An Iterative Hydraulic Design Methodology Based on Numerical Modeling for Piano Key Weirs

PurposeValidate the resistance of bolted connections in terms of stresses, resistant moment and contact pressure.Design/methodology/approachFinite element modeling of corroded bolted joint.FindingsThe three types of corroded assemblies are resistant to the applied loads.Originality/valueThe research is original, it studies the stress corrosion cracking of a bolted assembly's end plate by the finite element method.

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Simplified Hydraulic Design Methodology for a Subsea Inline Oil-Water Pipe Separator

10.4043/26138-ms ◽

2015 ◽

Author(s):

M. Stanko ◽

M. Golan

Keyword(s):

Design Methodology ◽

Water Pipe ◽

Hydraulic Design ◽

Oil Water

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Modeling of the fatigue crack growth in a railway axle under random loading

World Journal of Engineering ◽

10.1108/wje-02-2017-0023 ◽

2017 ◽

Vol 14 (6) ◽

pp. 503-508

Author(s):

Redouane Zellagui ◽

Ahmed Bellaouar ◽

Lachi Mohammed

Keyword(s):

Numerical Modeling ◽

Fatigue Crack ◽

Design Methodology ◽

Critical Value ◽

Variable Load ◽

Ansys Software ◽

Random Loading ◽

Content Type ◽

Railway Axle ◽

Final Failure

Purpose The present paper aims to present a numerical modeling of a train bogie following a railway accident in the Algerian railway which clearly showed the presence of cracks at the level of the bogie axles. Design/methodology/approach Our approach consists of making a numerical modeling in dynamic under variable load taking into account the reality of several parameters. Findings The aim is to present a predictive model allowing the identification of the probable causes that are the cause of this premature deterioration. We have determined the lifetime and the influence of frequency on railway axle. Also, the influence of overload on railway axle. The numerical model will be directed by Ansys software. Originality/value Our study allowed us to understand the mechanical behavior of a railway axle under several loadings, and to determine the critical value of the final failure to avoid damage.

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Numerical modeling of Glauert type exponentially decaying wall jet flows of nanofluids using Tiwari and Das’ nanofluid model

International Journal of Numerical Methods for Heat &amp Fluid Flow ◽

10.1108/hff-08-2018-0437 ◽

2019 ◽

Vol 29 (3) ◽

pp. 1010-1038 ◽

Cited By ~ 9

Author(s):

Amin Jafarimoghaddam ◽

Ioan Pop

Keyword(s):

Heat Transfer ◽

Numerical Modeling ◽

Differential Equations ◽

Design Methodology ◽

Analytic Solution ◽

Jet Flows ◽

Wall Jet ◽

Content Type ◽

Flow And Heat Transfer ◽

Wall Jet Flow

Purpose The purpose of this study is to present a simple analytic solution to wall jet flow of nanofluids. The concept of exponentially decaying wall jet flows proposed by Glauert (1956) is considered. Design/methodology/approach A proper similarity variables are used to transform the system of partial differential equations into a system of ordinary (similarity) differential equations. This system is then solved analytically. Findings Dual solutions are found and a stability analysis has been done. These solutions show that the first solution is physically realizable, whereas the second solution is not practicable. Originality/value The present results are original and new for the study of fluid flow and heat transfer over a static permeable wall, as they successfully extend the problem considered by Glauert (1956) to the case of nanofluids.

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Speeded simulation of seismicity accompanying mining and hydrofracture

Engineering Computations ◽

10.1108/ec-07-2017-0256 ◽

2018 ◽

Vol 35 (5) ◽

pp. 1932-1949

Author(s):

Liliana Rybarska-Rusinek ◽

Ewa Rejwer ◽

Alexander Linkov

Keyword(s):

Numerical Simulation ◽

Numerical Modeling ◽

Acoustic Emission ◽

Real Time ◽

Design Methodology ◽

High Efficiency ◽

Hierarchical Tree ◽

Content Type ◽

Large Group ◽

Improved Methods

Purpose At present numerical simulation of seismicity, used in mining and hydraulic fracturing practice, is quite time expensive what hampers its combined employing with observed seismicity in real time. The purpose of this paper is to suggest a mean for drastic speeding up numerical modeling seismic and aseismic events. Design/methodology/approach The authors propose the means to radically decrease the time expense for the bottleneck stage of simulation: calculations of stresses, induced by a large group of already activated flaws (sources of events), at locations of flaws of another large group, which may be activated by the stresses. This is achieved by building a hierarchical tree and properly accounting for the sizes of activated flaws, excluding check of their influence on flaws, which are beyond strictly defined near-regions of strong interaction. Findings Comparative simulations of seismicity by conventional and improved methods demonstrate high efficiency of the means developed. When applied to practical mining and hydrofracturing problems, it requires some two orders less time to obtain practically the same output results as those of conventional methods. Originality/value The proposed improvement provides a means for simulation of seismicity in real time of mining steps and hydrofracture propagation. It can be also used in other applications involving seismic and aseismic events and acoustic emission.

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