Selection of turbulence promoters for retrofit applications through thermohydraulic performance mapping

•A new methodology to select turbulence promoters for retrofit is presented.•Thermohydraulic performance displayed through performance mapping plots.•Comparison based on ratio of heat load vs pressure drop increments.•Perforated twisted tape gives better results amidst different geometries.•Practica...

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Bibliographic Details
Published in:Thermal science and engineering progress 2023-07, Vol.42, p.101876, Article 101876
Main Authors: Picón-Núñez, Martín, Minchaca-Mojica, Jesús Isaac, Durán-Plazas, Leidy Paola
Format: Article
Language:English
Subjects:
Heat duty
Performance comparison
Performance mapping
Pressure drop
Turbulence promoters
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Summary:•A new methodology to select turbulence promoters for retrofit is presented.•Thermohydraulic performance displayed through performance mapping plots.•Comparison based on ratio of heat load vs pressure drop increments.•Perforated twisted tape gives better results amidst different geometries.•Practical application in heat exchanger network retrofit analysed. Many new heat transfer enhancement devices have been reported in the open literature in the past decades exhibiting innovative geometries and better thermal and hydraulic performance. For a practical application in tubular heat exchangers, the selection of the best inserts out of the many different geometries available can be a cumbersome task. This work shows an approach to reduce the complexity of the search by graphically displaying the relative increase of heat load and pressure drop by means of performance mapping plots. The analysis includes the use of Nusselt and friction correlations and their application at different Reynolds numbers and different fluid viscosities. Out of the different geometries available, a group of 51 are compared in terms of the effect on heat duty and pressure drop. The approach is extended to analyse the exchanger irreversibility. For different operating conditions and fluid types, it is shown that the perforated twisted tape is the best performing insert. This insert produces an increase in heat transfer rate between 4% and 7.3% and an increment in pressure drop between 2 and 3.43 times that of the base case.
ISSN:2451-9049
2451-9049
DOI:10.1016/j.tsep.2023.101876