Abstract
Coastal zone plays a very important role in Vietnam socio-economic develop-ment, especially with the central region. However, the coastal line in Vietnam central region has been changed seriously. It becomes more complicately in recent years when shoreline erosion has occurred in many localtities. The consequence of this natural phenomenon has affected significantly to these area. The sea level rise and typhoon wave are considered as the main causes of unexpected phenom-enon. With the aim of mitigating the impact of typhoon wave to coastal line in ce-tral Vietnam, this study is realised. By using Mike softwave family of DHI for coastal zone from Binh Dinh to Binh Thuan, Viet Nam, the result will allow not only us to understand, predict and design mitigation measures to combat the ef-fects of these typhoons, it will also allow us to develop a methodology to be used elsewhere on the Viet Nam coast. The model is calibrated and validated versus water leve data of Quy Nhon station and of two other temporary stations in cen-tral area, also comparered to WAVEWATCH III model result with high perfor-mance. Result from four different typhoon scenario (from level 6 to level 12) are analysed to provide basic information about the wave situation then estimating their impact to study area.
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Reference
BOATENG, I. (2009). Spatial Planning and Climate Change Adaption in Coastal Regions : The Case of Vietnam. In the 7th FIG Regional Conference in Hanoi, Vietnam (pp. 19–22).
DHI. (2012). Mike 21 Flow Model-Hydrodynamic Module Scientific Documentation.
Dorel, C., Păcurar, I., ROŞCA, S., BILAŞCO, Ş., DÎRJA, M., & BO, A. I. (2016). Vulnerability Assessment of Land for Surface Erosion using Usle Model. Case Study: Someș Mare Hills. ProEnvironment Promediu, 9(25).
National Institute of Informatics. (n.d.). Retrieved from http://agora.ex.nii.ac.jp/
Olson, C. J., Becker, J. J., & Sandwell, D. T. (2014). A new global bathymetry map at 15 arcsecond resolution for resolving seafloor fabric: SRTM15_PLUS. In AGU Fall Meeting Abstracts.
Saha, S., Moorthi, S., Wu, X., Wang, J., Nadiga, S., Tripp, P., … Iredell, M. (2014). The NCEP climate forecast system version 2. Journal of Climate, 27(6), 2185–2208.
Tolman, H. L. (2009). User manual and system documentation of WAVEWATCH III TM version 3.14. Technical Note, MMAB Contribution, 276, 220.
Acknowledgements
This work was supported by The University of Danang, University of Science and Technology, code number of Project: T2019-02-17.
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Vo, N.D., Binh, N.Q., Nguyen, C.P., Gourbesvill, P. (2020). An Aproach for Hurricane Wave Modelling in Vietnam Central Region. In: Trung Viet, N., Xiping, D., Thanh Tung, T. (eds) APAC 2019. APAC 2019. Springer, Singapore. https://doi.org/10.1007/978-981-15-0291-0_83
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DOI: https://doi.org/10.1007/978-981-15-0291-0_83
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