Affiliation:
1. School of Engineering Science , University of Chinese Academy of Sciences , Beijing 100049 , China
2. Institute of Mechanics CAS , Beijing 100190 , China
Abstract
Abstract
A supersonic kerosene ignition and flame stabilization experiments were conducted on a directly connected supersonic combustion test bench. The kerosene fuel was jetted by wall jet at Ma 2.5 airflow. High-speed photography was used to record the CH* emission during ignition, extinguishing and evolution of the flame. Experiments of different equivalence ratios were performed. The processes of ignition, flame holding, and extinguishing were observed as well. The experiment showed the characteristics of ignition core initiation and extension. The time of ignition increased with the increase of equivalence ratios. Flame stability during the process of Ma 2.5 at the entrance of the combustion chamber was also studied. An equilibrium flame pattern of shock wave and flame was discovered in the experiment. In the stable flame state, shock waves near the kerosene jet orifice promote atomization and blending, and the combustion chamber pressure with stable flame makes the shock waves stable near the kerosene jet orifice, thus forming the flame stability model. The whole process and characteristics of kerosene ignition, flame holding and extinguishing are revealed in the experiment.
Funder
National Natural Science Foundation of China
Reference17 articles.
1. Ben-Yakar A, Hanson RK. Cavity flame-holders for ignition and flame stabilization in scramjets: an overview. J Propul Power. 2001;17:869–77.
2. Liuwei C, Fengquan Z, Zhipu W, Hongbin G, Sugang M, Xinyu Z. Experimental study of ignition and flame characteristics of surrogate of cracked hydrocarbon fuels in supersonic crossflow. In: International Space Planes and Hypersonic Systems and Technologies Conferences, 6–9 March 2017, Xiamen, China.
3. Yu KH, Trouve A, Daily JW. Low-frequency pressure oscillations in a model ramjet combustor. J Fluid Mech. 1991;232:47–72.
4. Vinogradov V, Grachev V, Petrov M, Sheechman JM. Experimental investigation of 2-D dual mode scramjet with hydrogen fuel at Mach 4–6. AIAA paper, 1990:90–5269.
5. Sun MB, Hong-bo W, Xue-song B, Zhen-guo W, Hui G, Jian-han L, et al. Experimental and numerical study on flame stabilization in a supersonic combustor with hydrogen injection upstream of cavity flameholders. In: 45th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit, 2009:1245–51.
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