The influence of chamfering and corner radiusing on the discharge coefficient of rotating axial orifices
The effects of chamfering and corner radiusing on the discharge coefficient of rotating axial orifices are presented in this paper. Both experimental and CFD results show that chamfering and corner radiusing improve the discharge coefficient of rotating orifices. For non-inclined rotating orifices,...
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my.uniten.dspace-302062023-12-29T15:45:30Z The influence of chamfering and corner radiusing on the discharge coefficient of rotating axial orifices Idris A. Pullen K. 55812587300 7004508327 Inlet flow Discharge coefficients Rotating orifices Rotational speed Straight edge computational fluid dynamics discharge equipment component flow pattern operations technology velocity profile Orifices The effects of chamfering and corner radiusing on the discharge coefficient of rotating axial orifices are presented in this paper. Both experimental and CFD results show that chamfering and corner radiusing improve the discharge coefficient of rotating orifices. For non-inclined rotating orifices, the discharge coefficient reduces with increasing speed, but chamfered and radiused orifices manage to have higher discharge coefficient (Cd) than the straight edge orifices. Comparing between chamfering and corner radiusing, the radiused corner orifice has the highest Cd at every rotational speed. This is because the inlet radius helps guiding the flow into the orifice and avoiding flow separation at the inlet. � Published under licence by IOP Publishing Ltd. Final 2023-12-29T07:45:30Z 2023-12-29T07:45:30Z 2013 Conference paper 10.1088/1755-1315/16/1/012110 2-s2.0-84881085294 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84881085294&doi=10.1088%2f1755-1315%2f16%2f1%2f012110&partnerID=40&md5=1be0d0bbb989173dde092a95fda90e58 https://irepository.uniten.edu.my/handle/123456789/30206 16 1 12110 All Open Access; Gold Open Access Institute of Physics Publishing Scopus |
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Inlet flow Discharge coefficients Rotating orifices Rotational speed Straight edge computational fluid dynamics discharge equipment component flow pattern operations technology velocity profile Orifices |
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Inlet flow Discharge coefficients Rotating orifices Rotational speed Straight edge computational fluid dynamics discharge equipment component flow pattern operations technology velocity profile Orifices Idris A. Pullen K. The influence of chamfering and corner radiusing on the discharge coefficient of rotating axial orifices |
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The effects of chamfering and corner radiusing on the discharge coefficient of rotating axial orifices are presented in this paper. Both experimental and CFD results show that chamfering and corner radiusing improve the discharge coefficient of rotating orifices. For non-inclined rotating orifices, the discharge coefficient reduces with increasing speed, but chamfered and radiused orifices manage to have higher discharge coefficient (Cd) than the straight edge orifices. Comparing between chamfering and corner radiusing, the radiused corner orifice has the highest Cd at every rotational speed. This is because the inlet radius helps guiding the flow into the orifice and avoiding flow separation at the inlet. � Published under licence by IOP Publishing Ltd. |
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55812587300 |
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55812587300 Idris A. Pullen K. |
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Conference paper |
author |
Idris A. Pullen K. |
author_sort |
Idris A. |
title |
The influence of chamfering and corner radiusing on the discharge coefficient of rotating axial orifices |
title_short |
The influence of chamfering and corner radiusing on the discharge coefficient of rotating axial orifices |
title_full |
The influence of chamfering and corner radiusing on the discharge coefficient of rotating axial orifices |
title_fullStr |
The influence of chamfering and corner radiusing on the discharge coefficient of rotating axial orifices |
title_full_unstemmed |
The influence of chamfering and corner radiusing on the discharge coefficient of rotating axial orifices |
title_sort |
influence of chamfering and corner radiusing on the discharge coefficient of rotating axial orifices |
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Institute of Physics Publishing |
publishDate |
2023 |
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1806425777589190656 |
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13.222552 |