Field Parameterization of the Mobile/Immobile Domain Model

Physical Nonequilibrium in Soils Modeling and Application Pub Date : 2022-01-18 DOI:10.1201/9781003076094-11

D. Jaynes, R. Horton

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引用次数: 1

Abstract

It is clear from numerous field and laboratory experiments that solute movement is often poorly described by the classical advection-dispersion model. Rather, solute breakthrough curves frequently exhibit earlier arrival and more pronounced tailing than predicted by this model. These observations have spurred the development of conceptual models that specifically include physical nonequilibrium to more accurately depict solute movement. In the simplest version of these models, the waterfilled pore space is partitioned into two domains, a mobile domain, where water is free to move and solute movement is by advection and dispersion, and an immobile domain, where water is stagnant and solute moves only by diffusion. Disciplines Agriculture | Hydrology | Soil Science | Statistical Models Comments This is a chapter from Jaynes, D. B., and R. Horton. 1998. Field parameterization of the mobile/immobile domain model. Chapter 11, pp. 297-310. In Selim, H. M. and L. Ma (eds.). Physical nonequilibrium in soils:Modeling and application. Ann Arbor Press. Rights Works produced by employees of the U.S. Government as part of their official duties are not copyrighted within the U.S. The content of this document is not copyrighted. This book chapter is available at Iowa State University Digital Repository: https://lib.dr.iastate.edu/agron_pubs/411

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可移动/不可移动域模型的场参数化

从大量的野外和实验室实验中可以清楚地看出，经典的平流-色散模型往往不能很好地描述溶质的运动。相反，溶质突破曲线往往表现出比该模型预测的更早到达和更明显的尾迹。这些观察刺激了概念模型的发展，特别是包括物理不平衡，以更准确地描述溶质运动。在这些模型的最简单版本中，充满水的孔隙空间被划分为两个区域，一个是可移动区域，其中水可以自由移动，溶质通过平流和弥散来移动;一个是不可移动区域，其中水是停滞的，溶质只通过扩散来移动。这是杰尼斯，D. B.和R.霍顿1998年出版的一章。移动/不移动域模型的场参数化。第11章，297-310页。在塞利姆，h.m.和l.m Ma(编)。土壤物理不平衡:建模与应用。安娜堡出版社。美国政府雇员因公务而制作的作品在美国不受版权保护。本文档的内容不受版权保护。这本书的章节可在爱荷华州立大学数字资源库:https://lib.dr.iastate.edu/agron_pubs/411

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Physical Nonequilibrium in Soils Modeling and Application

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