Calculation method for sediment load in flood and non-flood seasons in the Inner Mongolia reach of the Yellow River

doi:10.1007/s11442-016-1294-z

地理学报(英文版) ›› 2016, Vol. 26 ›› Issue (6): 707-721.doi: 10.1007/s11442-016-1294-z

收稿日期:2016-01-01 接受日期:2016-01-30 出版日期:2016-06-15 发布日期:2016-06-15

Calculation method for sediment load in flood and non-flood seasons in the Inner Mongolia reach of the Yellow River

Yanjun WANG¹(), Baosheng WU^1,^*(), Deyu ZHONG¹, Yongqiang WANG²

1. State Key Laboratory of Hydroscience and Engineering, Tsinghua University, Beijing 100084, China
2. Yangtze River Scientific Research Institute, Wuhan 430010, China

Received:2016-01-01 Accepted:2016-01-30 Online:2016-06-15 Published:2016-06-15
Contact: Baosheng WU E-mail:yanjun1113@126.com
About author:
Author: Wang Yanjun, PhD Candidate, specialized in geomorphology and fluvial process. E-mail: yanjun1113@126.com
Supported by:
National Key Basic Research and Development Program of China, No.2011CB403304;National Science and Technology Supporting Plan of the Twelfth Five-year Plan, No.2012BAB02B02

摘要/Abstract

关键词: Inner Mongolia reach, Upper Yellow River, sediment load, erosion and sedimentation

Abstract:

Based on an empirical sediment transport equation that reflects the characteristics of “more input, more output” for sediment-laden flow in rivers, a general sediment transport expression was developed, which can take into account the effects of upstream sediment input, previous cumulative sediment deposition, critical runoff for sediment initiation, and the differences in sediment particle sizes between the mainstream and tributaries. Then, sediment load equations for non-flood and flood seasons for the sub-reaches from Bayangaole to Sanhuhekou and from Sanhuhekou to Toudaoguai, as well as the whole Inner Mongolia reach from Bayangaole to Toudaoguai, were formulated based on data collected between 1952 and 2010. The corresponding sediment deposition and the cumulative values at each river reach were calculated using the proposed sediment transport equations for the period 1952 to 2010 according to the principle of sediment conservation. Comparisons between the calculated and measured values using the proposed sediment load equations for the sub-reaches and the entire reach showed that the calculated sediment load and sediment deposition and the corresponding cumulative values in the flood and non-flood seasons were in good agreement with the measured values. These results indicated that the proposed methods can be applied to calculate the sediment load and the associated sediment deposition in the flood and non-flood seasons for long-term trend analysis of sediment deposition in the Inner Mongolia reach of the Yellow River.

Key words: Inner Mongolia reach, Upper Yellow River, sediment load, erosion and sedimentation

. [J]. 地理学报(英文版), 2016, 26(6): 707-721.

Yanjun WANG, Baosheng WU, Deyu ZHONG, Yongqiang WANG. Calculation method for sediment load in flood and non-flood seasons in the Inner Mongolia reach of the Yellow River[J]. Journal of Geographical Sciences, 2016, 26(6): 707-721.

图/表 9

参考文献 31

1	Ackers P, White W R, 1973. Sediment transport: New approach and analysis.Journal of the Hydraulics Division, 99(hy11): 2041-2060. doi: 10.1016/S0022-460X(75)80142-8
2	Bagnold R A, 1966. An approach to the sediment transport problem. General Physics Geological Survey, Prof. Paper.
3	Einstein H A, 1950. The bed-load function for sediment transportation in open channel flows. US Department of Agriculture.
4	Engelund F, Hansen E, 1967. A Monograph on Sediment Transport in Alluvial Streams. Copenhagen: Danish Technical (Teknisk Forlag).
5	Feng G H, Zhaolun B G, Gao R Z.et al., 2009. Research on ice flood control strategy for the Inner Mongolia reach of the Yellow River.Journal of China Hydrology, 29(1): 47-49. (in Chinese)
6	Han Q W, 2003. Reservoir Sedimentation. Beijing: Science Press. (in Chinese)
7	Hou S Z, Wang P, Chang W H.et al., 2007. Evaluation of the volume of scour and fill of the Inner Mongolia section of the Yellow River.Yellow River, 29(4): 21-22, 80. (in Chinese)
8	Lin X Z, Guo Y, Hou S Z, 2014. Estimation of sediment discharge of ten tributaries of the Yellow River in Inner Mongolia.Journal of Sediment Research, (2): 15-20. (in Chinese)
9	Liu X Y, Hou S Z, Chang W H, 2009. Causes of main channel shrinkage occurring in the Inner Mongolia reaches of the Yellow River.Journal of Hydraulic Engineering, 40(9): 1048-1054. (in Chinese)
10	Long Y Q, Zhang Y F, 2002. Study of the Yellow River sediment from the viewpoint of total sediment.Yellow River, 24(8): 28-29, 39. (in Chinese)
11	Luo Q S, Zhou L Y, Zhang H J.et al., 2011. Influence of incoming flow and sediment from tributaries on the scour and fill of the Ning-Mong reach of the Yellow River.Yellow River, 33(11): 29-31, 34. (in Chinese)
12	Qian N, Zhang R, Li J F.et al., 1981. A preliminary study on the mechanism of self-regulation of sediment transport capacity in the lower Yellow River.Acta Geographica Sinica, 36(2): 143-156. (in Chinese)
13	Qian N, Zhang R, Zhou Z D, 1987. Fluvial Processes. Beijing: Science Press. (in Chinese)
14	Qin Y, Zhang X F, Wang F L.et al., 2011. Scour and silting evolution and its influencing factors in the Inner Mongolian reach of the Yellow River.Journal of Geographical Sciences, 21(6): 1037-1046. doi: 10.1007/s11442-011-0898-6
15	Ran L S, Wang S J, Fan X L.et al., 2009. River channel change at Toudaoguai section and its response to water and sediment supply of the upper Yellow River.Acta Geographica Sinica, 64(5): 531-540. (in Chinese)
16	Shang H X, Zheng Y S, Zhang X H, 2008. Influence of reservoir operation on the silt discharge condition of the Ning-Meng section of the Yellow River.Yellow River, 30(12): 28-30, 121. (in Chinese)
17	Shen G Q, Zhang Y F, Hou S Z.et al., 2007. Impact of water and sediment regulation by reservoirs in the upper Yellow River on Inner-Mongolia reaches.Journal of Sediment Research, (1): 67-75. (in Chinese)
18	Song B H, Li C Y, Li C.et al., 2015. Sediment transport under ice-covered flow in the Inner Mongolia reach of the Yellow River.Journal of Sediment Research, (1): 36-41. (in Chinese)
19	Ta W Q, Wang H B, Jia X P, 2015. Suspended sediment transport response to upstream wash-load supply in the sand-bed reach of the Upper Yellow River, China.Journal of Hydrology, 528: 562-570. doi: 10.1016/j.jhydrol.2015.06.051
20	Wang P, Hou S Z, Zhang Y F.et al., 2013. Scouring and silting characteristics of hyper-concentrated floods of ten tributaries of the upper Yellow River.Journal of Sediment Research, (1): 67-73. (in Chinese)
21	Wang S J, Yan Y X, Li Y K, 2012. Spatial and temporal variations of suspended sediment deposition in the alluvial reach of the upper Yellow River from 1952 to 2007.Catena, 92: 30-37. doi: 10.1016/j.catena.2011.11.012
22	Wu B S, Liu K J, Shen H B.et al., 2015. Calculation methods for sediment load and the amount of sedimentation in the Inner Mongolia reach of the Yellow River.Advances in Water Science, 26(3): 311-321. (in Chinese)
23	Wu, B S, Van Maren D S, Li L Y, 2008. Predictability of sediment transport in the Yellow River using selected transport formulations.International Journal of Sediment Research, 23(4): 283-298. doi: 10.1016/S1001-6279(09)60001-9
24	Wu B S, Zhang Y F, 2007. Analysis of sediment transport in the lower Yellow River.Journal of Sediment Research, (1): 30-35. (in Chinese)
25	Wu B S, Zhang Y F, Shen G Q et al., 2010. Study of the Water and Sediment Condition for Maintaining the Stable Main Channel of the Yellow River. Zhengzhou: Yellow River Conservancy Press. (in Chinese)
26	Yang C T, 1979. Unit stream power equations for total load.Journal of Hydrology, 40(1): 123-138. doi: 10.1016/0022-1694(79)90092-1
27	Yang C T, Molinas A, Wu B S, 1996. Sediment transport in the Yellow River. Journal of Hydraulic Engineering,ASCE, 122(5): 237-244.
28	Yellow River Conservancy Commission. (YRCC). Hydrometric Data in the Yellow River Basin. Vols 1-2.1952-2010. Zhengzhou: Yellow River Conservancy Commission. (in Chinese)
29	Zhang R, 1959. A study of the sediment transport capacity of the middle and lower Yangtze River.Journal of Sediment Research, (2): 54-73. (in Chinese)
30	Zhang X H, Shang H X, Zheng Y S et al., 2008. River Bed Reforming at Upstream and Downstream Reaches of Large Scale Reservoirs after Their Construction. Zhengzhou: The Yellow River Water Conservancy Press. (in Chinese)
31	Zhao Y A, Zeng M L, Xiong G S.et al., 2008. Research on the Key Technology of Water and Sediment Regulation and the Operation Modes of the Long-Liu Reservoirs in the Yellow River. Zhengzhou: Yellow River Institute of Hydraulic Research. (in Chinese)

Year	Period	Annual sediment deposition (10⁸ t)
Year	Period	Bayangaole- Toudaoguai	Bayangaole- Sanhuhekou	Sanhuhekou- Toudaoguai
1952-1960	Non-flood season	0.079	0.052	0.028
1952-1960	Flood season	0.894	0.374	0.520
1961-1986	Non-flood season	0.014	0.020	-0.034
1961-1986	Flood season	0.048	-0.112	0.160
1987-2010	Non-flood season	0.130	0.100	0.030
1987-2010	Flood season	0.412	0.080	0.331
1952-2010	Non-flood season	0.059	0.057	0.002
1952-2010	Flood season	0.325	0.040	0.285

Calculation method for sediment load in flood and non-flood seasons in the Inner Mongolia reach of the Yellow River

RichHTML

PDF (PC)

赞

可视化

摘要/Abstract

引用本文

使用本文

图/表 9

参考文献 31

相关文章 0

Metrics

本文评价

推荐阅读 0