Publicaciones en las que colabora con ANA GUADALUPE GAYUBO CAZORLA (187)

2024

  1. Are Rh Catalysts a Suitable Choice for Bio-Oil Reforming? The Case of a Commercial Rh Catalyst in the Combined H2O and CO2 Reforming of Bio-Oil

    Catalysts, Vol. 14, Núm. 9

  2. Global Vision of the Reaction and Deactivation Routes in the Ethanol Steam Reforming on a Catalyst Derived from a Ni-Al Spinel

    Energy and Fuels, Vol. 38, Núm. 8, pp. 7033-7048

  3. The MTO and DTO processes as greener alternatives to produce olefins: A review of kinetic models and reactor design

    Chemical Engineering Journal, Vol. 494

2023

  1. Comparison of the NiAl2O4 derived catalyst deactivation in the steam reforming and sorption enhanced steam reforming of raw bio-oil in packed and fluidized-bed reactors

    Chemical Engineering Journal, Vol. 458

  2. High-Purity Green Hydrogen Production by Bio-oil/Ethanol Mixtures Steam Reforming in Pd-Based Membrane Reactors

    Chemical Engineering Transactions, Vol. 100, pp. 259-264

  3. Sorption enhanced steam reforming (SESR) of raw bio-oil with Ni based catalysts: Effect of sorbent type, catalyst support and sorbent/catalyst mass ratio

    Fuel Processing Technology, Vol. 247

  4. Syngas Production through Dry Reforming of Raw Bio-oil: Effect of CO2/C Ratio

    Chemical Engineering Transactions, Vol. 99, pp. 355-360

  5. Syngas production through combined steam-dry reforming of raw bio-oil over a NiAl2O4 spinel derived catalyst

    Journal of CO2 Utilization, Vol. 78

  6. Thermodynamic study of the CO2 valorization in the combined steam-dry reforming of bio-oil into syngas

    Journal of CO2 Utilization, Vol. 72

2022

  1. Combined effect of bio-oil composition and temperature on the stability of Ni spinel derived catalyst for hydrogen production by steam reforming

    Fuel, Vol. 326

  2. Comparison of Fixed and Fluidized Bed Reactors in the Steam Reforming of Raw Bio-oil with NiAl2O4 Derived Catalyst

    Chemical Engineering Transactions, Vol. 92, pp. 241-246

  3. Hydrogen Production from Ethanol through Steam Reforming on Ni-based Catalysts

    Chemical Engineering Transactions, Vol. 92, pp. 247-252

  4. Role of zeolite properties in bio-oil deoxygenation and hydrocarbons production by catalytic cracking

    Fuel Processing Technology, Vol. 227

  5. Stability of a NiAl2O4 Derived Catalyst in the Ethanol Steam Reforming in Reaction-Regeneration Cycles: Effect of Reduction Temperature

    Catalysts, Vol. 12, Núm. 5

  6. Unveiling the deactivation by coke of NiAl2O4 spinel derived catalysts in the bio-oil steam reforming: Role of individual oxygenates

    Fuel, Vol. 321

2021

  1. Consideration of the activity distribution using the population balance theory for designing a dual fluidized bed reactor-regenerator system. Application to the MTO process

    Chemical Engineering Journal, Vol. 405

  2. Effect of reaction conditions on the deactivation by coke of a NiAl2O4 spinel derived catalyst in the steam reforming of bio-oil

    Applied Catalysis B: Environmental, Vol. 297

  3. Feasibility of online pre-reforming step with dolomite for improving Ni spinel catalyst stability in the steam reforming of raw bio-oil

    Fuel Processing Technology, Vol. 215

  4. Global vision from the thermodynamics of the effect of the bio-oil composition and the reforming strategies in the H2 production and the energy requirement

    Energy Conversion and Management, Vol. 239

  5. Influence of HZSM-5-based catalyst deactivation on the performance of different reactor configurations for the conversion of bioethanol into hydrocarbons

    Fuel, Vol. 302