Litcius/Paper detail

Numerical investigation of the flow dynamics and heat transfer in a rectangular shell-and-tube heat exchanger

Marwa Ben Slimene, Sébastien Poncet, Jamel Bessrour, Ftouh Kallel

2022Case Studies in Thermal Engineering33 citationsDOIOpen Access PDF

Abstract

Numerical simulations have been carried out to investigate the turbulent flows and coupled conductive/convective heat transfers in a glycol to water shell-and-tube heat exchanger (one shell, one tube doing six passes). The refrigerant (glycol) flows in the tube, and a secondary fluid (water) flows in the shell. The k-ω SST model is used to close the system of equations in the turbulent regime. The present model is first favorably compared and validated against experimental and numerical researches for a concentric annular heated pipe for two radius ratios (R∗=0.1and0.5) at a bulk Reynolds number ReDh=8900 and a Prandtl number Pr=0.71. It is then extended to consider the shell-and-tube configuration with a rectangular shell. Its thermo-hydraulic performances in the tube side are quantified for different Reynolds numbers at the cold inlet ranging from 1.03 × 103 to 1.47 × 105. The performance of the heat exchanger is then enhanced by introducing baffles in the rectangular shell. The results are finally discussed in terms of three global performance metrics.

Topics & Concepts

BaffleShell and tube heat exchangerMechanicsTurbulenceHeat exchangerReynolds numberConcentric tube heat exchangerMaterials sciencePrandtl numberThermodynamicsHeat transferShell (structure)PhysicsComposite materialHeat Transfer and OptimizationHeat Transfer MechanismsNanofluid Flow and Heat Transfer