Proposal and assessment of a solid oxide fuel cell cogeneration system in order to produce high-temperature steam aiming at industrial applications

Abstract

The feature of operating at high temperature enables solid oxide fuel cell (SOFC) generating power at impressive efficiency while providing useful heat. Commercial SOFC cogeneration products for domestic hot water supply are already available, however, the potential of supplying high-temperature heat (especially in the form of steam) for industrial applications has not been well exploited yet. Here, a new SOFC cogeneration system layout is proposed and studied to address the problem. The core idea is to utilize the residual heat in parallel by the method of splitting the high-temperature streams, rather than in cascade as in traditional layouts. Therefore, the application of SOFC cogeneration can be expanded from providing low-temperature heat to high-temperature heat, from homes to industries. The simulation result shows that the layout with anode gas recycle (AGR) has the best performance in both net and cogeneration efficiency. The best predicted net efficiency is 56.9% and cogeneration efficiency 86.8% for the AGR layout. For the AGR layout with a net capacity of 10MW, the steam production ability of medium, low and super low pressures are 5903kg/h, 6436kg/h and 6748kg/h, respectively. The investigated gas split locations only have negligible effect on the steam production ability.