Kinetic Analysis of Laminar Combustion Characteristics of a H(2)/Cl(2) Mixture at CO(2)/N(2) Dilution

[Image: see text] Garbage and biomass contain more chlorine, which reacts with H(2) to form HCl gas during combustion or gasification, resulting in corrosion of metal walls. In this paper, based on the chlorine mechanism in Ansys Chemkin-Pro, the laminar combustion characteristics of H(2)/Cl(2) are simulated with different diluents CO(2)/N(2) under an initial temperature of 298 K, equivalence ratio range of 0.6–1.4, and initial pressure of 0.1–0.5 MPa. The results show that the laminar burning velocity of H(2)/Cl(2) decreases significantly with the increase of dilution gas ratio, and the effect of diluent CO(2) is more significant than that of N(2). Due to the dilution effect, the fuel and oxidation components are reduced. Through sensitivity analysis, reaction R2: Cl + H(2) = HCl + H is the main reaction of HCl formation. On improving the initial pressure, the laminar burning velocity is slightly lowered, and the thermal diffusivity of the fuel mixture increases with the increase of the initial pressure. According to the sensitivity analysis of the velocity, reactions R2, R9, and R10 are the main reactions that affect the laminar burning velocity, and the product HCl will be generated with a delay with the increase of the initial pressure.