Analysis on Heating Efficiency of Two Interacting Jet Premixed Flames

• Main Author: 柯旭勛
• Other Authors: 林大惠
• Format: Others
• Language: zh-TW
• Published: 1999
• Online Access: http://ndltd.ncl.edu.tw/handle/80985665772444736932

碩士 === 國立成功大學 === 機械工程學系 === 87 === The influence of separation distance, heating height, concentration of fuel, and flow velocity on combustion characteristics of domestic gas burner was investigated experimentally by using two slot burners to generate two interacting jet premixed flames in this study. The experiment involves observations of flame appearance, classifications of flame shape, measurements of heating efficiency, and identification of optimum burning. Results show that separation distance, heating height, and concentration of methane dominate the variations of flame shape and heating efficiency, and that flow velocity only influences the size of laminar flame. The heating efficiency influenced by separation distance is classified by concentration of methane. At the condition of concentration of methane is 12% and diffusion flame shape is converged, the heating efficiency first increases then decreases, by increasing the separation distance. However, when the diffusion flame shape is diverged, it first decreases then increases with increasing separation distance. When the concentrations of methane are 13% and 14%, the tendencies are similar to that of concentration of 12%. The heating efficiencies of concentrations of methane being 16% and 18% are first increased then decreased with increasing separation distance. It was found that with decreasing heating height, the heating efficiency first increases then decreases for a fixed separation distance. The maximum of heating efficiency occurs when the flame has diverged diffusion flame, and closed premixed flame tip for stronger premixed flame tip or opened premixed flame tip for weaker premixed flame. It was further found that the heating height has a stronger influence than separation distance on heating efficiency.