Effects of Biomass Particle Size on Flame Structure and Combustion Characteristics using Blended Coal/Biomass Fuel in a Pulverized Coal Swirl Burner

IF 0.7 Q4 ENGINEERING, MECHANICAL Journal of the Korean Society of Combustion Pub Date : 2020-12-31 DOI:10.15231/JKSC.2020.25.4.026

Yeseul Park, Minsung Choi, Xin Zhuo Li, Chanho Jeong, Ji Hoon Lee, G. Choi

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Abstract

The flame structure and combustion characteristics of co-firing coal and LPG with different sizes of biomass were investigated in a dual swirl pulverized coal burner by using a high-speed camera with bandpass filter and PIV system. Three sizes of spent mushroom compost (<45, 45~90, 90~150 μm) were cofired with pulverized coal (45~90 μm) at a blending ratio of 20%. When the biomass of the same size with coal was used, the turbulence intensity had the highest uniformity while other cases exhibited locally strong turbulent intensity. The combustion using <45 μm biomass was terminated early compared to other conditions, whereas the reaction region was the widest for 45~90 μm biomass. The flame had uniform turbulent intensity with wide and strong reaction when the biomass size was equal to that of coal. When using 45~90 μm of biomass, high velocity was maintained in the overall region and CH * radical was observed in a wide region with the highest radical intensity.

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煤粉旋流燃烧器中生物质颗粒尺寸对煤粉/生物质混合燃料火焰结构和燃烧特性的影响

利用带通滤波器的高速摄像机和PIV系统，在双旋流煤粉燃烧器中研究了不同生物质尺寸的煤和液化石油气共烧的火焰结构和燃烧特性。以粉煤（45~90μm）为原料，以20%的混合比例，共烧成三种尺寸的废蘑菇堆肥（<45，45~90，90~150μm。当使用与煤相同大小的生物质时，湍流强度具有最高的均匀性，而其他情况下表现出局部强湍流强度。与其他条件相比，使用<45μm生物质的燃烧提前终止，而使用45~90μm生物质时反应区域最宽。当生物质的大小与煤的大小相等时，火焰具有均匀的湍流强度，反应宽而强烈。当使用45~90μm的生物质时，在整个区域保持高速度，并且在自由基强度最高的宽区域观察到CH*自由基。

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Journal of the Korean Society of Combustion ENGINEERING, MECHANICAL-

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