Interaction Behaviors of Longitudinal and Transverse Seismic Waves with Underground Geoengineering Objects

IF 0.5 Q4 PHYSICS, APPLIED Latvian Journal of Physics and Technical Sciences Pub Date : 2023-02-01 DOI:10.2478/lpts-2023-0001
N. Remez, A. Dychko, T. Hrebeniuk, A. Kraychuk, S. Kraychuk, N. Ostapchuk
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Abstract

Abstract Main pipelines as long linear objects are vulnerable to dangerous natural and man-made influences. One of the technogenic sources is large-scale explosions, which cause a sharp fluctuations of soil and cause serious damage to underground pipelines. When calculating the strength of pipeline systems, it is assumed that the damage occurs mainly due to additional axial stretching. However, the destruction and damage of pipelines can occur during seismic impacts directed perpendicular to the longitudinal axis of the pipeline. To assess the impact of longitudinal and transverse waves on the underground pipeline during seismic action a software-calculation module is developed. It implements a model of dynamic strength analysis, which allows estimating the magnitude of longitudinal and trans-verse seismic loads on the underground pipeline to establish safe parameters of seismic loads and geometric dimensions of the protected object. The final system of equations of motion of N nodes of a discrete system for a single length of the pipeline is presented as a system of 4N equations of the first order. The efforts on the internal nodes are determined by the strain stresses at the displacement of the nodes of the adjacent rods. The efforts on the nodes of the pipe contour are the diffraction interaction of seismic waves in the soil with the pipe. The system of equations is supplemented by the corresponding initial and boundary conditions. The dependences of the inflow of longitudinal and transverse pressure of explosive seismic pressure on the pipeline are established. The dependences of stresses in the pipeline of the diameter, thickness and type of soil are researched.
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纵波和横波与地下地球工程目标的相互作用行为
摘要主管道作为长线性物体,容易受到危险的自然和人为影响。技术成因之一是大规模爆炸,它会引起土壤的剧烈波动,并对地下管道造成严重破坏。在计算管道系统的强度时,假设损伤主要是由于额外的轴向拉伸引起的。然而,管道的破坏和损坏可能发生在垂直于管道纵轴的地震冲击期间。为了评估地震作用期间纵波和横波对地下管道的影响,开发了一个软件计算模块。它实现了一个动态强度分析模型,可以估计地下管道上纵向和横向地震载荷的大小,以建立地震载荷的安全参数和保护对象的几何尺寸。对于单个长度的管道,离散系统的N个节点的最终运动方程组被表示为4N个一阶方程组。内部节点上的作用力由相邻杆的节点位移时的应变应力决定。管道轮廓节点上的作用力是土壤中地震波与管道的衍射相互作用。方程组由相应的初始条件和边界条件补充。建立了爆炸地震压力的纵向和横向压力对管道流入量的依赖关系。研究了管道中的应力与土壤的直径、厚度和类型的关系。
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来源期刊
CiteScore
1.50
自引率
16.70%
发文量
41
审稿时长
5 weeks
期刊介绍: Latvian Journal of Physics and Technical Sciences (Latvijas Fizikas un Tehnisko Zinātņu Žurnāls) publishes experimental and theoretical papers containing results not published previously and review articles. Its scope includes Energy and Power, Energy Engineering, Energy Policy and Economics, Physical Sciences, Physics and Applied Physics in Engineering, Astronomy and Spectroscopy.
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