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Modeling of sorption enhanced steam methane reforming in an adiabatic packed bed reactor using various CO2 sorbents

M. Mateen Shahid, Syed Zaheer Abbas, Fahad Maqbool, Sergio Ramírez-Solís, Valerie Dupont, Tariq Mahmud

2021Journal of environmental chemical engineering29 citationsDOIOpen Access PDF

Abstract

A 1-D heterogeneous model of sorption-enhanced steam methane reforming (SE-SMR) process in a packed bed reactor consisting of nickel catalyst well mixed with CO2 sorbent particles is investigated for three types of common sorbents. The performance of SE-SMR process is studied under low medium pressure conditions (3 – 11 bar) to find the optimum operating conditions. Optimal CaO sorption corresponding to 82% CH4 conversion and 85% H2 purity is found at 900 K, 3 bar, 3.5 kgm−2s−1 and S/C of 3.0. In contrast, lithium zirconate (LZC) and hydrotalcite (HTC) sorbents exhibited best sorptions under the operating conditions of 773 K, 5 bar and S/C of 3 with CH4 conversion of 91.3% and 55.2%, and H2 purity of 94.1% and 77.8% respectively. In these conditions, the CH4 conversion increased by 114%, 111% and 67% compared to the conventional SMR for the processes enhanced by HTC, LZC and CaO sorption respectively.

Topics & Concepts

SorptionSorbentPacked bedMethaneSteam reformingHydrotalciteMethane reformerChemical engineeringMaterials scienceChemistryWaste managementCatalysisChromatographyAdsorptionOrganic chemistryHydrogen productionEngineeringChemical Looping and Thermochemical ProcessesCarbon Dioxide Capture TechnologiesCatalysts for Methane Reforming
Modeling of sorption enhanced steam methane reforming in an adiabatic packed bed reactor using various CO2 sorbents | Litcius