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2019 Vol.6, Issue 4 Preview Page

December 2019. pp. 328-338
Abstract


References
1 

Ackers, P. and White, W. R. 1973. Sediment transport: New Approach and Analysis, Journal of Hydraulics Division, ASCE, 99(11): 2041-2060.

2 

Ahadiyan, J., Adeli, A., Bahmanpouri, F. and Gualtieri, C. 2018. Numerical Simulation of Flow and Scour in a Laboratory Junction, Geosciences, 8: 162.

10.3390/geosciences8050162
3 

Choi, H., Mo, S., and Lee, S. 2015. An Analysis for the characteristics of headward erosion and separation zone due to bed discordance at confluence. Journal of Korea Water Resources Association, 48(11): 879-889. (in Korean)

10.3741/JKWRA.2015.48.11.879
4 

Engelund, F. A. and Hansen, E. 1967. Monograph on sediment transport in alluvial streams, Teknisk Forlag.

5 

Garbrecht, J., Kuhnle, R. A. and Alonso, C. V. 1995. A sediment transport formulation for large channel networks, Journal of Soil and Water Conservation, 50(5): 517-579.

6 

Jang, C., Kim, J., and Ko, I. 2006. Numerical simulation of flow and bed change at the confluence of the Geum river and Mihocheon, Journal of Wetland Research, 8(9): 91-103. (in Korean)

7 

Jang, C. 2017. Numerical Simulation of Flow Characteristics and Channel Changes with Discharge in the Sharped Meandering Channel in the Naeseongcheon, Korea, Ecology and Resilient Infrastructure, 4(1): 24-33.

10.17820/eri.2017.4.1.024
8 

Jang, E. and Ji, U. 2017. Numerical Analysis on Flow and Bed Change Characteristics by Discharge Variations at the Confluence of Nakdong and Geumho Rivers, Journal of the Korea Academia-Industrial cooperation Society, 18(12): 659-667. (in Korean)

9 

Jeong, A., Kim, S., Yu, W., Kim, Y. and Jung K. 2018. Estimation of River Dredging Location and Volume Considering Flood Risk Variation Due to Riverbed Change, 18(3): 279-291. (in Korean)

10.9798/KOSHAM.2018.18.3.279
10 

Kim, G. and Jang, C. 2016. Numerical Analysis of the Behavior of Bars in a Compound Channel with a Drop Structure, Ecology and Resilient Infrastructure, 3(1): 14-21.

10.17820/eri.2016.3.1.014
11 

KWRA. 2007. River Construction Standard Specifications, Korea Water Resources Association (in Korean)

12 

MLTMA. 2009. Standard and Commentary of River Design, Ministry of Land, Transport, and Maritime Affairs (in Korean)

13 

MLTMA. 2009. Basic Plan for river maintenance of Nakdong River, Ministry of Land, Transport and Maritime Affairs (in Korean)

14 

MLTMA. 2011. Basic Plan for river maintenance of Geum River, Ministry of Land, Transport and Maritime Affairs (in Korean)

15 

MLTMA. 2010. Basic Plan for river maintenance of Gamcheon, Ministry of Land, Transport and Maritime Affairs (in Korean)

16 

MLTMA. 2012. River Maintenance Manual, Ministry of Land, Transport, and Maritime Affairs (in Korean)

17 

MLIT. 2016. River change monitoring and evaluation, Ministry of Land, Infrastructure and Transport (in Korean)

18 

Park, M., Kim, H. S. and Baek, C. H. 2018. Numerical analysis of flow and bed change at a confluence of the Namhan River and the Seom River using a two-dimensional model, Journal of Korea Water Resources Association, 51(12): 1273-1284. (in Korean)

19 

Schindfessel, L., Creëlle, S. and De Mulder, T. 2015. Flow Patterns in an Open Channel Confluence with Increasingly Dominant Tributary Inflow, Water, 7: 4724-4751.

10.3390/w7094724
20 

Wu, W., Wang, S., S. Y. and Jia, Y. 2000. Nonuniform sediment transport in alluvial river, Journal of Hydraulic Research, 38(6): 427-434.

10.1080/00221680009498296
Information
  • Publisher :Korean Society of Ecology and Infrastructure Engineering
  • Publisher(Ko) :응용생태공학회
  • Journal Title :Ecology and Resilient Infrastructure
  • Journal Title(Ko) :응용생태공학회 논문집
  • Volume : 6
  • No :4
  • Pages :328-338
  • Received Date :2019. 12. 16