Aerodynamics effects of APC slow flyer propeller blade design with different airfoil origin positions
This paper presents a numerical method investigation on the aerodynamic performance of a small-scale propeller with four different shapes of propeller design using computational fluid dynamic (CFD). In this study, the relationship between varying airfoil's origin position (AOP) at each station...
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Zhongguo Hangkong Taikong Xuehui
2022
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| Online Access: | http://psasir.upm.edu.my/id/eprint/100144/ https://www.airitilibrary.com/Article/Detail/P20140627004-202209-202204060005-202204060005-325-334 |
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my.upm.eprints.1001442024-07-17T03:04:29Z http://psasir.upm.edu.my/id/eprint/100144/ Aerodynamics effects of APC slow flyer propeller blade design with different airfoil origin positions Ahmad Faris, Ahmad Fariduddin Basri, Adi Azriff Basri, Ernnie Illyani Hameed Sultan, Mohammed Thariq Ahmad, Kamarul Arifin This paper presents a numerical method investigation on the aerodynamic performance of a small-scale propeller with four different shapes of propeller design using computational fluid dynamic (CFD). In this study, the relationship between varying airfoil's origin position (AOP) at each station and resultant aerodynamics performance is investigated. Several designs of the propellers are derived by changing the AOP at each blade station with the percentage of 0% AOP, 25% AOP, 50% AOP, 75% AOP and 100% AOP. The result of thrust, power coefficients and efficiencies are validated with the existing experimental wind tunnel data. All in all, the results show that propeller design with 100% AOP generates better aerodynamic performance than the one with 25% AOP by 7.473%, -5.587% and 15.891% in terms of thrust, coefficient of power and efficiency, respectively. It has also been found that the propeller design with 100% AOP has a better aerodynamics performance compared to the 25% AOP, 50% AOP and 75% AOP, especially at an advanced ratio of 0.799. Overall, it can be concluded that the improvement in terms of aerodynamic characteristics and performance is possible by increasing the position of the blade origin at each station, which in turn results in different propeller design shapes. Zhongguo Hangkong Taikong Xuehui 2022-09-01 Article PeerReviewed Ahmad Faris, Ahmad Fariduddin and Basri, Adi Azriff and Basri, Ernnie Illyani and Hameed Sultan, Mohammed Thariq and Ahmad, Kamarul Arifin (2022) Aerodynamics effects of APC slow flyer propeller blade design with different airfoil origin positions. Journal of Aeronautics, Astronautics and Aviation, 54 (3). pp. 325-334. ISSN 1990-7710 https://www.airitilibrary.com/Article/Detail/P20140627004-202209-202204060005-202204060005-325-334 10.6125/JoAAA.202209_54(3).09 |
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This paper presents a numerical method investigation on the aerodynamic performance of a small-scale propeller with four different shapes of propeller design using computational fluid dynamic (CFD). In this study, the relationship between varying airfoil's origin position (AOP) at each station and resultant aerodynamics performance is investigated. Several designs of the propellers are derived by changing the AOP at each blade station with the percentage of 0% AOP, 25% AOP, 50% AOP, 75% AOP and 100% AOP. The result of thrust, power coefficients and efficiencies are validated with the existing experimental wind tunnel data. All in all, the results show that propeller design with 100% AOP generates better aerodynamic performance than the one with 25% AOP by 7.473%, -5.587% and 15.891% in terms of thrust, coefficient of power and efficiency, respectively. It has also been found that the propeller design with 100% AOP has a better aerodynamics performance compared to the 25% AOP, 50% AOP and 75% AOP, especially at an advanced ratio of 0.799. Overall, it can be concluded that the improvement in terms of aerodynamic characteristics and performance is possible by increasing the position of the blade origin at each station, which in turn results in different propeller design shapes. |
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Article |
| author |
Ahmad Faris, Ahmad Fariduddin Basri, Adi Azriff Basri, Ernnie Illyani Hameed Sultan, Mohammed Thariq Ahmad, Kamarul Arifin |
| spellingShingle |
Ahmad Faris, Ahmad Fariduddin Basri, Adi Azriff Basri, Ernnie Illyani Hameed Sultan, Mohammed Thariq Ahmad, Kamarul Arifin Aerodynamics effects of APC slow flyer propeller blade design with different airfoil origin positions |
| author_facet |
Ahmad Faris, Ahmad Fariduddin Basri, Adi Azriff Basri, Ernnie Illyani Hameed Sultan, Mohammed Thariq Ahmad, Kamarul Arifin |
| author_sort |
Ahmad Faris, Ahmad Fariduddin |
| title |
Aerodynamics effects of APC slow flyer propeller blade design with different airfoil origin positions |
| title_short |
Aerodynamics effects of APC slow flyer propeller blade design with different airfoil origin positions |
| title_full |
Aerodynamics effects of APC slow flyer propeller blade design with different airfoil origin positions |
| title_fullStr |
Aerodynamics effects of APC slow flyer propeller blade design with different airfoil origin positions |
| title_full_unstemmed |
Aerodynamics effects of APC slow flyer propeller blade design with different airfoil origin positions |
| title_sort |
aerodynamics effects of apc slow flyer propeller blade design with different airfoil origin positions |
| publisher |
Zhongguo Hangkong Taikong Xuehui |
| publishDate |
2022 |
| url |
http://psasir.upm.edu.my/id/eprint/100144/ https://www.airitilibrary.com/Article/Detail/P20140627004-202209-202204060005-202204060005-325-334 |
| _version_ |
1805889539209691136 |
| score |
13.211869 |