Publicación: CARBON AEROGEL-SUPPORTED IRON FOR GASIFICATION GAS CLEANING: TARS DECOMPOSITION
Fecha
2022
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TAR REMOVAL FROM GASIFICATION GASES IS A DETERMINANT STEP TO GUARANTEE THE OPERATIONAL FEASIBILITY OF GASIFICATION-TO-CHEMICALS/ENERGY SYSTEMS. HOWEVER, THIS IS A VERY COMPLEX PROCESS REQUIRING CATALYTIC MATERIALS TO PROCEED UNDER REASONABLY LOW TEMPERATURES AND TO CONVERT THE TARS INTO FUEL GASES (I.E., CHX). THE USE OF FE-BASED CATALYSTS FOR APPLICATION HAS BEEN REPORTED BEFORE, HOWEVER, THERE ARE STILL UNSOLVED QUESTIONS RELATED TO ITS STABILITY AND INTERACTION WITH SOME SPECIES OF GASIFICATION GASES. THEREFORE, WE EVALUATED CARBON-SUPPORTED FE FOR THE DECOMPOSITION OF TAR USING SIMULATED GASIFICATION GASES, AND TOLUENE, NAPHTHALENE, AND BENZENE AS MODELS FOR TAR. THE EFFECTS OF TEMPERATURE (565 < T < 665 °C) AND CO-FEEDING CO ON THE CATALYTIC ACTIVITY AND STABILITY WERE INSPECTED AT LABORATORY AND BENCH SCALES. THE ACTIVITY OF CATALYSTS FOR DECOMPOSING TARS WAS IN THE FOLLOWING ORDER: BENZENE > TOLUENE E > NAPHTHALENE. MOREOVER, THERE WAS EVIDENCE VALIDATING A REVERSIBLE ELEMENTAL STEP TOLUENE?BENZENE OVER THE FE SURFACE. THE CHARACTERIZATION OF THE SPENT CATALYSTS EVIDENCED THE OXIDATION OF THE ACTIVE PHASE AND THE CARBON DEPOSITION ON THE SURFACE. THE FORMATION OF FEXOY CAUSED A MARKED LOSS OF ACTIVITY. CONVERSELY, THE CARBIDES WERE STABLE AND STILL ACTIVE FOR TAR DECOMPOSITION.
