A numerical study of the auto-ignition temperatures of CH₄-Air, C₃H₈-Air, CH₄-C₃H₈-Air and CH₄-CO₂-Air mixtures

The auto-ignition temperature (AIT) is an important parameter in the process industries. In order to ensure a safe working environment in process industries, it is important to predict the AIT of combustible gases or vapors. In this study, the AITs of natural gas mixtures (CH₄-Air, C₃H₈-Air, CH₄-C₃H₈-Air and CH₄-CO₂-Air) are calculated based on a detailed kinetic model. To create a more practical model, different ignition criteria and convective heat transfer coefficients are investigated and compared against one another, resulting in the temperature criterion and a convective heat transfer coefficient of h=50W/(m²K). The results showed that the AITs of CH₄-Air and C₃H₈-Air decrease with an increase of equivalence ratios. While the propane ratio increasing, the AIT of CH₄-C₃H₈-Air decreasing. Reaction path analysis of natural gas mixtures (CH₄-C₃H₈) was also carried out to explain this phenomenon, yielding results showing that C₃H₈ is the main reaction during the ignition induction period. In addition the AIT of CH₄ increases slowly in positive correlation with CO_2, which plays a role of an inert gas. Comparing the results with literature work revealed a deviation of about 10%. Thus, it can be reasonably concluded that the AIT of a low hydrocarbons mixtures such as natural gas can be reliably predicted with detailed kinetic model.