Integral Flow Parameters and Material Characteristics Analysis in Through Air Drying: Part I |
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Authors: | A Modak S S Takagaki |
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Affiliation: | Department of Bioproducts and Biosystems Engineering , University of Minnesota , St. Paul, Minnesota |
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Abstract: | The extension of the Darcy law (the Forchheimer flow equation) relating second-order nonlinear pressure drop with flow velocity is studied during fast transient through air drying of sheets of porous biobased materials such as paper. A range of the paper materials with open structure consistent with tissue and towel products (basis weights 25 and 50 g/m2) made using different production processes are analyzed for the factor-specific influences with regard to changes in the fluid resistance from the removal of moisture from the material interstices. A characteristic dimension suitable for the drying process is applied from viscous and inertial momentum transport analysis. |
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Keywords: | Forchheimer equation Inertial term Paper Through air drying Viscous term |
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