Integration of a transonic high-pressure turbine with a rotating detonation combustor and a diffuser

IF 0.7 4区 工程技术 Q4 ENGINEERING, AEROSPACE
Zhe Liu, James Braun, Guillermo Paniagua
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Abstract

Abstract In this paper, a diffuser is used to integrate a transonic high-pressure turbine with a rotating detonation combustor (RDC). The paper focuses on the required design modifications to the turbine endwalls (EW) to enable high efficiency, while preserving the airfoil blade-to-blade geometry. The main challenge is the stator passage unstarting, due to the high inlet Mach number. First of all, steady Reynolds Averaged Navier Stokes simulations were performed to compare the efficiency of turbines with constant-radius EWs to turbines with axisymmetric EWs. A modified EW design prevented the unstarting of the stator passage, enabling a significant gain in performance. Afterward, the influence on the turbine efficiency and damping due to the unsteadiness from the diffuser-like fluctuations of the RDC was evaluated with unsteady Reynolds Averaged Navier Stokes simulations with a mixing plane approach (MPA). Full unsteady simulations were carried out on selected inlet conditions and compared to the mixing plane results. This parametric study provides turbine designers with recommended diffusion rates along the vane EWs. Additionally, we provide guidance on the upstream diffuser design, specifically the required damping and outlet Mach number.
带旋转爆轰燃烧室和扩压器的跨音速高压涡轮的集成
摘要本文采用扩压器将跨声速高压涡轮与旋转爆震燃烧室(RDC)集成在一起。本文着重于涡轮端壁(EW)所需的设计修改,以实现高效率,同时保持翼型叶片对叶片的几何形状。主要的挑战是定子通道不启动,由于进口马赫数高。首先进行定常Reynolds平均Navier - Stokes模拟,比较定半径风阻与轴对称风阻的效率。改进的EW设计防止了定子通道的启动,从而显著提高了性能。在此基础上,采用混合平面法(MPA)进行非定常雷诺数平均Navier - Stokes模拟,分析了RDC扩散器波动引起的非定常对涡轮效率和阻尼的影响。在选定的进口条件下进行了全非定常模拟,并与混合面结果进行了比较。这一参数化研究为涡轮设计者提供了沿叶片EWs的推荐扩散速率。此外,我们还提供了上游扩散器设计的指导,特别是所需的阻尼和出口马赫数。
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来源期刊
International Journal of Turbo & Jet-Engines
International Journal of Turbo & Jet-Engines 工程技术-工程:宇航
CiteScore
1.90
自引率
11.10%
发文量
36
审稿时长
6 months
期刊介绍: The Main aim and scope of this Journal is to help improve each separate components R&D and superimpose separated results to get integrated systems by striving to reach the overall advanced design and benefits by integrating: (a) Physics, Aero, and Stealth Thermodynamics in simulations by flying unmanned or manned prototypes supported by integrated Computer Simulations based on: (b) Component R&D of: (i) Turbo and Jet-Engines, (ii) Airframe, (iii) Helmet-Aiming-Systems and Ammunition based on: (c) Anticipated New Programs Missions based on (d) IMPROVED RELIABILITY, DURABILITY, ECONOMICS, TACTICS, STRATEGIES and EDUCATION in both the civil and military domains of Turbo and Jet Engines. The International Journal of Turbo & Jet Engines is devoted to cutting edge research in theory and design of propagation of jet aircraft. It serves as an international publication organ for new ideas, insights and results from industry and academic research on thermodynamics, combustion, behavior of related materials at high temperatures, turbine and engine design, thrust vectoring and flight control as well as energy and environmental issues.
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