2D Numerical Physical Model Setting for Three Kinds of Electron Transferring Pathway in Microbial Fuel Cells

Abstract: Microbial fuel cells (MFCs) are bio-electrochemical transducers that produce electrical energy by the decomposition of organic matter with the aid of microorganisms. Through the transfer of electrons, energy can be delivered to an electrode surface, and understanding the electron transport mechanisms has become very crucial. Although significant research has been carried out in this field, relatively few reports have been based on numerical simulations. Therefore, this study was initiated to design a computati… Show more

“…A maximum cell voltage at 200 mA cm −2 was obtained at the KOH concentration of 40 wt%, but further increase in the electrolyte concentration reduced the cell voltage. The relationship between the electrolyte concentration and power output can be better explained by the Nernst equation which indicates the affiliation between the reversible potential (E 0 ) of electrochemical reaction, temperature, derive current density and standard potentials [17,18].…”

Optimization of the Electrolyte Parameters and Components in Zinc Particle Fuel Cells

“…A maximum cell voltage at 200 mA cm −2 was obtained at the KOH concentration of 40 wt%, but further increase in the electrolyte concentration reduced the cell voltage. The relationship between the electrolyte concentration and power output can be better explained by the Nernst equation which indicates the affiliation between the reversible potential (E 0 ) of electrochemical reaction, temperature, derive current density and standard potentials [17,18].…”

Optimization of the Electrolyte Parameters and Components in Zinc Particle Fuel Cells