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用于流动和噪声建模的涡流分辨计算方法的进展.pdf

上传人: 小小 编号:612365 2025-02-12 68页 4.86MB

1、Advances in eddy-resolving computational approaches for flow and noise modellingSergey Karabasov,Queen Mary University of LondonAcknowledgements:Annabel Markesteijn,Hussain Abid,Igor Solntsev,Vasily GrayzevOutline of the talk Eddy-resolving simulations for flow and noise emissionsmodelling of rotati

2、ng machinery using state-of-the art commercial tools:advances and challenges for turbulence interaction problems,2 challenging use cases What is dissipation and dispersion errors and why one should care about them in scale resolving flow modelling?CABARET,out favourite low-dissipative and low-disper

3、sive method:some features and flow solution process Example 1:installed jet flow and noise modelling Example 2:installed propeller noise,from validation to design optimisation2Motivated by the search for transformative turbofanengine technologies which leverage a more compactengine-airframe integrat

4、ion to reduce drag(hence,fuelburnandemissions),whichposesnoiseproblems due to tightly coupled systemsSingle rotor-stator stage,R4 rotor with 22 blades and Outlet Guide Vanes(OGV),54=baseline and 26=low count(standard and reduced noise OGV blade design with a blade sweep)3 regimes:approach(61.7%fan s

5、peed),cutback(87.5%fan speed),and take-off(100%speed)Rotor wake/OGV interaction generates significant broadband(turbulence interaction noise)challenging for RANS-based prediction methods A particular challenge:prediction of the transonic fanregimes(cutback and take-off),where there is a strong shock

6、 appears in the rotor tip region,and multiple pure tones in the noise spectra,also referred to as“buzz-saw”noise.Use case 1:NASA Source Diagnostic Test3NASA/TM2003-212330Use case 1:the Wall Modelled LES accelerated on GPUs 4CharLES,Bres et al.AIAA 2024-3162Conventional 2nd order finite-volume scheme

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本文主要介绍了使用先进的涡流解析计算方法进行流动和噪声建模的最新进展。主要内容包括: 1. 涡流解析模拟在旋转机械流动和噪声排放建模中的应用,包括湍流相互作用问题的挑战和两个具有挑战性的应用案例。 2. 介绍了耗散和色散误差的概念,以及为什么在尺度解析流动建模中需要关注这些误差。 3. 介绍了CABARET方法,这是一种低耗散和低色散的方法,具有某些特点和流动解决方案过程。 4. 提供了两个示例,包括安装喷流流动和噪声建模,以及安装螺旋桨噪声,从验证到设计优化的全过程。 5. 介绍了CABARET方法在旋转机械噪声建模中的应用,以及其在设计优化研究中的潜在应用。 6. 讨论了网格分辨率在涡流解析方法中的重要性,以及CABARET方法在各种喷流噪声问题上的高效性。
涡流解析模拟在旋转机械噪声建模中的应用 网格分辨率对涡流模拟的影响 GPU CABARET在工业复杂喷气噪声问题中的优势
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