Iachachene, FaridaMataoui, Amina2024-10-242024-10-2420241468-4349https://www.inderscienceonline.com/doi/10.1504/PCFD.2024.142059https://doi.org/10.1504/PCFD.2024.142059https://dspace.univ-boumerdes.dz/handle/123456789/14529This paper numerically investigates the cooling of a heated rectangular cavity by a cold slot jet. The study aims to examine the effect of the jet location inside the cavity (Lf and Lh) and Reynolds number on heat transfer, using URANS turbulence modelling. Different flow behaviours, including oscillatory and steady flows, are generated depending on the jet location inside the cavity. The study identifies and discusses the optimal jet locations for achieving optimal cavity cooling. The results indicate that the lateral placement of the jet has a negligible effect on heat transfer across all cavity walls. Additionally, oscillatory flow consistently expands the heat exchange zone along all three walls, resulting in a wider effective exchange area compared to steady flow conditions. The study proposes optimised jet positions within the cavity for specific wall cooling requirements. By considering the optimal combination of jet height and impinging distance, the cooling performance can be optimised.enCFDFinite volume methodHeat transferJet locationJet-cavity interactionOptimal jet locationsOscillatory flowSlow jetSteady flowURANSArticle