Structure Optimization of SCR Nozzle Holder for After-Treatment System of Off-Road Diesel Engine

The main factors affecting the crystallization of nozzle surface were identified on an off-road diesel engine with the after-treatment system of selective catalytic reduction(SCR)by analyzing different nozzle holder schemes with simulation calculation and experimental validation. The results show that the temperature on the nozzle surface and the vortex near the nozzle are two important factors that affect the severity of nozzle crystallization. The amount of nozzle crystallization becomes less when the nozzle temperature is lower and the vortex near the nozzle surface is removed. Reducing the height of the nozzle holder and adding a protective cover inside the holder can significantly reduce the crystallization risk on the nozzle surface due to avoiding too high nozzle temperature and effectively reducing the vortex near the nozzle surface. After running the crystallization cycle on a SCR test bench for 30 circulation conditions, it is found that the scheme of reducing the holder height and adding the protective cover solves the nozzle crystallization issue and meets the SCR design requirement. © 2022, Editorial Office of the Transaction of CSICE. All right reserved.