黄河下游漫滩高含沙洪水滩槽界定及泥沙时空沉积特性

doi:10.14042/j.cnki.32.1309.2017.05.001

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摘要黄河下游漫滩高含沙洪水河床调整剧烈，多数断面洪水后形成"相对窄深河槽"，洪水前后河槽宽度发生明显变化。分别以观测断面洪水前后的河槽宽度为基准，计算漫滩高含沙洪水期泥沙时空沉积分布，结果表明，漫滩高含沙洪水与非漫滩高含沙洪水相比，能将主河槽内淤积泥沙量的59.3%搬运至嫩滩或滩地，减缓主河槽淤积。在分析研究基础上，建立了洪水后漫滩河段河槽相对缩窄率与洪水前期河槽宽度的量化关系，洪水后主槽宽度缩窄率为15.5%~44.0%；分析遴选了漫滩高含沙洪水滩地淤积量与主要水力因子间关联度及物理含义，给出了漫滩高含沙洪水滩地淤积量与相应水力因子间的响应函数；初步提出漫滩洪水河道塑槽淤滩的临界水沙配置指标，临界水沙系数取值为0.025~0.040。成果对高含沙洪水调控具有一定的指导意义。

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	申冠卿
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关键词 ：漫滩, 高含沙洪水, 滩槽界定, 塑槽淤滩, 临界水沙配置, 黄河下游

Abstract：A relatively narrow and deep channel can be formed, therefor visible change in channel width can be observed, at most of cross sections due to intensive channel adjustment during a hyperconcentrated flood in the lower Yellow River. The spatial and temporal distribution of sediment deposition was calculated for overbank hyperconcentrated floods by comparison of channel width after an overbank flood with that of non-overbank flood. Results shown that 59% of sediment that would be deposited in the main channel during non-overbank floods was removed by overbank hyperconcentrated floodsto the lower floodplain or floodplain. This indicated that overbank hyperconcentrated floods can reduce sediment deposition in the main channel comparing to non-overbank ones. Based on analysis of measured data, the relationship of channel contraction ratio, ranging from 15.5% to 44.0%, at overflow sections after floods to the channel width before floods was established. Correlation between sediment volume deposited on floodplain and the main hydraulic factors during overbank flooding period, as well as their physical meanings, was analyzed. Responding function of sediment volume deposited on floodplain to hydraulic factors was determined. A threshold index of flow and sediment load for floodplain deposition and main channel reforming during overbank hyperconcentrated floods was proposed, which was between 0.025 and 0.040. This research is significant to regulation of hyperconcentrated floods in the lower Yellow River.

Key words： overbank flow hyperconcentrated flood definition of channel and floodplain channel shaping and floodplain silting threshold flow and sediment load the lower Yellow River

收稿日期: 2017-03-15

中图分类号:	TV122
	TV147

基金资助:国家自然科学基金资助项目（51379087；51509101）

作者简介: 申冠卿(1964-),男,河南伊川人,教授级高级工程师,主要从事河床演变方面研究。E-mail:609170604@qq.com

引用本文:

申冠卿, 张原锋, 张敏. 黄河下游漫滩高含沙洪水滩槽界定及泥沙时空沉积特性[J]. 水科学进展, 2017, 28(5): 641-651. SHEN Guanqing, ZHANG Yuanfeng, ZHANG Min. Definition of channel and floodplain and spatio-temporal sedimentation characteristics for overbank hyperconcentrated flood in the lower Yellow River. Advances in Water Science, 2017, 28(5): 641-651.

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[1]	张原锋, 王平, 侯素珍, 等. 黄河上游干支流交汇区沙坝淤堵形成条件[J]. 水科学进展, 2013, 24(3):333-339. (ZHANG Y F, WANG P, HOU S Z, et al. On conditions of sandbar clogging at confluences in the upper Yellow River[J]. Advances in Water Science, 2013, 24(3):333-339. (in Chinese))
[2]	WANG Z Y, QI P, MELCHING C S. Fluvial hydraulics of hyperconcentrated floods in Chinese rivers[J]. Earth Surface Processes Landforms, 2009, 34:981-993.
[3]	van MAREN D S, WINTERWERP J C, WU B S, et al. Modelling hyperconcentrated flow in theYellow River[J]. Earth Surface Processes Landforms, 2009, 34:596-612.
[4]	MA H B, NITTROUER J A, NAITO K, et al. The exceptional sediment load of fine-grained dispersalsystems:example of the Yellow River, China[J]. Science Advances, 2017, 3:1-7.
[5]	申冠卿, 张晓华, 李勇, 等. 黄河下游高含沙量洪水不同粒径泥沙的淤积调整[J]. 泥沙研究, 1997(1):9-15. (SHEN G Q, ZHANG X H, LI Y, et al. Adjustment for sediment of different particle sizes in deposition of hyperconcentrated floods along the lower Yellow River[J]. Journal of Sediment Research, 1997(1):9-15. (in Chinese))
[6]	刘晓燕, 申冠卿, 张原锋, 等. 黄河下游高含沙洪水冲淤特性及其调控对策初探[J]. 北京师范大学学报(自然科学版), 2009, 45(5/6):490-494. (LIU X Y, SHEN G Q, ZHANG Y F, et al. Features and regulation of high-sediment floods in the lower Yellow River[J]. Journal of Beijing Normal University(Natural science), 2009, 45(5/6):490-494. (in Chinese))
[7]	钱胜, 陈松伟, 马翠丽, 等. 黄河下游漫滩高含沙洪水淤滩刷槽效果研究[J]. 人民黄河, 2013, 35(8):13-18. (QIAN S, CHEN S W, MA C L, et al. Research on silting beach and eroding channel effect of the overbank hyperconcentrated flood of the lower Yellow River[J]. Yellow River, 2013, 35(8):13-18. (in Chinese))
[8]	齐璞. 黄河高含沙量洪水的输移特性及其河床形成[J]. 水利学报, 1982(8):34-43. (QI P. Sediment transport characteristics of hyperconcentrated flood of the Yellow River and its bed formation[J]. Journal of Hydraulic Engineering, 1982(8):34-43. (in Chinese))
[9]	齐璞. 黄河下游河道输沙泄洪机理、能力及治理前景[J]. 水利学报, 2007, 38(增刊1):264-282. (QI P. Mechanism, capacity of sediment transport and flood discharge in the lower Yellow River and training vision[J]. Journal of Hydraulic Engineering, 2007, 38(suppl 1):264-282. (in Chinese))
[10]	齐璞, 余欣, 孙赞盈, 等. 黄河高含沙水流的高效输沙特性形成机理[J]. 泥沙研究, 2008(4):74-81. (QI P, YU X, SUN Z Y, et al. Efficient sediment transport theory of the hyperconcentrated flow in the lower Yellow River[J]. Journal of Sediment Research, 2008(4):74-81. (in Chinese))
[11]	申冠卿, 姜乃迁, 张原锋, 等. 黄河下游断面法与沙量法冲淤计算成果比较及输沙率资料修正[J]. 泥沙研究, 2006(1):32-37. (SHEN G Q, JIANG N Q, ZHANG Y F, et al. Comparison of the calculated sedimentation amount by different methods in the lower Yellow River[J]. Journal of Sediment Research, 2006(1):32-37. (in Chinese))
[12]	张敏, 黄河清, 张晓华. 黄河下游漫滩洪水冲淤规律[J]. 水科学进展, 2016, 27(2):165-175. (ZHANG M, HUANG H Q, ZHANG X H. A study of the characteristics of sedimentation in the lower Yellow River during overbank floods[J]. Advances in Water Science, 2016, 27(2):165-175. (in Chinese))
[13]	张原锋, 刘晓燕, 张晓华. 黄河下游中常洪水调控指标[J]. 泥沙研究, 2006(12):1-5. (ZHANG Y F, LIU X Y, ZHANG X H. Regulation indexes of the medium flood in the lower Yellow River[J]. Journal of Sediment Research, 2006(12):1-5. (in Chinese))