Spin Seebeck Effect for Longitudinal Fins Arrangement in Biomedical Application

Authors

  • Editor IEEEP
  • Usman Masud UET, Taxila
  • Iram Baig University of Central Punjab, Lahore 54000

Abstract

Solar power has been one of the forms of renewable energy. With this perspective, we aim to employ it in our biomedical sensor which is designed for human health. The said sensor needs permanent monitoring by the physicians, thereby demanding uninterrupted power in the hospitals. This work is designed to use solar energy as a thermal energy using latent heat storage system. The storage material used in this project is paraffin wax which stores heat as latent heat. Spin Seebeck effect has been utilized in the arrangement such that the stored energy can be continuously supplied to the sensor. Our results show that Phase change materials (PCMs), as underlying heat storing devices are much efficient than sensible heat storage. Our results have shown that the technique is very effective in terms of the sensor's performance, as indicated by the verification of the graphical investigation.

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Published

2015-01-01

How to Cite

[1]
E. IEEEP, Usman Masud, and Muhammad Iram Baig, “Spin Seebeck Effect for Longitudinal Fins Arrangement in Biomedical Application ”, INHRJ, Jan. 2015.