Computational fluid dynamic analysis for investigating the influence of pipe curvature on erosion rate prediction during crude oil production

Ejeh, Chukwugozie Jekwu; Boah, Evans Annan; Akhabue, Gbemisola Precious; Onyekperem, Chigozirim Cyprian; Anachuna, Josiah Ikechukwu; Agyebi, Isaac

doi:10.1007/s42757-019-0055-5

Cited by 21 publications

(5 citation statements)

References 24 publications

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“…Similar to particles, at steady state a bubble in a laminar flow only experiences drag force and lift force if local shear flow exists (Ejeh et al, 2020). The existence of the walls will result in wall forces on the bubble, but if the bubble is at the centerline of the domain, wall forces pointing from the two sides to the bubble are opposite thus will negate each other.…”

Section: Bubble Control Approachmentioning

confidence: 99%

Complex bubble deformation and break-up dynamics studies using interface capturing approach

Fan

Fang

Bolotnov

2020

Exp. Comput. Multiph. Flow

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The dynamics of bubble deformation has significant impacts on two-phase flow fundamentals such as bubble induced turbulence and flow regime transition. Despite the significant progress achieved by experimental studies on bubble deformation, certain limitations still exist especially for wide-range datasets. To significantly expand the flow conditions available from experiments, direct numerical simulation (DNS) is utilized to study the bubble-liquid interactions using finiteelement solver with level-set interface capturing method. Different from conventional investigations of bubble rising and deforming in stagnant liquids, a proportional-integral-derivative (PID) bubble controller is leveraged to maintain the bubble location in uniform liquid flow. This paper evaluates the reliability and reproducibility of the PID bubble controller for complex bubble deformation studies through a comprehensive set of verification and validation studies. An improved bubble deformation map is developed, based on Weber number and bubble Reynolds number, showing six zones for different deformation and break-up mechanisms. This research aims at producing virtual experiment level data source using interface resolved DNS and shedding light into the physics of interface dynamics. The insights obtained can be further incorporated in improved multiphase CFD models to guide the engineering designs and industrial processes where bubble deformation and break-up play a pivotal role.

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Section: Bubble Control Approachmentioning

confidence: 99%

Complex bubble deformation and break-up dynamics studies using interface capturing approach

Fan

Fang

Bolotnov

2020

Exp. Comput. Multiph. Flow

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“…The wall reflection of particles was set as a function of incident angle, where the ratio v 2 /v 1 ranges from 0.2 to 0.8 according to a previous study. Due to the angular characteristics of the inner wall jet impacting the wall surface, the Finnie wall erosion model was used to calculate the erosion rate [26,[32][33][34][35][36]. Abrasives were injected into the region with a cone shape, where the spread angle was 30 • and the initial velocity was 10 m/s.…”

Section: Cfd Simulationmentioning

confidence: 99%

Development of a Novel Water Jet Polisher Using Soft Abrasives for Small Complex-Structure Heat Pipes of Aluminum Alloy Produced Using Additive Manufacturing

Zhang,

Feng

et al. 2024

Materials

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It is a challenge to polish the interior surface of a small bent pipe with complex structures and sizes less than 0.5 mm. This is because of the fact that traditional polishing methods could destroy, block, or break the small complex structures. For a small bent pipe made of aluminum alloy produced using additive manufacturing, the defects, such as adhered powders and spatters, are easy to jam the pipe without polishing, possibly resulting in catastrophic failure for aerospace applications. To overcome this challenge, a novel water jet polisher was developed using soft polymethyl methacrylate (PMMA) abrasives. After polishing a specific area, the adhered powders on the interior surface were reduced from over 140 to 2, 3, and 6 by the soft abrasives with mesh sizes of 200, 400, and 600, respectively. The surface roughness Sa was decreased from 3.41 to 0.92 μm after polishing using PMMA abrasives with a mesh size of 200. In comparison, silica abrasives were also employed to polish the small bent pipes, leading to the bent part of pipes breaking. However, this kind of failure was absent when using soft abrasives. Computational fluid dynamics calculations elucidate that a peak erosion rate of silica abrasives for a bent pipe with a turn angle of 30° is 2.18 kg/(m2·s), which is 17 times that of soft abrasives. This is why the small bent pipe was broken using silica abrasives, whereas it remained intact when polished with soft abrasives. In addition, water jet polishing has a lower erosion rate, a relatively smooth erosion curve, and less erosion energy, leaving the bent parts intact. The developed soft abrasive water jet polisher and the findings of this study suggest new possibilities for cleaning the adhered powders and spatters and polishing the interior surface of small bent pipes with complex structures.

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“…In COMSOL, the user controlled structured meshing option generates hexahedral elements that adapts to the physics settings of the model. Compared to unstructured and hybrid meshing style, structured meshing is numerically more accurate, ease of use code, and requires relatively lower computational time [29,30]. Figures 3 and 4 show the discretized geometry and mesh sensitivity plot, respectively.…”

Section: Model Description and Discretizationmentioning

confidence: 99%

Thermo-elastic behaviour of carbon-fiber reinforced polymer and the effect of adding nanoparticles at elevated heat intensity

Ejeh

Barsoum

Chizindu

et al. 2020

Heliyon

Self Cite

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Thermal stress development in materials could lead to structural failure in engineering applications. Carbon-fiber reinforced polymer composite (CFRP) have gained wide acceptance in the manufacturing industry. However, its thermo-elastic behaviour at elevated temperatures still remains an open question. Heat transfer analysis coupled with material layer-wise arrangement technique of the CFRP was implemented to investigate the thermo-elastic behaviour of these composites. A finite element model (FEM) was built and studied using COMSOL Multiphysics software. The heat energy applied in the simulation was sourced from a heat beam model. The deposited beam power was varied from 10 to 200W, and focused at the centre of the laminate (y p ¼ 0.15 m). The laminates considered were made up of six layers with distinctly different stacking sequences. The thermal stresses and strains obtained from the finite element analysis were assessed to observe the material's behaviour when subjected to increasing thermal load. Results revealed that thermal stresses are intense along fiber-direction of the composite laminates. The CFRP material was found to give good thermo-elastic characteristics at lower deposited heat power, however, this was not the case for higher deposited heat power (e.g. 200 W). The anisotropic property of the laminate had a significant influence in managing the thermal stresses. The study was repeated for carbon fibers doped with nanoparticles of silicon carbide (CFSiC) and resin bonded glass fiber (RBGF). It was found that the results were distinctly different when compared with the CFRP laminate. CFSiC showed to exhibit an ehanced thermo-elastic behaviour, due to the high thermal stability of SiC nanoparticles in the composite.

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Computational fluid dynamic analysis for investigating the influence of pipe curvature on erosion rate prediction during crude oil production

Cited by 21 publications

References 24 publications

Complex bubble deformation and break-up dynamics studies using interface capturing approach

Complex bubble deformation and break-up dynamics studies using interface capturing approach

Development of a Novel Water Jet Polisher Using Soft Abrasives for Small Complex-Structure Heat Pipes of Aluminum Alloy Produced Using Additive Manufacturing

Thermo-elastic behaviour of carbon-fiber reinforced polymer and the effect of adding nanoparticles at elevated heat intensity

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