TY - GEN A1 - González-Castaño, Miriam A1 - Ivanova, Svetlana A1 - Ioanides, Theophiles A1 - Centeno, Miguel Angel A1 - Arellano-García, Harvey A1 - Odriozola, José Antonio T1 - Zr and Fe on Pt/CeO2-MOx/Al2O3 catalysts for WGS reaction T2 - International Journal of Energy Research N2 - By evaluating the functional modifications induced by Zr and Fe as dopants in Pt/CeO2‐MOx/Al2O3 catalysts (M = Fe and Zr), the key features for improving water gas shift (WGS) performance for these systems have been addressed. Pt/ceria intrinsic WGS activity is often related to improved H2 surface dynamics, H2O absorption, retentions and dissociation capacities which are influenced greatly by the support nature. Two metals, iron and zirconia, were chosen as ceria dopants in this work, either in separate manner or combined. Iron incorporation resulted in CO‐redox properties and oxygen storage capacities (OSC) improvement but the formation of Ce‐Fe solid solutions did not offer any catalytic benefit, while the Zr incorporation influenced in a great manner surface electron densities and shows higher catalytic activity. When combined both metals showed an important synergy evidenced by 30% higher CO conversions and attributed to greater surface electron densities population and therefore absorption and activity. This work demonstrates that for Pt/ceria catalysts OSC enhancement does not necessarily imply a catalytic promotion. KW - doped ceria KW - FE KW - H2-TPD KW - Pt/ceria catalysts KW - WGS reaction KW - WGS-TPSR KW - Zr Y1 - 2021 U6 - https://doi.org/10.1002/er.6646 SN - 1099-114X ER - TY - GEN A1 - Baena-Moreno, Francisco Manuel A1 - González-Castaño, Miriam A1 - Navarro de Miguel, Juan Carlos A1 - Miah, Kamal Uddin Mohammad A1 - Ossenbrink, Ralf A1 - Odriozola, José Antonio A1 - Arellano-García, Harvey T1 - Stepping toward Efficient Microreactors for CO2 Methanation: 3D Printed Gyroid Geometry T2 - ACS Sustainable Chemistry & Engineering N2 - This work presents a comparative study towards the development of efficient micro-reactors based on 3D-printed structures. Thus, the study evaluates the influence of the metal substrate geometry on the performance of structured catalysts for the CO2 methanation reaction. For this purpose, 0.5%Ru–15%Ni/MgAl2O4 catalyst is wash coated over two different micro-monolithic metal substrates: a conventional parallel channel honeycomb structure and a novel 3D-printed structure with a complex gyroid geometry. The effect of the metal substrate geometry is analyzed for several CO2 sources including ideal flue gas atmospheres, the presence of residual CH4 and CO in the flue gas, as well as simulated biogas sources. The advantages of the gyroid-3D complex geometries over the honeycomb structures are shown for all evaluated conditions, providing at the best-case scenario a 14% improvement of CO2 conversion. Moreover, this contribution shows that systematically tailoring geometrical features of structured catalysts becomes an effective strategy to achieve improved catalysts performances independent of the flue gas composition. By enhancing the transport processes and the gas-catalyst interactions, the employed gyroid 3D metal substrates enable boosted CO2 conversions and greater CH4 selectivity within diffusional controlled regimes. KW - CO2 methanation KW - gyroid geometry KW - CH4 selectivity KW - gyroid-3D complex Y1 - 2021 U6 - https://doi.org/10.1021/acssuschemeng.1c01980 SN - 2168-0485 VL - 9 IS - 24 SP - 8198 EP - 8206 ER - TY - GEN A1 - González-Castaño, Miriam A1 - Navarro de Miguel, Juan Carlos A1 - Pernkova, A. A1 - Centeno, Miguel Angel A1 - Odriozola, José Antonio A1 - Arellano-García, Harvey T1 - Ni/YMnO3 perovskite catalyst for CO2 methanation T2 - Applied Materials Today N2 - Ni/YMnO3 perovskite catalyst for CO2 methanation KW - Ni catalysts KW - CO2 methanation KW - YMnO3 perovskites KW - manganites Y1 - 2021 U6 - https://doi.org/10.1016/j.apmt.2021.101055 VL - 23 ER - TY - BOOK A1 - Odriozola, José Antonio A1 - Ramirez Reina, Tomas A1 - Arellano-García, Harvey T1 - Engineering Solutions for CO2 Conversion N2 - A comprehensive guide that offers a review of the current technologies that tackle CO2 emissionsThe race to reduce CO2 emissions continues to be an urgent global challenge. "Engineering Solutions for CO2 Conversion" offers a thorough guide to the most current technologies designed to mitigate CO2 emissions ranging from CO2 capture to CO2 utilization approaches.... KW - CO2 conversion KW - CO2 emissions KW - reduce CO2 emissions KW - CO2 capture KW - computer modeling Y1 - 2021 SN - 978-3-527-34639-4 SN - 3-527-34639-2 PB - Wiley-VCH CY - Berlin ; Boston ER -