Abstract
A description is given of a filter material with an orthotropic structure based on woven mesh; its advantages are considered, and design options for filter elements from this material are given that are of practical interest for cleaning various liquids, including transmission ones. A model is proposed and the results of calculations of the structural and hydrodynamic properties of a filter material with an orthotropic structure based on woven mesh are presented.
Highlights
Mesh filter materials (MFMs) based on metal wire mesh are widely used for cleaning various liquids and gases
The objective of this paper is to develop a model for calculating the properties of filter materials with an orthotropic structure based on woven metal meshes
The FM unit cell with an orthotropic structure based on woven metal meshes can be represented as a rectangular parallelepiped (Figure 5)
Summary
Mesh filter materials (MFMs) based on metal wire mesh are widely used for cleaning various liquids and gases. MFMs have a number of advantages over other filter materials (FMs), due to the combination of high strength and permeability; stability of the porous structure, which excludes the migration of FM particles into the cleaned medium; high heat resistance; and the ability to multiple regeneration [1, 2]. The objective of this paper is to develop a model for calculating the properties of filter materials with an orthotropic structure based on woven metal meshes.
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