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Supersonic combustion of n-Heptane droplets with cavity-based fuel injection

Mehdi Mohamadi (School of Mechanical Engineering, Iran University of Science and Technology, Tehran, Islamic Republic of Iran)
AmirMahdi Tahsini (School of Mechanical Engineering, Iran University of Science and Technology, Tehran, Islamic Republic of Iran)

Aircraft Engineering and Aerospace Technology

ISSN: 0002-2667

Article publication date: 20 July 2023

Issue publication date: 13 November 2023

83

Abstract

Purpose

The purpose of this study is to investigate the combustion of the n-Heptane droplets in the supersonic combustor with a cavity-based fuel injection configuration. The focus is on the impacts of the droplet size on combustion efficiency.

Design/methodology/approach

The finite volume solver is developed to simulate the two-phase reacting turbulent compressible flow using a single step reaction mechanism as finite rate chemistry. Three different fuel injection settings are studied for the considered physical geometry and flow conditions: the gas fuel injection, small droplet liquid fuel injection and big droplet fuel. The fuel is injected as a slot wall jet from the bottom of the cavity.

Findings

The results show that using the small droplet size, the complete fuel consumption and combustion efficiency can be achieved but using the big droplet sizes, most fuel exit the combustor in the liquid phase and gasified unburned fuel. It is also demonstrated that the cavity's temperature distribution of the liquid fuel case is different from the gas fuel, and two flame branches are observed there due to the droplet evaporation and combustion in the cavity.

Originality/value

To the best of the authors’ knowledge, this study is performed for the first time on the combustion of the n-Heptane fuel droplets in scramjet configuration, which is promising propulsion system for the future economic flights.

Keywords

Citation

Mohamadi, M. and Tahsini, A. (2023), "Supersonic combustion of n-Heptane droplets with cavity-based fuel injection", Aircraft Engineering and Aerospace Technology, Vol. 95 No. 10, pp. 1510-1517. https://doi.org/10.1108/AEAT-02-2023-0030

Publisher

:

Emerald Publishing Limited

Copyright © 2023, Emerald Publishing Limited

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