Experimental Study on Restoring Navigable Water Level in Near-dam Section Downstream of Danjiangkou during Dry Season for the Water Diversion Project from the Yangtze River to the Hanjiang River
ZHU Yong-hui1(), GUO Xiao-hu1(), LI Ling-yun1, WANG Yan-jun1, ZHANG Dan2
1 Key Laboratory of Ministry of Water Resources on River and Lake Regulation and Flood Control in the Middle and Lower Reaches of the Yangtze River, Changjiang River Scientific Research Institute, Wuhan 430010, China 2 Construction Management Bureau (Preparation) for Nianpanshan Water Conservancy and Hydropower Junction Project in Hubei Province, Wuhan 430062, China
ZHU Yong-hui, GUO Xiao-hu, LI Ling-yun, WANG Yan-jun, ZHANG Dan. Experimental Study on Restoring Navigable Water Level in Near-dam Section Downstream of Danjiangkou during Dry Season for the Water Diversion Project from the Yangtze River to the Hanjiang River[J]. Journal of Changjiang River Scientific Research Institute, 2024, 41(10): 6-13.
Table 1 Changes in the amount of scouring and silting in the near-dam section of Danjiangkou Reservoir from 2005 to 2020
河段范围
时段
冲淤量/(万m3)
平均冲深/m
坝址— 步行桥
2005-03—2011-11
-15.3
-0.05
2011-11—2016-12
-5.2
-0.02
2016-12—2020-03
-16.0
-0.06
步行桥— 汉江大桥
2005-03—2011-11
-11.2
-0.05
2011-11—2016-12
10.5
0.05
2016-12—2020-03
-16.2
-0.07
整个河段
2005-03—2011-11
-26.5
-0.05
2011-11—2016-12
5.3
0.01
2016-12—2020-03
-32.2
-0.06
Fig.3 Changes in erosion and siltation of typical sections from 2005 to 2020
Fig.3 Changes in erosion and siltation of typical sections from 2005 to 2020
Fig.4 Layout of the fixed-bed model of the near-dam section downstream of Danjiangkou Reservoir for the Yangtze-to-Hanjiang River Water Diversion Project
Fig.4 Layout of the fixed-bed model of the near-dam section downstream of Danjiangkou Reservoir for the Yangtze-to-Hanjiang River Water Diversion Project
Table 3 Water flow conditions of the fixed-bed model test
组次
工况
干流河道流量/ (m3·s-1)
安乐河补水流量/ (m3·s-1)
尾门水位/m
1
方案前
490
0
86.47
2
490
0
85.90
3
减水-补 水方案后
278
212
86.47
4
278
212
85.90
Fig.5 Changes in water level in the test river section before and after the implementation of reducing water intake and increasing water replenishment by 212 m3/s
Fig.5 Changes in water level in the test river section before and after the implementation of reducing water intake and increasing water replenishment by 212 m3/s
Fig.6 Plan layout of comprehensive management scheme
Fig.6 Plan layout of comprehensive management scheme
Fig.7 Changes in water level before and after the implementation of management plan 1 in the test section after reducing water intake and increasing water replenishment by 212 m3/s
Fig.7 Changes in water level before and after the implementation of management plan 1 in the test section after reducing water intake and increasing water replenishment by 212 m3/s
Fig.8 Layout of two newly arranged bottom protection belts at the lower edge of Canglangzhou outlet
Fig.8 Layout of two newly arranged bottom protection belts at the lower edge of Canglangzhou outlet
Table 4 Test conditions for two bottom protection belts under different elevations
Table 4 Test conditions for two bottom protection belts under different elevations
组次
工况
干流河道流量/ (m3·s-1)
安乐河补水流 量/(m3·s-1)
尾门水 位/m
护底带高 程/m
1
调 水 后
278
212
85.90
85.0、85.2、 85.5、85.7
2
278
212
86.47
85.0、85.2、 85.5、85.7
Fig.9 Water level changes in the test section with different crest elevations of the two bottom protection belts
Fig.9 Water level changes in the test section with different crest elevations of the two bottom protection belts
Fig.10 Water level changes in the test section with different crest elevations of the two bottom protection belts at different positions
Fig.10 Water level changes in the test section with different crest elevations of the two bottom protection belts at different positions
Fig.11 Variation of flow velocity in typical section after the implementation of management plan Ⅱ(water reduction-replenishment 212 m3/s,and tailgate water level 85.9 m)
Fig.11 Variation of flow velocity in typical section after the implementation of management plan Ⅱ(water reduction-replenishment 212 m3/s,and tailgate water level 85.9 m)