MATEC Web Conf.
Volume 246, 20182018 International Symposium on Water System Operations (ISWSO 2018)
|Number of page(s)||6|
|Section||Main Session: Water System Operations|
|Published online||07 December 2018|
- An, C. H., Luo, Q. S., & Li, W. X. (2016). Comprehensive study on river channel control measures in ingxia-Inner Mongolia reach of the Yellow River. Zhengzhou: Yellow River Engineering Consulting Limited Company. (in Chinese) [Google Scholar]
- Duan G., Chen S., Qian Y. (2013). Feasibility Study of Harnessing River Siltation Shrinkage by Water and Sediment Regulation. Journal of Yellow River, 35(10),42-44. (in Chinese) [Google Scholar]
- Fan X., Shi C., Shao W. (2013). The suspended sediment dynamics in the Inner-Mongolia reaches of the upper Yellow River. Catena, 109: 72-82. [CrossRef] [Google Scholar]
- Li X., Zhong D., Zhang Y., Wang Y., Wang Y., and Zhang H. (2018) Wide river or narrow river: Future river training strategy for Lower Yellow River under global change. International Journal of Sediment Research, https://doi.org/10.1016/j.ijsrc.2018.04.001. [Google Scholar]
- Ling H., Wang X., Wang Y., Zhong D., Zhang H. (2015). Research on the Flow and Sediment Conditions and Critical Incoming Sediment Coefficient in Ningxia Section of Yellow River. Journal of Yellow River, 37(2),19-23. (in Chinese) [Google Scholar]
- Liu, C., Sui, J., Wang, Z. (2008). Sediment load reduction in Chinese rivers. International Journal of Sediment Research, 23(1),44-55. [CrossRef] [Google Scholar]
- Liu, F., Chen, S., Peng, J., Chen, G. (2012). Temporal variations of water discharge and sediment load of Huanghe River, China. Chinese Geographical Science, 22(5),507-521. [CrossRef] [Google Scholar]
- Liu X., Hou S., Chang W. (2009). Cause of main channel shrinkage occurred to the Inner-Mongolia reaches of Yellow River. Journal of Hydraulic Engineering, 40(9),1048-1054. (in Chinese) [Google Scholar]
- Qin Y., Zhang X., Wang F. (2011). Scour and silting evolution and its influencing factors in Inner Mongolian Reach of the Yellow River. Journal of Geographical Sciences, 21(6): 1037-1046. [CrossRef] [Google Scholar]
- Ran L., Wang S., Fan X. (2010). Channel change at Toudaoguai Station and its responses to the operation of upstream reservoirs in the upper Yellow River. Journal of Geographical Sciences, 20(2): 231-247. [CrossRef] [Google Scholar]
- Shi, H.L., Hu, C.H., Wang, Y.G., Hu, J. (2014). Analysis on variation trends of runoff and sediment of the Yellow River Basin reasons discussion. Journal of Yellow River, 36(4),1-5. (in Chinese) [Google Scholar]
- Wang Y., Wu B., Zhong D. (2016). Calculation method for sediment load in flood and non-flood seasons in the Inner Mongolia reach of the Yellow River. Journal of Geographical Sciences, 06: 707-721. [CrossRef] [Google Scholar]
- Zhang Y, Baptista A M. (2008). SELFE: A semiimplicit Eulerian-Lagrangian finite-element model for cross-scale ocean circulation. Ocean Modelling, 21(3-4): 71-96. [CrossRef] [Google Scholar]
- Zhong D., Wang Y., L X. (2016) Report on the evolution of river channel erosion and deposition in Ningxia-Inner Mongolia reach of the Yellow River. Beijing: Tsinghua University. (in Chinese) [Google Scholar]
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