A Comparison of the Effects of Solar Radiation on Sandy-Loam and Clay-Loam Soils with Convective Boundary Condition

International Journal of Science Annals Pub Date : 2019-11-04 DOI:10.21467/ias.8.1.130-137

F. Akinpelu, O. A. Olaleye, R. M. Alabison

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引用次数: 2

Abstract

A comparison of the effects of solar radiation on sandy-loam and clay-loam soils with convective boundary condition was made. The dimensional governing equations (the continuity, momentum and energy equations) were converted to non-dimensional form using some set of dimensionless quantities, which resulted to a pair of partial differential equations of second order. With the use of perturbation method, these equations were reduced to ordinary differential equation and then solved analytically. Using the numerical values of the thermal conductivities of sandy-loam and clay-loam soils, a good comparison was made between the effects of the solar radiation parameter and internal heat generation parameter on the two soil samples. These results were worked out with the use of Matlab R2009b and visibly displayed on graphs for clearer illustration. For a rise in the intensity of solar radiation and mounting internal heat, the temperature of the soils increased generally. However, the proportion of moisture content influenced the level and the rate at which the temperature is boosted in both soil samples.

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太阳辐射对对流边界条件下砂壤土和粘土壤土影响的比较

比较了太阳辐射对对流边界条件下砂壤土和粘土壤土的影响。利用一组无量纲量将量纲控制方程(连续性方程、动量方程和能量方程)转化为无量纲形式，得到一对二阶偏微分方程。利用摄动法将这些方程化为常微分方程，然后解析求解。利用砂壤土和粘土壤土的热导率数值，比较了太阳辐射参数和内部产热参数对两种土壤样品的影响。这些结果是用Matlab R2009b计算出来的，并在图形上清晰地显示出来，以便更清楚地说明。随着太阳辐射强度的增加和内热的增加，土壤温度普遍升高。然而，水分含量的比例影响了两种土壤样品中温度升高的水平和速率。

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

International Journal of Science Annals

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审稿时长

3 weeks