Titlebook: Advances in Water Resources Engineering; Chih Ted Yang,Lawrence K. Wang Book 2015 Springer International Publishing Switzerland 2015 Fluvi

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dainty

Raghu Ramakrishnan,Peter J. Stuckey in different watersheds of the Yellow River, and the simulation results indicated that this model system is capable of simulating the physical processes of sediment yield and transport in a large-scale watershed.

使害羞

Refining Restriction Enzyme Genome Maps,the advent of high-speed personal computers, a number of rigorous integrated surface-water/groundwater models have been developed to circumvent these limitations. In general, a typical model of an integrated hydrologic system may be divided into three interactive and interconnected domains: subsurfa

Schlemms-Canal

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https://doi.org/10.1007/978-981-10-8304-4s show that fluid motion satisfies the minimum energy dissipation rate principle. Variations of energy dissipation rate of alluvial rivers have been verified with field data. When a river system is at a relative equilibrium state, the value of its energy dissipation rate is at minimum. The minimum v

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Middle-Ear

A record calculus with principal types,x aspects of soil erosion and sediment transport processes and to fill in knowledge gaps in cases where data were not readily available. In recent years, most soil loss from upland areas occurs as gully erosion. This chapter presents a background of the knowledge that was systematically acquired in

Countermand

Flemming Nielson,Hanne Riis NielsonD geofluvial model, SRH-2D, is described. SRH-2D incorporates processed-based bank erosion modules into a 2D mobile-bed module; it is developed with the primary objective of advancing the geofluvial modeling toward a practical engineering tool. Bank erosion modeling consists of a uniform retreat mod

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Watershed Sediment Dynamics and Modeling: A Watershed Modeling System for Yellow River,ully analyzed here, and a physically based, distributed, and continuous erosion model at the watershed scale, named the Digital Yellow River Integrated Model (DYRIM), was developed. The framework, the key supporting techniques, and the formulation for natural processes were described. The physical p

Fibrinogen

Integrated Simulation of Interactive Surface-Water and Groundwater Systems,reliably the impacts due to anthropogenic or natural changes in water availability and water quality. For integrated water resources management studies in which both surface water and groundwater are interactive, a technically rigorous and physically based approach is essential. Simulation models ha