Flow Induced Vibration for Different Support Pipe and Liquids: A review

Authors

  • Ansam Adil Mohammed Mechanical Eng. Dept., Engineering Collage, Al-Nahrian University, Baghdad, Iraq.
  • Ayad Mohammed Salman Mechanical Eng. Dept., Engineering Collage, Al-Nahrian University, Baghdad, Iraq.
  • Mustafa Saad Ayoub Department of Prosthectics and Orthotics Engineering, Al-Nahrian University, Baghdad, Iraq.

DOI:

https://doi.org/10.29194/NJES.26020083

Keywords:

Flow Induced Vibration, Natural Frequency, Forced Vibration, Cooling Liquid, Different Supported Pipes

Abstract

This study aims to review flow-induced vibration one of the repercussions of vibrations is caused by fluid movement. In general, the investigation of the structure of the systems affects the efficiency of the components that construct those systems. This review examined the influence of generated vibrations and internal pressure on fluid transport pipes using theoretical calculations, practical tests, and numerical analysis to identify and test the dynamic behavior of static fluid transport pipes. The experimental study considered the natural frequencies caused by the fluid pressure effect under various stability situations. The flow of all liquids, such as oil, water, gas, air, and vapors, through the pipes, was tested, and the mathematical models were correctly adjusted. All empirical, theoretical, numerical, and analytical research agrees that several approaches exist to develop, modify, and improve these metrics. However, one factor affecting rheological measurements is vibration, which was addressed as needed in the middle of the 20th century due to major discoveries that damage could be rooted in vibration. Established on the determinations, they provided mathematical models paired with pressure and velocity measurements of moving fluids and the influence of produced or uninduced vibration. This study demonstrates that additional empirical investigations, particularly more detailed analytical methodologies, are urgently required to produce better findings.

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References

A Waheed, A Adil, A Razzaq ,“ The Optimal Spacing Between Diamond-Shaped Tubes Cooled by Free Convection Using Constructal Theory”, The Publishing House Proceedings of The Romanian Academy, Swpecial Issue, pp. 129–134, 2018.

AA Mohammed, AA Mohammed, LA Sadeq, “Heat transfer augmentation in an inclined tube using perforated conical ring inserts”, Journal of Mechanical Engineering Research and Developments, Vol.43, No.5, pp. 204-217, 2020.

AA Mohammed, AA Mohammed, MA Falleh, “Heat Transfer Augmentation in Tube Fitted with Rotating Twisted Tape Insert”, Journal of Mechanical Engineering Research and Developments, Vol.43, No.7, 2020.

Mustafa Wahby Kanbar Jaber , Qusay J. Abdul Ghafoor , Ansam Adil Mohammed , Mahmoud Sh. Mahmoud , Ahmed F. Khudheyer ,” Optimizing the size for Solar Parabolic Trough Concentrator numerically” , International Journal of Mechanical Engineering, Vol. 7 No. 1 January, 2022.

Ansam Adil Mohammed , Mustafa Wahby Kanbar Jaber , Qusay J. Abdul Ghafoor , Mahmoud Sh. Mahmoud , Ahmed F. Khudheyer,” Investigation of the thermal performance for a square duct with screwtape and twisted tape numerically” International Journal of Mechanical Engineering, Vol. 7 No. 1 January, 2022.

Ashley, H. & Havilland, G. "Bending Vibrations of a Pipe Line Containing Flowing Fluid ", Journal of Applied Mechanic, Vol.17, (1952),pp.229-232, 1950.

Feodos yev, V.P. "Vibrations & Stability of a Pipe When Liquid Flow Through It ", Inzhenernyi Sbornik, Vol.10, (1951)

Housner, G.W "Bending Vibrations of a Pipe Line Containing Flowing fluid ", Journal of Applied Mechanic, Vol.19, (1952) , pp.205-208.

Niordson, F.I.N. "Vibrations of a Cylindrical Tube Containing Flowing Fluid", K. Tek. Högsk. Handl, No.2. (1953)

Haitham M. Salman and Ansam A. Mohammed. “Experimental Investigation for The Flow Induced Vibration for Pipe Inside Water”, Al-Nahrain Journal for Engineering Sciences NJES23(1)61-67. (2020)

Ansam A. Mohammed “The Effect of Induced Vibration on the Flow Properties in a Pipe Fitted with an Orifice”,Ph.D, dissertation ,mechanical eng. Dept. Nahrain University. badghdad. (2006)

Dana Giacobbi, Stephanie Rinaldi, “The Dynamics Of A Cantilevered Pipe Aspirating Fluid Studied By Experimental, Numerical And Analytical Methods” . Proceedings of the ASME 2010 3rd Joint US-European Fluids Engineering Summer Meeting and 8th International Conference on Nanochannels, Microchannels, and Minichannels .FEDSM-ICNMM2010 .August 1-5, (2010), Montreal, Canada

thaeir, jabar “Modeling Of Supports And Their Effects On Flow Induced Vibration Characteristics Of Pipes Conveying Fluids” Ms.c. Thesis mechanical eng. Dept. Nahrain University.badghdad, (2011)

Attia E. Khalifa · Amro M. Al-Qutub · Rached Ben-Mansour. ” Study of Pressure Fluctuations and Induced Vibration at Blade-Passing Frequencies of a Double Volute Pump. research article - Mechanical Engineering. Arab J Sci Eng (2011) 36:1333–1345.

R.Veerapandi ,G. Karthikeyan , Dr. G.R.Jinu, R.Kannaiah “ Experimental Study and Analysis of Flow Induced Vibration in a pipeline “International Journal of Engineering Research & Technology (IJERT) ISSN: 2278-0181, Vol. 3 Issue 5, May , . (2014).

Nosherwan Shoaib, Abdellatif Bouchalkha, and Khalid Alhammadi. Electromagnetic Wave Propagation in Underground Oil Pipelines. Conference Paper · November (2016). DOI: 10.1109/MMS.2016.7803800.

Etim S Udoetok . Internal Fluid Flow Induced Vibration of Pipes. Journal of Mechanical Design and Vibration, (2018), Vol. 6, No. 1, 1-8.

Qianli Zhao & Zhili Sun. Flow-induced vibration of curved pipe conveying fluid by a new transfer matrix method, Engineering Applications of Computational Fluid Mechanics, (2018). 12:1,780-790, DOI:10.1080/19942060.2018.1527725

M.J. Brennan , M. Karimi , J.M. Muggleton , F.C.L. Almeida , F. Kroll de Lima , P.C. Ayala , D. Obata , A.T. Paschoalini , N. Kessissoglou. On the effects of soil properties on leak noise propagation in plastic water distribution pipes . Journal of Sound and Vibration 427 (2018) 120e133.

Haitham Mohsin Salman, “the effect of induced vibration on laminar fluid flow of fixed ends”. Ms.c. Thesis, mechanical eng. Dept. Nahrain University. Baghdad . (2019).

Eman Raheem Bustan ”Theoretical Investigation of Vibration and Stability Characteristics of Cracked Functionally Graded Materials Pipe Conveying Fluid “Ms.c. Thesis, mechanical eng. Dept, unviersity of Thi-Qar. Thi-Qar ,(2019).

J. Kim Vandiver*, Leixin Ma, Zhibiao Rao . Revealing the effects of damping on the flow-induced vibration of flexible cylinders. Journal of Sound and Vibration 433 (2018) 29e54.

Samuel Gebremariam Haile, Elmar Woschke, Getachew Shunki Tibba & Vivek Pandey (2022) Internal two-phase flow induced vibrations: A review, Cogent Engineering, 9:1, 2083472, (2022). DOI:10.1080/23311916.2022.2083472

H.L. Dai, L. Wang, Q. Qian, Q. Ni. Vortex-induced vibrations of pipes conveying fluid in the subcritical and supercritical regimes . Journal of Fluids and Structures 39 (2013) 322–334.

m. siba, w. wanmahmood, m. zaki nuawi, r. rasani, m. nassir.“flow-induced vibration in pipes: challengess and solutions - a review. Journal of Engineering Science and Technology Vol. 11, No. 3 (2016) 362 – 382 © School of Engineering, Taylor’s University.

Mr. Bhagwat B. Kedar , Ms. Jayshri S. Gulave. Acoustically Induced Vibration (AIV) & Flow Induced Vibration (FIV) Analysis for the High Pressure Reducing Systems using Energy Institute Guidelines . Journal for Research| Volume 02 | Issue 11 | January ,(2017).

Shuai Menga,, Hiroyuki Kajiwarab, Weijing Zhanga. Internal flow effect on the cross-flow vortex-induced vibration of a cantilevered pipe discharging fluid . Ocean Engineering 137 (2017) 120–128.

Gbeminiyi M. Sobamowo . Nonlinear Analysis of Flow-induced Vibration in Fluid-conveying Structures using Differential Transformation Method with Cosine-after Treatment Technique . Iranian Journal of Mechanical Engineering. Vol. 18, No. 1, March( 2017).

Talib EH. Elaikh, Nada M. Abed.Semi-analytic solution for stability and free vibration of functionally graded (FG) material micro-pipe conveying fluid Energy And Environment Volume 9, Issue 6, (2018) pp.563-580

Chenghua Shi, Qianjin Zhao, Mingfeng Lei , Menglong Peng. “ Vibration velocity control standard of buried pipeline under blast loading of adjacent tunnel” Technical Paper. Available online at www.sciencedirect.com, ScienceDirect Soils and Foundations 59 (2019) 2195–2205.

Enbin Liu,* Xingjie Wang, Wanwei Zhao, Zhongya Su, and Qikun Chen. Analysis and Research on Pipeline Vibration of a Natural Gas Compressor Station and Vibration Reduction Measures. Article in Energy & Fuels · December (2020) DOI: 10.1021/acs.energyfuels.0c03663.

Dhurgham Salah Hussein, Muhannad Al-Waily. “Nyquist's theorem in active vibration control system of conservative and non conservative pipes conveying fluid”. international journal of energy and environment Volume 11, Issue 1 , (2020) pp.61-78.

Dana Giacobbi, Stephanie Rinaldi , The Dynamics Of A Cantilevered Pipe Aspirating Fluid Studied By Experimental, Numerical And Analytical Methods . Proceedings of the ASME 2010 3rd Joint US-European Fluids Engineering Summer Meeting and 8th International Conference on Nanochannels, Microchannels, and Minichannels .FEDSM-ICNMM2010 .August 1-5,(2020), Montreal, Canada.

Duha B. Saber , Oday A. Abdulrazzaq , Samoel M. Saleh . Effect of Surface Waves on Submarine Pipeline during Lying. Basrah Journal of Engineering Sciences, Vol. 20, No. 1, (2020), 1-6.

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Published

08-07-2023

How to Cite

[1]
A. Adil Mohammed, A. M. Salman, and M. Saad Ayoub, “Flow Induced Vibration for Different Support Pipe and Liquids: A review”, NJES, vol. 26, no. 2, pp. 83–95, Jul. 2023, doi: 10.29194/NJES.26020083.

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