New Journal Publication: Cooling the Future with Nanofluid Dynamics
How can we cool high-performance electronics more efficiently? This question drives a new study co-authored by Ali S. Abosinnee, a PhD candidate at our department.
Published in the International Journal of Applied and Computational Mathematics (Springer), the research explores advanced cooling using "nanofluids" in complex channel structures. By simulating these fluids over wavy porous layers, the team found new ways to optimize thermal management systems. The results are significant: the proposed method enhances heat transfer efficiency by up to 37% while simultaneously reducing pressure drop, offering a promising path for energy-efficient engineering.
Reflecting our strong international network, this study involved a multinational collaboration with institutions in Malaysia (UKM), the UAE (Ajman University), and Iraq (University of Basrah, The Islamic University, University of Warith Al-Anbiyaa).
The Department congratulates the research team Ammar I. Alsabery, Muneer A. Ismael, Ali S. Abosinnee, Inas R. Ali, and Ishak Hashim on this contribution to numerical heat transfer.
The article can be found here.