Bed-Shear Stress Characteristics of a Simple, Prismatic, Rectangular Channel

Mark Sterling; F Beaman; H Morvan; N Wright

doi:10.1061/(ASCE)0733-9399(2008)134:12(1085)

Bed-Shear Stress Characteristics of a Simple, Prismatic, Rectangular Channel

Mark Sterling, F Beaman, H Morvan, N Wright

Civil Engineering

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10 Citations (Scopus)

Abstract

This paper examines the use of data obtained from large eddy simulations in exploring the instantaneous characteristics of boundary shear stress. The probability density functions (PDF) of the shear stress are shown to be non-Gaussian, whereas the PDF of the shear force per unit length is found to be approximately Gaussian. Conditional sampling is used in order to provide an insight into the average behavior of an extreme shear stress event. Finally, proper orthogonal decomposition illustrates that the behavior of the shear stress is complex and cannot necessarily be attributed to a single major flow event.

Original language	English
Pages (from-to)	1085-1094
Number of pages	10
Journal	Journal of Engineering Mechanics
Volume	134
Issue number	12
DOIs	https://doi.org/10.1061/(ASCE)0733-9399(2008)134:12(1085)
Publication status	Published - 1 Dec 2008

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abstract = "This paper examines the use of data obtained from large eddy simulations in exploring the instantaneous characteristics of boundary shear stress. The probability density functions (PDF) of the shear stress are shown to be non-Gaussian, whereas the PDF of the shear force per unit length is found to be approximately Gaussian. Conditional sampling is used in order to provide an insight into the average behavior of an extreme shear stress event. Finally, proper orthogonal decomposition illustrates that the behavior of the shear stress is complex and cannot necessarily be attributed to a single major flow event.",

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AB - This paper examines the use of data obtained from large eddy simulations in exploring the instantaneous characteristics of boundary shear stress. The probability density functions (PDF) of the shear stress are shown to be non-Gaussian, whereas the PDF of the shear force per unit length is found to be approximately Gaussian. Conditional sampling is used in order to provide an insight into the average behavior of an extreme shear stress event. Finally, proper orthogonal decomposition illustrates that the behavior of the shear stress is complex and cannot necessarily be attributed to a single major flow event.

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Bed-Shear Stress Characteristics of a Simple, Prismatic, Rectangular Channel

Abstract

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