem.com/astrj/,111694,0,2.html
Keywords	Engineering (General). Civil engineering (General) Technology Mechanical engineering and machinery manufactures mining engineering. metallurgy environmental technology. sanitary engineering

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