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Hydrodynamic Tidal Model of the Persian Gulf Based on Spatially Variable Bed Friction Coefficient
Authors:Mostafa Sohrabi Athar  Alireza A. Ardalan  Roohollah Karimi
Affiliation:1. School of Surveying and Geospatial Engineering, College of Engineering, University of Tehran, Tehran, Iran;2. Department of Geodesy and Surveying Engineering, Tafresh University, Tafresh, Iran
Abstract:The aim of this study is to develop a two-dimensional hydrodynamic tidal model for the Persian Gulf (PG2017) using 2D-MIKE21 software. The advantages of present study is accounting for the spatial variation of bed friction coefficient besides a precise bathymetry together with a 23-year of combined records of satellite altimetry data. We found that the bed friction coefficient has a significant effect on sea level changes in the region under our modeling consideration. Since the tidal behavior in the northern part of the Qeshm Island is significantly different from the other parts of the Persian Gulf, to present a more accurate hydrodynamic tidal model, the Gulf is divided into two regions where the bed friction coefficient is modeled separately for each region. The root mean square value of the differences between the amplitude of dominant constituents; M2, S2, K1, and O1 derived from the PG2017 model and that of 98 altimetry and coastal tide gauge stations are respectively equal to 1.6, 1.9, 2.8, and 1.3?cm. Moreover, comparing the PG2017 model efficiency with the FES2014, OSU12, EOT11a, DTU10, and Admiralty models shows that the PG2017 model has an improvement of 22.1%, 47.2%, 43.2%, 44.2%, and 57.6% in terms of relative error, respectively.
Keywords:Finite volume method  hydrodynamic tidal model  Persian Gulf  satellite altimetry  spatially variable bed friction coefficient
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