Supren Research Group

• J. Solar, B.M. Caballero, A. Lopez-Urionabarrenechea, E. Acha, P.L. Arias  Pyrolysis of Forestry Waste in a Screw Reactor with Four Sequential Heating Zones: Influence of Isothermal and Nonisothermal Profiles Industrial & Engineering Chemistry Research,  2021;  60,  18627 - 18639
• B.M. Caballero, A. López-Urionabarrenechea, B. Pérez, J. Solar, E. Acha, I. de Marco  Potentiality of "orujillo" (olive oil solid waste) to produce hydrogen by means of pyrolysis Int. J. Hydrogen Energy,  2020;  45,  20549 - 20557 -  0360-3199
• A. López-Urionabarrenechea, N. Gastelu, E. Acha, B.M. Caballero, A. Orue, A. Jiménez-Suarez, S. G. Prolongo, I. de Marco  Reclamation of carbon fibers and added-value gases in a pyrolysis-based composites recycling process J. Cleaner Prod.,  2020;  273,  0959-6526
• E. Acha; D. Chen; J.F. Cambra  Comparison of novel olivine supported catalysts for high purity hydrogen production by CO2 sorption enhanced steam reforming Journal of CO2 Utilization,  2020;  42
• A. Lopez-Urionabarrenechea, E. Acha, A. Adrados, J. Solar, B.M. Caballero, I. de Marco  Use of a reforming catalyst for hydrogen production in the carbonization process of torrefied biomass Catalysts,  2020;  10 (11)
• N. Gastelu, A. López-Urionabarrenechea, E. Acha, B.M. Caballero, I. de Marco  Evaluation of HZSM-5 zeolite as cracking catalyst for upgrading the vapours generated in the pyrolysis of an epoxy-carbon fibre waste composite Top.Catal.,  2019;  62(5),  479 - 490
• R. Mannschreck; E. Acha; I. Agirre  Sorption Enhanced Methanation: A Study on Reactor Configuration and Sorption Effects on the Sabatier Process Nevada State Undergraduate Research Journal,  2019;  5
• E.Acha, Y.C. van Delft, J.F. Cambra, P.L. Arias  Thin PdCu membrane for hydrogen purification from in-situ produced methane reforming complex mixtures containing H2S Chemical Engineering Science,  2018;  176,  429 - 438
• A. López-Urionabarrenechea, N. Gastelu, E. Acha, B.M Caballero, J. Alonso-Losada, I. de Marco  Beneficio económico y energético de un método de tratamiento de vapores en el reciclado de residuos de fibra de carbono por pirolisis Revista de la Asociación Española de Materiales Compuestos (AEMAC),  2018;  2, nº 3,  6 - 11 -  2531-0739
• N. Gastelu, A. Lopez-Urionabarrenechea , J. Solar , E. Acha, B. M. Caballero, F. A. López, I. de Marco  Thermo-catalytic treatment of vapors in the recycling process of carbon fiber-poly (benzoxazine) composite waste by pyrolysis Catalysts,  2018;  8 (11)
• A. Adrados, A. López-Urionabarrenechea, E. Acha, J. Solar, B.M. Caballero, I. de Marco,  Hydrogen rich reducing gases generation in the production of charcoal from woody biomass carbonization Energy Convers. Manage.,  2017;  148,  352 - 359
• I. García-García, E. Acha, K. Bizkarra, J. Martínez de Ilarduya, J. Requies, J.F. Cambra  Hydrogen production by steam reforming of m-cresol, a bio-oil model compound, using catalysts supported on conventional and unconventional supports Int. J. Hydrogen Energy,  2015;  40(42),  14445 - 14455
• E. Acha, J. Requies, M.B. Güemez, V.L. Barrio, J.F. Cambra, P.L. Arias  Process integration for hydrogen production, purification and storage using iron oxides Int. J. Hydrogen Energy,  2014;  39,  5257 - 5266
• E. Acha, J. Requies, V.L. Barrio, J.F. Cambra, M.B. Güemez, P.L. Arias, Y.C. van Delft  PdCu membrane integration and lifetime in the production of hydrogen from methane Int. J. Hydrogen Energy,  2013;  38,  7659 - 7666
• E. Acha, J. Requies, V.L. Barrio, J.F. Cambra, M.B. Güemez, P.L. Arias, Y.C. van Delft  PdCu membrane applied to hydrogen production from methane J. Mem. Sci,  2012;  415-416,  66 - 75
• E. Acha, Y.C. van Delft, J. Overbeek, P.L. Arias, J.F. Cambra  Copper deposition on Pd membranes by electroless plating Int. J. Hydrogen Energy,  2011;  36,  13114 - 13121
• E. Acha, J. Requies, V.L. Barrio, J.F. Cambra, M.B. Güemez, P.L. Arias, Y.C. van Delft  Water effect in hydrogen production from methane Ing. J. Hydrogen Energy,  2010;  35,  11525 - 11532