EFFECT OF 3D INCLINATION ANGLES ON DISCHARGE COEFFICIENT FOR WATER FLOW THROUGH REGULAR POLYGONAL MULTI-ORIFICE EXITS
Abdelrahman, A., Elmolla, A., Mobasher, A. (2025). EFFECT OF 3D INCLINATION ANGLES ON DISCHARGE COEFFICIENT FOR WATER FLOW THROUGH REGULAR POLYGONAL MULTI-ORIFICE EXITS. EKB Journal Management System, (), 1125-1142. doi: 10.21608/auej.2025.354398.1760
Ahmed Mahmoud Abdelrahman; Anas Mohamed Elmolla; Amir Mohamed Mobasher. "EFFECT OF 3D INCLINATION ANGLES ON DISCHARGE COEFFICIENT FOR WATER FLOW THROUGH REGULAR POLYGONAL MULTI-ORIFICE EXITS". EKB Journal Management System, , , 2025, 1125-1142. doi: 10.21608/auej.2025.354398.1760
Abdelrahman, A., Elmolla, A., Mobasher, A. (2025). 'EFFECT OF 3D INCLINATION ANGLES ON DISCHARGE COEFFICIENT FOR WATER FLOW THROUGH REGULAR POLYGONAL MULTI-ORIFICE EXITS', EKB Journal Management System, (), pp. 1125-1142. doi: 10.21608/auej.2025.354398.1760
Abdelrahman, A., Elmolla, A., Mobasher, A. EFFECT OF 3D INCLINATION ANGLES ON DISCHARGE COEFFICIENT FOR WATER FLOW THROUGH REGULAR POLYGONAL MULTI-ORIFICE EXITS. EKB Journal Management System, 2025; (): 1125-1142. doi: 10.21608/auej.2025.354398.1760

EFFECT OF 3D INCLINATION ANGLES ON DISCHARGE COEFFICIENT FOR WATER FLOW THROUGH REGULAR POLYGONAL MULTI-ORIFICE EXITS

Journal of Al-Azhar University Engineering Sector
Articles in Press, Corrected Proof, Available Online from 23 October 2025    PDF (746.1 K)
Document Type: Original Article
DOI: 10.21608/auej.2025.354398.1760
Authors
Ahmed Mahmoud Abdelrahman* 1; Anas Mohamed Elmolla2, 3; Amir Mohamed Mobasher2, 4
1Irrigation and Hydraulic Department, Canadian International College (CIC).
2Civil Engineering Department, Faculty of Engineering, Al-Azhar University, Egypt.
3Civil Engineering Department, Faculty of Engineering, Galala University, Egypt.
4Civil Engineering Department, Faculty of Engineering, Madina Higher Institute
Abstract
The discharge coefficient (Cd) is a fundamental parameter in multi-orifice flow, critical for hydraulic systems and flow control applications. This study examines how three-dimensional inclination angles affect Cd for water flow through multi-orifice exits. Using Buckingham's π-Theorem, we conducted dimensional analysis to identify key dimensionless parameters influencing Cd. We performed both experimental tests and computational fluid dynamics (CFD) simulations to evaluate how geometric parameters including inclination angles of multi-orifices in the flow direction and perpendicular to it impact performance. The analysis included five orifice shapes: circular, triangular, square, pentagonal, and hexagonal, with numerical extensions exploring additional polygonal configurations.
Results show that the discharge coefficient exhibits distinct patterns under two rotation conditions. When rotated about the flow direction axis, Cd oscillates periodically, decreasing to 94% of its original value with a 6% amplitude. These systematic variations are influenced by both the rotation angle θ1 and the number of polygon sides (m). When rotated about the perpendicular axis by angle θ2, Cd oscillates consistently across all tested geometries, decreasing to 92% of its original value with an 8% amplitude. The measured Cd values range from 0.635 to 0.716. These findings establish quantitative relationships between geometric orientation and discharge efficiency in multi-orifice systems.
Keywords
Discharge coefficient; multi-orifice flow; dimensional analysis; periodic variation; CFD simulation
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