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Experimental Performance Investigation of a 2kW Methanation Reactor


A 2kW methanation reactor was designed, built and tested for the gas phase hydrogenation of CO2 to CH4. The reactor is a single-stage, fixed-bed reactor. A commercial catalyst with 0.5%wt Ru on an alumina support was applied and characterized using TEM imaging. A thermal model of the process was developed in order to effectively design the cooling system and estimate the temperature gradients within the reactor. The conversion efficiency was investigated experimentally using transmission infrared spectroscopy. The reactor temperature set point was varied from 140°C to 400°C, the space velocity ranged from 0.14 s-1 to 0.55 s-1 (corresponding to 0.40 – 1.55 ml g-1 s-1) and the pressure was set to 5 bar. A maximal conversion of 99% was measured at a temperature of 260°C and a space velocity of 0.14 s-1. A CO2 conversion of 97% was reached at the target flow rate of 50 g/h H2 at a temperature set point of 280°C. Such conversions are very high for a single-stage reactor and are partly due to the inhomogeneous temperature distribution within the catalyst bed, which allowed to balance kinetic and thermodynamic effects. The reactor presented in this paper is installed as a part of the small-scale demonstrator of renewable energy to synthetic hydrocarbons conversion of EPFL Valais/Wallis.

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Publication details

The article was received on 17 Feb 2018, accepted on 13 Mar 2018 and first published on 14 Mar 2018

Article type: Paper
DOI: 10.1039/C8SE00073E
Citation: Sustainable Energy Fuels, 2018, Accepted Manuscript
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    Experimental Performance Investigation of a 2kW Methanation Reactor

    N. Gallandat, R. T. A. Mutschler, V. Vernay, H. Yang and A. Züttel, Sustainable Energy Fuels, 2018, Accepted Manuscript , DOI: 10.1039/C8SE00073E

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