Archives
 
Year 2020
 
Vol 61, Issue 4, [08 - 2020]

Applying MIKE 21 FM (HD + ST) model to evaluate the ability to regenerate sand and gravel for efficient management of river exploitation and protection, (A case study at Red River crossing Phuc Tho District, Hanoi)

DOI:10.46326/JMES.2020.61(4).09

  • Affiliations:

    1 Hanoi University of Natural Resources and Environment, Vietnam
    2 University of Rostock, German
    3 Enviromental Water Resources Institude, Vietnam
    4 National Center for Water resources Planing and Investigation, Vietnam

  • *Corresponding:
    This email address is being protected from spambots. You need JavaScript enabled to view it.
  • Received: 2nd-June-2020
  • Revised: 23rd-July-2020
  • Accepted: 31st-Aug-2020
  • Online: 31st-Aug-2020
Pages: 86 - 94
Views: 1978
View onlineView online
Downloads: 1014
Downdload PDF
Rating: 5.0, Total rating: 100
Yours rating

Cited by: 1

Abstract:

Sand and gravel in River bed are common construction materials indispensable in urban development, infrastructure, and wharves ... due to the shortage of supply, throughout the rivers in Vietnam. Determination of the volume of regenerated sand annually or according to a certain cycle can use the MIKE 21 FM (HF + ST) hydraulic model given by Danish Institute of Water and Environmental Engineering. Calculation results of the experimental model for the river section across the Phuc Tho district, Hanoi city show that the Vinh Khang sand mine was more simulated during period from 2010 to 2019 and still lower regenaration in the comming years. These results will be significal basis for Mining lisener to orient mine development, adjust capacity and limit exploitation in sediment-deficient areas, avoid locations where there are high erosion trend. The simulation results from the model also are scientific basis for the state management to make master plane, locate sand and gravel material potential areas. But in completing a model it takes time, synthesized data of fields such as geology, hydrometeorology, surveying, geophysics,… it is essential that the functional ministries would make coordinate to bring benefits for organizations and individuals to use lifting data to get high reliability for model results.

How to Cite
Nguyen, A.Thuc Thi, Tran, H.Ngoc, Vu, H.Thi and Nguyen, T.Manh 2020. Applying MIKE 21 FM (HD + ST) model to evaluate the ability to regenerate sand and gravel for efficient management of river exploitation and protection, (A case study at Red River crossing Phuc Tho District, Hanoi) (in Vietnamese). Journal of Mining and Earth Sciences. 61, 4 (Aug, 2020), 86-94. DOI:https://doi.org/10.46326/JMES.2020.61(4).09.
References

Department for Dyke Management, Flood and Storm Control. (2014). Cross-section of the Red River from 2001 to 2014. Ministry of Agriculture and Rural Development (MARD). (in Vietnamese)

Geological Team 301. (2009). Report on the results of sand exploration and leveling on the Red River floating bank in Lien Hong commune, Dan Phuong district, Hanoi city. Hanoi Natural Resources and Environment Department, 80 pp. (in Vietnamese)

Des, E.W. (2010). The sediment load of the Mekong River. Elsevier Inc, 113-142. 

Dinh, C.S. (2005). Research on river bed erosion and sedimentation prediction by MIKE 21C model at Tan Chau-Hong Ngu area, in the Mekong River. Proceedings of the International Symposium on Sustainable Development in the Mekong River basin, Vientiane, Lao PDR, pp. 188-195.

Dulmini, J. (2009). River sand mining and management, a Case study in Nilwala river basin - Sri Lanka. Annual Forestry and Environment Symposium, University of Sri Jayewardenepura, Sri Lanka.

Lai, M.G. (2017). Research on the geological structure of the Red River valley according to geophysical data for coal resource investigation. Ph.D. Thesis, Hanoi University of Mining and Geology, 136 pp. (in Vietnamese)

Intergeo Division. (2020). Report on exploration results of the Vinh Khang mine. Ministry-level topics, code TNMT.2017.03.12, Ministry of Natural Resources and Environment. (in Vietnamese)

Luong, P.H. (2010). Research on forecast erosion, and sedimentation of the channel and propose preventive measures for the river system of the northern Delta. Ministry-level topics, code KC-08-11, Ministry of Science and Technology. (in Vietnamese)

Pham, D., Nguyen, N.D. (2010). Studying the evolution of the river bed of the Red River and proposing solutions to stabilize the estuary area of the Day River. Journal of Irrigation Science and Technology, No. 5-6, pp. 126-135. 

Hanoi Science and Technology Department. (2015). Report on geological and mineral characteristics of Hanoi city. (in Vietnamese)

Hanoi Natural Resources and Environment Department. (2013). Report on exploration results of sand mines used as leveling materials in Red River floating bank, Lot 1, Hong Ha commune, Dan Phuong district, Hanoi city. (in Vietnamese)

Viet Nam Meteorological and Hydrological Administration. (2016). Cross-sectional data of the Red River in 2016, Ministry of Natural Resources and Environment. (in Vietnamese)

Institute of Water Resources Planning. (2005). General report on planning for the integrated use of water resources in the Red River-Thai Binh basin. (in Vietnamese)