Analysis of the convergent section of a C-D nozzle and its influence on airflow performance using evolutionary strategies

IF 1 4区 工程技术 Q3 ENGINEERING, AEROSPACE
Jhan Jaider Bahamon Blanco
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Abstract

The shape of a nozzle wall influences the phenomena associated with the behaviour of the fluid movement within the flow field mathematically described by the Navier—Stokes equations. This article studies different drawing techniques for the aerodynamic tracing of the wall contour searched by Vitoshinsky, Bell, Metha and Sivells. To the system of equations of the design models are added the math formulas that define Sauer’s method for redesigning the length of the converging section modifying simultaneously the contour sketches. The aim is to obtain a better distribution of the physical properties and to avoid excessive pressure in a limited space that could affect the internal structure of the wall. Numerical methods are used to visualize the features of the wave propagation, boundary layer separation and flow separation pattern to survey the appearance of the stream generated within the geometric profile of the wall and the ejected flow. A computational analysis is developed to make a comprehensive assessment of different chosen wall contours, including an optimized wall shape using genetic algorithms through a process to find maximum and minimum values of the cross-sectional area to change the wall layout. The selection carries out based on design parameters with variable area contraction ratio (from low to high) in the convergent section for being simulated in a boundary condition with a low-pressure ratio (NPR). Experimental data from Hunter's research are used for validation of the results for a J2-type aerospace nozzle operating at an NPR of 3.413.
用演化策略分析C-D喷管收敛截面及其对气流性能的影响
喷嘴壁面的形状影响着用纳维-斯托克斯方程数学描述的流场中与流体运动行为相关的现象。本文研究了Vitoshinsky、Bell、Metha和Sivells搜索的壁面轮廓气动示迹的不同绘制技术。在设计模型的方程组中加入了定义Sauer法的数学公式,该方法可以在修改轮廓草图的同时重新设计收敛截面的长度。其目的是获得更好的物理性质分布,并避免在有限的空间内施加过大的压力,从而影响墙体的内部结构。采用数值方法可视化了波的传播、边界层分离和流动分离的特征,考察了壁面几何剖面内产生的流和喷射流的形态。通过计算分析,对不同选择的墙体轮廓进行了综合评估,包括使用遗传算法通过寻找横截面积的最大值和最小值来改变墙体布局的优化墙体形状。在低压比(NPR)边界条件下,根据模拟收敛段变面积收缩比(由低到高)的设计参数进行选择。亨特研究的实验数据用于验证在NPR为3.413时工作的j2型航空喷管的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.40
自引率
18.20%
发文量
212
审稿时长
5.7 months
期刊介绍: The Journal of Aerospace Engineering is dedicated to the publication of high quality research in all branches of applied sciences and technology dealing with aircraft and spacecraft, and their support systems. "Our authorship is truly international and all efforts are made to ensure that each paper is presented in the best possible way and reaches a wide audience. "The Editorial Board is composed of recognized experts representing the technical communities of fifteen countries. The Board Members work in close cooperation with the editors, reviewers, and authors to achieve a consistent standard of well written and presented papers."Professor Rodrigo Martinez-Val, Universidad Politécnica de Madrid, Spain This journal is a member of the Committee on Publication Ethics (COPE).
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