Experimental study on combustion modes of a liquid kerosene fueled RBCC combustor

• Published in: Fuel (Guildford) Vol. 197; pp. 433 - 444
• Main Authors: Xue, Rui, He, Guoqiang, Wei, Xianggeng, Hu, Chunbo, Tang, Xiang, Weng, Chao
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.06.2017
• Subjects: Combustion mode; Ram-scram mode transition; Rocket Based Combined Cycle Combustor; Rocket Based Combined Cycle Combustor; Combustion mode; Ram-scram mode transition
• ISSN: 0016-2361; 1873-7153
• DOI: 10.1016/j.fuel.2017.02.044

•Combustion modes for liquid kerosene fuelled RBCC combustor were studied.•Four combustion modes are classified primarily by static pressure distributions.•The position of fuel struts and cavities have influences on mode transition.•Addition of rocket jets causes mode transition from scram mode to rocket-ram mode.•This phenomenon provides a feasible method for mode transition. To enable the dual-mode scramjet engine operate in the whole flight trajectory, the urgent development of the Rocket Based Combined Cycle (RBCC) propulsion system has been put forward. The behavior of ram-scram combustion mode transition was examined using direct-connect experiments of a model RBCC combustor along with pressure measurements. At an inflow stagnation condition of P0=1.5MPa and T0=1280K, four combustion modes, namely weak combustion mode, rocket-scram mode, rocket-ram mode and ram mode were classified through wall pressure distributions, combustor inlet Mach number, and flame plume visualization. Both the position of fuel strut injectors and the cavity installation location had a significant effect on RBCC combustion modes. When rocket jets were added, the change of the fuel strut position could cause mode transition. Furthermore, as the rockets were turned off, different locations where the cavities were installed could lead mode transition as well. When the primary heat release zone was stabilized at the downstream in the combustor, the addition of rocket jets would make the burning zone jump to upstream abruptly. The discovery of this phenomenon provided a new method and feasible strategy for mode transition.