论文信息 - Impact of steam reformer on the design and control of an energy integrated solid oxide fuel cell system

Impact of steam reformer on the design and control of an energy integrated solid oxide fuel cell system

Energy integrated fuel cell systems show the potential for highly efficient and enviromentally friendly power generation. In this study, an energy integrated system with a solid oxide fuel cell (SOFC) and a methane steam reformer is considered. The effect of the reformer design parameters (steam-to-carbon (S/C) ratio and operating temperature) on the steady-state performance of the entire SOFC system is studied. Additionally, the effect of the S/C ratio on the open-loop behavior is also analyzed under small and large steps in the current. Lastly, the closed-loop performance of the entire energy system for a decentralized control scheme is evaluated under a large disturbance in load current.

Prodromos Daoutidis | Dimitrios Georgis | Sujit S. Jogwar | Ali S. Almansoori

[1] Prodromos Daoutidis,et al. Design and control of energy integrated SOFC systems for in situ hydrogen production and power generation , 2011, Comput. Chem. Eng..

[2] Faryar Jabbari,et al. Novel solid oxide fuel cell system controller for rapid load following , 2007 .

[3] K. Kendall,et al. High temperature solid oxide fuel cells : fundamentals, design and applicatons , 2003 .

[4] Fabian Mueller,et al. Synergistic integration of a gas turbine and solid oxide fuel cell for improved transient capability , 2008 .

[5] Xianguo Li. Principles of fuel cells , 2005 .

[6] Thomas A. Adams,et al. High-efficiency power production from natural gas with carbon capture , 2010 .

[7] Douglas J. Nelson,et al. Fuel cell systems: efficient, flexible energy conversion for the 21st century , 2001, Proc. IEEE.

[8] Xiongwen Zhang,et al. A review of integration strategies for solid oxide fuel cells , 2010 .

[9] J. Sadhukhan,et al. Energy Integration and Analysis of Solid Oxide Fuel Cell Based Microcombined Heat and Power Systems and Other Renewable Systems Using Biomass Waste Derived Syngas , 2010 .