Your search keyword '"*PIPING vibration"' showing total 24 results

1. Estimating natural frequency of pipe with various geometries: Improvement of frequency factors

Author

Noor Fariza Saari, Azma Putra, Irianto, Reduan Mat Dan, Muhammad Agus Zeli, Roszaidi Ramlan, Nawal Aswan Abdul Jalil, and Safarudin Herawan

Subjects

Natural frequency, Piping vibration, Resonance, Pipe bend, Fluid-induced vibration, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Piping system is the main structure in many industrial applications, especially for large industry relating with processing and transporting fluids, such as oil and gas industries. The fluid-induced vibration is often the cause of structural fatigue in pipes and therefore piping vibration need to be closely monitored. In case of high piping vibration, knowledge of the natural frequency of a pipe section is crucial for an engineer to propose the right troubleshoot action, either for a temporary or even for a long-term solution for the piping vibration. Therefore, prediction of the pipe natural frequency using a simple formulae is thus of interest, without dealing with complex numerical simulation using a commercial software which consumes cost and time. In this paper, the vibration mode shapes of various possible geometries of pipes in practice were simulated in ANSYS and the simulated natural frequency is related to a natural frequency of an Euler-Bernoulli beam using a correction factor for each corresponding piping geometry. This paper extends the previous work by allowing the boundary conditions of the pipe ends to be simply supported, in addition to the clamped edges. In this way, the frequency factor charts are presented in the range of possible correction factor values to accommodate the real conditions of pipe arrangement in practical application. An experiment from a case study to verify the proposed method is also presented.

Published

2024

2. Strain distribution on vibrating synthetic and natural saxophone reeds measured with digital image correlation.

Author

Ukshini, Enis and Dirckx, Joris

Subjects

SAXOPHONE reeds, DIGITAL image correlation, MOUTHPIECES (Musical instruments), DISPLACEMENT (Mechanics), PIPING vibration, STROBOSCOPES

Abstract

The mechanical behavior of the reed is an essential part of the sound production in single reed instruments such as the saxophone and the clarinet. To investigate effect of mouthpiece design, reed materials and reed shapes, it is important to understand reed dynamics. In this paper, stroboscopic digital image correlation (DIC) is used to measure displacement and strain distribution of the reed surface as function of time while the reed is vibrating. Measurements are performed on synthetic and natural cane reeds in dry and wet condition. Data are recorded on 30 phase steps within the vibration period. Results show that DIC allows to obtain reliable quantitative results of strain values in both the direction along the reed fiber length as well as perpendicular to the fibers. On the synthetic and the dry cane reed maximal x-strain values, averaged over the visible part of the reed tip, are respectively 0.06% and 0.08%. Maximal y-strain values are respectively 0.07% and 0.09%. On the wet cane reed, x-strain amplitude is smaller (0.06%), but during the measurement time both x-strain and y-strain change strongly because of dehydration artifacts. Over a period of a few minutes, displacements and strains of the wet reed change strongly. [ABSTRACT FROM AUTHOR]

Published

2022

3. 新氢压缩机管路系统气流脉动及管道振动分析.

Author

管生洲, 高　晋, and 邓瑞珍

Abstract

Copyright of Petroleum Refinery Engineering is the property of Petroleum Refinery Engineering Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

4. Estimating natural frequency of pipe with various geometries: Improvement of frequency factors.

Author

Saari NF, Putra A, Irianto, Dan RM, Zeli MA, Ramlan R, Abdul Jalil NA, and Herawan S

Abstract

Piping system is the main structure in many industrial applications, especially for large industry relating with processing and transporting fluids, such as oil and gas industries. The fluid-induced vibration is often the cause of structural fatigue in pipes and therefore piping vibration need to be closely monitored. In case of high piping vibration, knowledge of the natural frequency of a pipe section is crucial for an engineer to propose the right troubleshoot action, either for a temporary or even for a long-term solution for the piping vibration. Therefore, prediction of the pipe natural frequency using a simple formulae is thus of interest, without dealing with complex numerical simulation using a commercial software which consumes cost and time. In this paper, the vibration mode shapes of various possible geometries of pipes in practice were simulated in ANSYS and the simulated natural frequency is related to a natural frequency of an Euler-Bernoulli beam using a correction factor for each corresponding piping geometry. This paper extends the previous work by allowing the boundary conditions of the pipe ends to be simply supported, in addition to the clamped edges. In this way, the frequency factor charts are presented in the range of possible correction factor values to accommodate the real conditions of pipe arrangement in practical application. An experiment from a case study to verify the proposed method is also presented., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published

2024

5. In-structure response spectra considering nonlinearity of RCC structures: Experiments and analysis.

Author

Kothari, P., Parulekar, Y.M., Reddy, G.R., and Gopalakrishnan, N.

Subjects

*REINFORCED concrete testing, *YIELD strength (Engineering), *DAMPING (Mechanics), *EARTHQUAKES, *PIPING vibration, *SAFETY

Abstract

Many devastating earthquakes exceeding the design basis levels have occurred in the past. Safety assessment of equipments and piping systems of industrial/nuclear safety related structures subjected to earthquakes beyond design basis levels necessitates consideration of the structural nonlinearity. The In-structure or floor response spectra (FRS) are the input required for qualification of these systems and hence it is essential to generate this input considering structural nonlinearity. This paper addresses the experimental and analytical work on generation of FRS for nonlinear Reinforced Cement Concrete (RCC) structure. Push over and shake table experiments are performed on three storeyed RCC framed structure. A simplified analytical approach is proposed to derive earthquake-induced In-structure response spectra for the structure deforming beyond elastic limits. In this approach, initially, the performance of the structure is evaluated using pushover analysis. Floor spectra of the structure are then obtained considering the degraded stiffness and increased damping evaluated at each performance level iteratively from pushover curve. The floor spectra of the structure generated by the proposed method are validated using experimentally simulated results from shake table tests. [ABSTRACT FROM AUTHOR]

Published

2017

6. Similitude study of an in-service industrial piping system under high flow induced vibration.

Author

Tyng, Yap, Chao, Ong, Kuan, Kong, Ismail, Zubaidah, Rahman, Abdul, and Tong, Chong

Subjects

*FLOW-induced vibration (Mechanics), *STAINLESS steel corrosion, *METALLOGRAPHY of stainless steel, *DYNAMICS, *PIPING vibration

Abstract

Flow induced vibration problem of an in-service duplex stainless steel piping system was investigated in previous research. The investigation required multiple sets of site measurement results at the offshore gas processing platform which raises the concerns of safety and its practicality. A lab scale of the mentioned piping system is preferable to study the flow induced vibration problem at different operating conditions to better understand the dynamic behaviour of this piping system. In addition, most of the dimensional analyses were performed either solely on structure or fluid system. System with flow induced vibration problem has never been attempted and thus it is important to perform similitude study of the piping system prior to fabrication of the lab scale model. Buckingham Pi theorem was applied and the similitude was verified by computational mechanics both qualitatively and quantitatively. The calculated non-dimensional variables of a scaled piping system in describing the flow characteristics which contribute to the structure deformation give similar scale factor, flow pattern and flow induced dynamic deformation and stress in this fluid-structure interacted piping system indicating that geometric, kinematic and dynamics similarity are achieved. [ABSTRACT FROM AUTHOR]

Published

2017

7. Exact solution of axial liquid-pipe vibration with time-line interpolation.

Author

Xu, Yuanzhi and Jiao, Zongxia

Subjects

*IMAGE quality analysis, *PIPING vibration, *FLUID-structure interaction, *INTERPOLATION algorithms, HIERARCHIES (Recursion theory)

Abstract

The axial vibration of liquid-pipes, considering the fluid-structure interaction (FSI), can be described by a four-equation model consisting of two equations for the fluid and the other two for the pipe wall. When distributed friction and damping were neglected, the model could be solved with an exact solution developed from the method of characteristics (MOC). The exact solution with a simple recursion process was presented instead of meshing the distance-time plane, introducing no numerical error, while the only weakness was the high time cost. An improved method based on this exact solution is proposed in this work, using the time-line interpolation rather than the recursive algorithm to speed the calculation. As numerical diffusion and oscillation affect the accuracy a lot, various interpolation techniques are investigated and compared. The mean absolute error (MAE) and the structural similarity index measure (SSIM) are employed to assess the accuracy of proposed methods, and the latter was originally developed for the image quality assessment. A hybrid interpolation scheme, mixing the cubic spline and linear interpolation, is proposed and achieves the highest accuracy and the quadratic-linear interpolation is found to be a good choice considering both accuracy and efficiency. The solution method developed here improves the efficiency significantly while retains an acceptable level of the accuracy, especially suitable for the long duration event. [ABSTRACT FROM AUTHOR]

Published

2017

8. Experimental study on a noncontact method using laser displacement sensors to measure vibration stress in piping systems.

Author

Maekawa, Akira, Noda, Michiyasu, and Shintani, Masanori

Subjects

*PIPING vibration, *DISPLACEMENT (Mechanics), *STRAINS & stresses (Mechanics), *DEFORMATIONS (Mechanics), *STRUCTURAL plates, *LASER beams

Abstract

This study presents a noncontact measurement method of vibration induced stress (vibration stress) using multiple laser displacement sensors and clarifies its applicability to piping vibration. In the beam structures such as piping, the stress due to bending deformation can be caused by vibration. In the presented method, the vibration displacement in the beam structures induced by the bending deformation is measured at three different locations using laser displacement sensors in a noncontact manner and the vibration stress is estimated by a simple calculation based on the beam theory. First, an applicability validation of the presented method was done by a vibration test using a cantilevered beam plate. This validation was done by comparing measurements by the presented method and the conventional method using strain gauges. Next, an experimental validation was conducted by the vibration test using a pipe specimen, and the applicability to the piping vibration was confirmed. [ABSTRACT FROM AUTHOR]

Published

2016

9. Development of noncontact measurement methods using multiple laser displacement sensors for bending and torsional vibration stresses in piping systems.

Author

Maekawa, Akira, Noda, Michiyasu, Shintani, Masanori, and Suzuki, Michiaki

Subjects

*PIPING, *TORSIONAL vibration, *MEASUREMENT, *STRAINS & stresses (Mechanics), *VIBRATION (Mechanics)

Abstract

In this study, two methods to measure bending and torsional vibration stresses of piping systems conveniently and quickly are proposed. The proposed methods are composed of a modeling approach of piping vibration and noncontact measurement techniques. The methods assume the vibration modes as a primary mode within the measuring range without the mode-identification and then estimate the vibration stress by approximating the vibration displacements measured in a noncontact manner as a primary mode. This paper presents the principles and calculation formulas of both methods and shows the measurement techniques for the bending and torsional vibration stresses using laser displacement sensors. Finally the applicability of one method is discussed based on the results of a vibration experiment. [ABSTRACT FROM AUTHOR]

Published

2016

10. A simple method using strain measurement on pipe outer surface to evaluate pressure pulsations in piping systems

Author

Akira MAEKAWA, Tsuneo TAKAHASHI, Takashi TSUJI, and Minoru KATO

Subjects

pressure pulsation, on-site measurement, strain measurement, thick-walled cylinder formula, piping vibration, vibration fatigue, acoustic resonace, maintenance, monitoring, Mechanical engineering and machinery, TJ1-1570, Engineering machinery, tools, and implements, TA213-215

Abstract

Accurate evaluation of occurrence location and amplitude of pressure pulsations in a piping system can lead to efficient plant maintenance to prevent fatigue failure of piping and components because the pulsations could be main causes of vibration fatigue and acoustic noise in piping. To measure pressure pulsations easily and directly, a method to combine strain measurement on outer surface of pipe with the formula for thick-walled cylinders was proposed. The experimental validation demonstrated the proposed method could measure amplitudes and behavior of pressure pulsations with a practical accuracy. Furthermore, the applicability of the formula for thin-walled cylinders was examined for various shaped pipes.

Published

2014

11. Estimation of Bending Stresses in Piping Systems Subjected to Transient Pressure

Author

Lars Damkilde and Maral Taghva

Subjects

Water hammer, Materials science, Piping, business.industry, Stress analysis, Transient pressure, Bending, Structural engineering, Pressure surge, Piping vibration, Quasi-static, business, Quasistatic process

Abstract

Modifications in aged process plants may subject piping systems to fluid transient scenarios, which are not considered in the primary design calculations. Due to lack of strict requirements in ASME B31.3 the effect of this phenomenon is often excluded from piping structural integrity reassessments. Therefore, the consequences, such as severe pipe motion or even rupture failure, are discovered after modifications are completed and the system starts to function under new operational conditions. The motivation for this study emanated from several observations in offshore oil and gas piping systems, yet the results could be utilized in structural integrity assessments of any piping system subjected to pressure waves. This paper describes how to provide an approximate solution to determine maximum bending stresses in piping structures subjected to wave impulse loads without using rigorous approaches to calculate the dynamic response. This paper proposes to consider the effect of load duration in quasi-static analysis to achieve more credible results. The proposed method recommends application of lower dynamic load factors than commonly practiced values advised by design codes, for short duration loads such as shock waves. By presenting a real-life example, the results of improved and commonly practiced quasi-static analysis are compared with the site observations as well as dynamic analysis results. It is illustrated that modified quasi-static solution shows agreement with both dynamic analysis and physical behavior of the system. The contents of this study are particularly useful in structural strength re-assessments where the practicing engineer is interested in an approximated solution indicating if the design criteria is satisfied.

Published

2021

12. Shape memory alloy-based adaptive-passive dynamic vibration absorber for vibration control in piping applications.

Author

Mani, Yuvaraja and Senthilkumar, Mouleeswaran

Subjects

*SHAPE memory alloys, *VIBRATION absorbers, *CANTILEVERS, *MICROCONTROLLERS, *PIPING vibration

Abstract

A dynamic vibration absorber (DVA) can be used as an effective vibration control device. It is essentially a secondary mass, attached to an original system via a spring and damper. The natural frequency of the DVA is tuned such that it coincides with the frequency of unwanted vibration in the original system. This results in absorption of the inertial energy transferred from the primary structure. This work aims at developing an adaptive-passive dynamic vibration absorber with the help of shape memory alloy (SMA) springs in order to attenuate the vibration for a range of excitation frequencies. In this paper, the unique property of SMAs temperature-dependent Young’s modulus has been used to change the stiffness of the spring actively to control the vibration. Experiments were carried out with an SMA-based dynamic vibration absorber to study the effect of reduction in amplitude of vibration of a cantilever structure. A microcontroller-based control system has been developed for timely actuation of SMA and to supply optimum current to the SMA springs connected in parallel. The experimental results show that the SMA-based dynamic vibration absorber is more effective in reducing the amplitude of vibration for a wider frequency range. The developed SMA-based DVA is used to damp out the vibration in piping applications. The effectiveness of adaptive-passive DVA in controlling the vibration for a range of excitation frequencies was proved. [ABSTRACT FROM AUTHOR]

Published

2015

13. Vibration cause analysis and elimination of reciprocating compressor inlet pipelines.

Author

Liang, Zheng, Li, Shuangshuang, Tian, Jialin, Zhang, Liang, Feng, Chengke, and Zhang, Liwen

Subjects

*COMPRESSOR vibration, *RECIPROCATING machinery, *INLETS, *PIPELINES, *NUMERICAL calculations, *PIPING vibration

Abstract

Due to the occurrence of abnormal vibration of reciprocating compressor inlet pipelines during the commissioning of a booster station, the cause of severe vibration problem was investigated, which included modal analysis, calculation of resonant piping length, velocity frequency spectrum analysis, and pressure pulsation measurement. It was found that the inlet pipelines avoided low frequency resonance region, the actual length of the inlet pipelines was in the second resonant piping length, and the pressure pulsation far exceeded API 618 standard. The results indicate that large pressure pulsation and acoustic resonance occurred on the inlet pipelines are the key factors inducing vibration. Vibration elimination treatments included enlarging the buffer volume of gathering manifold, adjusting the inlet piping length to avoid acoustic resonance, and increasing the curvature radius of bend. After remodeling of the inlet pipelines, the test data indicate that the vibration level of the inlet pipelines is reduced to an acceptable level defined by a relevant standard, and the processing capacity of the booster station can be raised at least two times. [ABSTRACT FROM AUTHOR]

Published

2015

14. MODELING AND VIBRATION ANALYSIS OF LIMESCALE DEPOSITION IN GEOTHERMAL PIPES.

Author

Kocsis, Dénes

Abstract

Failures of geothermal system pipes are often caused by limescale buildup on the walls of the pipes. The primary aim of this work is to investigate the influence of the scale formed on the walls of the pipes on the vibration parameters and natural frequencies of pipelines. To this end, the different phases of deposition are artificially simulated in the model experiments. In the different states, vibration tests are preformed to evaluate the status of the pipe section and the rate of deposition by a nondestructive technique. The experimental system is also analyzed by the finite element method (FEM), and the obtained results are compared. [ABSTRACT FROM AUTHOR]

Published

2014

15. Low-FrequencyVibrations on the Thermal Performanceof an Oscillating Heat Pipe.

Author

Alaei, Amir and Hasanzadeh Kafshgari, Morteza

Subjects

*HEAT pipes, *THERMAL resistance, *PIPING vibration, *FREQUENCIES of oscillating systems, *HEAT transfer

Abstract

Theeffect of low-frequency vibrations (LFVs) on the thermal performanceof an oscillating heat pipe (OHP) was investigated experimentally.The thermal resistance of the OHP was evaluated under different conditions(e.g., heat rates, filling ratios, and frequencies). Results showthat the LFVs added in the OHP have a significant effect on the heat-transferperformance, which is dependent on the applied frequency. The LFVsremoved the “dry-out” and improved the thermal performanceof the OHP at the lower filling ratio and higher heat transfer rate. [ABSTRACT FROM AUTHOR]

Published

2014

16. Influential factors for noncontact measurement method of vibration stress using multiple laser displacement sensors.

Author

Maekawa, Akira, Noda, Michiyasu, Shintani, Masanori, and Suzuki, Michiaki

Subjects

*VIBRATION measurements, *VIBRATION tests, *DETECTORS

Abstract

• Applicability of proposed noncontact vibration measurement method was demonstrated. • Influential factors on measurement accuracy were clarified. • Errors due to influential factors were evaluated quantitively. • Measuring accuracy of proposed method was comparable to that of strain gauge method. The purpose of this study is to verify the applicability of the proposed noncontact measurement method of vibration stress using multiple laser displacement sensors. In order to demonstrate its applicability, the factors that influence the measurement accuracy were investigated. Since the proposed method has a simple measurement theory and few restrictions on measurement conditions, it can be applied to vibration measurement of various beam-shaped structures such as pipes. However, in actual vibration measurement, it is expected that an inherent error will occur due to the basic principle of the proposed method. Identification and quantitative evaluation of the influential factors that cause the error are important basic findings for determining the practical application of the proposed method. First, based on the basic principle of the proposed method, the influential factors that can occur due to the use of the laser displacement sensor were clarified. Second, the errors caused by the identified influential factors were quantitatively evaluated. Third, a vibration test was performed to verify the identified influential factors and the errors caused by those factors. Finally, from the obtained results, the applicability of the proposed method was demonstrated, and measures for further improving the accuracy were suggested. [ABSTRACT FROM AUTHOR]

Published

2022

17. A practical, systematic and structured approach to piping vibration assessment

Author

Sukaih, Naren

Subjects

*PIPING, *MONITORING of machinery

Abstract

The main aim of this paper is to present a systematic and structured approach to piping vibration assessment and control. Piping vibration assessment is a complex subject, since there are no general analytical methods for dealing with vibration problems. It was noted that most existing vibrating piping systems had poor or degraded support arrangements. This approach therefore focuses mainly on vibration control through assessing and improving the supporting systems. Vibration theory has not been covered in any detail. A simplified procedure is presented for the Integrity custodian to determine when a simple assessment may be carried out and when specialist/consultant services are required. The assessment techniques are based on simplifying assumptions, good rules of thumb and available literature and current practices. A typical case study is used to illustrate the use and the flexibility of the above approach. A standard sheet is proposed to record and document the assessment and recommendations. [Copyright &y& Elsevier]

Published

2002

18. Design And Validation Of An Adjustable Dynamic Vibration Absorber For Piping Vibration Suppression In Skid Mounted Compressor Unit

Author

Liu, Chang, Ni, Jie, Wen, Jie, and Peng, Xueyuan

Subjects

dynamic vibration absorber, vibration control, piping vibration, skid mounted compressor

Abstract

The vibration control for a reciprocating compressor as well as piping has always been a challenge. Because of compact installation and limited space for the skid mounted compressor unit, it is difficult to arrange a piping support freely or change the piping layout. A new type of adjustable dynamic vibration absorber (DVA), consisting of an annular clamp and several discrete spring-mass systems (DVA subsystem), was proposed to solve this problem. The spring-mass system of this new DVA used the electromagnet and leaf spring equipped with linear slideway, which permitted continuous adjustment of the DVA’s natural frequency by means of variation of the mass and change of the electromagnet’s position. The finite element models of the piping with DVA was established to analyze the harmonic responses in the case of pre- and post- installation of DVA so as to validate the DVA performance of vibration suppression. The results showed that this DVA could suppress vibration effectively at original resonance frequency. Compared with the traditional DVA, multiple distributed units of DVA subsystems in an annular clamp could obtain a much wider frequency band, which overcame the defect that two resonance peaks appeared after installing the traditional DVA. The results also showed that this DVA, equipped with multiple sets of DVA subsystems with different natural frequencies, had an effective vibration suppression for the piping vibration simultaneously excited by multiple resonant frequencies. The study indicates that this novel adjustable DVA can effectively damp the piping vibration of the skid mounted compressor unit.

Published

2018

19. THE STUDY OF PASSIVE VIBRATION DAMPERS IN PIPELINES USING PIV-METHODOLOGY FOR SINGLE PHASE FLOW

Author

Ismail Hossain, V. I. Velkin, and S E Shcheklein

Subjects

Materials science, business.industry, Flow (psychology), Structural engineering, VELOCITY DISTRIBUTION, Damper, Vibration, Pipeline transport, PRESSURE GRADIENT, Single phase, business, PIPING VIBRATION, PIV METHODOLOGY, SINGLE PHASE FLOW, Pressure gradient

Abstract

An experimental investigation of the study for pulsed particle visualization of micro tracers using the PIV technique was conducted. The purpose of the study was to obtain the velocity distribution in straight and turns of the pipeline and influence of different geometries of the inserts (swirlers) on the cause of the pr?ssure gr?dient on the ?uter and inn?r w?lls of the p?rts. The visualization of fluid flow consisting tracer particles was determined. In order to study the flow pattern a design of passive devices was performed and put into experimentation to investigate the flow field. The PIV-technique and equipment allow the analytical study of the microstructure for hydr?dynamic fluid fl?w and the msurement of piping vibration after passing through the passive damper. It was found that the use of the improved devices leads to the reduction of piping vibration at 25-50%. It was possible to figure out the velocity distribution pattern as well as the visualization of the swirling of the fluid flow based on PIV technique. © 2017 WIT Press.

Published

2017

20. Development of Vibration Sensor with Wide Frequency Range Based on Condenser Microphone -Estimation System for Flow Rate in Water Pipes

Author

Kakuta, Hironori, Kajiro Watanabe, and Kurihara, Yosuke

Subjects

Piping vibration, Flow rate estimation, Water pipe, ComputingMethodologies_COMPUTERGRAPHICS, Condenser microphone

Abstract

Water leakage is a serious problem in the maintenance of a waterworks facility. Monitoring the water flow rate is one way to locate leakage. However, conventional flowmeters such as the wet-type flowmeter and the clamp-on type ultrasonic flowmeter require additional construction for their installation and are therefore quite expensive. This paper proposes a novel estimation system for the flow rate in a water pipeline, which employs a vibration sensor. This assembly can be attached to any water pipeline without the need for additional high-cost construction. The vibration sensor is designed based on a condenser microphone. This sensor detects vibration caused by water flowing through a pipeline. It is possible to estimate the water flow rate by measuring the amplitude of the output signal from the vibration sensor. We confirmed the validity of the proposed sensing system experimentally., {"references":["A. Shiklomaov,\"World Water Resources And Their Use a joint\nSHI/UNESCO product\", Scientific Leader an Editor State Hydrological \nInstitute (SHI), St. Petersburg, 1999","Bureau of Waterworks Tokyo Metropolitan\nGovernment,,2012.7.18 accessed","Bureau of Waterworks Tokyo Metropolitan\nGovernment,,2012.7.18 accessed","Sergey Shimanskiyy, Takashi Iijima, Yosuke NAOI,\"Development of\nAcoustic Leak Detection and Localization Methods for Inlet Piping of\nFugen Nuclear Power Plant\", Journal of Nuclear Science and Tecchnology, \nVol. 41, No. 2, p. 183–195, Febbruary 2004","J. H. Goh, A. Shaw, J.D. Cullen, A. I. Al-Shammma'a, M. Oliver, M. Vines,\nM. Brockhurst,\"Water Pipe Leak Detection Using Electromagnet Wave\nSensor for the Water Industry\", 2011 IEEE Symmposium on Computers & \nInformatics, March 2012","Zhang Jian-li, Guo Wei-xing, \"Study on the Characteristics of the\nLeakage Acoustic Emission in Cast Iron Pipe by Experimennt\", 2011\nInternational Conference On Instrumentation, Measurement, Computer,\nCommunication And Control, October 2011","Xuefeng Han, Jie Wang, ZhongboPeng, JieZhang,\"A study of Ultrasonic\nFlowmeter in ship piping leakage detection system\",Intelligent Systems \nand Applications (ISA), 2011 3rd International Workshop on 28-29 May \n2011, May 2011","Kajiro Watanabe, Yosuke Kurihara, Tetsuo Nakamura, and Hiroshi\nTanaka,\"Design of a Low-Frequency Microphone for Mobile Phones and\nIts Application to Ubiquitous Medical and Healthcare Monitorinng, IEEE\nSensors Journal, VOL. 10, NO. 5, May 2010","HuijieShen, Jihong Wen, Dianlong Yu and Xisen Wen, \"Control of\nflexural vibration in a periodic pipe conveying fluid based on a Bragg\nscattering mechanism coupled with a locally resonant mechanism\",\nMechatronics and Automation (ICMA), 2011 International Conference\non 7-10 Aug.\n[10] D.J.Wang, H.C.Ho, Jeremy Wang, Z.D.Tsai,\"Water Induced Vibration In\nThe Nsrrc\", Proceedings of 2005 Particle Accelerator Conference, \nKnoxville, May 2005"]}

Published

2012

21. Operational displacement shape based estimation of vibration borne stress variation in a pipeline

Subjects

finite element, piping vibration, high cycle fatigue

Abstract

Excessive vibration is one of the leading causes of high cycle fatigue in process piping. One way to assess the severity of vibration is to measure the stress variation caused by it with strain gages. An alternative way is discussed in this paper. The basis of this alternative way is formed by operational displacement shapes (ODS) measured from the actual structure. In order to test the method, two different sets of ODS were measured from a secondary feed water piping system of Loviisa 1 nuclear power plant. Two sets of forces were then derived from these two measured ODS sets. Each force set is supposed to be equivalent to the actual loading in a sense that it should produce behaviour analogous to the actual measured ODS when applied to a finite element (FE) model. Two sets of ODS were then computed with the FE model using the derived force sets as input values. As a result, two sets of stress amplitudes were also obtained for the ODS. Vibration borne stress variations in the time domain at the desired locations were then estimated by applying the principle of superposition to the stress variation amplitudes of the individual ODS.

Published

2008

22. Operational displacement shape based estimation of vibration borne stress variation in a pipeline

Author

Vepsä, Ari

Subjects

finite element, piping vibration, high cycle fatigue

Abstract

Excessive vibration is one of the leading causes of high cycle fatigue in process piping. One way to assess the severity of vibration is to measure the stress variation caused by it with strain gages. An alternative way is discussed in this paper. The basis of this alternative way is formed by operational displacement shapes (ODS) measured from the actual structure. In order to test the method, two different sets of ODS were measured from a secondary feed water piping system of Loviisa 1 nuclear power plant. Two sets of forces were then derived from these two measured ODS sets. Each force set is supposed to be equivalent to the actual loading in a sense that it should produce behaviour analogous to the actual measured ODS when applied to a finite element (FE) model. Two sets of ODS were then computed with the FE model using the derived force sets as input values. As a result, two sets of stress amplitudes were also obtained for the ODS. Vibration borne stress variations in the time domain at the desired locations were then estimated by applying the principle of superposition to the stress variation amplitudes of the individual ODS.

Published

2008

23. Experimental study and analysis on the rising motion of grains in a vertically-vibrated pipe.

Author

Liu Yu and Zhao Jun-Hong

Subjects

*GRANULAR materials, *VIBRATION (Mechanics), *VELOCITY, *ACCELERATION (Mechanics), *PIPING vibration, *GRAIN handling

Abstract

Previous experimental investigations have shown that when a narrow pipe is inserted into a granular bed and is vibrated vertically but the granular bed is kept still, the grains in the bed can enter the pipe and rise against gravity along the pipe and finally stabilized at a certain height. The growth velocity and final stable height of the grain column inside the pipe can be controlled by varying the vibration conditions. In this paper, we discuss those experimental findings. We establish a mathematic relation between the grain column height (h) and time (t), and by using the relation we discuss the change of the growth velocity (dh/dt) and acceleration (d2h/dt2) with t and h, respectively. We also analyze the mechanism of the rising motion of the grains during vibration. Furthermore, we derive a theoretical expression for describing the final stable height (hst), which shows that the main factors influencing the height are vibration strength (Γ ), bulk density of grains, inner diameter of the pipe, and vibration frequency, and that hst increases nonlinearly in the presence of air and linearly in a vacuum environment with increasing Γ. [ABSTRACT FROM AUTHOR]

Published

2015

24. BRACE AGAINST VIBRATION: Anti-vibration bracing system places plant reliability into the design process for small bore pipe connections.

Subjects

*BRACING (Structural engineering), *PIPING vibration

Abstract

The article evaluates the Easy-Brace small bore connection (SBC) anti-vibration bracing system from specialist AVT Reliability of Warrington, Cheshire in England.

Published

2018