Numerical simulation of the processes of burning lignite in a vortex furnace with swirling countercurrent flows

IF 1.9 Q3 ENGINEERING, INDUSTRIAL
A. Redko, R. Dzhyoiev, I. Redko, V. Norchak, Serhii Pavlovskiiy, Yurii Pivnenkо, Y. Burda, O. Redko
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Abstract

Abstract This work presents the results of a numerical study of the working processes of burning lignite in a vortex furnace with swirling countercurrent flows. The results of computer simulation of the processes of burning lignite with a moisture content of 30%, an ash content of 20% and 35% and a higher calorific value of Qрв = 13.9 MJ/kg and 9.7 MJ/kg, respectively are given. The fields of temperature distribution, gas velocity and particle trajectory in the volume and at the outlet of the furnace are determined. The values of the swirling flow velocity near the exit from the furnace reach 150-170 m/s. Mechanical underburning is 3.7% and 9.4% depending on the ash content. The results of a numerical study have showed that the diameter of lignite particles affects their combustion process: coke particles with an initial diameter from 25 microns to 250 microns burn out by 96%. The furnace provides a complete combustion of pulverized coal particles - 99.8% and of volatiles - 100% at volumetric heat stress in the 2500 kW/m3 furnace. The afterburning of fuel particles containing carbon is ensured by their circulation
旋流逆流旋流炉燃烧褐煤过程的数值模拟
本文介绍了在旋流逆流的涡流炉中燃烧褐煤的工作过程的数值研究结果。给出了含水量为30%、含灰量为20%和35%、发热量较高Qрв=13.9 MJ/kg和9.7 MJ/kg的褐煤燃烧过程的计算机模拟结果。确定了炉膛内和炉膛出口处的温度场、气体速度场和颗粒轨迹场。炉膛出口附近的旋流速度值达到150~170m/s。根据灰分的不同,机械欠烧分别为3.7%和9.4%。一项数值研究的结果表明,褐煤颗粒的直径会影响其燃烧过程:初始直径为25微米至250微米的焦炭颗粒会燃烧96%。在2500 kW/m3的炉膛中,在体积热应力下,该炉膛可实现煤粉颗粒的完全燃烧(99.8%)和挥发物的100%燃烧。含碳燃料颗粒的后燃是通过其循环来保证的
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Production Engineering Archives
Production Engineering Archives Engineering-Industrial and Manufacturing Engineering
CiteScore
6.10
自引率
13.00%
发文量
50
审稿时长
6 weeks
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