Experimental analysis of horizontal liquid-gas slug flow pressure drop in d-type corrugated pipes

Naidek, Bruna Patricia; Kashiwakura, Lucas Y.; Alves, Rafael Fabricio; Bassani, Carlos L.; Stel, Henrique; Morales, Rigoberto E. M.

doi:10.1016/j.expthermflusci.2016.10.016

Cited by 13 publications

(3 citation statements)

References 20 publications

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“…Naidek ve ark. Çalışmalarında Oluklu yatay borularda; sıvı-gaz akışlarındaki basınç düşüşünü engellemeye yönelik bir oluk geometrisi elde etmişler ve akış giriş verilerini kullanarak bir korelasyon oluşturmuşlar; Modellerindeki tahminlerinin, deneysel verilerle karşılaştırmaları sonucu korelasyonlarının ±%7 doğruluk gösterdiği sonucuna varmışlardır [12]. Yanga ve ark.…”

Section: Gi̇ri̇ş (Introduction)unclassified

Malzeme Cinsi Farklı Boruların Zamana Bağlı Basınç Düşümlerinin Deneysel Ölçülmesi, Sayısal Analizi Ve Anova Analizi Kullanılarak Sınıflandırılması

Demirpolat

Alic

2020

Gazi Üniversitesi Fen Bilimleri Dergisi Part C: Tasarım Ve Teknoloji

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Section: Gi̇ri̇ş (Introduction)unclassified

Malzeme Cinsi Farklı Boruların Zamana Bağlı Basınç Düşümlerinin Deneysel Ölçülmesi, Sayısal Analizi Ve Anova Analizi Kullanılarak Sınıflandırılması

Demirpolat

Alic

2020

Gazi Üniversitesi Fen Bilimleri Dergisi Part C: Tasarım Ve Teknoloji

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“…In addition, the pressure and diameter of buried pipelines also increase. In China, the heating pipe network pressures of some municipal main lines reach 2.5 MPa, an operating temperature of 150 °C, and a pipe diameter of DN1400 mm . Several failure forms appear because of the flow–heat–solid coupling phenomenon in network systems such as infinite plastic flow, cyclic plastic deformation, fatigue failure, and overall instability.…”

Section: Introductionmentioning

confidence: 99%

“…In China, the heating pipe network pressures of some municipal main lines reach 2.5 MPa, an operating temperature of 150 • C, and a pipe diameter of DN1400 mm. [6][7][8] Several failure forms appear because of the flow-heat-solid coupling phenomenon in network systems such as infinite plastic flow, cyclic plastic deformation, fatigue failure, and overall instability. Pipeline steering parts (elbow, tee, and taper pipe) bear larger pressures in three-dimensional turbulent fluid flow at high temperature and pressure, and also increase the overall structure deformation.…”

Section: Introductionmentioning

confidence: 99%

Effects of different loads on structure deformation of “L”‐type large‐diameter buried pipe network based on flow–heat–solid coupling

Feng

2017

Heat Trans. Asian Res.

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Large‐diameter buried pipelines are widely used because of their energy‐saving advantages and high efficiency. In this paper, an “L”‐type heat pipe network was taken as the research object and was studied using the flow–heat–solid coupling method. The ANSYS Workbench platform was used to simulate heat transfer and the flow of the medium in the pipe network. The pressure and temperature of the flow field and the temperature and deformation of the solid structure under different conditions were calculated. Additionally, the deformation characteristics of the pipe network under coupled and noncoupled loads were compared. Results show that the maximum deformation was located at the corner of the elbow near the long‐arm region. The deformation of the inner wall was larger than that of the outer wall at the same position. The deformation of the pipe network was mainly affected by the pressure of the fluid. The deformation of the pipe network was influenced by the temperature and pressure loads coupled, and the coupling effect was stronger with the higher pressure and temperature of the medium. However, the coupling effect had limits.

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Improving the Fluid Flow Model

Gessner,

Barbosa

2023

Petroleum Engineering

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Experimental analysis of horizontal liquid-gas slug flow pressure drop in d-type corrugated pipes

Cited by 13 publications

References 20 publications

Malzeme Cinsi Farklı Boruların Zamana Bağlı Basınç Düşümlerinin Deneysel Ölçülmesi, Sayısal Analizi Ve Anova Analizi Kullanılarak Sınıflandırılması

Malzeme Cinsi Farklı Boruların Zamana Bağlı Basınç Düşümlerinin Deneysel Ölçülmesi, Sayısal Analizi Ve Anova Analizi Kullanılarak Sınıflandırılması

Effects of different loads on structure deformation of “L”‐type large‐diameter buried pipe network based on flow–heat–solid coupling

Improving the Fluid Flow Model

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