用多元非线性模型预测湿润管灌溉下的湿润模式尺寸

IF 3.7 Q1 WATER RESOURCES
Yan-wei Fan, Chong Ren, Zhi-wei Yang, Chang-yan Zhang, Wei-fan Yin
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引用次数: 0

摘要

湿管灌溉是一种新型微灌技术。准确估算其湿润模式尺寸是一项挑战。因此,有必要开发有效评估湿润传输模式的模型,以便设计出经济高效的湿润管灌溉系统。为实现这一目标,本研究开发了一个多变量非线性回归模型,并将其与维度模型进行了比较。使用 HYDRUS-2D 对 56 种不同因素的灌溉方案进行了数值模拟。实验结果表明,润湿土体的形状近似于圆柱体,主要受土壤质地、压头和母质势的影响。利用润湿大小与灌溉时间之间的幂函数关系,建立了一个多变量非线性模型,其确定系数大于 0.99。该模型对六种土壤质地类型进行了验证,平均绝对误差为 0.43-0.90 厘米,均方根误差为 0.51-0.95 厘米,平均偏差百分比值为 3.23%-6.27%。多元非线性回归模型优于维度模型。因此,它可以为湿润管灌溉系统的开发提供科学依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Prediction of wetting pattern dimensions under moistube irrigation with a multivariate nonlinear model

Moistube irrigation is a new micro-irrigation technology. Accurately estimating its wetting pattern dimensions presents a challenge. Therefore, it is necessary to develop models for efficient assessment of the wetting transport pattern in order to design a cost-effective moistube irrigation system. To achieve this goal, this study developed a multivariate nonlinear regression model and compared it with a dimensional model. HYDRUS-2D was used to perform numerical simulations of 56 irrigation scenarios with different factors. The experiments showed that the shape of the wetting soil body approximated a cylinder and was mainly affected by soil texture, pressure head, and matric potential. A multivariate nonlinear model using a power function relationship between wetting size and irrigation time was developed, with a determination coefficient greater than 0.99. The model was validated for cases with six soil texture types, with mean average absolute errors of 0.43–0.90 cm, root mean square errors of 0.51–0.95 cm, and mean deviation percentage values of 3.23%–6.27%. The multivariate nonlinear regression model outperformed the dimensional model. It can therefore provide a scientific foundation for the development of moistube irrigation systems.

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来源期刊
CiteScore
6.60
自引率
5.00%
发文量
573
审稿时长
50 weeks
期刊介绍: Water Science and Engineering journal is an international, peer-reviewed research publication covering new concepts, theories, methods, and techniques related to water issues. The journal aims to publish research that helps advance the theoretical and practical understanding of water resources, aquatic environment, aquatic ecology, and water engineering, with emphases placed on the innovation and applicability of science and technology in large-scale hydropower project construction, large river and lake regulation, inter-basin water transfer, hydroelectric energy development, ecological restoration, the development of new materials, and sustainable utilization of water resources.
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