Experimental investigation of pressure-drop characteristics across multi-layer porous metal structures

Experimental investigation of pressure-drop characteristics across multi-layer porous metal structures

This study investigates the effect of airflow (in the range of 0–70 m s-1) on the pressure-drop characteristics for a novel multi-layered, nickel-based porous metal, as a function of thickness (affected by sectioning) and density (affected by compression). In addition to generating unique data for t...

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Bibliographic Details
Main Authors: Oun, Hatem, Kennedy, Andrew R.
Format: Article
Published: Springer Verlag 2014
Subjects:
Multi-layer porous structure
High air-velocity
Ergun equation
Thickness effect
Regime transition
Online Access:https://eprints.nottingham.ac.uk/34445/
Description
Summary:This study investigates the effect of airflow (in the range of 0–70 m s-1) on the pressure-drop characteristics for a novel multi-layered, nickel-based porous metal, as a function of thickness (affected by sectioning) and density (affected by compression). In addition to generating unique data for these materials, the study highlights the need for precise pinpointing of the different flow regimes (Darcy, Forchheimer and Turbulent) in order to enable accurate determination of the permeability (K) and form drag coefficient (C) defined by the Forchheimer equation and to understand the complex dependence of length-normalised pressure drop on sample thickness.

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