The transfer system of the Microbial Fuel Cell ensured that the
isolation of cultures was maintained. Furthermore, the containment of
any possible contaminants was prevented with the architectural nature of
the microbial Fuel Cell. Each chamber of the MFC was interconnected with
pvc piping network, regulating and aggregating the nutrient and
biological media of the Anodic and Cathodic regions. Additionally, the
input and output exchange system of the fuel cell made configuration,
attachability, and addition/reduction possible. In other words,
adjusting critical parameters and concentrations was straightforward
through the convenient architectural properties of the MFC. The Anodic
and Cathodic chambers were constructed to mimic the regulatory
conditions of a bioreactor. More specifically, the Anode chamber ensured
stabilization of parameters and critical variables in culture and media
to ensure controlled chamber conditions.