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All Journal Jurnal Teknik Pengairan: Journal of Water Resources Engineering Journal of Science and Applicative Technology Darmabakti : Junal Pengabdian dan Pemberdayaan Masyarakat
Rahma Yanda
Institut Teknologi Sumatera
Humanities Civil Engineering, Building, Construction & Architecture Earth & Planetary Sciences Education Engineering Materials Science & Nanotechnology Mechanical Engineering Other

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Journal : Journal of Science and Applicative Technology

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Semi-Empirical Estimation of Velocity Profile for Shallow Gravel Bed Channel Rahma Yanda; Morihiro Harada; Ichiro Tamagawa
Journal of Science and Applicative Technology Vol 6 No 2 (2022): Journal of Science and Applicative Technology December Chapter
Publisher : Lembaga Penelitian dan Pengabdian Masyarakat (LPPM), Institut Teknologi Sumatera, Lampung Selatan, Lampung, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35472/jsat.v6i2.885

Abstract

The dependence of flow velocity distribution near the bed on the roughness geometry has led to various approaches for estimating the velocity. Themodels proposed bypreviousstudies aremostlybased on segmented velocityprofiles(e.g., a linear distribution within theinterfacial sublayer and logarithmic distributions above the interfacial sublayer). By increasing number of segments, the possibility of errors in the parameters, as well as constants, are likely to rise. This study assessed the applicability of a hyperbolic tangent function velocity model to estimate double-averaged velocity profile for shallow flow over a rough gravel bed as a single model concept, especially for the area within roughness layer. Velocity profiles over gravel beds with different arrangements and roughness densities from previously published studies using laboratory measurements were used to validate this model. The behaviours of related constants for this model in response to changes in the flow depth and roughness geometry were investigated, and limitations on it application were evaluated. It was found that the constants required to apply hyperbolic tangent function are affected by roughness geometry function and relative submergence. Through this study also observed that HTF is reliable to describe the velocity profile for about twice of geometric roughness height.
Co-Authors Dede Pratama Erlina Kurnianingtyas Ferial Asferizal Ichiro Tamagawa Morihiro Harada Muhammad Hakiem Sedo Putra Mutiara Fajar Selma Nurul Fauziah