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JOURNAL ARTICLE

THERMODYNAMIC ANALYSIS OF AUTOTHERMAL REFORMING OF METHANE VIA ENTROPY MAXIMIZATION: HYDROGEN PRODUCTION

Thiago Leandro de SouzaC.C.R.S. RossiChristian Gonçalves AlonsoReginaldo GuirardelloVladimir Ferreira CabralNádia Regina Camargo Fernandes-MachadoStefania SpecchiaMarcelo S. ZabaloyLúcio Cardozo‐Filho

Year: 2015 Pages: 15633-15646
DOI: 10.5151/chemeng-cobeq2014-1420-19385-160013
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Abstract

In this work a thermodynamic analysis of the autothermal reforming (ATR) of methane was performed. Equilibrium calculations employing entropy maximization were performed in a wide range of oxygen to methane mole ratio (O/M), steam to methane ratio (S/M), inlet temperature (IT), and system pressure (P). The main calculated parameters were hydrogen yield, carbon monoxide formation, methane conversion, coke formation, and equilibrium temperature. Further, the optimum operating oxygen to methane feed ratio that maximizes hydrogen production, at P=1 bar, has been calculated. The nonlinear programming problem applied to the simultaneous chemical and phase equilibrium calculation was implemented in GAMS

Keywords:
Methane Methane reformer Hydrogen production Hydrogen Thermodynamics Chemistry Entropy maximization Carbon monoxide Oxygen Materials science Steam reforming Catalysis Principle of maximum entropy Physics Computer science Organic chemistry

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Citation History

Topics

Catalysts for Methane Reforming
Physical Sciences →  Chemical Engineering →  Catalysis
Phase Equilibria and Thermodynamics
Physical Sciences →  Engineering →  Biomedical Engineering
Process Optimization and Integration
Physical Sciences →  Engineering →  Control and Systems Engineering

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