design optimization of shell and tube heat exchanger by vibration

Shell

Several design parameters and operating conditions influence the optimal performance of a shell and tube heat exchanger. This model shows the basic principles of setting up a heat exchanger model. It can serve as a starting point for more sophisticated applications involving parameter studies or additional effects like corrosion, thermal stress, and vibration.

Parametric Optimization of Shell and Tube Heat Exchanger by

Parametric Optimization of Shell and Tube Heat Exchanger by Harmony Search Algorithm Ashish .K. Patel1 Krunal Patel2 1Post Graduate Student 2Assistant Professor 1,2Mechanical Department 1,2LDRP-ITR, Gandhinagar Abstract— Shell and Tube heat

Design Heat Exchanger: Optimization and Efficiency

2020/10/14The objective is the optimization of a heat exchanger model by resolving common system concerns; efficiency, fouling, leakage, dead zones, and vibration. These issues are prevalent in the HVAC industry, which are critical to the under-performing heat exchangers.

Parameters optimization of a parallel

Abstract: This study presents the thermal-hydraulic optimization of the design parameters of a parallel-flow shell-and-tube heat exchanger with a new type of anti-vibration hexagon clamping baffle and equilateral triangle cross-sectioned coiled wire.

Design Optimization of Shell and Tube Heat Exchanger

In this paper a simplified approach to optimize the design of Shell Tube Heat Exchanger [STHE] by flow induced vibration analysis [FVA] is presented. The vibration analysis of STHE helps in achieving optimization in design by prevention of tube failure caused due to

Parameters optimization of a parallel

This study presents the thermal-hydraulic optimization of the design parameters of a parallel-flow shell-and-tube heat exchanger with a new type of anti-vibration hexagon clamping baffle and equilateral triangle cross-sectioned coiled wire. A periodic flow unit duct with non-staggered tube layout is adopted as the numerical analysis model by Fluent. The Taguchi method is used to explore the

SHELL AND TUBE HEAT EXCHANGER

Shell-and-tube type heat exchanger having (a) 0, (b) 30, and (c) 60 baffle angles. The common focus of the publication is to predict the variation of LMTD, heat transfer coefficient, Nusselt number, and pressure drop with a change in values of Reynolds number for 0

Performance Analysis and Design Optimization of Shell

2021/4/20The heat exchanger is made of acrylic material with 2 baffles and 7 tubes made of stainless steel. Hot fluid flows inside the tube and cold fluid flows over the tube in the shell. 4 K-type thermocouples were used to read the hot and cold fluids inlet and outlet temperatures.

Sustainability

Heat transfer rate and cost significantly affect designs of shell and tube heat exchangers. From the viewpoint of engineering, an optimum design is obtained via maximum heat transfer rate and minimum cost. Here, an analysis of a radial, finned, shell and tube heat exchanger is carried out, considering nine design parameters: tube arrangement, tube diameter, tube pitch, tube length, number of

[PDF] Design and Development of Shell Tube Heat

In the first part of this paper, a simplified approach to design a Shell Tube Heat Exchanger [STHE] for beverage and process industry application is presented. The design of STHE includes thermal design and mechanical design. The thermal design of STHE involves evaluation of required effective surface area (i.e. number of tubes) and finding out log mean temperature difference [LMTD]. Whereas

Design optimization of a shell

2020/9/1Mellal et al. [] investigated a three-dimensional numerical simulation of turbulent fluid flow and heat transfer in the shell side of a shell and tube heat exchanger. They tested two primordial parameters: baffles spacing of 106.6, 80 and 64 mm and six baffles orientation angles of 45, 60, 90, 120, 150 and 180.

Research Paper SHELL TUBE HEAT EXCHANGER THERMAL DESIGN WITH OPTIMIZATION

Patel et al, International Journal of Advanced Engineering Research and Studies E-ISSN2249–8974 IJAERS/Vol. II/ Issue I/Oct.-Dec.,2012/130-135 Research Paper SHELL TUBE HEAT EXCHANGER THERMAL DESIGN WITH OPTIMIZATION OF MASS

Design Optimization of Shell and Tube Heat Exchanger by

Design Optimization of Shell and Tube Heat Exchanger by Vibration Analysis Shravan H. Gawande1, Appasaheb A. Keste1, Laxman G. Navale1, Milindkumar R. Nandgaonkar1, Vaishali J. Sonawane1, Umesh B. Ubarhande2 1 Department of Mechanical

Design of shell

This paper addresses the implications of potential flow-induced acoustic and tube vibration problems to the design of a shell-and-tube heat exchanger. Specific design limitations are described in light of the current understanding of flow-induced vibration phenomena. Although various design alternatives can be used to avoid vibration problems, they all exact a penalty in performance or cost

Design Optimization of Shell and Tube Heat Exchanger

Design Optimization of Shell and Tube Heat Exchanger by Vibration Analysis - Free download as PDF File (.pdf), Text File (.txt) or read online for free. Heat Exchanger The comprehensive experimental investigation on the augmentation of heat transfer coefficients and pressure drop during condensation of HFC-134a in a horizontal tube at the presence of diff erent twisted tape inserts was carried

Design optimization of shell

2008/10/1The optimization algorithm is suited to the design of shell-and-tube heat exchangers with single-phase fluids flowing in a unique shell. Before the optimization, the user must define the values of the parameters indicated in the left column of Table 1 .

Practical Thermal Design of Shell

Practical Thermal Design of Shell-and-Tube Heat Exchangers is a truly practical book with no less than 35 detailed case studies that serve to illustrate concepts, relate different topics and introduce applications. Thermal designers of shell-and-tube heat exchangers

Design Optimization of STHE by Vibration Analysis through HTRI

Design Optimization of Shell and Tube Heat Exchanger by Vibration Analysis through HTRI U .H .PATEL 1, K .N .BHOJAK 2 1P G Scholar, Mechanical Department, LDRP -ITR 2Professor, Mechanical Department, LDRP -ITR Abs tract in this paper a

Design of Shell and Tube Type Heat Exchanger using CFD Tools

Shell and tube heat exchanger design is normally based on correlations, among these, the Kern method and Bell-Delaware method are the most commonly used correlations. Kern method is mostly used for the preliminary design and provides conservative results.

Design Optimization of Shell and Tube Heat Exchanger by

In this paper a simplified approach to optimize the design of Shell Tube Heat Exchanger [STHE] by flow induced vibration analysis [FVA] is presented. The vibration analysis of STHE helps in achieving optimization in design by prevention of tube failure caused due to

Global optimization of the design of horizontal shell and tube

The literature about heat exchanger design optimization encompasses a large number of papers, but only a small fraction is dedicated to phase change systems. This article presents for the first time a linear design optimization approach for horizontal shell and tube

Module Package WTS

Calculation program for the design, optimization and simulation of shell-and-tube heat exchangers for single-phase media. Basic version for the calculation of single-phase media (liquid / gaseous), condensation of pure substances on smooth pipes, strongly revised tube

Performance Analysis and Design Optimization of Shell

2021/4/20The heat exchanger is made of acrylic material with 2 baffles and 7 tubes made of stainless steel. Hot fluid flows inside the tube and cold fluid flows over the tube in the shell. 4 K-type thermocouples were used to read the hot and cold fluids inlet and outlet temperatures.

Design of Shell

This chapter presents detailed computational methods for the analysis and design of shell-and-tube heat exchangers. The Simplified Delaware method is used to perform shell-side heat transfer and hydraulic calculations. Both plain and finned-tube exchangers are covered. Application of the computational methods is illustrated by means of example design problems that are worked in

Global optimization of the design of horizontal shell and tube

The literature about heat exchanger design optimization encompasses a large number of papers, but only a small fraction is dedicated to phase change systems. This article presents for the first time a linear design optimization approach for horizontal shell and tube

Design Optimization of Shell and Tube Heat Exchanger by Vibration

Design Optimization of Shell and Tube Heat Exchanger by Vibration Analysis Shravan H. Gawande1, Appasaheb A. Keste1, Laxman G. Navale1, Milindkumar R. Nandgaonkar1, Vaishali J. Sonawane1, Umesh B. Ubarhande2 1Department of Mechanical, ',

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