Tide Height Calculation by Using the Nesting Surge Model

  • Md. Towhiduzzaman 


Abstract Views
303

Downloads
50

Citations

Share

##plugins.themes.bootstrap3.article.sidebar##

Submitted Jan 20, 2017
Published Jan 23, 2017
10.24018/ejeng.2017.2.1.268

Abstract viewed = 303 times

Table of Contents

##plugins.themes.bootstrap3.article.main##

In this study, a doubly nested tide-surge model was established for the coastal region of Bangladesh. This model can be applied in coastal Belt Tide Height Calculation. A uniform grid model is being converted to the region between 210 N to 230 N and 890 E to 900 E in a  grid resolution. The model equations were solved by semi-implicit finite difference technique. An appropriate tidal condition over the model domain could be generated in the sea level to be oscillatory. To the northeast corner, the Meghna River in Bangladesh discharge and rainfall distribution was taken into account. The results of Nesting Surge model are found to be a reasonable agreement with those observed data from Bangladesh inland water transport authority (BIWTA). So, the Tide Height Calculation is a significant matter here to be discussed.
Keywords: Coast continuity equation cyclone fluids storm surge tide tide generating force.

Downloads

Download data is not yet available.

References

  1. REFERENCES
     Google Scholar
  2. Gour Chandra Paul, Ahmad Izani Md. Ismail, “Contribution of offshore islands in the prediction of water levels due to tide–surge interaction for the coastal region of Bangladesh”, Natural Hazards, vol.65, no.1, pp 13–25, January 2013.
     Google Scholar
  3. Md. Towhiduzzaman, “Performance Analysis of Continuity Equation and Its Applications”, European Journal of Engineering Research and Science (EJERS), vol. 1, no. 5, pp. 40-43, 2016.
     Google Scholar
  4. As-Salek JA, “Negative surges in the Meghna estuary in Bangladesh”, Mon Weather Rev., vol. 125, pp. 1638-1648, 1997.
     Google Scholar
  5. Dube SK, Chittibabu P, Sinha PC, Rao AD, “Numerical modelling of storm surge in the head Bay of Bengal using location specific model”, Natural Hazards, vol. 31, pp. 437-453, 2004.
     Google Scholar
  6. Jain SK, Agarwal PK, Singh VP, “Hydrology and water resources of India”, Springer, Dordrecht, pp. 308, 2007.
     Google Scholar
  7. Roy GD, “Sensitivity of water level associated with tropical storms along the Meghna estuary in Bangladesh”, Environ Int., vol. 25, no. 1, pp. 109–116, 1999.
     Google Scholar
  8. T. S. Murty, R. A. Flather, R. F., Henry, “The storm surge problem in the Bay of Bengal”, Progress Oceanograph., vol. 16, pp. 195-233, 1986.
     Google Scholar
  9. R. A. Flather, “A tidal model of the northeast Pacific”, Atmosphere Ocean, vol. 25, pp. 22-45, 1987.
     Google Scholar
  10. S. K. Dube, I. Jain, A. D. Rao, T. S. Murty, “Storm surge modeling for the Bay of Bengal and Arabian Sea”, Natural Hazards, vol. 51, pp. 3-27, 2009.
     Google Scholar
  11. M. M. Rahaman, G. C. Paul, A. Haque, “Nested numerical scheme in a polar coordinate shallow water model for the coast of Bangladesh”, J. Coast Conserv., vol. 17, no. 1, pp. 37-47, 2013.
     Google Scholar
  12. Gour Chandra Paul, Ahmad Izani Md Ismail, “Numerical modeling of storm surges with air bubble effects along the coast of Bangladesh”, Ocean Engineering, vol. 42, pp. 188-194,March 2012.
     Google Scholar
  13. Jeffrey D. Kepert, “The dynamics of boundary layer jets within the tropical cyclone core. Part I: Linear theory”, Journal of Atmospheric Science, vol. 58, no. 17, pp. 2469-2484, 2001.
     Google Scholar
  14. J. L. Franklin, M. L. Black, and K. Valde, “GPS dropwindsonde wind profiles in hurricanes and their operational implications”, Weather and Forecasting, vol. 18, no. 1, pp. 32-44, 2003.
     Google Scholar
  15. S. K. Debsarma, “Simulation of storm surges in the Bay of Bengal”, Mar Geod., 32, pp. 178-198, 2009.
     Google Scholar
  16. Jain, I., Rao, A. D., Jitendra, V. and Dube, S. K., “Computation of expected total water levels along the east coast of India”, Journal of Coastal Research, vol. 26, no. 4, pp. 681 – 687, 2010.
     Google Scholar
  17. Karim, M. F. and Mimura, N., “Impacts of climate change and sea-level rise on cyclonic storm surge floods in Bangladesh”, Global Environmental Change, vol. 18, no. 3, pp. 490-500, 2008.
     Google Scholar
  18. Neetu Agnihotri, Chittibabu, P., Indu Jain, Rao, A. D., Dube, S. K., Sinha P. C., “A Bay-River Coupled Model for storm surge prediction along the Andhra coast of India”, Natural Hazards, vol. 39, no. 1, pp. 83-101, 2006.
     Google Scholar
  19. Md. Towhiduzzaman, “Prediction of Tide Height Using the Discrete Fourier Transform”, American Journal of Engineering Research (AJER), vol. 5, no. 12, pp. 87-94, 2016.
     Google Scholar
  20. M. Mizanur Rahman, G. Chandra Paul and A. Hoque, “A Cyclone Induced Storm Surge forecasting Model for the coast of Bangladesh with Application to the Cyclone Sidr”, International Journal of Mathematical Modelling and Computations, vol. 1, no. 2, pp. 77-86, 2011.
     Google Scholar
  21. Hussain Farzana, “A Transformed Coordinates Shallow water Model for the Head of the Bay of Bengal using Boundary-Fitted Curvilinear Grids”, East Asian Journal on Applied Mathematics, vol. 3, no. 1, pp. 27-47, 2013.
     Google Scholar
  22. Dube, S. K., Indu Jain, Rao, A. D., T. S. Murty, “Storm surge modeling for the Bay of Bengal and Arabian Sea”, Natural Hazards, vol. 51, no. 1, pp. 3-27, 2009.
     Google Scholar