Design point analyses of solid oxide fuel cell‐steam cycle combined system: Effects of fuel reforming and bottoming cycle steam parameters

Both anode off‐gas recirculation (AOGR) and cathode off‐gas recirculation (COGR) can increase the performance of solid oxide fuel cell‐combined heat and power (SOFC‐CHP) systems on their own, however, they both have unavoidable drawbacks. Thus, the combined effect of both on the system is worth investigating. The essential challenge is to figure out what the best AOGR and COGR ratios are under the combined situation. In this paper, the effects of varied AOGR ratios and COGR ratios on the system performance were investigated. A model of a 1 kW natural gas‐fueled SOFC‐CHP system was constructed which uses Cycle‐Tempo software. It is demonstrated that moderate AOGR can improve the net electrical efficiency, but too much AOGR will reduce the H2 concentration at the anode inlet and prevent the stack from working properly; moderate COGR can improve the thermal efficiency, but too much COGR can lead to large changes in current density variation and cause drastic changes in current, which affects the system and external electrical equipment. While, combining AOGR with COGR can improve both the net electrical and thermal efficiency, which results in higher total efficiency. As a result, the combined configuration of an AOGR ratio of 0.4 and a COGR ratio of 0.4 is recommended. In this scenario, the net electrical efficiency of the system is 47.38%, the thermal efficiency is 28.98%, the total efficiency is 76.37%, and the actual fuel utilization rate is 0.834.

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“…UA represents the overall heat transfer coefficient multiplied by the heat transfer surface area. The specific calculation is as follows [23].…”

Section: System Designmentioning

confidence: 99%

Performance analysis of a natural gas‐fueled 1 kW solid oxide fuel cell‐combined heat and power system with off‐gas recirculation of anode and cathode

Zhu

Bai

et al. 2022

Fuel Cells

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Enhancing geothermal ORC power generation with SOFC: A comprehensive parametric study on thermodynamic performance

Liu

Qin

2023

Applied Thermal Engineering

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Influence of Off Gas Recirculation on the Intermediate Temperature SOFC With Partial Oxidation Reformer

Liu

Zhu

et al. 2022

Journal of Electrochemical Energy Conversion and Storage

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Solid oxide fuel cell(SOFC) is a clean and efficient energy utilization technology. Partial oxidation reforming(POX) can be used to simplify SOFC system structure, but its lower hydrogen production rate deteriorates system performance. A wise method may be combining anode off gas recirculation(AOGR) and cathode off gas recirculation(COGR) with POX. Thus, their influence on the coupled system of intermediate temperature SOFC and POX is researched in detail in this paper. Results show that the reforming process gradually changes from exothermic to endothermic as AOGR rate increases. Meanwhile, its oxygen demand declines sharply and the process can even be self-sustained without external air input at the AOGR rate of 0.5 and 0.6. The application of AOGR can improve electrical efficiency up to 51%, but at the expense of thermal efficiency. Excessive AOGR rates will result in decreased cell voltage and insufficient energy supply to the after-burner, so it should be restricted within a reasonable range and the best recommended value is 0.5. The application of COGR has little effect on fuel line parameters, so it cause little deterioration in electrical efficiency while improving thermal efficiency. Besides, cell voltage is also insensitive to it. The combination of AOGR and COGR can obtain better fuel economy and larger cogeneration scale simultaneously at the cost of a tiny electrical output power, while an optimal balance between three efficiencies is also achieved.

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Design point analyses of solid oxide fuel cell‐steam cycle combined system: Effects of fuel reforming and bottoming cycle steam parameters

Cited by 4 publications

References 66 publications

Performance analysis of a natural gas‐fueled 1 kW solid oxide fuel cell‐combined heat and power system with off‐gas recirculation of anode and cathode

Performance analysis of a natural gas‐fueled 1 kW solid oxide fuel cell‐combined heat and power system with off‐gas recirculation of anode and cathode

Enhancing geothermal ORC power generation with SOFC: A comprehensive parametric study on thermodynamic performance

Influence of Off Gas Recirculation on the Intermediate Temperature SOFC With Partial Oxidation Reformer

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