Add to ORKGThe present work concerns a depolarization type bioelectrochemical fuel-cell with a bioanode consisting of a Micrococcus cerificans/glucose resting-cell system. Its response is interpreted in terms of an oxygen supplying zone (electrode) and an oxygen-consuming zone (cellular mass) separated by the cell membrane areas. The influence of the substrate and microorganism concentrations in the kinetics of the overall process is evaluated, and the maximum efficiency for cell design is discussed.Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicada
This work concerns the conception of a PEM electrochemical cell for oxygen depletion from an air flo...
The growing depletion of fossil fuels and its associated environmental concerns have drawn significa...
This thesis focuses on studies of both enzymatic (EFC) and microbial (MFC) fuel cells. In the enzyma...
Studies on Microbial Fuel Cells (MFC) as Power production units are of increasing interest, because ...
Derivation of a mathematical model for microbial fuel cells (MFC) with suspended biomass and added e...
Dynamic mathematical models represent a useful tool in portraying unsteady-state behavior and unders...
In this paper, two-dimensional steady-state and dynamic models for an enzymatic fuel cell are develo...
Studies cf Microbial Fuel Ceils (MI C) as Power production units is of increasing interest because i...
The use of biofuel cells (BFC) is a promising approach to generate electricity. BFC can be successfu...
Multi-dimensional steady-state and dynamic models for an enzymatic fuel cell are developed. In the m...
In this work, a dynamic computational model is developed for a single chamber microbial fuel cell (M...
An electrochemical model for a microbial fuel cell process is proposed here. The model was set up on...
This work presents a two-population model describing the competition of anodophilic and methanogenic...
Abstract: Microbial Fuel Cell (MFC) is a bioelectrical and chemical system in which bacteria is util...
In this study, mathematical models are developed for a Microbial Fuel Cell (MFC) with a ‘fermenter-E...
This work concerns the conception of a PEM electrochemical cell for oxygen depletion from an air flo...
The growing depletion of fossil fuels and its associated environmental concerns have drawn significa...
This thesis focuses on studies of both enzymatic (EFC) and microbial (MFC) fuel cells. In the enzyma...
Studies on Microbial Fuel Cells (MFC) as Power production units are of increasing interest, because ...
Derivation of a mathematical model for microbial fuel cells (MFC) with suspended biomass and added e...
Dynamic mathematical models represent a useful tool in portraying unsteady-state behavior and unders...
In this paper, two-dimensional steady-state and dynamic models for an enzymatic fuel cell are develo...
Studies cf Microbial Fuel Ceils (MI C) as Power production units is of increasing interest because i...
The use of biofuel cells (BFC) is a promising approach to generate electricity. BFC can be successfu...
Multi-dimensional steady-state and dynamic models for an enzymatic fuel cell are developed. In the m...
In this work, a dynamic computational model is developed for a single chamber microbial fuel cell (M...
An electrochemical model for a microbial fuel cell process is proposed here. The model was set up on...
This work presents a two-population model describing the competition of anodophilic and methanogenic...
Abstract: Microbial Fuel Cell (MFC) is a bioelectrical and chemical system in which bacteria is util...
In this study, mathematical models are developed for a Microbial Fuel Cell (MFC) with a ‘fermenter-E...
This work concerns the conception of a PEM electrochemical cell for oxygen depletion from an air flo...
The growing depletion of fossil fuels and its associated environmental concerns have drawn significa...
This thesis focuses on studies of both enzymatic (EFC) and microbial (MFC) fuel cells. In the enzyma...