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准东煤燃烧颗粒表面温度测量试验研究 被引量:2
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作者 蔡传琦 吕为智 《发电设备》 2022年第1期11-15,共5页
为探究准东煤在燃烧过程中颗粒表面温度及其燃烧特性,搭建燃烧煤粉颗粒测温系统,燃用准东煤、2种烟煤、褐煤,得到4种煤样颗粒表面温度随燃烧器喷口高度的变化曲线。结果表明:4种煤样颗粒表面温度曲线变化趋势相似;而准东煤的燃烧过程最... 为探究准东煤在燃烧过程中颗粒表面温度及其燃烧特性,搭建燃烧煤粉颗粒测温系统,燃用准东煤、2种烟煤、褐煤,得到4种煤样颗粒表面温度随燃烧器喷口高度的变化曲线。结果表明:4种煤样颗粒表面温度曲线变化趋势相似;而准东煤的燃烧过程最为剧烈,火光最为明亮,对应颗粒表面温度最高,燃烧特性最好,说明灰分含量、碱及碱土金属含量是影响颗粒表面温度的重要因素。 展开更多
关键词 准东煤 颗粒表面温度 低灰高碱煤
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Numerical Simulation of Char Particle Gasification
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作者 Syed Shabbar Raza Isam Janajreh +1 位作者 Rizwan Ahmed Ashjan AlKatheeri 《Journal of Energy and Power Engineering》 2015年第8期679-686,共8页
A first principal modeling of the gasification of a char particle is performed using single step mechanism. The char particle is considered to be spherical in shape and only the physical and chemical properties can ch... A first principal modeling of the gasification of a char particle is performed using single step mechanism. The char particle is considered to be spherical in shape and only the physical and chemical properties can change in the radial direction. The carbon dioxide is used as the gasification agent that reacts with the char and form carbon monoxide. The presence of both solid and gaseous phase species makes the reaction heterogeneous. The char particle is considered with varying porosity that also allows the change in the surface area of the particle. A time invariant temperature and pressure profile is used at which the Arrhenius rate constant and diffusion is calculated. The mass conservation of model results in the form of two coupled partial differential and one ordinary differential equation. The equations are solved with a set of initial and boundary conditions using the bulk species concentration at the particle surface. A second order accurate central differencing scheme is used to discretize space while backward differencing is used to discretize time. Finally, the results are presented for the concentration distribution of CO and CO2 in radial direction with respect to time. It shows that, maximum concentration of CO is present at the center of the particle while the concentration gradient becomes higher near the particle surface. The nonlinear concentration trend due to the diffusion is effectively captured. The results show that, completed conversion of char depend upon the time provided for the reaction which can be reduced by decreasing the size of particle or increasing the reaction temperature. The sensitivity study of temperature and initial porosity also performed and showed that temperature has high impact on char conversion as compare to initial porosity. 展开更多
关键词 COAL particle conversion BIOMASS POROSITY CO2 gasification.
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