Graduation Semester and Year
2021
Language
English
Document Type
Thesis
Degree Name
Master of Science in Mechanical Engineering
Department
Mechanical and Aerospace Engineering
First Advisor
Dereje Agonafer
Second Advisor
Seiichi Nomura
Abstract
An increase in utility of internet-based services, cloud computing and greater performance demands due to rising AI and ML applications have led to a steep growth in GPU and CPU thermal design power. Efficient thermal management of these processors has become a bottleneck in performance enhancement and corresponding power densification of these components. Furthermore, increased pressure on data center owners to reduce power demands and move towards green computing has exacerbated the data center cooling challenges. Single-phase immersion cooling allows data center owners to not only dissipate the increasing heat fluxes efficiently but can also potentially improve equipment reliability as the component are no longer exposed to air, humidity, and airborne contaminants. As a part of thermal design considerations when moving from air to immersion cooling, using optimized heat sinks designed for immersion systems plays a key role in obtaining optimal thermal performance from the CPU or GPU components. An in-depth study of designing such an optimized heat sink is addressed in this investigation. A baseline heat sink solution for an air-cooled Open Compute server was numerically optimized using multi-parametric and multi-objective optimizations. The thermal resistance of the heat sink and pumping power of the system were used as objective functions to obtain a heat sink design by tandem optimization of the fin parameters using optiSLang. The optimizations were carried out under both forced and natural convection flow regimes. Also, a comparison of the difference in optimized geometry of the heat sink was carried out for aluminum and copper as fin material. The final optimized heat sinks were used to gauge the percentage improvement in thermal performance and reduction in pumping power as compared to the baseline simulations that use an air-cooled heat sink.
Keywords
Single-phase immersion cooling, optiSLang
Disciplines
Aerospace Engineering | Engineering | Mechanical Engineering
License
This work is licensed under a Creative Commons Attribution-NonCommercial-Share Alike 4.0 International License.
Recommended Citation
Wagh, Tushar Rohidas, "Multi-Parametric and Multi-Objective Optimization of Heatsinks for Forced and Natural Convection Based Single-Phase Immersion Cooling of Server" (2021). Mechanical and Aerospace Engineering Theses. 731.
https://mavmatrix.uta.edu/mechaerospace_theses/731
Comments
Degree granted by The University of Texas at Arlington