Add to ORKGBiogas is composed of variable gases including hydrogen, nitrogen and sulphur, with methane and carbon dioxide as the main components. The common ratio of methane to carbon dioxide is 60/40 in volume and this high amount of methane causes carbon deposition when biogas is used in solid oxide fuel cells. To prevent carbon deposition, dry reforming, steam reforming or partial oxidation is the common method. In this paper, a nickel cermet solid oxide fuel cell was investigated with a simulated biogas based on 63 % CH4 and 37 % CO2, which was obtained by presuming 80 % fuel utilisation and 25 % recirculation of anode gas. Supplied with a 30 ml/min of simulated biogas, the cell generated a maximum power density of 856 mW cm-2 at 850 °C. The cell ...
This paper presents a multiphysics model for the simulation of solid oxide fuel cell operating on bi...
This paper investigates simulation results of the thermodynamic performance of a 25 kW<sub>el</sub> ...
Summarization: A high temperature (700–900 °C) SOFC with yttria stabilized zirconia (YSZ) solid elec...
Biogas is composed of variable gases including hydrogen, nitrogen and sulphur, with methane and carb...
Solid oxide fuel cells (SOFC) are the most efficient devices for directly converting the chemical en...
Internal dry reforming (IDR) of methane for biogas-fed solid oxide fuel cell (SOFC) applications has...
Fuel cells are promising with advantages of higher energy conversion efficiency and lower emissions ...
Ni-YSZ anode supported solid oxide fuel cells (ASCs) were tested under various simulated syngas. The...
This work is aimed at evaluating the influence of carbon deposition on the power density drop of in-...
Summarization: An intermediate temperature solid oxide fuel cell (SOFC) based on a gadolinia doped c...
Ni-YSZ anode supported solid oxide fuel cells (ASCs) were tested under various simulated syngas. The...
The computer-aided engineering approach has made it possible to achieve virtual prototypes and to de...
The biogas needs to be reformed before electro-chemical conversion in the solid-oxide fuel cell, whi...
Biogas, consisting of CH4, CO2 and a small amount of H2S, is one of the most promising alternative e...
This paper presents a multiphysics model for the simulation of solid oxide fuel cell operating on bi...
This paper investigates simulation results of the thermodynamic performance of a 25 kW<sub>el</sub> ...
Summarization: A high temperature (700–900 °C) SOFC with yttria stabilized zirconia (YSZ) solid elec...
Biogas is composed of variable gases including hydrogen, nitrogen and sulphur, with methane and carb...
Solid oxide fuel cells (SOFC) are the most efficient devices for directly converting the chemical en...
Internal dry reforming (IDR) of methane for biogas-fed solid oxide fuel cell (SOFC) applications has...
Fuel cells are promising with advantages of higher energy conversion efficiency and lower emissions ...
Ni-YSZ anode supported solid oxide fuel cells (ASCs) were tested under various simulated syngas. The...
This work is aimed at evaluating the influence of carbon deposition on the power density drop of in-...
Summarization: An intermediate temperature solid oxide fuel cell (SOFC) based on a gadolinia doped c...
Ni-YSZ anode supported solid oxide fuel cells (ASCs) were tested under various simulated syngas. The...
The computer-aided engineering approach has made it possible to achieve virtual prototypes and to de...
The biogas needs to be reformed before electro-chemical conversion in the solid-oxide fuel cell, whi...
Biogas, consisting of CH4, CO2 and a small amount of H2S, is one of the most promising alternative e...
This paper presents a multiphysics model for the simulation of solid oxide fuel cell operating on bi...
This paper investigates simulation results of the thermodynamic performance of a 25 kW<sub>el</sub> ...
Summarization: A high temperature (700–900 °C) SOFC with yttria stabilized zirconia (YSZ) solid elec...