Time History Analysis of Concrete Gravity Dam with Gallery and Dam without Gallery by Using STAAD.Pro

IOSR Journal of Mechanical and Civil Engineering Pub Date : 2017-05-01 DOI:10.9790/1684-1402083539

Urmila S. Sarde, A. Jaiswal

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引用次数: 1

Abstract

Concrete Gravity Dams are important lifeline structures and represent the fragrance of people’s standard of living. Dam structures that span navigable waterways are inherently at a risk for seismic vibrations and as such they must be designed to resist these vibrations. These are very complex structures and subjected to various types of forces both static and dynamic in nature. However, these earthquake vibrations are fundamentally dynamic in nature and a static analysis procedure may not be adequate in designing hydraulic structures like Dam. This paper presents the dynamic time history analysis of a concrete gravity dam by using STAAD-PRO. Here Finite Element Approach is used to analyze the dam. A concrete gravity dam model is prepared in STAAD-PRO to perform the time history analysis and a comparison is done between dam with gallery (i.e openings) and dam without gallery (i.e openings).Seismic analysis is performed for both dam with gallery (i.e openings) and dam without gallery (i.e openings). Various basic loads and load combinations are used in analysis of concrete gravity dam according to IS 6512:1984 Table 1 represents basic loads and load combinations used during the analysis.

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混凝土重力坝有廊坝与无廊坝的时程分析。箴

混凝土重力坝是重要的生命线结构，是人民生活水平的象征。跨越通航水道的大坝结构本身就存在地震振动的风险，因此它们必须设计成能够抵抗这些振动。这些都是非常复杂的结构，受到各种类型的静力和动力的影响。然而，这些地震振动本质上是动态的，静态分析程序可能不足以设计大坝等水工结构。本文采用STAAD-PRO软件对某混凝土重力坝进行动力时程分析。本文采用有限元法对大坝进行分析。在STAAD-PRO软件中建立混凝土重力坝模型进行时程分析，并对有廊道(即开口)坝与无廊道(即开口)坝进行对比。对有廊道(即开口)和无廊道(即开口)的大坝进行了地震分析。根据IS 6512:1984对混凝土重力坝进行分析时使用了各种基本荷载和荷载组合，表1为分析时使用的基本荷载和荷载组合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IOSR Journal of Mechanical and Civil Engineering

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