引爆发动机氢气空气预引爆器的数值模拟

Amrutha Preethi Pathangae, Ramanujachari Varadachari
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引用次数: 0

摘要

近年来,与爆燃现象相关的热量释放被认为是一个非常有效的过程。目前正在开发以爆轰波为驱动力的增压燃烧器。在这种情况下,对爆轰波的研究变得非常重要。爆燃到引爆转换(DDT)是在燃烧器中启动引爆的方法之一。本文尝试使用 OPENFOAM 对有障碍物的管道中的 DDT 进行研究。研究了一个二维矩形截面的含有障碍物的管子,管子中充满了不同初始条件下的化学计量氢气-空气混合物。利用基于 ddtfoam 软件的数值模拟,研究了管道长度、障碍物数量、阻塞比和反应物初始压力的变化对爆轰波特性的影响。这项研究的动机是为旋转引爆发动机(RDE)设计预引爆器。为了使其与 RDE 和试验设备兼容,建议使用较短的 DDT 管进行模拟。已适当选择了障碍物的数量,以便在 1.5 m、1.0 m & 0.5 m 的较短管长度上获得起爆。
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Numerical simulations of a hydrogen-air pre-detonator for detonation engines
In recent years, heat release associated with the detonation phenomenon is considered a very efficient process. Pressure gain combustors are being developed with detonation waves as the driving force. In this scenario, study of detonation waves has become very important. Deflagration-to-Detonation transition (DDT) is one of the ways used to initiate detonation in the combustors. An attempt has been made in this paper to study the DDT in a tube with obstacles using OPENFOAM. A 2-dimensional rectangular section of a tube containing obstacles filled with stoichiometric hydrogen-air mixtures at different initial conditions have been studied. The effect of changes in the length of the tube, number of obstacles, blockage ratios and initial pressure of the reactants on the detonation wave properties have been studied using numerical simulation based on ddtfoam software. The motivation for this study is to design a pre-detonator for a rotating detonation engine (RDE). In order to make it compatible with the RDE and the test facility, it has been proposed to carry out simulations using shorter lengths of the DDT tube. The number of obstacles has been selected appropriately to obtain detonation at shorter lengths of the tube of the order of 1.5 m, 1.0 m & 0.5 m. As the objective has been to obtain design data for the prototype, the finer details of DDT are not being discussed in this paper.
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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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