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A STUDY ON THE TIDAL BEHAVIOR OF THE IZMIR BAY WITH AN OPEN-SOURCE MODEL

Year 2022, Volume: 5 Issue: 2, 117 - 142, 30.12.2022
https://doi.org/10.47137/uujes.1194112

Abstract

In this paper, tidal behavior of Izmir Bay modeled by open source ADCIRC - Advanced Circulation Model. The source code of the ADCIRC installed on a local computer, the preparation of the files will be used as input required for the model simulation, the creation of the calculation grid, the coefficients representing the open boundary conditions, and the obtaining of the bathymetry data were made and cloud-based and open-access DesignSafe CI environment was also used to run the simulations. The results are compared with observed data at Izmir Mentes Mareograph Station and simulations of different time intervals and periods were graphed with the help of FORTRAN based FigureGen visualization tool.

Project Number

100/2000 Sustainable Smart Cities PhD Grant Program

References

  • Hendershott MC. Long Waves and Ocean Tides. Evolution of physical oceanography. Cambridge: MIT Press; 1981; 292-341.
  • Blain CA, and Rogers WE. Coastal Tide Prediction Using the ADCIRC-2DDI Hydrodynamic Finite Element Model: Model Validation and Sensitivity Analyses in the Southern North Sea/English Channel,Naval Research Laboratory, Stennis Space Center, MS, 1998; NRL/FR/7322--98-9682.
  • Sayın E, Pazı İ, Eronat C. Investigation of Water Masses in İzmir Bay, Western Turkey, Turkish Journal of Earth Sciences (Turkish J. Earth Sci.), 2006;(15);343-372.
  • ADCIRC Homepage, Available from www.adcirc.org
  • Dietrich JC, Tanaka S, Westerink JJ, Dawson CN, Luettich Jr RA, Zijlema M, Holthuijsen LH, Smith JM, Westerink LG, Westerink HJ. Performance of the Unstructured-Mesh, SWAN+ ADCIRC Model in Computing Hurricane Waves and Surge; 2011.
  • Manchuk JG, and Deutsch CV. The Structure of Unstructured Grids; 2008.
  • Roberts K J, Pringle WJ, and Westerink J J. OceanMesh2D 1.0: MATLAB-based software for two-dimensional unstructured mesh generation in coastal ocean modeling, Geosci. Model Dev.; 2019; (12); 1847–1868; Avaliable from https://doi.org/10.5194/gmd-12-1847-2019
  • Pawlowicz R. M_Map: A mapping package for MATLAB, version 1.4m, [Computer software] 2020; Available from www.eoas.ubc.ca/~rich/map.html.
  • Schlining B, Signell R, Crosby A. nctoolbox 2009; Available from Github repository, https://github.com/nctoolbox/nctoolbox
  • Wessel P, and Smith WHF. A global, self-consistent, hierarchical, high-resolution shoreline database, J. Geophys. Res.; 1996; 101(B4); 8741–8743, doi:10.1029/96JB00104.
  • Tozer B, Sandwell DT, Smith WHF, Olson C, Beale JR. and Wessel P. (2019). Global bathymetry and topography at 15 arc sec: SRTM15+ Earth and Space Science; Available from https://doi.org/10.1029/2019EA000658
  • Erofeeva SY, Padman L, and Howard SL. Tide Model Driver (TMD) version 2.5, Toolbox for Matlab; 2020; Avaliable from https://www.github.com/EarthAndSpaceResearch/TMD_Matlab_Toolbox_v2.5
  • Egbert, G., D., and Erofeeva, S., Y., "Efficient inverse modeling of barotropic ocean tides." Journal of Atmospheric and Oceanic Technology; 2002; (19.2); 183-204.
  • Schureman P. Manual of Harmonic Analyses and Prediction of Tides: U.S. Department of Commerce; U.S. Government Printing Office; Washington; 1958.
  • https://tudes.harita.gov.tr/Portal/IstasyonDetay/16
  • Yüksel Y, Öztürk M, Şahin C, Halat O, Doğan U, Yüksel ZT, Karova C. Türkiye denizlerinde su seviyesi değişimi; 9. Kıyı Mühendisliği Sempozyumu; 2018.
  • Yıldız H, Demir C, Gürdal MA, Akabalı OA, Demirkol EÖ, Ayhan ME, Türkoğlu Y. Analysis of sea level and geodetic measurements of antalya-ii, bodrum ii, erdek and menteş tide gauges in the period of 1984-2002, Harita Genel Komutanlığı Jeodezi Dairesi Başkanlığı; Ankara; Harita Genel Komutanlığı Matbaası; 2003; ISSN 1300 – 5790
  • Some ADCIRC visualizations were produced with FigureGen (Dietrich et al., 2013).
Year 2022, Volume: 5 Issue: 2, 117 - 142, 30.12.2022
https://doi.org/10.47137/uujes.1194112

Abstract

Supporting Institution

YÖK

Project Number

100/2000 Sustainable Smart Cities PhD Grant Program

References

  • Hendershott MC. Long Waves and Ocean Tides. Evolution of physical oceanography. Cambridge: MIT Press; 1981; 292-341.
  • Blain CA, and Rogers WE. Coastal Tide Prediction Using the ADCIRC-2DDI Hydrodynamic Finite Element Model: Model Validation and Sensitivity Analyses in the Southern North Sea/English Channel,Naval Research Laboratory, Stennis Space Center, MS, 1998; NRL/FR/7322--98-9682.
  • Sayın E, Pazı İ, Eronat C. Investigation of Water Masses in İzmir Bay, Western Turkey, Turkish Journal of Earth Sciences (Turkish J. Earth Sci.), 2006;(15);343-372.
  • ADCIRC Homepage, Available from www.adcirc.org
  • Dietrich JC, Tanaka S, Westerink JJ, Dawson CN, Luettich Jr RA, Zijlema M, Holthuijsen LH, Smith JM, Westerink LG, Westerink HJ. Performance of the Unstructured-Mesh, SWAN+ ADCIRC Model in Computing Hurricane Waves and Surge; 2011.
  • Manchuk JG, and Deutsch CV. The Structure of Unstructured Grids; 2008.
  • Roberts K J, Pringle WJ, and Westerink J J. OceanMesh2D 1.0: MATLAB-based software for two-dimensional unstructured mesh generation in coastal ocean modeling, Geosci. Model Dev.; 2019; (12); 1847–1868; Avaliable from https://doi.org/10.5194/gmd-12-1847-2019
  • Pawlowicz R. M_Map: A mapping package for MATLAB, version 1.4m, [Computer software] 2020; Available from www.eoas.ubc.ca/~rich/map.html.
  • Schlining B, Signell R, Crosby A. nctoolbox 2009; Available from Github repository, https://github.com/nctoolbox/nctoolbox
  • Wessel P, and Smith WHF. A global, self-consistent, hierarchical, high-resolution shoreline database, J. Geophys. Res.; 1996; 101(B4); 8741–8743, doi:10.1029/96JB00104.
  • Tozer B, Sandwell DT, Smith WHF, Olson C, Beale JR. and Wessel P. (2019). Global bathymetry and topography at 15 arc sec: SRTM15+ Earth and Space Science; Available from https://doi.org/10.1029/2019EA000658
  • Erofeeva SY, Padman L, and Howard SL. Tide Model Driver (TMD) version 2.5, Toolbox for Matlab; 2020; Avaliable from https://www.github.com/EarthAndSpaceResearch/TMD_Matlab_Toolbox_v2.5
  • Egbert, G., D., and Erofeeva, S., Y., "Efficient inverse modeling of barotropic ocean tides." Journal of Atmospheric and Oceanic Technology; 2002; (19.2); 183-204.
  • Schureman P. Manual of Harmonic Analyses and Prediction of Tides: U.S. Department of Commerce; U.S. Government Printing Office; Washington; 1958.
  • https://tudes.harita.gov.tr/Portal/IstasyonDetay/16
  • Yüksel Y, Öztürk M, Şahin C, Halat O, Doğan U, Yüksel ZT, Karova C. Türkiye denizlerinde su seviyesi değişimi; 9. Kıyı Mühendisliği Sempozyumu; 2018.
  • Yıldız H, Demir C, Gürdal MA, Akabalı OA, Demirkol EÖ, Ayhan ME, Türkoğlu Y. Analysis of sea level and geodetic measurements of antalya-ii, bodrum ii, erdek and menteş tide gauges in the period of 1984-2002, Harita Genel Komutanlığı Jeodezi Dairesi Başkanlığı; Ankara; Harita Genel Komutanlığı Matbaası; 2003; ISSN 1300 – 5790
  • Some ADCIRC visualizations were produced with FigureGen (Dietrich et al., 2013).
There are 18 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Doğuş Onur Bayram 0000-0002-3707-3532

Mustafa Doğan 0000-0002-3623-2714

Project Number 100/2000 Sustainable Smart Cities PhD Grant Program
Publication Date December 30, 2022
Submission Date October 24, 2022
Acceptance Date November 9, 2022
Published in Issue Year 2022 Volume: 5 Issue: 2

Cite

APA Bayram, D. O., & Doğan, M. (2022). A STUDY ON THE TIDAL BEHAVIOR OF THE IZMIR BAY WITH AN OPEN-SOURCE MODEL. Usak University Journal of Engineering Sciences, 5(2), 117-142. https://doi.org/10.47137/uujes.1194112
AMA Bayram DO, Doğan M. A STUDY ON THE TIDAL BEHAVIOR OF THE IZMIR BAY WITH AN OPEN-SOURCE MODEL. UUJES. December 2022;5(2):117-142. doi:10.47137/uujes.1194112
Chicago Bayram, Doğuş Onur, and Mustafa Doğan. “A STUDY ON THE TIDAL BEHAVIOR OF THE IZMIR BAY WITH AN OPEN-SOURCE MODEL”. Usak University Journal of Engineering Sciences 5, no. 2 (December 2022): 117-42. https://doi.org/10.47137/uujes.1194112.
EndNote Bayram DO, Doğan M (December 1, 2022) A STUDY ON THE TIDAL BEHAVIOR OF THE IZMIR BAY WITH AN OPEN-SOURCE MODEL. Usak University Journal of Engineering Sciences 5 2 117–142.
IEEE D. O. Bayram and M. Doğan, “A STUDY ON THE TIDAL BEHAVIOR OF THE IZMIR BAY WITH AN OPEN-SOURCE MODEL”, UUJES, vol. 5, no. 2, pp. 117–142, 2022, doi: 10.47137/uujes.1194112.
ISNAD Bayram, Doğuş Onur - Doğan, Mustafa. “A STUDY ON THE TIDAL BEHAVIOR OF THE IZMIR BAY WITH AN OPEN-SOURCE MODEL”. Usak University Journal of Engineering Sciences 5/2 (December 2022), 117-142. https://doi.org/10.47137/uujes.1194112.
JAMA Bayram DO, Doğan M. A STUDY ON THE TIDAL BEHAVIOR OF THE IZMIR BAY WITH AN OPEN-SOURCE MODEL. UUJES. 2022;5:117–142.
MLA Bayram, Doğuş Onur and Mustafa Doğan. “A STUDY ON THE TIDAL BEHAVIOR OF THE IZMIR BAY WITH AN OPEN-SOURCE MODEL”. Usak University Journal of Engineering Sciences, vol. 5, no. 2, 2022, pp. 117-42, doi:10.47137/uujes.1194112.
Vancouver Bayram DO, Doğan M. A STUDY ON THE TIDAL BEHAVIOR OF THE IZMIR BAY WITH AN OPEN-SOURCE MODEL. UUJES. 2022;5(2):117-42.

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