Deduction of ultimate equilibrium limit states for concrete gravity dams keyed into rock mass foundations based on large displacement analysis

Pereira, Renato; Batista, A. L.; Neves, Luis C. Canhoto; Lemos, José V.

doi:10.1016/j.istruc.2022.02.049

Cited by 7 publications

(3 citation statements)

References 9 publications

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“…При этом критерий К1 соответствует переходу от сжатия контактного шва к растяжению (К1 ≥ 0), а критерий К2 не назначается. Таким образом, на основе анализа данных комплекса натурных наблюдений осуществляется контроль устойчивости бетонной плотины, так как устойчивость обеспечивается при воздействии вертикальных сжимающих напряжений на контакте подошвы плотины с основанием, то есть имеют место вертикальные деформации сжатия (в особенности в верховой части плотины), что также обосновано значительным объемом исследований состояния контакта бетонных плотин со скальными основаниями [7][8][9][10][11][12][13][14][15][16][17].…”

Section: методыunclassified

Analysis of the field studies of the foundation deformations and total draft of the Boguchansk HPP concrete dam

Yuriev

2022

Struct. Mech. of Eng. Const. and Build

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The results of data analysis from complex field studies of vertical deformations of the rock base near-contact layer and full settling Boguchanskaya HPP concrete dam sections in order to determine the state of contact of the foot of the concrete dam with the rock base are presented. The purpose of the study is to control the state of the contact of the concrete dam foot with the foundation based on the analysis of a set of field studies of the vertical deformations of the near-contact zone of the foundation of the concrete dam sections and the total draft of the sections of the concrete dam to justify the stability of the concrete dam sections. In order to control the vertical deformations of the near-contact zone of the rock foundation, string control and measuring equipment (displacement sensors PLPS-10) was installed. The total draft of the concrete dam sections is measured by means of ceiling marks installed in the grout gallery. Analysis of the field data on total drafts of concrete dam sections and vertical deformations of the near-contact section of the rock foundation showed that the contact joint between the foot of the concrete dam sections and the foundation is in vertical compression. The results of the analysis of the available data of complex studies of vertical deformations of the near-contact layer of the rock foundation and the total draft of the concrete dam sections made it possible to substantiate the stability of the concrete dam sections.

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Section: методыunclassified

Analysis of the field studies of the foundation deformations and total draft of the Boguchansk HPP concrete dam

Yuriev

2022

Struct. Mech. of Eng. Const. and Build

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“…For identification of the limit state equilibrium, the foundation conditions have to be modelled as realistically as possible. In the paper [12], the rigid-body equilibrium of a wedge representing the dam and a downstream rock wedge was analyzed according to the large displacement regime. Failure mechanisms were identified, analytically described and numerically validated.…”

Section: Introductionmentioning

confidence: 99%

Formulation of parameter limit values for the operation of a large concrete gravity dam

Todorov¹,

Petkova

Kisliakov

2023

IOP Conf. Ser.: Mater. Sci. Eng.

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This study presents a coupled thermal-structural finite element analysis of a large concrete gravity dam in Bulgaria for exploring the dam response under different actual load combinations. The loads applied to the structure are caused by varying water level in the reservoir and ambient temperature typical for the respective seasons. The developed computational model was calibrated with real plumb measurements. Based on the performed analyses in the ANSYS environment, key limit values for the horizontal displacements measured by the plumbs in the dam as possibly caused by extreme combinations of ambient temperature and water level are formulated for further improvement of the dam operation.

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“…In [33,34], the steady-state seepage in soils under the dam is solved by a numerical method. The papers [35][36][37] use various reliability assessment models for gravity concrete dams for the body of a deterministic or probabilistic method and the basis of a probabilistic approach during the periods of design, construction, and operation. The foundation of Zagorskaya GAES-2, under the compensatory injection of a special solution, provided a numerical solution to the problem of the stress-strain state of the base by the method of finite elements [38,39].…”

Section: Introductionmentioning

confidence: 99%

Shear and filtration strength of foundation of channel type hydropower plant building

Bakiev

Babajanova

Babajanov³

et al. 2023

E3S Web of Conf.

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The purpose of the study was to analyze the foundation's filtration strength and the HPP building's shear stability after 38 years of operation as part of the Tuyamuyun hydroelectric complex on the Amudarya River. The analysis was carried out based on field data obtained with the help of 16 piezometers installed in two alignments within the block of the HPP building and vertical drainages in the grassland. The constructed graphs of water pressure fluctuations in piezometers coincide with the nature of the change in the water level in the upper and lower pools. The actual gradients did not exceed the allowable gradient for the shaly sand interlayer and limestone bedding fracture filler. Comparison of the maximum natural gradients and those calculated from model studies using electrohydrodynamic analogies. The stability of the HPP building block is estimated by the maximum piezometric pressure and compared with analytical calculations, and the safety factor is 2.303. In this way, the base's filtration strength and the structure's shear stability are ensured in the entire range of changes in the operating mode of the pressure front of the HPP building block.

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Deduction of ultimate equilibrium limit states for concrete gravity dams keyed into rock mass foundations based on large displacement analysis

Cited by 7 publications

References 9 publications

Analysis of the field studies of the foundation deformations and total draft of the Boguchansk HPP concrete dam

Analysis of the field studies of the foundation deformations and total draft of the Boguchansk HPP concrete dam

Formulation of parameter limit values for the operation of a large concrete gravity dam

Shear and filtration strength of foundation of channel type hydropower plant building

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