| 赵嵩颖,徐建光,樊洪仁,陈雷.生物质颗粒燃烧特性的数值模拟及实验研究[J].,2023,22(6):563-569 |
| 生物质颗粒燃烧特性的数值模拟及实验研究 |
| Numerical simulation and experimental study on combustion characteristics of biomass particles |
| 投稿时间:2021-04-08 修订日期:2021-05-05 |
| DOI: |
| 中文关键词: 数值模拟 生物质颗粒 质量分数 燃烧特性 掺混比 |
| 英文关键词: Numerical simulation Biomass Particles Quality score Combustion characteristic Mixing ratio |
| 基金项目:国家自然(51878316);吉林省科技发展计划项目(20190303022SF)。 |
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| 摘要点击次数: 72 |
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| 中文摘要: |
| 基于ICEM 软件对燃烧室进行二维建模和结构化网格划分, 并应用 FLUENT 软件对玉米秸秆、 棉秆、
木屑和稻秆4 种生物质颗粒在燃烧室中进行燃烧仿真模拟, 与煤粉燃烧进行对比。 对比分析5 种燃料燃烧
时, 燃烧室内不同位置中心截面的温度、O2 、CO2 和 NOx 质量分数的变化曲线, 同时分别对5 种燃料做单独燃
烧实验, 结合对比分析结果将4 种生物质颗粒分别和煤粉按照5 .00% 、10.00% 、15 .00% 、20.00% 的质量掺
混比做混烧实验。 研究结果表明,5 种燃料中, 煤粉在燃烧室中心截面上的温度最高, 且最高温度比4 种生物
质颗粒高600 K 以上, 但生物质颗粒的温度分布均匀程度均优于煤粉; 煤粉燃烧产生的 NOx 含量最高达到
2.00% , 而生物质颗粒产生的 NOx 含量基本为0.00% , 且生物质颗粒的燃烧特性受一次风速、 一次风温及自
身含水率的影响较大;5 种燃料燃烧时燃烧室最高温度的模拟值均高于实验值, 但误差均小于20.0% ,4 种生
物质颗粒与煤粉混合燃烧的质量掺混比不宜超过15 .00% , 当质量掺混比为15 .00% 时, 燃烧室的最高温度比
单独燃煤时降低150 K, 但最大 NOx 质量分数能降低44% 。 |
| 英文摘要: |
| Based on ICEM software, two-dimensional modeling and structured grid division were
carried outforthe combustor. Fluent software was usedto simulatethe combustion offour kinds of
biomass particles, including corn stalk, cotton stalk, wood chips and rice stalk, and the results are
compared with pulverized coal combustion. The temperature change, mass fraction of O2 , mass
fraction of CO2 and mass fraction of NOx at different positions in the combustion chamber were
compared and analyzed for the five fuels combustion. At the same time, separate combustion
experiments were carried out for five kinds of fuels and mixed combustion experiments were carried
out for four kinds of biomass particles and pulverized coal with the mass mixing ratio of 5 % , 10% ,
15 % and 20% . The results show that among the five fuels, pulverized coal has the highest
temperature on the center section of the combustion chamber, and the highest temperature is more
than 600 K higher than that of the four biomass particles, but the temperature distribution uniformity
of biomass particles is better than that of pulverized coal. The maximum NOx content of pulverized coal
combustion reaches 2.00% , while the NOx content of biomass pellets is basically 0.00% . The
combustion characteristics of biomass pellets are greatly affected by primary wind speed, primary air
temperature and their own moisture content. The simulation values of the maximum temperature in the
combustion chamber are all higher than the experimental values, but the deviations are all less than
20.0% . The mass mixing ratio of the four biomass particles and pulverized coal should not exceed
15 % . When the mass mixing ratio is 15 % , the maximum temperature of the combustion chamber is
150 K lower than that when the coal is burned alone, but the maximum NOx mass fraction can be
reduced by 44% . |
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