Optimization simulation of water-cooling for heating coils
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DOI: 10.25236/icetmr.2024.013
Author(s)
Shawn Wei Wen Yao
Corresponding Author
Wen Yao
Abstract
This article explores the feasibility of water-cooling systems in adaptive optics, mainly introducing the applications and future prospects of adaptive optics, and briefly summarizing the potential power of adaptive optics in space exploration and atmospheric physics. The article also analysed the advantages of water-cooled systems in several traditional and emerging cooling methods, and compared the unique advantages of water-cooled cooling in adaptive optics that other cooling methods do not have. The article will also introduce the unique heat dissipation advantages and selection reasons of copper coils in water-cooled heat dissipation. Subsequently, the article will introduce the temperature algorithm used in the adaptive optics water-cooling model - Fourier's law. This is a method of deconstructing temperature in three-dimensional directions and calculating its distribution, and it is also a very important part of fluid dynamics simulation and temperature simulation. Finally, the article will display the temperature change cloud map and evaluate the water-cooling system in adaptive optics to determine whether the cooling effect of the water-cooling system on the heating copper coil is significant.
Keywords
Water-cooling, Heating coils, Simulation Optimization, Computational Fluid Dynamics