Experimentally investigating the asynchronous ignition on a hydrogen-fueled Wankel rotary engine

This work aims to investigate experimentally the asynchronous ignition in a hydrogen-fueled Wankel rotary engine. This work was carried out at 1500 r/min and lean combustion. The experimental results showed that a suitable asynchronous ignition may realize better power performance than synchronous ignition and earlier ignition timing of the leading plug than that of the trailing plug is more preferable. When the leading plug and the trailing plug spark at 5°CA ATDC and 20°CA ATDC, respectively, the highest torque is obtained, 36.4 N·m, higher than 35.2 N·m, the highest torque when the synchronous ignition is adopted. Besides, a declined tendency of knock also can be achieved by asynchronous ignition. Compared with synchronous ignition at 35.2 N·m, a reduction of 19.5% maximum pressure rising rate can be achieved by asynchronous ignition at 36.4 N·m. In addition, for hydrogen-fueled WRE, the CA50 should be located at 35 to 40°CA ATDC to obtain the highest output torque.