His primary areas of study are Catalysis, Coke, Zeolite, Organic chemistry and Methanol. His Catalysis study typically links adjacent topics like Inorganic chemistry. His Coke study combines topics from a wide range of disciplines, such as Combustion, Hydrogen, Product distribution, Pyrolysis oil and Steam reforming.
His Zeolite study incorporates themes from Scientific method, Fixed bed and Mineralogy. His Methanol research is multidisciplinary, incorporating elements of Isothermal process, Olefin fiber, Coke deposition, Oxygenate and Kinetic scheme. He combines subjects such as Syngas, Metal and Bifunctional catalyst with his study of Dimethyl ether.
Andrés T. Aguayo mainly investigates Catalysis, Coke, Zeolite, Methanol and Inorganic chemistry. To a larger extent, Andrés T. Aguayo studies Organic chemistry with the aim of understanding Catalysis. His Coke research includes elements of Heterogeneous catalysis, Combustion, Fluidized bed, Ethylene and Reaction step.
The study incorporates disciplines such as Product distribution, Fourier transform infrared spectroscopy, Cracking, 1-Butene and Kinetic scheme in addition to Zeolite. His biological study spans a wide range of topics, including Scientific method, Olefin fiber, Photochemistry, Butane and Oxygenate. His Inorganic chemistry research integrates issues from Bifunctional, Acid strength, Desorption, Adsorption and Microporous material.
His primary areas of investigation include Catalysis, Dimethyl ether, Methanol, Zeolite and Yield. He has included themes like Isothermal process, Inorganic chemistry, Adsorption, Coke and Photochemistry in his Catalysis study. His research integrates issues of Fourier transform infrared spectroscopy, Combustion and Pentane in his study of Coke.
His Dimethyl ether study is concerned with the field of Organic chemistry as a whole. His Methanol study which covers ZSM-5 that intersects with In situ. His study in Zeolite is interdisciplinary in nature, drawing from both 1-Butene and Olefin fiber.
His main research concerns Dimethyl ether, Catalysis, Methanol, Metal and Coke. His Dimethyl ether study introduces a deeper knowledge of Organic chemistry. His research in Catalysis is mostly concerned with Zeolite.
The various areas that Andrés T. Aguayo examines in his Methanol study include Inorganic chemistry, Reaction rate, Syngas and Bifunctional catalyst. His Metal research focuses on Yield and how it relates to Selectivity and Nuclear chemistry. His Coke research is multidisciplinary, relying on both Matrix, Combustion, Inert and Mesoporous material.
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Transformation of Oxygenate Components of Biomass Pyrolysis Oil on a HZSM-5 Zeolite. I. Alcohols and Phenols
Ana G. Gayubo;Andrés T. Aguayo;Alaitz Atutxa;and Roberto Aguado.
Industrial & Engineering Chemistry Research (2004)
Transformation of Oxygenate Components of Biomass Pyrolysis Oil on a HZSM-5 Zeolite. II. Aldehydes, Ketones, and Acids
Ana G. Gayubo;Andrés T. Aguayo;Alaitz Atutxa;Roberto Aguado.
Industrial & Engineering Chemistry Research (2004)
Stable operation conditions for gas-solid contact regimes in conical spouted beds
Martin Olazar;Maria J. San Jose;Andres T. Aguayo;Jose M. Arandes.
Industrial & Engineering Chemistry Research (1992)
Deactivation of a HZSM-5 Zeolite Catalyst in the Transformation of the Aqueous Fraction of Biomass Pyrolysis Oil into Hydrocarbons
Ana G. Gayubo;Andrés T. Aguayo;Alaitz Atutxa;and Rubén Prieto.
Energy & Fuels (2004)
Undesired components in the transformation of biomass pyrolysis oil into hydrocarbons on an HZSM-5 zeolite catalyst
Ana G Gayubo;Andrés T Aguayo;Alaitz Atutxa;Beatriz Valle.
Journal of Chemical Technology & Biotechnology (2005)
Selective Production of Aromatics by Crude Bio-oil Valorization with a Nickel-Modified HZSM-5 Zeolite Catalyst
Beatriz Valle;Ana G. Gayubo;Andrés T. Aguayo;Martin Olazar.
Energy & Fuels (2010)
Insights into the coke deposited on HZSM-5, Hβ and HY zeolites during the cracking of polyethylene
Pedro Castaño;Gorka Elordi;Martin Olazar;Andres T. Aguayo.
Applied Catalysis B-environmental (2011)
Effect of operating conditions on the synthesis of dimethyl ether over a CuO-ZnO-Al2O3/NaHZSM-5 bifunctional catalyst
Javier Ereña;Raúl Garoña;José M. Arandes;Andrés T. Aguayo.
Catalysis Today (2005)
Role of acidity and microporous structure in alternative catalysts for the transformation of methanol into olefins
Andrés T. Aguayo;Ana G. Gayubo;Raquel Vivanco;Martin Olazar.
Applied Catalysis A-general (2005)
Kinetic Modeling of Dimethyl Ether Synthesis in a Single Step on a CuO−ZnO−Al2O3/γ-Al2O3 Catalyst
Andrés T. Aguayo;Javier Ereña;Diana Mier;José M. Arandes.
Industrial & Engineering Chemistry Research (2007)
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