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- Bridging the Terahertz Gap
- Modeling the Lithium-Ion Battery
- Protection contre la Corrosion
- Modélisation des batteries
- Modélisation et Simulation dans le développement des piles à combustible
- Modélisation thermique des petits satellites
- Analyse électro-vibroacoustique d'un transducteur à armature équilibrée
Embedded Microfluidic/Thermoelectric Generation System for Self-Cooling of Electronic Devices
Publié en 2014
A 3D electro-conjugate heat transfer model was made to study an embedded microfluidic/TEG system (μF/TEG) system. An innovative embedded microfluidic/TEG system (μF/TEG) system is proposed which enables a device to be able to provide power to its cooling system eliminating external power input and resulting in energy efficient and more reliable heat removal system. The research identifies important heat transfer, fluid flow and electrical parameters and optimization to enable the system to generate enough electricity to cool itself. COMSOL Multiphysics® software was utilized to analyze temperature and electrical characteristics of the embedded microfluidic/TEG system (μF/TEG) system

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- kiflemariam_poster.pdf - 0.83MB
- kiflemariam_paper.pdf - 0.86MB
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