Richards方程Laplace变换解中几个遗留问题的讨论

doi:10.11988/ckyyb.20230752

raybet体育在线院报 ›› 2024, Vol. 41 ›› Issue (12): 126-132.DOI: 10.11988/ckyyb.20230752

Richards方程Laplace变换解中几个遗留问题的讨论

朱悦璐(), 李光灿, 吴帅兵

南昌工程学院水利与生态工程学院,南昌 330099

收稿日期:2023-07-11 修回日期:2024-03-23 出版日期:2024-12-01 发布日期:2024-12-01
作者简介:
朱悦璐(1984-),男,江苏常州人,讲师,博士,主要从事水文与水资源、边坡稳定性方面的研究。E-mail: zhuyuelu@nit.edu.cn
基金资助:
国家自然科学基金项目(52069014)

Discussion on Several Remaining Problems in the Laplace Transform Solution of Richards Equation

ZHU Yue-lu(), LI Guang-can, WU Shuai-bing

College of Water Conservancy and Ecological Engineering, Nanchang Institute of Technology,Nanchang 330099,China

Received:2023-07-11 Revised:2024-03-23 Published:2024-12-01 Online:2024-12-01

摘要/Abstract

摘要：

对Richards方程的Laplace变换解在原函数敛散性、逆变换求解步骤、方程适用性等3个方面的问题进行了补充和讨论。通过列举理论反例、使用积分变换和换元方案、结合实际工程算例等方法,证明了直接默认原函数收敛的传统做法有可能出现较大误差,因此在Laplace正变换前,需对入渗函数的敛散性进行判断;针对性补全了Laplace逆变换的求解步骤,从理论层面闭合了该解在土工类文献中缺失的一环;揭示了Laplace解在应用中可能出现土体下层含水率大于上层的反常现象,并从物理背景和数学背景对该现象进行分析,指出该解所存在的天然缺陷。研究结果可从理论上进一步巩固非饱和土理论体系。

关键词: 土力学, Richards方程, Laplace逆变换, 非饱和入渗, 微分方程求解

Abstract:

In this paper we addressed and elaborated on three critical issues concerning the Laplace transform solution of the Richards equation: the convergence of the original function, the steps for inverse transform, and the applicability of the equation. By presenting theoretical counterexamples, employing integral transformations and substitution schemes as well as real engineering cases, we demonstrated that assuming the convergence of the original function can lead to significant errors. Therefore, it is necessary to assess the convergence of the infiltration function before applying the Laplace transform. We also elucidated the steps for solving the Laplace inverse transform, theoretically addressing a gap in geotechnical literature. Furthermore, we reveal an anomaly where, in certain applications, the Laplace solution may show higher moisture content in lower soil layers than in upper layers. We analyzed this phenomenon from both physical and mathematical perspectives, highlighting inherent limitations in this solution. The findings of this study may help to theoretically strengthen the framework of unsaturated soil theory.

Key words: soil mechanics, Richards Equation, inverse Laplace transform, unsaturated infiltration, solution of differential equation

中图分类号:

TU43土力学

朱悦璐, 李光灿, 吴帅兵. Richards方程Laplace变换解中几个遗留问题的讨论[J]. raybet体育在线院报, 2024, 41(12): 126-132.

ZHU Yue-lu, LI Guang-can, WU Shuai-bing. Discussion on Several Remaining Problems in the Laplace Transform Solution of Richards Equation[J]. Journal of Changjiang River Scientific Research Institute, 2024, 41(12): 126-132.

图/表 7

图1 实际入渗曲线注:本图仅为示意,图中坐标值为展示所用。

Fig.1 Actual infiltration curve

图2 计算入渗曲线注:本图仅为示意,图中坐标值为展示所用。

Fig.2 Calculated infiltration curve

表1 Richard方程的Laplace变换解

Table 1 Laplace transform solution of Richards Equation

θ_i	θ₀	/(cm²·min^-1)	/(cm·min^-1)	z/cm	t/min	erfc(v₁)	erfc(v₂)	含水率计算值
0.037	0.64	0.42	0.02	5	70	0.638	0.404	0.742
0.037	0.64	0.42	0.02	10	70	0.262	0.137	0.336
0.037	0.64	0.42	0.02	15	70	0.076	0.032	0.126
0.037	0.64	0.42	0.02	20	70	0.015	0.005	0.055
0.037	0.64	0.42	0.02	25	70	0.002	0.001	0.043
0.037	0.64	0.42	0.02	30	70	0.001	≈0	0.042
0.037	0.64	0.42	0.02	35	70	≈0	≈0	0.041
0.037	0.64	0.42	0.02	40	70	≈0	≈0	0.037
0.037	0.64	0.42	0.02	45	70	≈0	≈0	0.037
0.037	0.64	0.42	0.02	50	70	≈0	≈0	0.037
0.037	0.64	0.42	0.02	80	70	≈0	≈0	0.037

图3 解析解计算结果

Fig.3 Calculation results of analytical solution

图4 不同区域误差对比

Fig.4 Comparison of errors in different regions

图5 不同参数计算结果

Fig.5 Calculation results for different parameters

图6 下渗物理机制解释

Fig.6 Explanation of the physical mechanism of infiltration

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Richards方程Laplace变换解中几个遗留问题的讨论

Discussion on Several Remaining Problems in the Laplace Transform Solution of Richards Equation

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