Numerical Study on Measures for Protecting the Go-Cong Coastlines (Vietnam) from Erosion-Reference-Cited by-同舟云学术

Numerical Study on Measures for Protecting the Go-Cong Coastlines (Vietnam) from Erosion

Published:2022-11-26 Issue:23 Volume:14 Page:3850
ISSN:2073-4441
Container-title:Water
language:en
Short-container-title:Water

Author:

San Dinh Cong,Duong Nguyen Binh,Phong Nguyen Cong,Tu Le Xuan^ORCID,Pham-Van-Bang Damien^ORCID,Guillou Sylvain^ORCID,Nguyen Kim Dan^ORCID

Abstract

Every year, in the Vietnam Mekong Delta Coastal Zone (VMDCZ), erosions cause approximately 300 ha of agricultural land loss. Therefore, measures for shoreline protection are urgently needed. This paper discusses the impacts of protection measures in the Go-Cong Coastal Zone to prevent erosion/accretion processes, predicted by two numerical models, MIKE21-FM and TELEMAC-2D. Hard and soft measures have been proposed using breakwaters and sandbars, respectively. The simulations show that the erosion/accretion trends provided by both models are similar. For breakwaters, MIKE21-FM provides less accretion than TELEMAC-2D in areas extending over 300 m and 500 m from shorelines. However, for sandbars, MIKE21-FM shows higher accretion within areas extending over 500 m but less than 300 m. Sandbars cause higher accretion in a larger area, extending over 1000 m offshore. The simulation results allow us to propose two alternative measures: (1) a row of several breakwater units will be implanted at 300 m offshore. The length of each unit is 600 m, with a gap between two neighbouring units of 70 m and a crest elevation of 2.2 m above mean sea level (MSL). (2) A row of sandbar units will be posed at 500 m offshore, with a unit length of 1000 m and a gap between the two neighbouring units of 200 m. The crest elevation is fixed at MSL.

Funder

AFD and EU

Ministry of Science and Technology

NSERC-Discovery program

Publisher

MDPI AG

Subject

Water Science and Technology,Aquatic Science,Geography, Planning and Development,Biochemistry

Link

https://www.mdpi.com/2073-4441/14/23/3850/pdf

Reference18 articles.

1. Hung, L.M., San, D.C., Anh, T.T., Chuong, L.T., Hoang, T.B., Tu, L.X., and Phong, N.C. (2013). Research the Effects of Sand Mining Activities to Channel Morphology of Cuu Long River (Mekong and Bassac Rivers) and Suggest Solution on Appropriate Plan and Management, SIWRR. National research project (MOST); Final Report.

2. Linking rapid erosion of the Mekong River delta to human activities;Sci. Rep.,2015

3. Tung, L.T., Marchesiello, P., and Dinh, C.S. (2022, January 01). Monitoring of Shoreline Change Using Remote Sensing. WP3 Interim Report of LMDCZ-AFD-EU-SIWRR project. AFD-SIWRR. Available online: http://lmdcz.siwrr.org.vn/274/ket-qua.

4. Wilms, T., Van der Goot, F., and Debrot, A.O. (2017, January 21–23). Building with Nature—An integrated approach for coastal zone solutions using natural, socio-economic and institutional processes. Proceedings of the Coasts & Ports 2017 Conference, Cairns, Australia.

5. Hung, L.M., Khang, N.D., Tu, L.X., Phong, N.C., Chuong, L.T., and Hoang, T.B. (2011). Study on the Flow Regime and the Distribution of Coastal Sediments from Soai Rap Estuary to Tieu Estuary, and Propose Solutions to Prevent Erosion of Go Cong Sea Dyke, SIWRR. National Program granted by the Vietnamese Ministre.

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