Modelling of sorption-enhanced steam methane reforming in a fixed bed reactor network integrated with fuel cell

Date

2017-12-06

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Publisher

Elsevier

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Article

ISSN

0306-2619

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Citation

Diglio G, Hanak DP, Bareschino P, Pepe F, Montagnaro F, Manovic V, Modelling of sorption-enhanced steam methane reforming in a fixed bed reactor network integrated with fuel cell, Applied Energy, Vol. 210, 15 January 2018, pp. 1-15

Abstract

In this study sorption-enhanced steam methane reforming (SE-SMR) in fixed beds is investigated by means of 1D numerical modelling, and the model is validated with the data reported in the literature. Isothermal conditions (973 K) are considered, and the equilibrium between the carbonation and calcination stages is shifted by a pressure swing: 3.5 · 106 Pa and 1013 Pa, respectively. The results showed that under these operating conditions at least 8 reactors in parallel are required to continuously produce a high-purity stream of H2, and a separated stream of concentrated CO2. The average H2 purity is 0.92, whilst the average H2 yield and selectivity are 2.9 molH2 molCH4−1 and 90%, respectively. A thermodynamic analysis was performed, which highlighted that, by using a portion of the produced H2 (about 0.4 molH2 molCH4−1), it is possible to fully cover heat and power demands of the process, making it completely energy self-sufficient. In the case when the proposed SE-SMR is integrated with a solid oxide fuel cell, net power generation at the scale of ∼950 kWel can be achieved with a net efficiency of the entire system of 51%, with the important feature that CO2 is concentrated.

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Keywords

Sorption-enhanced steam methane reforming, Fixed bed reactor network, Hydrogen, Solid oxide fuel cell, Energetic self-sufficiency

Rights

Attribution-NonCommercial-NoDerivatives 4.0 International

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