Kinetic modeling investigation on the NH₃/C₂H₅OH/air laminar premixed burning characteristics at different equivalence ratios

Co-firing NH₃ with C₂H₅OH in combustion systems is an excellent approach to shift toward a low-carbon society. Hence, this study conducted a numerical study on the laminar burning characteristics of NH₃/C₂H₅OH blended fuels at all kinds of work conditions. Results denote that C₂H₅OH has significant effects on improving the NH₃ burning intensities, such as laminar burning velocities (LBVs) and net heat release rates. The chemical and transport effects of C₂H₅OH play major roles in promoting the LBVs. Adding C₂H₅OH and changing the equivalence ratio will greatly affect the reaction rates of NH₃/C₂H₅OH/air mixtures, which is the main reason for the changes in LBVs. Adding C₂H₅OH will increase the NO emission. It is suggested that an equivalence ratio of around 1.4 for NH₃/C₂H₅OH flames is suitable after acomprehensive consideration of NO and unburned NH₃ emissions. The reaction pathway analysis denotes that H and HNO play crucial parts in the NO formation, NH and NH₂ play key roles in reducing the NO concentration. Finally, it is observed that compared with H₂/CO/syngas/CH₄, C₂H₅OH possesses great greatest effect on reducing NH₃/air flame instability intensities.