Experimental Analysis of Wave Propagation in a Methane-Fueled Rotating Detonation Combustor

Abstract: Recently, pressure gain combustion (PGC) has been a subject of intense study because of its potential to increase the thermodynamic efficiency of power generating gas turbines by several percentage points. The rotating detonation combustion/combustor (RDC) can provide large pressure gain within a small volume through rapid heat release by detonation wave(s) that propagate continuously in the circumferential direction. The RDC has been investigated mainly for propulsion applications using hydrogen fuel. In cont… Show more

“…The large scale chamber hampers the design of the experiment rig and imposes a huge burden on the numerical simulations. Therefore, in order to study the RDC with methane, many studies chose to add extra oxygen or hydrogen in the fuel to improve the chemical activity [26][27][28][29]. Besides, the minimum realization size of RDCs can be effectively reduced by increasing the initial pressure, as the detonation cell size is greatly affected by the initial pressure of the mixture [30][31][32][33][34].…”

Effects of Diverging Nozzle Downstream on Flow Field Parameters of Rotating Detonation Combustor

“…The large scale chamber hampers the design of the experiment rig and imposes a huge burden on the numerical simulations. Therefore, in order to study the RDC with methane, many studies chose to add extra oxygen or hydrogen in the fuel to improve the chemical activity [26][27][28][29]. Besides, the minimum realization size of RDCs can be effectively reduced by increasing the initial pressure, as the detonation cell size is greatly affected by the initial pressure of the mixture [30][31][32][33][34].…”

Effects of Diverging Nozzle Downstream on Flow Field Parameters of Rotating Detonation Combustor

Measuring Rotating Detonation Combustion Using Cross-Correlation

Profiling cross-sectional area of a radial rotating detonation combustor to increase pressure gain