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水平埋管周围土壤温度场的数值模拟 被引量:1
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作者 崔志坤 宋新南 +1 位作者 江海斌 陈海林 《郑州轻工业学院学报(自然科学版)》 CAS 2008年第1期71-74,共4页
建立了水平埋管内流体与土壤传热以及土壤自身导热的数学模型,利用Matlab软件中的偏微分方程(PDE)工具箱对数学模型求解,根据实例计算结果对该模型的传热情况进行分析,结论是:在水平埋管截面方向,随着时间增加,温度影响范围不断扩大;在... 建立了水平埋管内流体与土壤传热以及土壤自身导热的数学模型,利用Matlab软件中的偏微分方程(PDE)工具箱对数学模型求解,根据实例计算结果对该模型的传热情况进行分析,结论是:在水平埋管截面方向,随着时间增加,温度影响范围不断扩大;在1/2模型中埋管周围各个方向温度梯度不相等;土壤同一地点的温度随时间的增加而降低. 展开更多
关键词 水平埋管 土壤温度场 matlab热分析 数值模拟
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Thermo-mechanical analysis of an SI engine piston using different boundary condition treatments
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作者 Amir-Hasan Kakaee Javad Gharloghi +1 位作者 Aliasghar Foroughifar Abdoreza Khanlari 《Journal of Central South University》 SCIE EI CAS CSCD 2015年第10期3817-3829,共13页
Heat transfer of an SI engine's piston is calculated by employing three different methods based on resistor-capacitor model with the help of MATLAB code, and then the piston is thermo-mechanically analyzed using c... Heat transfer of an SI engine's piston is calculated by employing three different methods based on resistor-capacitor model with the help of MATLAB code, and then the piston is thermo-mechanically analyzed using commercial ANSYS code. The results of three methods are compared to study their effects on the piston thermal behavior. It is shown that resistor-capacitor model with less number of equations and consequently less solution time, is an appropriate method for solving problems of engine piston heat transfer. In the second part, the thermal stresses due to non-uniform temperature distribution, and mechanical stresses due to mechanical loads are calculated. Finally, the temperature distributions as a thermal load along with mechanical loads are applied to the piston to determine the total stress distribution and critical fracture zones. It is found that the amount of thermal stresses is considerable. 展开更多
关键词 PISTON TEMPERATURE boundary condition STRESS thermo-mechanical analysis
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Thermal Analysis of Underground Power Cable System 被引量:5
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作者 Monika Rerak Pawel Oclon 《Journal of Thermal Science》 SCIE EI CAS CSCD 2017年第5期465-471,共7页
The paper presents the application of Finite Element Method in thermal analysis of underground power cable system. The computations were performed for power cables buried in-line in the ground at a depth of 2 meters. ... The paper presents the application of Finite Element Method in thermal analysis of underground power cable system. The computations were performed for power cables buried in-line in the ground at a depth of 2 meters. The developed mathematical model allows determining the two-dimensional temperature distribution in the soil, thermal backfill and power cables. The simulations studied the effect of soil and cable backfill thermal conductivity on the maximum temperature of the cable conductor. Also, the effect of cable diameter on the temperature of cable core was studied. Numerical analyses were performed based on a program written in MATLAB. 展开更多
关键词 thermal analysis power cable SOFT BACKFILL
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