Drag Reduction on the Basis of the Area Rule of the Small-Scale Supersonic Flight Experiment Vehicle Being Developed at Muroran Institute of Technology

Yukitaka Yamazaki, Kazuhide Mizobata, K. Higashino
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引用次数: 3

Abstract

A small-scale supersonic flight experiment vehicle (OWASHI) is being developed at Muroran Institute of Technology as a flying testbed for verification of innovative technologies for high speed atmospheric flights which are essential to nextgeneration aerospace transportation systems. The second-generation configuration M2011 of the vehicle with a single Air Turbo Ramjet Gas-generator-cycle (ATR-GG) engine has been proposed. Its transonic thrust margin has been predicted to be insufficient, therefore drag reduction in the transonic regime is quite crucial for attainability of supersonic flights. In this study, we propose configuration modifications for drag reduction on the basis of the so-called area rule, and assess their effects through wave drag analysis, wind tunnel tests, and CFD analysis. As a result, the area-rule-based configurations have less drag than the baseline configuration M2011. However, the effects of the proposed bottleneck on the fuselage below the main wing are smaller than predicted. It would be caused by the drag due to separation and shocks around the bottleneck. It is necessary to redesign the area-rule-based bottleneck to be smoother.
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基于面积规律的小型超声速飞行实验飞行器减阻研究
Muroran理工学院正在开发一种小型超音速飞行实验飞行器(OWASHI),作为验证对下一代航空航天运输系统至关重要的高速大气飞行创新技术的飞行试验台。提出了采用单涡轮增压冲压发动机(ATR-GG)的第二代配置M2011。其跨声速推力余量预计不足,因此跨声速减阻对超声速飞行的实现至关重要。在本研究中,我们根据所谓的面积规则提出了减阻的配置修改,并通过波阻分析、风洞试验和CFD分析来评估其效果。因此,基于区域规则的配置比基线配置M2011的阻力更小。然而,提出的瓶颈对主翼以下机身的影响比预测的要小。这是由于瓶颈周围的分离和冲击造成的阻力造成的。有必要重新设计基于区域规则的瓶颈,使其更平滑。
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