This paper discusses the principles of designing thermoelectric generators optimized for energy harvesting on low-temperature sources of waste heat. The ...

It is shown that the proposed equations allow thermal optimization of energy harvesters to reach their top performance characteristics. The example of thermal ...

It is shown that the proposed equations allow thermal optimization of energy harvesters to reach their top performance characteristics. The example of thermal ...

Theory and simulation of a thermally matched micromachined thermopile in a wearable energy harvester ... In this paper, a new theoretical concept in the ...

Theory and simulation of a thermally matched micromachined thermopile in a wearable energy harvester ; dc.contributor.author, Leonov, Vladimir ; dc.contributor.

Theory and simulation of a thermally matched micromachined thermopile in a wearable energy harvester. Authors: Vladimir Leonov Paolo Fiorini.

PDF | The design of thermoelectric MEMS converters (power generators) suited for self-powered wearable devices is proposed and analyzed. Micromachined.

Nov 22, 2011 · In such a case, the human body serves as a natural heat supply for wearable thermopiles. The study shows that relevant local body properties ...

Theory and simulation of a thermally matched micromachined thermopile in a wearable energy harvester · Vladimir Leonov · Paolo Fiorini · Ruud J.M. Vullers ...

Theory and simulation of a thermally matched micromachined thermopile in a wearable energy harvester . Leonov, Vladimir; Fiorini, Paolo ...