Experimental investigations were conducted on the performance of the low-swirl multi-nozzle burner in a gas turbine model combustor. The effect of equivalence ratio and nozzle exit velocity on the dynamic characteristic, exhaust temperature and emission was analyzed. The experimental results show that there are three types of operation mode, ie., stable combustion region, unstable combustion region, and flashback region for the low-swirl multi-nozzle burner. The multi-nozzle flames tend to be unstable with the amplitude of pressure oscillation increasing and frequency decreasing when the equivalence ratio is decreased. The flames become stable and the frequency of pressure fluctuation increases when the inlet velocity is increased. NOxemissions for the multi-nozzle burner show a log-linear dependency on the adiabatic flame temperature and are less sensitive to the flame temperature than those for single nozzle.

• 出版日期2016
• 单位上海交通大学