Computational analysis on oxygen MILD combustion using synthesis gas

Abstract

In this paper, a possibility of the oxygen-syngas MILD combustion was assessed using the CFD analysis by applying the JHC (Jet-in Hot Co-flow) combustion system. The effect of the various syngas composition ratios was analyzed, and heating value of synthesis gas was controlled by ratio of CO and H₂. The Ansys Fluent, commercial CFD code with RANS (Reynolds Averaged Navier-Stokes), modified k-ε equations and EDC (Eddy Dissipation Concept) model using 2D-axisymmetric computational domain was used in order to analyse oxygen-syngas MILD combustion. It was confirmed that the oxygen-syngas combustion can be formed in the MILD combustion under conditions of the oxygen concentration of 3 ~ 9 %, which is similar condition to the air-fuel MILD combustion region in the Adelaide and Delft flame. As the proportion of H₂ in the composition of the synthesis gas is decreased, the region of the MILD combustion with D_a < 1 is found to become wider due to the decrease in the Arrhenius reaction rate. At higher oxygen concentration in the co-flow, the region with D_a <1 known as MILD regime tends to be decreased.