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Pressure drop measurements for woven metal mesh screens used in electrical safety switchgears
•An experimental set-up designed to pressure drop measurements is depicted.•The major influence of tortuosity is included in the analysis of the measurements.•Valid equations are given for woven metal screens used in electrical safety. The paper deals with an experimental investigation of the pressu...
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Published in: | The International journal of heat and fluid flow 2017-06, Vol.65, p.60-72 |
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Main Authors: | , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | •An experimental set-up designed to pressure drop measurements is depicted.•The major influence of tortuosity is included in the analysis of the measurements.•Valid equations are given for woven metal screens used in electrical safety.
The paper deals with an experimental investigation of the pressure drops and friction factors induced by sets of metal woven screens in the case of an incompressible fluid flow, namely water flow. These woven screens are of metallic type and are used in electrical safety devices, especially at the end of exhaust duct of low voltage circuit breakers. In a first step, the whole of the set-up is used to check some approximations dedicated to pressure drops due to sphere beds around 275µm and 375µm as diameters. Results are discussed in terms of Darcyan and non-Darcyan permeabilities compared with published data and are analyzed in terms of the Blake-type friction factor. In the second step, the pressure drops are measured for stacks composed of eight different woven screens (of plain dutch type) formed with millimetric wires. Various formulations of the pressure drops and friction factors published elsewhere are tested with a special care dedicated to the choice of the geometry for the flow pattern (hydraulic diameter, spherical diameter, cylindrical diameter) and to the consideration of laminar and turbulent contribution. We then give the formulation that characterizes the fluid flowing through stacks of woven screens used in electrical safety applications. |
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ISSN: | 0142-727X 1879-2278 |
DOI: | 10.1016/j.ijheatfluidflow.2017.02.008 |