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Study of a Hydraulic Jump in an Asymmetric Trapezoidal Channel with Different Sluice Gates
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作者 Bouthaina Debabeche Sonia Cherhabil 《Fluid Dynamics & Materials Processing》 EI 2024年第7期1499-1516,共18页
In this study,the main properties of the hydraulic jump in an asymmetric trapezoidal flume are analyzed experimentally,including the so-called sequent depths,characteristic lengths,and efficiency.In particular,an asym... In this study,the main properties of the hydraulic jump in an asymmetric trapezoidal flume are analyzed experimentally,including the so-called sequent depths,characteristic lengths,and efficiency.In particular,an asymmetric trapezoidal flume with a length of 7 m and a width of 0.304 m is considered,with the bottom of the flume transversely inclined at an angle of m=0.296 and vertical lateral sides.The corresponding inflow Froude number is allowed to range in the interval(1.40<F1<6.11).The properties of this jump are compared to those of hydraulic jumps in channels with other types of cross-sections.A relationship for calculating hydraulic jump efficiency is proposed for the considered flume.For F1>5,the hydraulic jump is found to be more effective than that occurring in triangular and symmetric trapezoidal channels.Also,when■mes>8 and■>5,the hydraulic jump in the asymmetrical trapezoidal channel downstream of a parallelogram sluice gate is completely formed as opposed to the situation where a triangular sluice is considered. 展开更多
关键词 Asymmetric trapezoidal channel characteristic lengths EFFICIENCY Froude hydraulic jump sequent depths sluice gate
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A Siltation Simulation and Desiltation Measurement Study Downstream of the Suzhou Creek Sluice, China 被引量:3
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作者 季永兴 杨绯 +1 位作者 张汉云 卢永金 《China Ocean Engineering》 SCIE EI CSCD 2013年第6期781-793,共13页
The Suzhou Creek Sluice is currently the largest underwater plain gate in the world, with a single span of 100 m. It is located in a tidal estuary at the junction of the Huangpu River and Suzhou Creek in Shanghai, Chi... The Suzhou Creek Sluice is currently the largest underwater plain gate in the world, with a single span of 100 m. It is located in a tidal estuary at the junction of the Huangpu River and Suzhou Creek in Shanghai, China. In this study, physical and 2D vertical mathematical models were used to investigate and distinguish the mechanism of siltation downstream of an underwater plain gate from that of other gates types. According to quantitative data obtained by site investigation and the application of the physical hydrodynamic models, it was found that the characteristics of the tidal estuary as well as the fact that the sluice span is equal to the creek width are the major reasons contributing to siltation. A possible desiltation treatment system is proposed for the underwater plain gate. The system includes selection of a suitable location that allows the determination of a reasonable top elevation of the sluice floor, reserving sufficient space under the gate to accommodate siltation, setting up a mechanical desiltation system, and flushing silt along with overflow over the top of the gate. Furthermore, on-site hydraulic silt flushing experiments and a topography survey were conducted. These results showed that the measurement system is effective, and by maintaining this scheduled operation once a month, the downstream riverbed has been maintained in a good condition. 展开更多
关键词 tidal estuary underwater plain gate SILTATION sluice Suzhou Creek
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Silting in the Lower Courses of Tidal Sluices in China 被引量:2
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作者 张金善 黄建维 杨红 《海洋工程:英文版》 SCIE EI 2004年第1期137-148,共12页
Serious sediment deposition often occurs after the construction of tidal sluices in small or medium-sized tidal muddy estuaries, so desilting or dredging is needed to meet the demands of flood discharge, saltwater ret... Serious sediment deposition often occurs after the construction of tidal sluices in small or medium-sized tidal muddy estuaries, so desilting or dredging is needed to meet the demands of flood discharge, saltwater retaining, and navigation in those areas. In this paper, the problem of sediment deposition induced by construction of tidal sluices is analyzed. Different problems of silting near tidal sluices for different types of estuaries are summed up, at the same time, corresponding methods are given to solve these problems, and a few successful examples are also given. The idea of comprehensive regulation and utilization of estuaries is put forward, and some proposals for solution of sediment deposition in this kind of estuaries are made. 展开更多
关键词 sediment deposition lower courses of tidal sluices CUT-OFF comprehensive utilization river channel RUNOFF
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Gate Lip Hydraulics under Sluice Gate 被引量:1
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作者 Ahmed Y. Mohammed Moayed S. Khaleel 《Modern Instrumentation》 2013年第1期16-19,共4页
This paper present the effect of the lower gate lip on the coefficient of contraction, velocity and discharge which have been made in a rectangular flume with four gates opening from (2 to 4.5) cm, five different disc... This paper present the effect of the lower gate lip on the coefficient of contraction, velocity and discharge which have been made in a rectangular flume with four gates opening from (2 to 4.5) cm, five different discharges from (6.2 to 18.15) l/s and five different gate cases (vertical and inclined vertically) by angle (45)° with and opposite flow direction with horizontal and sharp lower lip. The values of coefficients of contraction (Cc) and discharge (Cd) increases when gate slope increases with flow direction and the lower lip is horizontal, these increases are (16)% and (18)% respecttively, while these values decreases when gate slope increases opposite flow direction and the lower lip is horizontal these decreases are (13)% and (11)% respectively. The values of coefficient of velocity (Cv) remain constant and don’t effect with changes of gate slope or gate lip. 展开更多
关键词 sluice GATE COEFFICIENT of CONTRACTION COEFFICIENT of Velocity COEFFICIENT of DISCHARGE
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Land subsidence analysis of Fuyang sluice in Ying river
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《Global Geology》 1998年第1期13-13,共1页
关键词 Land subsidence analysis of Fuyang sluice in Ying river
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Numerical simulation of turbulent flow behind sluice gate under submerged discharge conditions 被引量:1
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作者 刘士和 廖庭庭 罗秋实 《Journal of Hydrodynamics》 SCIE EI CSCD 2015年第2期257-263,共7页
The turbulent flow discharging under a sluice gate is one kind of typical flows with complicated boundaries in hydraulic and hydroelectric engineering, and the characteristics of its flow field and flow evolution are ... The turbulent flow discharging under a sluice gate is one kind of typical flows with complicated boundaries in hydraulic and hydroelectric engineering, and the characteristics of its flow field and flow evolution are important in engineering hydraulics. Although there were many studies in this regard, which mainly focus on the discharge capacity, the local scour and the mean flow field, some issues remain to be further investigated, for example, the variation of the mechanical energy during the scouring process, and the adjustment of the unsteady turbulent flow after the local scour with the downstream steady uniform flow. In this paper, the turbulent flow behind a sluice gate is divided into a rapidly varied flow region and a gradually varied flow region, and the above problems are investigated by theoretical analysis and numerical simulation. The main conclusions are as follows:(1) In the discharging process of the turbulent flow under a sluice gate, the river bed would be scoured continuously and the water–air interface is adjusted accordingly, which leads to a decrease of the mechanical energy of the total flow in the rapidly varied flow region, and the mechanical energy loss would also decrease with the increase of the time, yet the variation of the flow discharge under the sluice gate is very small.(2) In the link between the rapidly varied flow and the uniform flow downstream, the mean wall shear stress and the coefficient for the mechanical energy loss would decrease in the longitudinal direction, the decay of the turbulent kinetic energy near the free surface is much more significant than that near the bed in the longitudinal direction, and the mean turbulent kinetic energy in the section would decrease in the longitudinal direction and the decreasing rate is smaller than that of the mean wall shear stress. 展开更多
关键词 sluice gate turbulent flow scouring process mechanical energy loss
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Island Redemptions of the LBC in Chinese
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作者 李天娇 孟凡茂 《海外英语》 2013年第7X期278-284,共7页
With the help of the island repair effect on the Left Branch Condition (LBC),the derivation of Chinese sluicing can be illuminated.However,it fails to explain three unique properties of Chinese island repair related t... With the help of the island repair effect on the Left Branch Condition (LBC),the derivation of Chinese sluicing can be illuminated.However,it fails to explain three unique properties of Chinese island repair related to the LBC involving (i) co vert antecedents,(ii) contrastive modifiers,and (iii) multiple islands including LBC structures.To capture the facts,a pseudosluic ing analysis is proposed which claims that sluiced clauses in Chinese are simply composed of a subject pro,an (optional) copula shi 'be',and a wh-in-situ wh-remnant serving as a predicate.The pro cannot be interpreted as a concealed cleft structure but in stead functions as an implicit subject. 展开更多
关键词 ISLAND REDEMPTION LEFT branch CONDITION sluice PSE
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THE SYSTEM OF MODEL CONTROL AND DATA ACQUISITION IN THE HUAIHE RIVER FLOOD CONTROL MODEL 被引量:1
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作者 Chen Xian-pu Lu Lie-min +2 位作者 Wu Feng Liang Bin(Anhui & Huaihe Rirver Water Resources Research Institute, Bengbu 233000, P. R. China)Yan Cheng-yao Cai Hua(Bengbu Industrial Automation Institute, Bengbu, 233010, P. R. China) 《Journal of Hydrodynamics》 SCIE EI CSCD 1995年第4期47-53,共7页
The area of the Huaihe river flood control model is 4000m2. A computer system is employed to control models and collect experimental data.It can control 7 inflows which simulating 9 typical years flood process, a tail... The area of the Huaihe river flood control model is 4000m2. A computer system is employed to control models and collect experimental data.It can control 7 inflows which simulating 9 typical years flood process, a tail water level, 6 sluices, 11 outlets of breaking dike, and collect the water level of 37 points and velocity of 32 points.After running long time,the system has ben proved that it possesses steady character and exact accuracy.It is essential precondition for the experimental study of the Huaibe river find control model. 展开更多
关键词 flood control model inflow control sluice control tail water control water level acquisition velocity acquisition computer control and data acquisition system
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