Design and Analysis of a Plate Heat Exchanger in the View of Performance Improvement and Cost Reduction

Jamshak, S H.; Anand, M. Dev; Akshay, S B.; Arun, S. Mujumdar; Prajeev, J; Prabhakaran, Prajeesh

doi:10.14419/ijet.v7i3.27.17994

Cited by 8 publications

(5 citation statements)

References 6 publications

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“…Table 1 shows the various gasket materials available in market. [7] According to Radian Corporation's testing, Buna-N and Viton both work well in geothermal applications.…”

Section: Materials Selectionmentioning

confidence: 99%

Design of Plate Heat Exchanger to Reduce the Oil Cooling Time

2023

IRJMETS

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This paper features a discussion on design of Plate Type Heat Exchanger (PHE) to reduce oil cooling time. Conventional heat exchanger has many disadvantages such as complicated maintenance, high cost, consumes more space. While Plate Heat Exchanger has lot of advantages over conventional heat exchangers. PHE has larger surface area because the liquid spreads over the plate. The plate allows faster heat transfer hence the paper discuss and presents the design of the plate type heat exchanger, plate material, chevron angle, gasket material.

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“…Table 1 shows the various gasket materials available in market. [7] According to Radian Corporation's testing, Buna-N and Viton both work well in geothermal applications.…”

Section: Materials Selectionmentioning

confidence: 99%

Design of Plate Heat Exchanger to Reduce the Oil Cooling Time

2023

IRJMETS

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“…Table 1 shows the various gasket materials available in market. [7] According to Radian Corporation's testing, Buna-N and Viton both work well in geothermal applications. According to test results, neoprene Buna-S and natural rubber both performed badly in a severe compression set (Ellis and Conover, 1981).…”

Section: Materials Selectionmentioning

confidence: 99%

Design of Plate Heat Exchanger for Heat Treatment Industry

Waghmare¹

2023

IJSREM

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This study discusses the design of plate type heat exchangers (PHE). Conventional heat exchangers have many drawbacks, including difficult maintenance, high cost, and increased area usage. In contrast, plate heat exchangers have a number of benefits over traditional heat exchangers. Because the liquid spreads across the plate, PHE has a bigger surface area. The study discusses and explains the design of the plate type heat exchanger, plate material, chevron angle, and gasket material since the plate allows for faster heat transmission. Key Words: Plate heat exchanger, Design, materials.

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“…A plate heat exchanger (PHE) is a component which enables heat to be transferred from hot to cold medium without mixing them [14][15][16][17]. Here, the total heat transfer surface of channel plates is very large, which enables a high efficiency of such a component.…”

Section: Introductionmentioning

confidence: 99%

Fatigue Behaviour of Brazed Joints for Heat Exchangers

Hanželič,

Kralj,

Bončina

et al. 2024

Materials

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The plate heat exchanger (PHE) is a component that provides heat to be transferred from hot water to domestic cold water without mixing them with high efficiency. Over the lifetime of the PHE, cyclic pressures act on the brazing points and the plates, and this may lead to fatigue failure. The fatigue behaviour of the PHE, designed using copper-brazed 316L stainless steel, was investigated in this study. First, the fatigue tests under the load ratio R = 0.1 were performed on the Vibrophore 100 testing machine to obtain the S-N curve of the analysed brazed joint. Based on the obtained experimental results, an appropriate material model of the analysed brazed joint has been created, which was validated with numerical calculation in the framework of a program code Ansys. A validated material model was then used for the subsequent numerical analysis of PHE. In order to carry out a numerical calculation using the finite element method (FEM), a three-dimensional model of the heat exchanger was created based on the previous scanning of PHE-geometry. Thereafter, the geometry was parameterised, which allowed us to perform parametric simulations (monitoring different responses depending on the input geometry). Numerical simulations were carried out in the framework of the Ansys 2023-R1 software, whereby the obtained results were analysed, and the responses were appropriately characterised according to previously determined load cases.

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Design and Analysis of a Plate Heat Exchanger in the View of Performance Improvement and Cost Reduction

Cited by 8 publications

References 6 publications

Design of Plate Heat Exchanger to Reduce the Oil Cooling Time

Design of Plate Heat Exchanger to Reduce the Oil Cooling Time

Design of Plate Heat Exchanger for Heat Treatment Industry

Fatigue Behaviour of Brazed Joints for Heat Exchangers

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