چکیده
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Applicability of using Dry Reforming of Methane (DRM) using low-cost Ni-based catalysts instead
of Conventional Steam Reformers (CSR) to producing syngas simultaneously with reducing the emission of
carbon dioxide was studied. In order to achieving this goal, a multi-tubular recuperative thermally coupled
reactor which consists of two-concentric-tubes has been designed (Thermally Coupled Tri- and Dry Reformer
[TCTDR]). By employing parameters of an industrial scale CSR, two proposed configuration (DRM with firedfurnace
and Tri-Reforming of Methane (TRM) instead of fired-furnace (TCTDR)) was simulated. A mathematical
heterogeneous model was used to simulate proposed reactors and analyses were carried out based on
methane conversion, hydrogen yield and molar flow rate of syngas for each reactor. The results displayed
methane conversion of DRM with fired-furnace was 35.29% and 31.44% for Ni–K/CeO2
–Al2O3 and
Ni/La2O3 catalysts, respectively, in comparison to 26.5% in CSR. Methane conversion in TCTDR reached
to 16.98% by Ni/La2O3 catalyst and 88.05% by NiO–Mg/Ce–ZrO2/Al2O3 catalyst in TRM side. Also, it was
15.88% using Ni–K/CeO2
–Al2O3 catalyst in the DRM side and 88.36% using NiO–Mg/Ce–ZrO2/Al2O3
catalyst in TRM side of TCTDR. Finally, the effect of different amounts of supplying energy on the
performance of DRM with fired-furnace was studied, and positive results in reducing the energy consumption
were observed.
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