Predicting the ultimate potential of natural gas SOFC power cycles with CO2 capture: Part B: Applications

Publication date

2016-09-01

Authors

Campanari, Stefano
Mastropasqua, Luca
Gazzani, MatteoORCID 0000-0002-1352-4562ISNI 0000000492887250
Chiesa, Paolo
Romano, Matteo C.

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Abstract

An important advantage of solid oxide fuel cells (SOFC) as future systems for large scale power generation is the possibility of being efficiently integrated with processes for CO2 capture. Focusing on natural gas power generation, Part A of this work assessed the performances of advanced pressurised and atmospheric plant configurations (SOFC + GT and SOFC + ST, with fuel cell integration within a gas turbine or a steam turbine cycle) without CO2 separation. This Part B paper investigates such kind of power cycles when applied to CO2 capture, proposing two ultra-high efficiency plant configurations based on advanced intermediate-temperature SOFCs with internal reforming and low temperature CO2 separation process. The power plants are simulated at the 100 MW scale with a set of realistic assumptions about FC performances, main components and auxiliaries, and show the capability of exceeding 70% LHV efficiency with high CO2 capture (above 80%) and a low specific primary energy consumption for the CO2 avoided (1.1-2.4 MJ kg-1). Detailed results are presented in terms of energy and material balances, and a sensitivity analysis of plant performance is developed vs. FC voltage and fuel utilisation to investigate possible long-term improvements. Options for further improvement of the CO2 capture efficiency are also addressed.

Keywords

CO2 capture, Hybrid cycle, Natural gas, SOFC power cycle, Renewable Energy, Sustainability and the Environment, Energy Engineering and Power Technology, Physical and Theoretical Chemistry, Electrical and Electronic Engineering, SDG 7 - Affordable and Clean Energy

Citation

Campanari, S, Mastropasqua, L, Gazzani, M, Chiesa, P & Romano, M C 2016, 'Predicting the ultimate potential of natural gas SOFC power cycles with CO 2 capture : Part B: Applications', Journal of Power Sources, vol. 325, pp. 194-208. https://doi.org/10.1016/j.jpowsour.2016.05.134