Comparative exergy analysis of sorption enhanced and conventional methane steam reforming

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• 作者：K.F. Tzanetis ; C.S. Martavaltzi ; A.A. Lemonidou
• 关键词：Hydrogen production ; Sorption enhanced methane reforming ; Conventional methane reforming ; Exergy analysis
• 刊名：International Journal of Hydrogen Energy
• 出版年：2012
• 出版时间：November, 2012
• 年：2012
• 卷：37
• 期：21
• 页码：16308-16320
• 全文大小：572 K

文摘

Exergy efficiency analysis tool is used to evaluate sorption enhanced steam reforming in comparison with the industrial hydrogen production route, steam reforming. The study focuses on hydrogen production for use in high pressure processes. Thermodynamic sensitivity analysis (effect of reforming temperature on hydrogen yield and reforming enthalpy) was performed to indicate the optimum temperature (650?¡ãC) for the sorption enhanced reforming. The pressure was selected to be, for both cases, 25?bar, a typical pressure used in the industrial (conventional) process. Atmospheric pressure, 1000?¡ãC and CO₂ as inert gas were specified as the optimum operating parameters for the regeneration of the sorbent after performing exergy efficiency analysis of three realistic case scenarios. Aspen Plus simulation process schemes were built for conventional and sorption enhanced steam reforming processes to attain the mass and energy balances required to assess comparatively exergy analysis. Simulation results showed that sorption enhanced reforming can lead to a hydrogen purity increase by 17.3 % , along with the recovery of pure and sequestration-ready carbon dioxide. The exergy benefit of sorption enhanced reforming was calculated equal to 3.2 % . Analysis was extended by adding a CO₂ separation stage in conventional reforming to reach the hydrogen purity of sorption enhanced reforming and enable a more effective exergy efficiency comparison. Following that analysis, sorption enhanced reforming gained 10.8 % in exergy efficiency.