期刊
EUROPEAN PHYSICAL JOURNAL-APPLIED PHYSICS
卷 79, 期 1, 页码 -出版社
EDP SCIENCES S A
DOI: 10.1051/epjap/2017160485
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Recovering waste heat from integrated circuits of a laptop using thermoelectricity effects seems to be an appropriate process to enhance its efficiency. Thermoelectricity, as an energy harvesting process, helps to gain on both sides: financially as it reduces the energy consumption and environmentally as it minimizes the carbon footprint. This paper presents a flexible thermoelectric generator module which is developed to harvest waste heat of the laptop to power up some external loads. First, a theoretical analysis of the system is provided where both thermal and electrical models are exposed. Second, an estimation of the power density harvested by only one thermoelectric leg is given. This estimation can reach 0.01 mu W/cm(2) and it is confirmed by a numerical simulation based on the finite element method. Afterwards, this power density is improved to become 0.4 mu W/cm(2) by adding a heat sink in the cold side showing that the thermal resistances of the air and of the heat sink play a crucial role in transferring the temperature gradient to the thermoelectric (TE) material. Finally, it is indicated that the power harvested can be enough to power up portion of the circuitry or other important micro-accessories by using numerous thermoelectric modules.
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