高湿污泥阴燃处置中生物质调质强化阴燃传播行为实验研究OA
Experimental study on enhancing smoldering propagation behavior via biomass conditioning in high-moisture sludge smoldering disposal
阴燃处置技术作为新兴的高湿固体废物处理手段,在处置高湿低热值污泥方面展现出独特优势,然而其自持传播过程易受物料特性与运行参数影响,存在反应强度衰减导致的传播失稳风险.故以含水率大于 65%的高湿污泥为处置对象,系统考察石英砂与污泥掺混质量比(2:1~5:1)、空气达西流速(5~8 cm/s)对生物质调质原料污泥的阴燃传播特性影响,探究阴燃完全传播的生物质调质比例边界.结果表明:在固定达西流速为 5 cm/s条件下,石英砂与污泥掺混比从 2:1 增加到5:1时,维持阴燃完全传播的临界生物质调质比例从 4%呈线性增长至 10%,阴燃系统临界单位热值稳定于0.339 MJ/kg;当石英砂与污泥掺混比例固定为 3:1 时,达西流速由 5 cm/s提升至 8 cm/s,临界生物质调质比例从 6%也基本呈现线性递减至 2%,对应临界单位热值由 0.339 MJ/kg线性降至 0.172 MJ/kg;阴燃处置后物料存在塌陷特征,且当生物质调质比例超过临界值后,其含量变化对顶部塌陷高度无显著影响.该研究结果可为解决高湿污泥高效阴燃处置提供参考.
As an emerging high-moisture solid waste treatment method,smoldering disposal technology shows unique advantages in the disposal of high-moisture and low-calorific sludge.However,its self-sustaining propagation process is easily affected by material characteristics and operating parameters,and there is a risk of propagation instability caused by the attenuation of reaction intensity.Taking high-moisture sludge(moisture content>65%)as the disposal object,this study systematically investigates the effects of the mixing ratio of quartz sand to sludge(2:1~5:1)and air Darcy velocities(5~8 cm/s)on smoldering propagation under biomass conditioning,and explores the boundary of biomass conditioning ratio for complete smoldering propagation.The results show that under the condition of a fixed Darcy flow rate of 5 cm/s,the critical biomass conditioning ratio linearly increases from 4%to 10%and the critical unit calorific value of the smoldering system remains stable at approximately 0.339 MJ/kg when the sand-sludge mixing ratio is increased from 2:1 to 5:1.When the sand-sludge mixing ratio is fixed at 3:1,the critical biomass conditioning ratio linearly decreases from 6%to 2%when the air Darcy velocity increases from 5 cm/s to 8 cm/s,corresponding to a linear decrease in critical unit calorific value from 0.339 MJ/kg to 0.172 MJ/kg.The material exhibits collapse characteristics after smoldering disposal,and the biomass conditioning ratio has no significant effect on the top collapse height when it exceeds the critical value.These results can provide reliable scientific references for solving the efficient smoldering disposal of high-moisture sludge.
陈禹博;马仑;李开源;乔瑜;叶骥
武汉理工大学安全科学与应急管理学院,湖北 武汉 430070武汉理工大学安全科学与应急管理学院,湖北 武汉 430070武汉理工大学安全科学与应急管理学院,湖北 武汉 430070华中科技大学煤燃烧与低碳利用全国重点实验室,湖北 武汉 430074广东能源集团科学技术研究院有限公司,广东 广州 511400
高湿污泥阴燃处置生物质调质传播行为临界比例
high-moisture sludgesmoldering disposalbiomass conditioningpropagation behaviorcritical ratio
《热力发电》 2026 (3)
72-81,10
国家自然科学基金项目(52306136)武汉市自然科学基金探索计划项目(2024040801020264)武汉理工大学自主创新基金项目(104972025RSCbs0023) National Natural Science Foundation of China(52306136)Wuhan Natural Science Foundation Exploration Program(2024040801020264)Independent Innovation Fund of Wuhan University of Technology(104972025RSCbs0023)
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