Numerical Investigation of a Tubular Heat Exchanger Fitted with Triangular Ribs

Nabil Benamara; Djelloul Lahmer; Mohamed Merzoug; Abdelkader Lahcene; Abdelkader Boulenouar; Miloud Amınallah

doi:10.55549/epstem.1226677

Authors

Nabil Benamara Author
Djelloul Lahmer Author
Mohamed Merzoug Author
Abdelkader Lahcene Author
Abdelkader Boulenouar Author
Miloud Amınallah Author

DOI:

https://doi.org/10.55549/epstem.1226677

Keywords:

Turbulence ribs, Nusselt number Nu, Friction number Fr, Turbulence model K-ε RNG, Thermalhy

Abstract

In the present work we numerically study the effect of the presence of triangular shaped promoterson the efficiency of a tubular heat exchanger. When we talk about efficiency, we are generally faced withproblems of dynamic and thermal behavior within the latter. The main objective is to optimize the geometricparameters of the triangular-shaped promoters in order to collect the maximum energy at a minimum cost.Indeed, in the case of a two-dimensional simplified geometry, we considered the flow of an incompressible fluid(air) in a cylindrical heat exchanger tube equipped with baffles placed perpendicular to the direction of flow.Several baffle arrangements are considered according to the angle of inclination β, the space between the twosuccessive baffles (space ratio PR: P/Dh) and the length of the baffle (blocking ratio BR: e/Dh) . Thecalculations are carried out by means of the fluent computer code using the k-ε turbulence model, RNG, with aReynolds number Re varying from 3000 up to 13000. The results found indicated that the best thermalperformance obtained corresponds to β=30°;BR=0.2; PR=1 and Re=4000.