基于机器学习的太阳蒸发环境因子加权值

Yunpeng Wang, Guilong Peng, S. Sharshir, A. W. Kandeal, Nuo Yang
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引用次数: 17

摘要

提高太阳能蒸发效率是太阳能蒸馏器的重要组成部分。在本研究中,环境因子(描述符)对太阳能蒸发效率的加权值通过机器学习算法随机森林得到。为了验证随机森林与数学数据分析的先进性,我们采用了两种传统的方法——成对图和Pearson相关分析来进行比较。实验数据来自2014年以来的约100篇文章。结果表明,传统方法无法获得合理的权重值,而随机森林方法是可行的。研究发现,热设计是获得高效率的最重要的描述符。缺乏完整的数据集是进行更深入和全面分析的主要挑战。该工作对太阳能蒸发和太阳能蒸馏器的研究具有一定的推动作用。
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The Weighted Values of Solar Evaporation’s Environment Factors Obtained by Machine Learning
Enhancing the efficiency of solar evaporation is important for solar stills. In this study, the weighted values of environment factors (descriptors) on the efficiency of solar evaporation are obtained by using a machine learning algorithm, random forest. To verify the advancement between random forest and mathematical data analysis, two traditional methods, pair wise plots and Pearson correlation analysis, are conducted for comparison. Experimental data are obtained from around 100 articles since 2014. The results indicated that traditional methods failed at obtaining reasonable weighted values, while random forest is competent. It is found that thermal design is the most significant descriptors to obtain a high efficiency. The lack of complete dataset is the main challenge for more in-depth and comprehensive analysis. This work may promote the studies on solar evaporation and solar stills.
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