Energies (Sep 2018)

Practical Maximum-Power Extraction in Single Microbial Fuel Cell by Effective Delivery through Power Management System

  • Jeongjin Yeo,
  • Taeyoung Kim,
  • Jae Kyung Jang,
  • Yoonseok Yang

DOI
https://doi.org/10.3390/en11092312
Journal volume & issue
Vol. 11, no. 9
p. 2312

Abstract

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Power management systems (PMSs) are essential for the practical use of microbial fuel cell (MFC) technology, as they replace the unstable stacking of MFCs with step-up voltage conversion. Maximum-power extraction technology could improve the power output of MFCs; however, owing to the power consumption of the PMS operation, the maximum-power extraction point cannot deliver maximum power to the application load. This study proposes a practical power extraction for single MFCs, which reserves more electrical energy for an application load than conventional maximum power-point tracking (MPPT). When experimentally validated on a real MFC, the proposed method delivered higher output power during a longer PMS operation time than MPPT. The maximum power delivery enables more effective power conditioning of various micro-energy harvesting systems.

Keywords