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Micro / nano phase transition physics
We use nano engineering materials, intelligent vision and the most advanced model / experimental methods to study micro / nano scale phenomena, so as to make a breakthrough in the field of thermal science.
Renewable thermal solutions
In view of accelerated climate change and compliance with environmental regulations, it is crucial to develop renewable thermal solutions that can more effectively convert heat into electricity or provide heating / cooling without using electricity.
Intelligent thermal management
Due to the rapid increase of power density in semiconductor and electrical platforms, thermal design and management has become one of the core differentiation factors that significantly affect the performance and reliability of such platforms. In many state-of-the-art devices, the number, size and power density of chips and batteries are changing rapidly, which brings another challenge in thermal design and management. To overcome these challenges, we have been developing intelligent thermal design methods and thermal management solutions. In particular, we are interested in combining artificial neural network optimization, new thermal materials and additive manufacturing to effectively develop advanced thermal management solutions.
Nano engineering thermal materials
By customizing the micro / nano thermophysical properties of surfaces and materials, we can approach the theoretical limits of heat transfer or induce the unique functions of thermal solutions. Our team studied various nano engineered materials to customize micro / nano phase change physics, including nucleation, adsorption, film and contact line dynamics.
We use nano engineering materials, intelligent vision and the most advanced model / experimental methods to study micro / nano scale phenomena, so as to make a breakthrough in the field of thermal science.
Renewable thermal solutions
In view of accelerated climate change and compliance with environmental regulations, it is crucial to develop renewable thermal solutions that can more effectively convert heat into electricity or provide heating / cooling without using electricity.
Intelligent thermal management
Due to the rapid increase of power density in semiconductor and electrical platforms, thermal design and management has become one of the core differentiation factors that significantly affect the performance and reliability of such platforms. In many state-of-the-art devices, the number, size and power density of chips and batteries are changing rapidly, which brings another challenge in thermal design and management. To overcome these challenges, we have been developing intelligent thermal design methods and thermal management solutions. In particular, we are interested in combining artificial neural network optimization, new thermal materials and additive manufacturing to effectively develop advanced thermal management solutions.
Nano engineering thermal materials
By customizing the micro / nano thermophysical properties of surfaces and materials, we can approach the theoretical limits of heat transfer or induce the unique functions of thermal solutions. Our team studied various nano engineered materials to customize micro / nano phase change physics, including nucleation, adsorption, film and contact line dynamics.
研究兴趣
论文共 125 篇作者统计合作学者相似作者
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Journal of Membrane Sciencepp.122722, (2024)
International Communications in Heat and Mass Transfer (2024): 107354
Seungwoo Kim,Seokkan Ki,Soosik Bang, Sanghyung Han,Junyong Seo, Chulmin Ahn, Suhyeon Maeng,Bong Jae Lee,Youngsuk Nam
Advanced science (Weinheim, Baden-Wurttemberg, Germany)pp.e2310185-e2310185, (2024)
Journal of Membrane Science (2023): 121451-121451
SSRN Electronic Journal (2023): 106935-106935
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Jaehwan Shim,Seungtae Oh, Seungwoo Kim,Donghyun Seo, Subeen Shin, Haeseung Lee, Younghwan Ko,Youngsuk Nam
International Conference on Fluid Flow and Thermal ScienceProceedings of the 3rd International Conference on Fluid Flow and Thermal Science (ICFFTS'22) (2022)
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