Optimization the design of venturi gas mixer for syngas engine using three-dimensional CFD modeling
Dominicus Danardono1, Ki-Seong Kim1,*, Sun-Youp Lee2 and Jang-Hee Lee2
The Journal of Mechanical Science and Technology, vol. 25, no. 9, pp.2285-2296, 2011
Abstract : A venturi mixer prototype is developed for mixing air and synthesis gas or ¡°syngas¡± as a fuel. Syngas is recognized as a viable energy
source worldwide, particularly for stationary power generation. It has a very low energy density, so a mixer with ¥ë (ratio of actual to
stoichiometric air-fuel ratio) in the range of 1.1 to 1.7 is expected. In this study, three-dimensional computational fluid dynamics (CFD)
modeling is used to investigate and analyze the influence of the throat diameter, gas chamber thickness and gas exits diameter on mixer
characteristics and performance. Attention is focused on the effect of venturi mixer geometry on the air-fuel ratio, pressure loss and mixing
quality. Based on the numerical results, an optimized design of venturi gas mixer is made. The optimized design has ¥ë in the range of
1.2 to 1.3, and gives very good mixing quality and acceptable pressure loss. The CFD results are validated with experimental data. The
CFD results show good agreement with experimental data.
Keyword : Air-fuel ratio; Pressure loss; Mixing quality; Syngas; Venturi mixer; CFD |