| Literature DB >> 33661578 |
Sofia D Angeli1, Sabrina Gossler1, Sven Lichtenberg1, Gilles Kass2, Anand Kumar Agrawal2, Miriam Valerius2, Klaus Peter Kinzel2, Olaf Deutschmann1.
Abstract
In a novel process, CO2 and CH4 from the off-gases of the coke oven and blast furnace are used in homogeneous reforming of those greenhouse gases to valuable syngas, a mixture of H2 and CO. Synthetic mixtures of the off-gases from those large apparatuses of steel industry are fed to a high-temperature, high-pressure flow reactor at varying temperature, pressure, residence time, and mixing ratio of coke oven gas (COG) to blast furnace gas (BFG). In this study, a maximal reduction of 78.5 % CO2 and a CH4 conversion of 95 % could be achieved at 1350 °C, 5.5 bar, and a COG/BFG ratio of 0.6. Significant carbonaceous deposits were formed but did not block the reactor tube in the operational time window allowing cyclic operation of the process. These measurements were based on prior thermodynamic analysis and kinetic predictions using an elementary-step reaction mechanism.Entities:
Keywords: CO2 emissions reduction; blast furnace gas (BFG); coke oven gas (COG); dry reforming; steelwork off-gas valorisation
Year: 2021 PMID: 33661578 DOI: 10.1002/anie.202100577
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336