Experimental and modelling study on flow resistance of wire gauzes

Catalytic wire gauzes were used for years for ammonia oxidation. At present, various gauzes with a catalyst deposited on them have been receiving a great deal of attention as reactors fillers used for oxidation other than ammonia compounds. The flow and transfer properties of staked gauzes have been sufficiently examined yet. The study presents an experimental programme of pressure drop for stacked wire gauzes (woven and knitted) which allowed to generate a representative database. The theoretically derived mathematical model of flow through wire gauzes basing on Ergun's approach has been forward and tested on the collected database. The model does not include any empirical constants based on experimental data. The model prediction reasonably agree with the experimental results. The model provides a tool for the approximate classification of wire gauzes for the application as reactor fillers.

[1]  Daniel K. Harris,et al.  Wet layup and sintering of metal-containing microfibrous composites for chemical processing opportunities , 2001 .

[2]  J. Armour,et al.  Fluid flow through woven screens , 1968 .

[3]  A. L. London,et al.  Heat-Transfer and Flow-Friction Characteristics of Crossed-Rod Matrices , 1960 .

[4]  Hasan Karim,et al.  Complete and partial catalytic oxidation of methane over substrates with enhanced transport properties , 2003 .

[5]  D. H. Cortez,et al.  Mass Transfer Characteristics of Woven-Wire Screen Catalysts , 1970 .

[6]  H Miyabe,et al.  An approach to the design of stirling engine regenerator matrix using packs of wire gauzes. , 1982 .

[7]  A. L. London,et al.  Heat-transfer and flow-friction characteristics of woven-screen and crossed-rod matrices , 1956 .

[8]  Andrzej Kołodziej,et al.  Short-channel structured reactor for catalytic combustion: Design and evaluation , 2007 .

[9]  K. L. Hertel,et al.  Flow of a Gas Through Porous Media , 1940 .

[10]  P. Carman,et al.  Flow of gases through porous media , 1956 .

[11]  G. Walker,et al.  Heat-Transfer and Flow-Friction Characteristics of Dense-Mesh Wire-Screen Stirling-Cycle Regenerators , 1971 .

[12]  R. K. Shah,et al.  A Correlation for Laminar Hydrodynamic Entry Length Solutions for Circular and Noncircular Ducts , 1978 .

[13]  Andrzej Kołodziej,et al.  Prospect of compact afterburners based on metallic microstructures. Design and modelling , 2007 .

[14]  Andrzej Kołodziej,et al.  Optimization of structured catalyst carriers for VOC combustion , 2005 .

[15]  S. Ergun Fluid flow through packed columns , 1952 .

[16]  Anders Fredrik Ahlström-Silversand,et al.  Modelling catalytic combustion of carbon monoxide and hydrocarbons over catalytically active wire meshes , 1999 .

[17]  R. Shah Laminar Flow Forced convection in ducts , 1978 .