2019
DOI: 10.2322/tjsass.62.219
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Effect of Boattail Angle on Pressure Distribution and Drag of Axisymmetric Afterbodies under Low-Speed Conditions

Abstract: This study is focused on the effect of boattail angle on the pressure distribution and drag force of axisymmetric afterbodies under low-speed conditions. Experiments were conducted on three conical boattails with angles of 10°, 14°and 20°. The diameter-based Reynolds number is approximately 4.3 © 10 4 under the experimental conditions. Two types of flows, a fully-attached flow (¢ = 10°) and a flow with a separation bubble (¢ = 14°, 20°), were observed. The aerodynamic drag measurements were conducted using bot… Show more

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Cited by 17 publications
(3 citation statements)
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“…However, this effect is reduced for the boattail model. Tran et al [15], who conducted a free-levitated test and measurement with support system for axisymmetric boattail model at low-speed conditions, showed that the drag in the free-levitated test and drag using support system shows a similar trend for different boattail angles. Additionally, the effect of strut support on pressure distribution at lower and upper surfaces in the symmetric plane is the same.…”
Section: Experimental Set-upmentioning
confidence: 99%
“…However, this effect is reduced for the boattail model. Tran et al [15], who conducted a free-levitated test and measurement with support system for axisymmetric boattail model at low-speed conditions, showed that the drag in the free-levitated test and drag using support system shows a similar trend for different boattail angles. Additionally, the effect of strut support on pressure distribution at lower and upper surfaces in the symmetric plane is the same.…”
Section: Experimental Set-upmentioning
confidence: 99%
“…Mặc dù các giá trị chỉ là định tính, mô phỏng số đóng góp lớn trong quá trình nghiên cứu và xây dựng mô hình ban đầu. Trần Thế Hùng và cộng sự [3]- [7], nghiên cứu dòng chảy trên mô hình đuôi vát chỉ ra rằng, khi mô hình mô phỏng số phù hợp được lựa chọn, các kết quả tính toán tương đối đồng nhất với thực nghiệm. Lê Đình Anh và cộng sự cũng cho thấy mô hình mô phỏng số rất hiệu quả trong nghiên cứu dòng hai pha [8]- [10] cũng như ứng dụng hiệu quả trong xây dựng và tối ưu hóa mô hình tua bin gió trục đứng [11], [12].…”
Section: Giới Thiệuunclassified
“…At transonic Mach number contribution from the base, drag is 60 % of the total vehicle drag. This contribution is due to the low-pressure region formed at the base [ 1 ], and increasing the base pressure reduces the base drag [ 2 ]. The base pressure can be controlled by using active and passive control approaches.…”
Section: Introductionmentioning
confidence: 99%