A Computational Fluid Dynamic Investigation of a Data Centre Employing Rear Door Heat Exchangers

As the global demand for data services expands, cooling in centres continues to evolve towards more efficient and cost-effective systems. Incorporating active rear door heat exchangers has become a popular reliable method that increases capability of operate at higher power densities. This study conducts thermal analysis centre employing with use computational fluid dynamic (CFD) techniques. The under investigation contains seventy-seven cooled racks three additional uncooled operating hall. main purpose this is understand how affect temperature distribution centre. presents modelling technique which uses velocity field measurements facilitate exchangers. Computer server was carried out varying inlet load. Server simulation results have been utilized create four scenarios. Scenarios were created show load Data scenarios used validate compare performed. It found dissipation directly related server’s profile. From it when loaded are isolated amongst lower less significant than if situated clusters or more. also could be positioned strategically diminish effect untreated air produced by findings from paper help behaviour suggests areas consider reviewing pre-existing designs.