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面接触条件下胶结颗粒物导热系数模型优化
引用本文:陈沅江, 蒋志强, 谭智仁. 面接触条件下胶结颗粒物导热系数模型优化[J]. 煤田地质与勘探, 2019, 47(6): 153-158,166. DOI: 10.3969/j.issn.1001-1986.2019.06.023
作者姓名:陈沅江  蒋志强  谭智仁
作者单位:1.中南大学资源与安全工程学院,湖南 长沙 410083
基金项目:国家自然科学基金项目(51274251)
摘    要:为了更好地探究岩土类胶结颗粒材料的导热系数变化规律,减少造成的热害问题,根据胶结颗粒物的结构特征,考虑颗粒物和胶结基质为混合物时的状态,并结合有效介质导热系数模型和面接触导热系数模型,构建了适用于岩土类胶结颗粒材料的有效导热系数计算模型。采用瞬态热线法测试了实验试块的导热系数,将预测值与实测结果和Maxwell-Eucken模型的计算结果对比后发现,两模型的导热系数计算值都随着孔隙率的增加而逐渐减小。4组测试数据结果显示,Maxwell-Eucken模型的导热系数计算结果平均值为0.171 72 W/(m·K),优化的导热系数计算模型结果平均值为0.171 39 W/(m·K),说明优化的导热系数计算模型得出的结论与实际测试结果平均值(0.169 22 W/(m·K))更接近,能够更好预测胶结颗粒物质的导热系数。

关 键 词:胶结颗粒物  面接触  导热系数  导热系数模型  孔隙率
收稿时间:2019-01-03

Optimization of surface contact-based thermal conductivity model of cemented particles
CHEN Yuanjiang, JIANG Zhiqiang, TAN Zhiren. Optimization of surface contact-based thermal conductivity model of cemented particles[J]. COAL GEOLOGY & EXPLORATION, 2019, 47(6): 153-158,166. DOI: 10.3969/j.issn.1001-1986.2019.06.023
Authors:CHEN Yuanjiang  JIANG Zhiqiang  TAN Zhiren
Affiliation:1.School of Resources & Safety Engineering, Central South University, Changsha 410083, China
Abstract:In order to explore better the variation law of thermal conductivity of geomaterials, and reduce the thermal damage caused by the problem, according to the structural characteristics of the cemented particles, combined with the effective medium thermal conductivity model and the surface contact thermal conductivity model, the effective thermal conductivity calculation model suitable for the geotechnical cemented particulate material was constructed, and the state of the particulate matter and the cementitious matrix were considered. The transient hot wire method was applied to test the thermal conductivity of the experimental test block, and the predicted values were compared with the measured results and the calculated results of the Maxwell-Eucken model. It was found that with the increase of porosity, the calculated values of the thermal conductivity of both models decrease gradually. The results of the four sets of test data show that the average digit of the calculated thermal conductivity of the Maxwell-Eucken model is 0.171 72 W/(m·K), and the average figure of the calculated model of the optimized thermal conductivity is 0.171 39 W/(m·K). It indicates that the conclusion of the optimized thermal conductivity calculation model is closer tothe actual average test result(0.169 22 W/(m·K)), which can better predict the thermal conductivity of cemented particulate matter. 
Keywords:cemented particles  surface contact  thermal conductivity  thermal conductivity model  porosity
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