History of Agrophysics: Physical Modeling of Convective Heat Transfer in Greenhouses and Agricultural Fields

European Agrophysical Journal Pub Date : 2017-07-01 DOI:10.17830/J.EAJ.2017.04.030

I. Uskov, D. Kurtener

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Abstract

In 1970-1980, a new scientific direction in agrophysics was started, with efforts devoted to the physical modeling of convective heat transfer in greenhouses and agricultural fields. The base of this new branch of agrophysics was created by research efforts of Igor Uskov. Within the framework of this new branch of agrophysics several valuable scientific results have been obtained. For example, Igor Uskov developed an aerodynamic stand for use in experimental studies which allows for the formation of temperature fields within greenhouses and across agricultural fields. Using this equipment, it was shown for the first time that that heat is carried by ascending and descending air flows within a greenhouse under the influence of local sources of heat. In another example of agrophysics research, heat transfer between double walls of arched greenhouses was studied. The colored shadow method for visualization of the structure of the thermal boundary layer was developed out of this effort. Studies of heat transfer across agriculture fields has led to the heat exchange processes on the slopes being modeled.

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农业物理学的历史:温室和农田对流换热的物理模拟

1970-1980年，农业物理学开辟了一个新的科学方向，致力于温室和农田对流换热的物理模拟。这个农业物理学新分支的基础是由伊戈尔·乌斯科夫的研究成果建立的。在这个农业物理学新分支的框架内，已经取得了一些有价值的科学成果。例如，伊戈尔·乌斯科夫(Igor Uskov)开发了一种用于实验研究的空气动力学支架，该支架可以在温室和农田内形成温度场。利用这种设备，首次证明了在局部热源的影响下，温室内的热量是由上升和下降的气流携带的。在农业物理研究的另一个例子中，研究了拱形温室双壁间的传热。在此基础上，提出了用于热边界层结构可视化的彩色阴影法。对农田热传递的研究导致了斜坡上的热交换过程被模拟。

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

European Agrophysical Journal

自引率

0.00%

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审稿时长

4 weeks