Isabel de Marco - Artikuluak (2004 urtetik gerozkoak)
- Production of hydrogen-rich gases in the recycling process of residual carbon fiber reinforced polymers by pyrolysis Waste Management, 2021; 128, 73 - 82
- Conversion of injected forestry waste biomass charcoal in blast furnace: influence of pyrolysis temperature Energy Fuels, 2021; 35 (1), 529 - 538
- Use of a reforming catalyst for hydrogen production in the carbonization process of torrefied biomass Catalysts, 2020; 10 (11)
- Recuperación de fibras a partir de residuos de materiales compuestos por tratamiento térmico: optimización experimental y matemática de las variables de operación. Revista de la Asociación Española de Materiales Compuestos, 2020; 4-3, 39 - 44
- Improvement of the chemical adhesion of EPDM rubber to sheet moulding compound (SMC) by the addition of phenolic resin as adhesion promoter. The Journal of Adhesion, 2020; 10
- Reclamation of carbon fibers and added-value gases in a pyrolysis-based composites recycling process J. Cleaner Prod., 2020; 273, 0959-6526
- Potentiality of "orujillo" (olive oil solid waste) to produce hydrogen by means of pyrolysis Int. J. Hydrogen Energy, 2020; 45, 20549 - 20557 - 0360-3199
- 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
- Thermo-catalytic treatment of vapors in the recycling process of carbon fiber-poly (benzoxazine) composite waste by pyrolysis Catalysts, 2018; 8 (11)
- 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
- Optimization of charcoal production process from woody biomass waste: effect of Ni-containing catalysts on pyrolysis vapors Catalysts, 2018; 8 (5)
- Reciclado de fibra de carbono por pirólisis: optimización del proceso mediante tratamiento de los vapores RETEMA, 2017; 198, 66 - 71
- Hydrogen rich reducing gases generation in the production of charcoal from woody biomass carbonization Energy Convers. Manage., 2017; 148, 352 - 359
- From woody biomass waste to biocoke: influence of the proportion of different tree components Eur. J. Wood Prod., 2017; 1 - 13
- Influence of temperature and residence time in the pyrolysis of woody biomass waste in a continuous screw reactor Biomass Bionerg, 2016; 95, 416 - 23
- Possibilities and limits of pyrolysis for recycling plastic rich waste streams rejected from phones recycling plants Waste Manage., 2016; 57, 226 - 234
- Biomass Pyrolysis Solids as Reducing Agents: Comparison with Commercial Reducing Agents Materials, 2016; 9, 3, 1 - 18 - 1996-1944
- Upgrading of chlorinated oils coming from pyrolysis of plastic waste Fuel Process. Technol., 2015; 137, 229 - 239
- Avoiding tar formation in biocoke production from waste biomass Biomass Bioenerg, 2015; 74, 172 - 179
- Pyrolysis behaviour of different type of materials contained in the rejects of packaging waste sorting plants Waste Manage., 2013; 33, 52 - 59
—
20 elementu orrialdeko