چکیده
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In this study, tri-reforming process has been utilized as an energy source for driving highly endothermic
process of methane dry reforming process in a multi-tubular recuperative thermally coupled reactor
(TCTDR). 184 two-concentric-tubes have been proposed for this configuration. Outer tube sides of the
two-concentric-tubes have been considered for the tri-reforming reactions while dry reforming process
takes place in inner tube sides. Simulation results of co-current mode have been compared with corresponding
predictions of thermally coupled tri- and steam reformer (TCTSR); in which the tri-reforming
process has been coupled with steam reforming of methane in same conditions. A mathematical heterogeneous
model has been applied to simulate both dry and tri-reforming sides of the TCTDR. Results
showed that methane conversion at the output of dry and tri-reforming sides reached to 63% and 93%,
respectively. Also, molar flow rate of syngas at the output of DR side of TCTDR reached to 7464 kmol h1
in comparison to 3912 kmol h1 for SR side of TCTSR.
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