Aero-structural Analysis of a Scramjet Technology Demonstrator Designed to Operate at an Altitude of 23 km at Mach 5.8

IF 2 3区 工程技术 Q3 MECHANICS
Paulo César de Oliveira Júnior, João Carlos Arantes Costa Júnior, Paulo Gilberto de Paula Toro
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Abstract

Aerodynamic and structural analysis was conducted for a generic supersonic combustion demonstrator designed to operate under flight conditions at an altitude of 23 km and a speed corresponding to Mach number 5.8. Optimization methodologies were applied to the compression section of the model to ensure the required temperature and Mach number conditions at the combustion chamber entrance for the spontaneous combustion of hydrogen fuel, as well as to the expansion section to meet the Brayton thermodynamic cycle. In the aerodynamic analysis, both analytical and numerical approaches were considered for cases without fuel injection and with fuel burning, treating air as a calorically perfect gas without viscous effects. In the structural analysis, only the case with fuel burning was evaluated due to its higher structural demands. Additionally, cases with different plate thicknesses (6 mm, 4 mm, 3 mm, and 2.5 mm) were considered, and the components of the scramjet consisted of Stainless Steel 304 (beams and ribs), Aluminum 7075 (side panels and ramps), Inconel 718, or Tungsten (leading edges and combustion chamber entrance). The results of the aerodynamic numerical simulation demonstrated that the designed scramjet was capable of meeting both on-lip and on-corner shock conditions, ensuring maximum atmospheric air capture. In the structural numerical simulation, for sheets thicker than 2.5 mm, the maximum equivalent von Mises stress in the structure was lower than the yield stress of the materials used, indicating that the deformations were within the elastic regime and thus reversible.

Abstract Image

Abstract Image

设计在 23 公里高度以 5.8 马赫运行的 Scramjet 技术演示器的气动结构分析
对通用超音速燃烧演示器进行了空气动力和结构分析,该演示器设计在飞行高度为 23 千米、速度为 5.8 马赫数的飞行条件下运行。对模型的压缩部分采用了优化方法,以确保燃烧室入口处氢燃料自燃所需的温度和马赫数条件,并对膨胀部分采用了优化方法,以满足布雷顿热力学循环。在空气动力学分析中,考虑了无燃料喷射和燃料燃烧情况下的分析和数值方法,将空气视为无粘性影响的热量完全气体。在结构分析中,由于对结构的要求较高,只对燃料燃烧的情况进行了评估。此外,还考虑了不同板厚(6 毫米、4 毫米、3 毫米和 2.5 毫米)的情况,喷气发动机的部件包括不锈钢 304(梁和肋)、铝 7075(侧板和斜坡)、铬镍铁合金 718 或钨(前缘和燃烧室入口)。空气动力学数值模拟的结果表明,所设计的扰流喷气式飞机能够满足侧滑和转角冲击条件,确保最大限度地捕获大气中的空气。在结构数值模拟中,对于厚度大于 2.5 毫米的板材,结构中的最大等效冯-米塞斯应力低于所用材料的屈服应力,表明变形在弹性范围内,因此是可逆的。
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来源期刊
Flow, Turbulence and Combustion
Flow, Turbulence and Combustion 工程技术-力学
CiteScore
5.70
自引率
8.30%
发文量
72
审稿时长
2 months
期刊介绍: Flow, Turbulence and Combustion provides a global forum for the publication of original and innovative research results that contribute to the solution of fundamental and applied problems encountered in single-phase, multi-phase and reacting flows, in both idealized and real systems. The scope of coverage encompasses topics in fluid dynamics, scalar transport, multi-physics interactions and flow control. From time to time the journal publishes Special or Theme Issues featuring invited articles. Contributions may report research that falls within the broad spectrum of analytical, computational and experimental methods. This includes research conducted in academia, industry and a variety of environmental and geophysical sectors. Turbulence, transition and associated phenomena are expected to play a significant role in the majority of studies reported, although non-turbulent flows, typical of those in micro-devices, would be regarded as falling within the scope covered. The emphasis is on originality, timeliness, quality and thematic fit, as exemplified by the title of the journal and the qualifications described above. Relevance to real-world problems and industrial applications are regarded as strengths.
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