Prediction of ceramic foams permeability using Ergun's equation

Innocentini, Murilo Daniel de Mello; Salvini, V. R.; Macedo, Álvaro; Pandolfelli, V. C.

doi:10.1590/s1516-14391999000400008

Cited by 94 publications

(69 citation statements)

References 8 publications

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“…Permeability is a measure of the ability of a porous medium to transmit fluids through its interconnected pores or channels. Two permeability parameters, known as the Darcian, k 1 , and the non-Darcian, k 2 , permeability constants, can be found in the Forchheimer equation (Innocentini et al 1999). The Darcian permeability constant is related to the pure laminar flow properties while the non-Darcian permeability constant represents deviations from laminar flow.…”

Section: Porosity and Permeability Constantsmentioning

confidence: 99%

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Darcian permeability constant as indicator for shear stresses in regular scaffold systems for tissue engineering

Vossenberg

Higuera

Straten

et al. 2009

Biomech Model Mechanobiol

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The shear stresses in printed scaffold systems for tissue engineering depend on the flow properties and void volume in the scaffold. In this work, computational fluid dynamics (CFD) is used to simulate flow fields within porous scaffolds used for cell growth. From these models the shear stresses acting on the scaffold fibres are calculated. The results led to the conclusion that the Darcian (k 1 ) permeability constant is a good predictor for the shear stresses in scaffold systems for tissue engineering. This permeability constant is easy to calculate from the distance between and thickness of the fibres used in a 3D printed scaffold. As a consequence computational effort and specialists for CFD can be circumvented by using this permeability constant to predict the shear stresses. If the permeability constant is below a critical value, cell growth within the specific scaffold design may cause a significant increase in shear stress. Such a design should therefore be avoided when the shear stress experienced by the cells should remain in the same order of magnitude.

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Section: Porosity and Permeability Constantsmentioning

confidence: 99%

“…Ergun proposed empirical expressions to describe the two permeability parameters for packed columns made of grains (Innocentini et al 1999;Nield and Bejan 2006). These expressions are:…”

Section: Porosity and Permeability Constantsmentioning

confidence: 99%

Darcian permeability constant as indicator for shear stresses in regular scaffold systems for tissue engineering

Vossenberg

Higuera

Straten

et al. 2009

Biomech Model Mechanobiol

View full text Add to dashboard Cite

show abstract

“…In this context, it is interesting to select available routes for processing macroporous ceramics in order to find an inexpensive, environmentally friendly and suitable method for the manufacture of porous supports. An extensive review on processing techniques of macroporous ceramics and its relationship to control the porosity was made by Studart et al 64 Further information can be found elsewhere [65][66][67][68][69][70] . A more recent and innovative method to fabricate ultra thin MIEC membranes, different of those proposed for planar configurations, is the formation of asymmetric hollow fibers via an immersion induced phase inversion and sintering techniques.…”

Section: Supported Miec Membranesmentioning

confidence: 99%

Current developments of mixed conducting membranes on porous substrates

et al. 2013

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The fabrication of mixed ionic-electronic conducting (MIEC) ceramic-based membranes for oxygen separation has extensively increased in the last three decades as a promising alternative of clean energy delivery. In recent years, the interest on supported MIEC membranes has increased due to their attractive properties such as higher mechanical strength and oxygen flux compared to selfsupported membranes. This work presents a literature review on the development of supported MIEC membranes of perovskite structure. The concepts and transport mechanism of those membranes are explained and recent works on supported MIEC membranes are presented. Finally, manufacturing methods of self-supported membranes and their influence on oxygen permeation are discussed.

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“…There have been attempts to revise Ergun's equation for non-spherical and non-uniform particles size bed (Dolejs and Machac, 1995;Gunarathne et al, 2014;Innocentini et al, 1999). Some of the authors refitted Ergun's equation for a specific material and obtain new values for constant (K 1 and K 2 ) but retained the overall structure (the porosity correlation-Eqns.…”

Section: Introductionmentioning

confidence: 99%

Modified Ergun Equation for Airflow through Packed Bed of Loblolly Pine Grinds

Olatunde¹,

Fasina

2019

KONA

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Biomass grinds are typically non-spherical and are composed of particles with wide range of sizes that may vary up to 10× between the smallest and largest particle. Since fluidized bed system is often used to convert biomass into fuels, chemicals and products, the viscous and kinetic energy losses' coefficients in the Ergun equation were determined to incorporate these unique characteristics of biomass grinds. The revised Ergun's equation, validated using loblolly pine wood grinds, and data from other published work resulted in estimated Ergun's K 1 and K 2 coefficients of 201 and 2.7 respectively. In addition, the relative mean deviation between experimental and predicted pressure drop was in general better with the modified Ergun's equation when compared to the original Ergun's equation.

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Prediction of ceramic foams permeability using Ergun's equation

Cited by 94 publications

References 8 publications

Darcian permeability constant as indicator for shear stresses in regular scaffold systems for tissue engineering

Darcian permeability constant as indicator for shear stresses in regular scaffold systems for tissue engineering

Current developments of mixed conducting membranes on porous substrates

Modified Ergun Equation for Airflow through Packed Bed of Loblolly Pine Grinds

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