Physical nonequilibrium in soils : modeling and application
著者
書誌事項
Physical nonequilibrium in soils : modeling and application
Ann Arbor Press, c1998
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注記
Includes bibliographical references and index
内容説明・目次
内容説明
Physical Nonequilibrium in Soils provides cutting-edge knowledge on physical nonequilibrium phenomena in soils, offering unique insight into the complexity of our physical world. With 18 chapters comprising the book, topics cover
soil properties
fluid properties
mechanistic models
transfer function
geostatistics
fractal analysis
cellular-automation fluids
coupling of physical and chemical nonequilibrium models
confirming and quantifying physical nonequilibrium in soils
analytical solutions
field-scale research
environmental impacts.
目次
Coupling Sorption Rate Heterogeneity and Physical Nonequilibrium in Soils. Hydraulic and Physical Nonequilibrium Effects on Multiregion Flow. Multiprocess Nonequilibrium and Nonideal Transport of Solutes in Porous Media. Coupling of Retention Approaches to Physical Nonequilibrium Models. Analytical Solutions for Nonequilibrium Transport Models. Use of Fractals to Describe Soil Structure, H.W.G. Booltink. Modeling the Impact of Preferential Flow on Nonpoint Source Pollution. Modeling the Interaction between Leaching and Intraped Diffusion. Experimental Techniques for Confirming and Quantifying Physical Nonequilibrium Processes in Soils. Transport in Unsaturated Soil: Aggregates, Macropores, and Exchange. Field Parameterization of the Mobile/Immobile Domain Model. Transfer Function Approaches to Modeling Solute Transport in Soils. Field-Scale Solute Transport in the Vadose Zone: Experimental Observations and Interpretation. Density-Coupled Water Flow and Contaminant in Soils. Numerical Modeling of NAPL Dissolution Fingering in Porous Media. Flow and Entrapment of Nonaqueous Phase Liquids in Heterogeneous Soil Formations. Strategies for Describing Preferential Flow: The Continuum Approach and Cellular-Automation Fluids. Using GIS and Geostatistics to Model Nonequilibrium Flow at a Farm Scale.
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