Comparative Study on Nose Cones with respect to Angle of Attack using CFD

Vital and health statistics. Ser. 4, Documents and committee reports Pub Date : 2022-12-01 DOI:10.46632/jame/1/4/2

Sheetal Prajapati, Ankit Kumar Mishra, Masetty Akshay

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Abstract

A nose cone is the conically shaped forward most section of a rocket, guided missile or aircraft, designed to modulate oncoming airflow behaviours and minimize drag. In this paper, the authors analysed by means of a computational procedure the influence of varying the angle of attack for shapes of rocket nose cones in each of them, with this analysed and calculated the values of the, coefficient of lift and the coefficient of drag generated by our nose cones having as a working parameter in subsonic medium ranging from a Mach 0.03 to approximately 0.50, considering standard conditions for temperature and pressure. Drag and Lift both are aerodynamic forces which need to be calculated for cones. Objects with every kind of shapes experience a significant magnitude of Cl and Cd from airflow with the use of the ANSYS platform based on the CFD Fluent method it was possible to measure behaviour in the 3 shapes of cones and thus analyse the different contours. We showed the variation of pressure and velocity with their graphs. The scope of this paper is to simulate the different nose cones with different angle of attack for taking out the best result and comparing which one cone is best for which angle of attack.

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基于CFD的迎角鼻锥比较研究

鼻锥是火箭、导弹或飞机前部的锥形部分，用于调节迎面而来的气流行为并将阻力降至最低。本文用计算方法分析了不同迎角对火箭鼻锥形状的影响，并在考虑温度和压力的标准条件下，分析和计算了在0.03 ~ 0.50马赫的亚声速介质中，作为工作参数的鼻锥产生的升力系数和阻力系数。阻力和升力都是需要计算的空气动力。每一种形状的物体都经历了相当大的气流Cl和Cd，使用基于CFD Fluent方法的ANSYS平台可以测量三种形状的锥体的行为，从而分析不同的轮廓。我们用它们的曲线图显示了压力和速度的变化。本文的研究范围是对不同迎角的不同鼻锥进行仿真，以得出最佳效果，并比较不同迎角下哪一种鼻锥效果最好。

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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Vital and health statistics. Ser. 4, Documents and committee reports

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