Title of article
Design and optimization of a combined fuel reforming and solid oxide fuel cell system with anode off-gas recycling
Author/Authors
Lee، نويسنده , , Tae Seok and Chung، نويسنده , , J.N. and Chen، نويسنده , , Yen-Cho، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2011
Pages
13
From page
3214
To page
3226
Abstract
An energy conversion and management concept for a combined system of a solid oxide fuel cell coupled with a fuel reforming device is developed and analyzed by a thermodynamic and electrochemical model. The model is verified by an experiment and then used to evaluate the overall system performance and to further suggest an optimal design strategy. The unique feature of the system is the inclusion of the anode off-gas recycle that eliminates the need of external water consumption for practical applications. The system performance is evaluated as a function of the steam to carbon ratio, fuel cell temperature, anode off gas recycle ratio and CO2 adsorption percentage. For most of the operating conditions investigated, the system efficiency starts at around 70% and then monotonically decreases to the average of 50% at the peak power density before dropping down to zero at the limiting current density point. From an engineering application point of view, the proposed combined fuel reforming and SOFC system with a range of efficiency between 50% and 70% is considered very attractive. It is suggested that the optimal system is the one where the SOFC operates around 900 °C with S/C ratio higher than 3, maximum CO2 capture, and minimum AOG recirculation.
Keywords
Anode off-gas , System efficiency , Dodecane , SOFC , Fuel processor , Steam reforming
Journal title
Energy Conversion and Management
Serial Year
2011
Journal title
Energy Conversion and Management
Record number
2335772
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