flow-induced vibration in heat exchangers - sciencedirect

The prediction of flow

A number of methods for the prediction of flow-induced acoustic standing waves in heat exchangers are recommended in the literature. The source for this noise has been assumed to be vortex shedding, turbulent buffeting or broadband turbulence and a variety of methods based on these have been proposed for predicting the occurrence of these standing wave resonances. Furthermore, parameters

DESIGN OF SHELL AND TUBE HEAT EXCHANGER

2) Prevent vibration from flow-induced eddies and maintain the tube spacing 3) Direct the flow of fluid in the desired pattern through the shell side. A segment, called the baffle cut, is cut away to permit the fluid to flow parallel to the tube axis as it flows from one baffle space to another.

Flow induced acoustic resonance in tubular heat

Flow induced acoustic resonance in tubular heat exchangers Abstract This Data Item 88028, an addition to the Sub-series on Heat Transfer, and complements ESDU 87019, which provides prediction methods for vibration of heat exchanger bundles.

DESIGN OF SHELL AND TUBE HEAT EXCHANGER

2) Prevent vibration from flow-induced eddies and maintain the tube spacing 3) Direct the flow of fluid in the desired pattern through the shell side. A segment, called the baffle cut, is cut away to permit the fluid to flow parallel to the tube axis as it flows from one baffle space to another.

Flow

The U.S. Department of Energy's Office of Scientific and Technical Information article{osti_6671535, title = {Flow-induced vibration in shell-and-tube heat exchangers for Ocean Thermal Energy Conversion (OTEC)}, author = {Lorenz, J. J. and Yung, D.}, abstractNote = {The problem of crossflow-induced vibration in shell-and-tube heat exchangers for OTEC is considered.

Consideration of Fluidelastic Instability While Designing Shell and Tube Heat Exchangers

be avoided. Therefore, Flow-induced vibration must be considered while designing shell and tube heat exchangers. Shell and tube heat exchangers are used widely in nuclear, power, fossil power plant, petrochemical, industry, and refrigeration and air

Flow induced acoustic resonance in tubular heat

Flow induced acoustic resonance in tubular heat exchangers Abstract This Data Item 88028, an addition to the Sub-series on Heat Transfer, and complements ESDU 87019, which provides prediction methods for vibration of heat exchanger bundles.

Flow

Flow-induced vibration (FIV) is widespread problem in energy systems because they rely on fluid movement for energy conversion. Vibrating structures may be damaged as fatigue or wear occurs. Given the importance of reliable components more in the nuclear industry, flow-induced vibration has long been a major concern in safety and operation of nuclear reactors.

Four Types of Heat Exchanger Failures

Vibration-Fxecssive vibration from equipment such as air compressors or refrigeration machines can cause tube failures in the form of a fatigue stress crack or erosion of tubing at the point of contact with baffles. Heat exchangers should be isolated from this type

Vorticity Shedding and Acoustic Resonance in Tube Bundles

Flow-induced vibrations of heat exchanger tube bundles often cause serious damages resulting in lost revenue and high repair costs. A wide range of flow-induced vibration and noise problems in heat exchangers is reviewed by Padoussis (1982). The

Static Equipment: Understanding Heat Exchangers

Vibration analysis ST heat exchangers are subject to flow-induced vibration, due to unsupported tube lengths subjected to high flow rate on the shell side, which could result in tube failure. A vibration analysis should be done. The simplified TEMA method is now

A novel methodology for design optimization of heat recovery steam generators with flow

Flow-induced vibration Vibration analysis Finned tube bundles abstract Design of compact, lightweight, and robust heat recovery steam generators (HRSGs) is important for the implementation of offshore bottoming cycles. In this work, a novel methodology

PPT on Failure analysis of shell and tube heat exchangers

For The multi pass cross flow heat exchangers Correction Factor can be found from data book Ramma Murthy M.V., (National Institute of Ocean technology, Chennai, India), INDACON 2014, Vibration analysis of Shell and tube Heat Exchangers for low (08/09

Calculation of mean heat transfer coefficients on the

One of the techniques used by designers of shell-and-tube heat exchangers when they encounter a potential flow-induced vibration problem is to shift from a tube bundle with segmental baffles to one with double-segmental baffles. This results in a split of the flow into

[PDF] Analysis Of Flow Induced Vibration In Superheater

Flow induced vibration in tube bundles subjected to cross flow has been known for a long time. In boilers, tube bundles carrying steam or water are subjected to cross flow of flue gases. This flow causes external forces which may generate vibrations and sound in the boiler during their regular operation. These vibrations can result in tube thinning at support points and consequent leakage or

Diagnosis and Control of Flow

Diagnosis and Control of Flow-Induced Tube Vibration in Heat Exchangers and Steam Generators Opportunity Flow-induced vibration and instability continue to be a source of tube failure in heat exchangers and steam gen- erators. Vibration can cause diminished

Heat exchanger

A heat exchanger is a system used to transfer heat between two or more fluids.Heat exchangers are used in both cooling and heating processes. The fluids may be separated by a solid wall to prevent mixing or they may be in direct contact. They are widely used in space heating, refrigeration, air conditioning, power stations, chemical plants, petrochemical plants, petroleum refineries, natural

Prediction of Flow

The need for accurate prediction of vibration and wear of heat exchangers in service has placed greater emphasis on the improved modeling of the associated phenomenon of flow-induced vibrations. In this study, the elastodynamic model of the tube array is modeled using the finite element approach, wherein each tube is modeled by a set of finite tube elements.

Design Specifications to Ensure Flow

Preventing flow-induced vibration and fretting-wear problems in steam generators and heat exchangers requires design specifications that bring together specific guidelines, analysis methods, requirements and appropriate performance criteria. This paper outlines the

Design Specifications to Ensure Flow

Preventing flow-induced vibration and fretting-wear problems in steam generators and heat exchangers requires design specifications that bring together specific guidelines, analysis methods, requirements and appropriate performance criteria. This paper outlines the

Flow

Flow-induced tube vibration in shell-and-tube heat exchangers has resulted in tube failure that has caused industrial plants and power stations to be shut down for costly repairs. As a result, possible flow-induced tube vibration problems have joined thermal, hydraulic, and mechanical design considerations.

Diagnosis and Control of Flow

Diagnosis and Control of Flow-Induced Tube Vibration in Heat Exchangers and Steam Generators Opportunity Flow-induced vibration and instability continue to be a source of tube failure in heat exchangers and steam gen- erators. Vibration can cause diminished

Experimental study on cross

Vibration in heat exchangers is one of the main problems that the industry has faced over last few decades. Vibration phenomenon in heat exchangers is of major concern for designers and process engineers since it can lead to the tube damage, tube leakage, baffle damage, tube collision damage, fatigue, creep etc. In the present study, vibration response is analyzed on single tube located in the

Two tandem cylinders of different diameters in cross

Two tandem cylinders of different diameters in cross-flow: flow-induced vibration - Volume 829 2 Experimental details Experiments were performed in a low-speed, closed-circuit wind tunnel with a test section of 5.6 m in length, 0.8 m in width and 1.0 m in height.

FLOW

article{osti_4220121, title = {FLOW-INDUCED NOISE IN HEAT EXCHANGERS}, author = {Putnam, A A}, abstractNote = {Noise or vibration problems in heat exchangers may be encountered in those instances when a natural acoustic frequency of the exchanger in the direction normal to the flow direction and tube length is close to the frequency determined by the Strouhal number.

Four Types of Heat Exchanger Failures

Vibration-Fxecssive vibration from equipment such as air compressors or refrigeration machines can cause tube failures in the form of a fatigue stress crack or erosion of tubing at the point of contact with baffles. Heat exchangers should be isolated from this type

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