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Hydrogen production and thermal behavior of methanol autothermal reforming and steam reforming triggered by microwave heating
Authors:Wei-Hsin Chen  Bo-Jhih Lin
Affiliation:Department of Aeronautics and Astronautics, National Cheng Kung University, Tainan 701, Taiwan, ROC
Abstract:Hydrogen production and thermal behavior of methanol autothermal reforming (ATR) triggered by microwave heating are studied. Methanol steam reforming (MSR) is also investigated for comparison. A commercial Cu–Zn-based catalyst is used. The gas hourly space velocity (GHSV) is fixed at 72,000 h−1, and the reaction temperature and the oxygen/methanol molar ratio (i.e. O2/C ratio) are in the ranges of 250–300 °C and 0–0.5, respectively. The results suggest that an increase in O2/C ratio or reaction temperature diminishes the supplied energy for microwave irradiation, as a result of more oxidative reactions involved. However, the performance of methanol ATR at 300 °C is lower than that at 250 °C. The methanol conversion of ATR is beyond 90% at O2/C = 0.125 and 0.5, whereas it is relatively low (56–67%) at O2/C = 0.25, presumably due to the weakened microwave irradiation and insufficient heat release. The spectrum analysis of supplied power using the fast Fourier transform (FFT) algorithm indicates that the supplied power characteristics of endothermic reactions are different from those of exothermic reactions.
Keywords:Hydrogen production and thermal behavior   Methanol steam reforming (MSR)   Methanol autothermal reforming (ATR)   Microwave heating   Spectrum analysis   Fast Fourier transform (FFT) algorithm
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