Publicaciones en las que colabora con José Antonio González Marcos (89)

2024

  1. Critical role of transport phenomena in the performance of a catalytic fixed bed reactor for the CO2 hydrogenation to CH4 evaluated by modeling and simulation

    Chemical Engineering Science, Vol. 297

  2. Enhancement of the CO2 adsorption and hydrogenation to CH4 capacity of Ru–Na–Ca/γ–Al2O3 dual function material by controlling the Ru calcination atmosphere

    Journal of Environmental Sciences (China), Vol. 140, pp. 292-305

  3. Lanthanum partial substitution by basic cations in LaNiO3/CeO2 precursors to raise DFM performance for integrated CO2 capture and methanation

    Journal of CO2 Utilization, Vol. 81

2023

  1. Boosting dual function material Ni-Na/Al2O3in the CO2adsorption and hydrogenation to CH4: Joint presence of Na/Ca and Ru incorporation

    Journal of Environmental Chemical Engineering, Vol. 11, Núm. 2

  2. Ca doping effect on the performance of La1−xCaxNiO3/CeO2-derived dual function materials for CO2 capture and hydrogenation to methane

    Applied Catalysis B: Environmental, Vol. 321

  3. How the presence of O2and NOxinfluences the alternate cycles of CO2adsorption and hydrogenation to CH4on Ru-Na-Ca/Al2O3dual function material

    Journal of CO2 Utilization, Vol. 67

2022

  1. Aging studies on dual function materials Ru/Ni-Na/Ca-Al2O3for CO2adsorption and hydrogenation to CH4

    Journal of Environmental Chemical Engineering, Vol. 10, Núm. 3

  2. Applicability of LaNiO3-derived catalysts as dual function materials for CO2 capture and in-situ conversion to methane

    Fuel, Vol. 320

  3. Intrinsic kinetics of CO2 methanation on low-loaded Ni/Al2O3 catalyst: Mechanism, model discrimination and parameter estimation

    Journal of CO2 Utilization, Vol. 57

  4. Kinetics, Model Discrimination, and Parameters Estimation of CO2 Methanation on Highly Active Ni/CeO2 Catalyst

    Industrial and Engineering Chemistry Research, Vol. 61, Núm. 29, pp. 10419-10435

  5. Simulation-based optimization of cycle timing for CO2 capture and hydrogenation with dual function catalyst

    Catalysis Today, Vol. 394-396, pp. 314-324

  6. Study on the promotional effect of lanthana addition on the performance of hydroxyapatite-supported Ni catalysts for the CO2 methanation reaction

    Applied Catalysis B: Environmental, Vol. 314

  7. Tuning basicity of dual function materials widens operation temperature window for efficient CO2adsorption and hydrogenation to CH4

    Journal of CO2 Utilization, Vol. 58

2021

  1. Alternate cycles of CO2storage andin situhydrogenation to CH4on Ni-Na2CO3/Al2O3: influence of promoter addition and calcination temperature

    Sustainable Energy and Fuels, Vol. 5, Núm. 4, pp. 1194-1210

  2. Design of CeO2-supported LaNiO3perovskites as precursors of highly active catalysts for CO2methanation

    Catalysis Science and Technology, Vol. 11, Núm. 18, pp. 6065-6079

  3. Enhancing the CO2 methanation activity of γ-Al2O3 supported mono- and bi-metallic catalysts prepared by glycerol assisted impregnation

    Applied Catalysis B: Environmental, Vol. 296

2020

  1. Design of active sites in Ni/CeO2 catalysts for the methanation of CO2: tailoring the Ni-CeO2 contact

    Applied Materials Today, Vol. 19

  2. Effect of metal loading on the CO2 methanation: A comparison between alumina supported Ni and Ru catalysts

    Catalysis Today, Vol. 356, pp. 419-432

  3. Effect of vanadia loading on acidic and redox properties of VOx/TiO2 for the simultaneous abatement of PCDD/Fs and NOx

    Journal of Industrial and Engineering Chemistry, Vol. 81, pp. 440-450

  4. Isotopic and in situ DRIFTS study of the CO2 methanation mechanism using Ni/CeO2 and Ni/Al2O3 catalysts

    Applied Catalysis B: Environmental, Vol. 265