Combustion Modes and Unsteady Characteristics during the Condition Transition of a Scramjet Combustor

Dongpeng Jia,Kai Yang,Ning Wang,Yu Pan,Chaoyang Liu

doi:10.3390/en14092522

Dongpeng Jia, Kai Yang + Show 3 more

Open Access

https://doi.org/10.3390/en14092522

Copy DOI

Journal: Energies	Publication Date: Apr 28, 2021
Citations: 4	License type: CC BY 4.0

Affiliation: National University of Defense Technology

Abstract

To investigate the combustion modes and unsteady characteristics during the condition transition of a scramjet combustor, a series of experiments were carried out under the condition of Mach 2.52 supersonic incoming flow, the corresponding stagnation pressure and temperature of which were 1.6 MPa and 1486 K, respectively. A fuel supply system that could dynamically adjust the injection pressure was adopted to simulate the condition transition stage of a scramjet. Based on the advanced combustion diagnosis technique, the transient chemiluminescence image and the wall pressure were recorded during the whole combustion process. Three typical modes of turbulent combustion occurred when the injection pressure drop gradually increased. The jet flame was stable after the condition transition when the injection pressure drop was relatively low. An unstable combustion phenomenon accompanied by intermittent local extinction and reignition could be found near the blowout limits. With a further increase in the injection pressure drop, the flame was blown out quickly during the transition process. In addition, the flame development characteristics during condition transition under stable combustion mode and the effect of injection pressure drop were studied in detail. During the process of switching between the two conditions, the area and light intensity of the flame decreased over time, and the wall pressure was accordingly reduced. As the increase in injection pressure dropped, the intensity of chemical reactions deceased obviously and the transition time became longer.

Highlights

Transient images were captured by high-speed andchemiluminescence energy conservation equations govern the combustion photography, and the wall static pressure was recorded by a pressure scanner
Averaged image was obtained through average calculation of the images over a continuous turbulence model was adopted in the numerical simulations
The and combustion process was the simulated by the tion transition with different injection pressure drops, the characteristics of the combustion finite-rate/no TCI model and one-step ethylene-air chemical reaction mechanism [40]

Summary

Introduction

Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Due to their excellent performance, scramjets are regarded as one of the most ideal propulsion systems in hypersonic vehicles [1,2,3,4]. Aircraft inevitably have to perform altitude adjustment, flexible maneuvering, and condition transition. During these processes, the incoming flow parameters and the global equivalence ratio change dramatically. The flame in the combustor may oscillate violently and may even be extinguished, which threatens the safety of the entire flight mission. It is necessary to clarify the combustion modes during the condition transition

Methods

Results

Conclusion