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Investigation of an ammonium carbamate–based SCR system for NOx reduction in diesel engines under transient conditions

Hassan Raza, Sang-Hee Woo, Hongsuk Kim

2022Energy25 citationsDOIOpen Access PDF

Abstract

The deNOx performance of a selective catalytic reduction (SCR) system using ammonium carbamate (AC) was investigated and compared with that of a urea water solution (UWS). The effects of the NH3/NOx (α) ratio, injection threshold temperature (Tinj), and a zero-dimensional ammonia adsorption-desorption model on NOx conversion efficiency were evaluated. World harmonized transient cycle (WHTC) and non-road transient cycle (NRTC) tests were conducted using a 3.9-L diesel engine over a Cu-zeolite catalyst. The NOx conversion efficiency of AC in the WHTC and NRTC was increased compared with that of UWS during the cold phase by 6.43% and 8.71%, respectively, and during the hot phase by 14.79% and 11.93%, respectively. Gaseous ammonia injection at a low Tinj can explain improved deNOx performance, as increasing Tinj leads to a decrease in NOx conversion efficiency. Increasing the α ratio effectively increases NOx conversion efficiency, but a high α ratio leads to ammonia slip. Ammonia injection using a model-based control increased cold-start deNOx performance. These promising results provide an alternative pathway to controlling NOx emissions from heavy-duty diesel engines.

Topics & Concepts

NOxChemistrySelective catalytic reductionDiesel fuelAmmoniaDiesel engineCatalysisWaste managementCombustionOrganic chemistryAutomotive engineeringEngineeringCatalytic Processes in Materials ScienceCatalysis and Oxidation ReactionsIndustrial Gas Emission Control
Investigation of an ammonium carbamate–based SCR system for NOx reduction in diesel engines under transient conditions | Litcius