Results 231 to 240 of about 3,362 (262)
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Inelastic Response of Nuclear Piping Subjected to Rupture Forces

Journal of Pressure Vessel Technology, 1976
A numerical procedure which can be used to evaluate the inelastic dynamic response of piping systems subjected to blow-down forces is described. The following finite elements are used to represent the piping system: (1) bilinear beam element, (2) bilinear curved beam element, and (3) bilinear support element with an initial gap. The method is then used
J. C. Anderson, A. K. Singh
openaire   +1 more source

Studies of the Depressurization of Gas-Pressurized Pipes during Rupture

Journal of Mechanical Engineering Science, 1979
Measurements are presented of the initial rates of depressurization generated within ductile steel pipes in pneumatic rupture tests. The breach was initiated by failure of an axial, part-through, flat-bottomed defect machined in the outer surface of the pipe.
M. R. Baum, J. M. Butterfield
openaire   +1 more source

Pipe Rupture Analysis Considering Fluid-Structure Interaction

Volume 4: Fluid-Structure Interaction, 2011
Global warming is caused by the emission of greenhouse gases, like CO2. Nuclear energy is one of the main sources of low-carbon energy. In the events of serious accidents, a nuclear power plant may emit radioactivity that is harmful to human health. Nuclear power should be used after enough evidence of its safety is provided.
Yukari Hamamoto, Makoto Toyoda
openaire   +1 more source

Analytical Studies of Blowdown Thrust Force and Elastic-Plastic Behavior of Pipe at Pipe Rupture Accident

Journal of Pressure Vessel Technology, 1986
When high-temperature and high-pressure water is ejected from pipe, a blowdown thrust force will act on the pipe and it will cause pipe movement. The analytical methods of blowdown thrust force and pipe movement are presented in the paper. The equation of momentum conservation is used to calculate the blowdown thrust force, together with the results of
N. Miyazaki, S. Ueda
openaire   +1 more source

Estimation of flowrate through a ruptured natural gas pipe

International Journal of Heat and Fluid Flow, 1989
Abstract Two semiempirical methods for estimating the flowrate of air through a ruptured pipe are presented. From the flowrate of air, the corresponding flowrate of methane or natural gas can then be estimated. No flowmeter is required. Details of the methods are discussed, and numerical examples are included.
openaire   +1 more source

Fault Rupture of Pipeline with Cured-in-Place Pipe

Lifelines 2022, 2022
T. D. O’Rourke   +4 more
openaire   +1 more source

Propagation and intensity of blast wave from hydrogen pipe rupture due to internal detonation

Journal of Loss Prevention in the Process Industries, 2023
Yang Du, Yuanqi Liu
exaly  

Burns Due to Rupture of Car Radiator Piping System

The Iranian Journal of Burns and Wound Research
Letter
openaire   +1 more source

Pipe rupture by sudden fluid heating

Industrial & Engineering Chemistry Process Design and Development, 1984
openaire   +1 more source

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