Dynamic response of a concrete dam impounding an ice-covered reservoir: Part I. Mathematical modelling. Bouaanani, N., Paultre, P., & Proulx, J. Canadian Journal of Civil Engineering, 31(6):956 - 964, 2004. Concrete gravity;Finite element code;Forced-vibration testing;Seismic analysis;
Dynamic response of a concrete dam impounding an ice-covered reservoir: Part I. Mathematical modelling [link]Paper  abstract   bibtex   
This paper examines the dynamic response of a concrete dam impounding an ice-covered reservoir and subjected to forced-vibration testing. The analytical research presented is a follow-up to an extensive dynamic testing program carried out on a 84-m high concrete gravity dam located in northeastern Quebec, Canada, under harsh winter conditions, including a 1.0- to 1.5-m-thick ice sheet covering the reservoir. One of the major challenges encountered when analyzing ice-dam-reservoir-foundation interaction is modelling the complex nature of the ice and the boundary conditions governing reservoir motion. The problem is further complicated because there are little or no appropriate experimental data and observational evidence relevant to ice-dam interaction processes. Some of these challenges are addressed herein using a two-dimensional analytical approach, which investigates the effects due to ice cover, water compressibility, and reservoir bottom absorption. A frequency-domain substructure method technique is used and a new boundary condition along the ice-cover-reservoir interface is proposed. The technique developed is implemented in a finite element code specialized in the seismic analysis of concrete dams. Numerical results are discussed in the companion paper in this issue. © 2004 NRC Canada.
@article{2005159033473 ,
language = {English},
copyright = {Compilation and indexing terms, Copyright 2023 Elsevier Inc.},
copyright = {Compendex},
title = {Dynamic response of a concrete dam impounding an ice-covered reservoir: Part I. Mathematical modelling},
journal = {Canadian Journal of Civil Engineering},
author = {Bouaanani, Najib and Paultre, Patrick and Proulx, Jean},
volume = {31},
number = {6},
year = {2004},
pages = {956 - 964},
issn = {03151468},
abstract = {This paper examines the dynamic response of a concrete dam impounding an ice-covered reservoir and subjected to forced-vibration testing. The analytical research presented is a follow-up to an extensive dynamic testing program carried out on a 84-m high concrete gravity dam located in northeastern Quebec, Canada, under harsh winter conditions, including a 1.0- to 1.5-m-thick ice sheet covering the reservoir. One of the major challenges encountered when analyzing ice-dam-reservoir-foundation interaction is modelling the complex nature of the ice and the boundary conditions governing reservoir motion. The problem is further complicated because there are little or no appropriate experimental data and observational evidence relevant to ice-dam interaction processes. Some of these challenges are addressed herein using a two-dimensional analytical approach, which investigates the effects due to ice cover, water compressibility, and reservoir bottom absorption. A frequency-domain substructure method technique is used and a new boundary condition along the ice-cover-reservoir interface is proposed. The technique developed is implemented in a finite element code specialized in the seismic analysis of concrete dams. Numerical results are discussed in the companion paper in this issue. © 2004 NRC Canada.},
key = {Concrete dams},
keywords = {Boundary conditions;Compressibility;Computer simulation;Dynamic response;Finite element method;Frequency domain analysis;Gravitation;Ice;Reservoirs (water);Seismic prospecting;},
note = {Concrete gravity;Finite element code;Forced-vibration testing;Seismic analysis;},
URL = {http://dx.doi.org/10.1139/L04-075},
}
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