Geometric Modifications for Noise Mitigation in Axially Rotating Fan Blades
Taha, S., Zakaria, M., Bassuoni, M. (2025). Geometric Modifications for Noise Mitigation in Axially Rotating Fan Blades. EKB Journal Management System, 21(21), 1-19. doi: 10.1088/1742-6596/3070/1/012002
Saad-Eldin Taha; Mohamed Y. Zakaria; Mohamed Mahgoub Bassuoni. "Geometric Modifications for Noise Mitigation in Axially Rotating Fan Blades". EKB Journal Management System, 21, 21, 2025, 1-19. doi: 10.1088/1742-6596/3070/1/012002
Taha, S., Zakaria, M., Bassuoni, M. (2025). 'Geometric Modifications for Noise Mitigation in Axially Rotating Fan Blades', EKB Journal Management System, 21(21), pp. 1-19. doi: 10.1088/1742-6596/3070/1/012002
Taha, S., Zakaria, M., Bassuoni, M. Geometric Modifications for Noise Mitigation in Axially Rotating Fan Blades. EKB Journal Management System, 2025; 21(21): 1-19. doi: 10.1088/1742-6596/3070/1/012002

Geometric Modifications for Noise Mitigation in Axially Rotating Fan Blades

International Conference on Aerospace Sciences and Aviation Technology
Volume 21, Issue 21, September 2025, Pages 1-19    PDF (2.43 M)
Document Type: Original Article
DOI: 10.1088/1742-6596/3070/1/012002
Authors
Saad-Eldin Taha* 1; Mohamed Y. Zakaria2; Mohamed Mahgoub Bassuoni1
1Mechanical Power Engineering Department, Faculty of Engineering Tanta University, Tanta, Egypt.
2Military Technical College, Aerospace Department, Cairo, Egypt.
Abstract
This study explores the effect of laminar and turbulent boundary layers, as well as boundary layer separation, on noise generation from an axial rotating blade of a ducted fan. Quieter fans provide significant advantages in terms of regulatory compliance, comfort, efficiency, safety, health, and sustainability across industries like aviation and HVAC. Additionally, reducing noise pollution and its impact on the ecosystem, along with minimizing vibrations and wear, can extend the lifespan of components. This investigation was conducted using a case study of a seven-blade axial fan designed by CF Turbo software. The study examines the impact of reducing the chord length from 7.5 cm at the root to 3.56 cm at the tip on noise generation at a constant rpm. A comparative analysis was also carried out between the sound generated by the original and modified blades, revealing a noticeable 28% reduction in the peak overall sound power level.
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