Дисертації з теми "LOCAL SCOURING"
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Tregnaghi, Matteo. "Local scouring at bed sills under steady and unsteady conditions." Doctoral thesis, Università degli studi di Padova, 2008. http://hdl.handle.net/11577/3425036.
Повний текст джерелаKouchakzadeh, Salah. "The local scouring phenomenon at bridge abutments terminating in the floodplain zone." Thesis, University of Ottawa (Canada), 1996. http://hdl.handle.net/10393/9915.
Повний текст джерелаLyons, Simone. "An investigation into the initiation of local scouring around rectangular """"long"""" contractions." Master's thesis, University of Cape Town, 2003. http://hdl.handle.net/11427/5029.
Повний текст джерелаRahman, Md Munsur. "STUDIES ON DEFORMATION PROCESS OF MEANDERING CHANNELS AND LOCAL SCOURING AROUND SPUR-DIKE-LIKE STRUCTURES." Kyoto University, 1999. http://hdl.handle.net/2433/181778.
Повний текст джерелаShih-Hsien, Peng, and 彭思顯. "The Local Scouring Phenomenon of Free Overfall Flow." Thesis, 1994. http://ndltd.ncl.edu.tw/handle/37939767681426637470.
Повний текст джерелаCHAUHAN, KAUSTUBH. "CFD STUDIES OF LOCAL SCOURING AROUND BRIDGE PIER." Thesis, 2019. http://dspace.dtu.ac.in:8080/jspui/handle/repository/16836.
Повний текст джерелаFan, Wen-Kang, and 范文綱. "A local Scouring Monitoring and Safety Warning System of Bridge." Thesis, 2009. http://ndltd.ncl.edu.tw/handle/e8exwg.
Повний текст джерела國立中央大學
土木工程研究所
97
Scour is always the primary threat to bridges in Taiwan area. Since bridges will experience floods which may cause damage from scour holes forming around bridge piers and abutments. As scour changes the geometry of the bridge pier embedded in the soil foundation, the effects due to other loads, such as live load, wind load, debris collision, etc., are amplified. In this condition, bridge may have settlement or tipping even collapse. Therefore it is demanded by the bridge authority agencies to have a monitor sensor to determine the real-time scour depth. Besides, with internet it is easily to handle the real-time information at bridge site to alarm the siren in time from control center through the predefined safety warning algorithm. A piezoelectric fluoropolymer film type real-time scouring monitoring sensor installed along the bridge pier is presented. The core idea of developing this scouring sensing system is based on the physical character that output voltage can be generated as the piezoelectric thin film is deformed by the flowing media. Therefore, a sensing device can be manufactured by mounting piezoelectric thin films along the rod with a fixed distance and insert it into a borehole beside the bridge pier. The piezoelectric film embedded in the soil of riverbed is undeformed and the output voltage is much smaller than the one disturbed by the water current. From the output signals of all the piezoelectric sensors with known locations along the depth of the pier foundation, one can trace the variation of the soil/water interface before, during and after a flood. Compared with other types of scouring sensors, this piezoelectric type scouring sensor is working without power, durable, sensitive, real-time and cost effective. In this paper, the basis theory and the performance that in laboratory of this novel piezoelectric film type scouring device are introduced. The installation of the system in field is also addressed. In this study, it also brings up three methods for readers to analyze the safety of bridge, which can be taken into consideration of blocking a bridge.
Chiu, Ming-Hung, and 邱銘鴻. "Experimental Study on Panel Effect to Sand Motion and Local Scouring." Thesis, 1998. http://ndltd.ncl.edu.tw/handle/51415229301365868283.
Повний текст джерела國立成功大學
水利及海洋工程學系
86
The aim of this experiment studies is undertaken to know the directions of sand motion and the positions of local scouring due to the effect of differentflow-training panels. It is known by experiments that the sand motion is caused by helix in a clockwise direction of the angle of attack is smallerthan -π/2, no matter how large the opening of the surface panel. The bottompanels have a critical height is about 0.5 times local water depth at designstage. In other words, the panel''s height is above or under the critical depthof bottom panels, while the sand-training is quite different. The middlepanels, not close to the surface and the bottom, only in the case the panel''s bottom is close to the river bed have the nearby phenomenon of depositing and scouring with the bottom panels. In the same angle of attack with flow, the bottom panels with the height greater than half local water depth at design stage have the same phenomenon of depositing and scouring with the surface panels. The open space under the surface panel allows the flow passing, then the local scour will take place at downstream, but the bottom panel has the local scour at upstream nearby.
Fang, Yu-Yun, and 方于芸. "Study on Scouring Rate of Local Scour by Sloping Drop Structure." Thesis, 2017. http://ndltd.ncl.edu.tw/handle/j84t6k.
Повний текст джерела國立中興大學
土木工程學系所
105
For river management and water acquirement, drop structures are commonly set up in the river course. Although the stream channels can be stabilized, the gravel will not move downwards and its deposition near the drop structures increases the slope of upstream channel, consequently leads to a steep slope and induces fast flow. As a result, the large impact forces destroy the downstream protection work of drop structures. This study aims at the scouring rate of local scour and relevant scouring behavior by sloping drop structure. From the analyzed results, it indicates that (1). The maximum stable scouring depth Yse is proportional to the drop number D, but it is inversely proportional to the dimensionless diameter of bed material G and the bed slope of upstream channel S. The distance from toe to the maximum stable scouring depth Lse and the maximum scour length Lei are proportional to both D and S, but they are inversely proportional to G. The maximum scouring volume per unit width of flow quantity is proportional to the dimensionless impact force F ̅d, but it is inversely proportional to the G and S; (2). The characteristic time te to reach the stability of scour increases with the increase of D and decrease of G, but it is almost indifference to S; (3). The maximum time-dependent scouring depth Yst , scouring distance Lst, scouring length Lit and scouring volume per unit width of flow quantity Ast is proportional to time in an exponential manner, but it is inversely proportional to the G and S; (4). The bed scour is caused by drop nape in a great scouring rate. The souring pit is almost completed in a quarter time of te and the scour will be developed completely when the characteristic time te is arrived.
Jan, Yuan-Haur, and 詹元豪. "Local Scouring to Single Pile and Pile Groups of Bridge Pier." Thesis, 1993. http://ndltd.ncl.edu.tw/handle/79241168101427856530.
Повний текст джерелаLin, Hung-Yu, and 林宏宇. "A Study on Energy Dissipators and Local Scouring in Downstream of Check Dam." Thesis, 2001. http://ndltd.ncl.edu.tw/handle/83600186757159976734.
Повний текст джерела國立中興大學
土木工程學系
89
According to the related research about the scouring effects of free over-fall will be used in this study. The situation will be discussed in steady flow by using different energy dissipators — apron, water cushion and secondary dam. Facilities, the protected effect and the comparative characteristics of scouring hole will be found (such as the max. depth, max. length, shape factor and volume) in downstream of the energy dissipators. The result would be determined by energy dissipating theory, which is the relations between the scale of dissipators and energy variation. In view of energy disspators, the water cushion had the result of protection better than apron, because of the current hits mutually at the water pond. And the height factorβ=0.13 is the best. The situation of the secondary dam is the moving bed, therefore analysis of the scouring characteristic to make use energy variety of system. In both the rigid and soft energy disspators, the energy loss of scouring increased with slop. The degree of scouring depth and volume could be lowered effectively in rigid energy disspators. In water cushion, the average decreased rate of the scouring length about is 40 percent, and the scouring volume quantity decreases rate reaches 40 percent at least. Although, scouring length can’t be decreased at apron disspators. The scour phenomenon be mollified to a downstream region for protective effects. Scouring is more serious between major and secondary dam if the distance is too short from both of them. Character factorα>1.56 is the suggested application. In this experiment condition, a simple formula is proposed for a relevant establishment. It is expected to be helpful in designs of energy disspators.
Wu, Tsung-Yuan, and 吳宗遠. "Flume Experiments of Flow Field and Local Scouring around Bridge Pier Hooked-Collar." Thesis, 2011. http://ndltd.ncl.edu.tw/handle/34406498368370582273.
Повний текст джерела中興大學
水土保持學系所
99
To prevent the local scouring, collar is adopted to protect piers. Therefore, this study designed a mobile experiment flume with different heights of hooked-collar to understand that how the position of hooked-collar effected the local scouring around piers. The velocity fields around piers were measured with ADV (Acoustic Doppler Velocimeter). Furthermore, we also measured the topography of scour holes by laser range finder. The hooked-collar can reduce scour depth and the range of scour hole. When the hooked-collar was on the best position, it can completely reduce scour depth in front of the pier. When the hooked-collar set on 1cm from the bed, it can reduce 32% maximum scour depth. Scour hole diameter also reduced 45%. And the sediment deposition is also close to the pier. In addition, the hooked-collar reduce about 76% down flow. The horseshoe vortex is guided to the downstream successfully far away from the bridge pier. The hooked-collar can accelerate the sediment deposition behind the piers.
Coscarella, Francesco, Franco Furgiuele, Roberto Gaudio, and Costantino Manes. "Interpretation of local scouring at bridge piers and abutments with the phenomenological theory of turbulence." Thesis, 2019. http://hdl.handle.net/10955/1745.
Повний текст джерелаThe phenomenological theory of turbulence is here applied to the scouring phenomenon at bridge piers and abutments. In the last ve decades many researches have been devoted to the development of predictive formulae able to quantify the maximum scour depth for both design and risk assessment needs of hydraulic structures. Owing to the complexity of the problem, most of the proposed formulae were developed on an empirical basis, which made them susceptible to scale issues and not fully consistent with the physics underpinning the scouring phenomenon. Recently, some studies of Gioia & Bombardelli (2005), Bombardelli & Gioia (2006), Manes & Brocchini (2015) and Ali & Dey (2018) have proposed a di erent approach, which exploits a theory to derive scaling relations between the equilibrium scour depth and non-dimensional parameters. Their work presented the phenomenological theory of turbulence and the paradigms of the sediment incipient motion theory assuming rough ow conditions, meaning that the momentum transport near the sediment-water interface was dominated by eddies belonging to the turbulent energy spectrum inertial range and scaling with the sediment diameter. In order to provide more general models and on the basis of the ndings of Bonetti et al. (2017), the present work relaxes this as sumption by exploring the scaling of the equilibrium scour depth in cases where momentum transport is a ected by eddies belonging to the dissipation and production range. This improvements were applied to the scouring phenomenon at bridge piers, to derive a predictive formula for the maximum scour depth, and to the scouring phenomenon at bridge abutments, to derive a scaling law that does not allow a directly assessment of the maximum scour depth, but provides new avenues for the development of general predictive formulae that are founded more on physical than empirical bases. In both cases, the proposed theory includes the relevant non-dimensional parameters controlling the scouring process and, contrary to commonly employed empirical formulae, it is free from scale issues.
Università degli Studi della Calabria
Chen, Chia-Yu, and 陳佳裕. "The Impact Force and Local Scouring of Over-fall Flow at Downstream Area of Check Dam." Thesis, 2007. http://ndltd.ncl.edu.tw/handle/21177913109840874102.
Повний текст джерела國立臺灣大學
生物環境系統工程學研究所
95
The height from top of check dam to bed of river, makes water impacting bed of river. And further, it endangers the safety of structure possibly. There have been many theses about local scouring. This research uses model of check dam with four kinds of height, and two kinds of mix grain, and several kinds of discharge of flow to confer impact force of over-fall flow and, depth of scour hole, and the location where water drops, and the reduce of energy by scouring. And compare with the formulas of former literature.
Song, Er-Ning, and 宋爾寧. "The effect on Behavior of free Over-Fall Flow and Local Scouring Downstream of Sabo Dam using Fixed Apron." Thesis, 1999. http://ndltd.ncl.edu.tw/handle/82476105493990436013.
Повний текст джерела國立中興大學
土木工程學系
87
ABSTRACT Most failures of hydraulic structures (such as Sabo dam) in Taiwan were due to the scouring of downstream protection works. According to the past research of other scholars and the experiments conducted here at the laboratory of the NCHU (National Chung-Hsing University), this study is to investigate the effect of local scouring by free over-fall flow on the fixed apron, which is constructed on downstream. Starting with the experiments without the fixed apron to see the behavior of free over-fall flow and the characteristics of scouring hole on downstream bed, then with the fixed apron to investigate how them protect the downstream bed. At last, change the flume-slope to see how it affects the scouring. According to the experimental results, the behavior of free over-fall flow is close to the situation of fixed bed, the maximum scouring depth and the scouring volume of the scouring hole decrease; the scouring also farther from the Sabo dam. Those show that the fixed apron could decreases the scouring energy and the force of free over-flow effectively to protect the element of Sabo dam. When the flume-slope is steeper, the scouring energy and the force of free over-flow are larger, and it easier to transmit the sand downstream, and the scouring become even worse.
Lin, Hsiung,Li, and 熊立林. "Study on the Effect of the Opening of Silt-Releasing Type Sabo Dam on the Scouring of the Local Channel Bed." Thesis, 1994. http://ndltd.ncl.edu.tw/handle/37383272272957671914.
Повний текст джерела