Green hydrogen production from waste biomass pyrolysis fractions by auto-thermal reforming in a membrane reactor BIOWASTETOH2

The project (BiowastetoH2) aims to contribute to the decarbonisation of the European energy system by producing green hydrogen from waste streams. This, the main objective of the project is the production of renewable hydrogen from residual streams from biomass pyrolysis by means of autothermal steam reforming integrated in a membrane reactor. Focuses on the development of innovative multifunctional membrane catalytic reactors (CMR) based on new catalysts and selective membranes to improve their performance, durability, cost-effectiveness and sustainability in self-thermal reforming (ATR) to produce pure hydrogen from components of the aqueous fraction of the bio-oil. Finally, a study will be carried out to determine the sustainability of the proposed hydrogen production process through life cycle analysis (LCA) from an environmental, thermo-economic, environmental and social point of view.

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1 to 10 of 59 Results

Sustainable hydrogen production from green methanol using agglomerated catalysts: a design-of‑experiments approachEmbargoed May 21, 2026 MEGIA, Pedro J.; MORENO DE LA CALLE, Alvaro; Vizcaíno, Arturo; Calles, Jose A; CARRERO, ALICIA, 2028, "Sustainable hydrogen production from green methanol using agglomerated catalysts: a design-of‑experiments approach", https://doi.org/10.21950/TWMUB1, e-cienciaDatos, V1 This database includes all the data from figures included in the publication: "Sustainable hydrogen production from green methanol using agglomerated catalysts: a design-of‑experiments approach"
Dataset Sustainable hydrogen production from green methanol.tabEmbargoed May 21, 2026 - Sustainable hydrogen production from green methanol using agglomerated catalysts: a design-of‑experiments approach Tabular Data - 4,1 KB
readme-en Sustainable hydrogen production from green methanol.txt May 21, 2026 - Sustainable hydrogen production from green methanol using agglomerated catalysts: a design-of‑experiments approach Texto plano - 8,1 KB - MD5: 7e4b52313b39b3b048374c064f9a786c
Renewable hydrogen from pine wood waste via pyrolysis and autothermal steam reforming: technoeconomic and environmental performance of single and co-production pathways.Embargoed May 12, 2026 MORENO DE LA CALLE, Alvaro; Martin-Gamboa, Mario; Calles, Jose A; MEGIA, Pedro J.; Vizcaíno, Arturo; CARRERO, ALICIA, 2028, "Renewable hydrogen from pine wood waste via pyrolysis and autothermal steam reforming: technoeconomic and environmental performance of single and co-production pathways.", https://doi.org/10.21950/XPBQ9Q, e-cienciaDatos, V1 This database includes all the data from figures included in the publication: "Renewable hydrogen from pine wood waste via pyrolysis and autothermal steam reforming: technoeconomic and environmental performance of single and co-production pathways."
Dataset articulo acv.xlsxEmbargoed May 12, 2026 - Renewable hydrogen from pine wood waste via pyrolysis and autothermal steam reforming: technoeconomic and environmental performance of single and co-production pathways. Hoja de cálculo MS Excel - 13,7 KB - MD5: aec7330b5f134e7a3a549001349f38d1
readme-en paper ACV.txt May 12, 2026 - Renewable hydrogen from pine wood waste via pyrolysis and autothermal steam reforming: technoeconomic and environmental performance of single and co-production pathways. Texto plano - 25,0 KB - MD5: 21da6b188a93efa8ec4a7648772ed96e
Role of zeolite framework and acidity in Cu-based catalysts for dimethyl ether steam reformingEmbargoed May 8, 2026 López Martin, Juan José; MEGIA, Pedro J.; Vizcaíno, Arturo; Calles, Jose A; CARRERO, ALICIA, 2027, "Role of zeolite framework and acidity in Cu-based catalysts for dimethyl ether steam reforming", https://doi.org/10.21950/LGVK31, e-cienciaDatos, V1 This work investigates the influence of zeolite structure and acidity on the performance of 10 wt.% Cu‑based catalysts for dimethyl ether steam reforming (DME-SR). Four commercial zeolites (denoted as HFER (Si/Al = 10), HY‑1 (Si/Al = 40), HY‑2 (Si/Al =2.6) and HZSM‑5 (Si/Al = 45) were evaluated at 400 and 500 ºC. NH3‑TPD showed differences in total...
Dataset Role of zeolite framework and acidity in Cu-based catalysts.tabEmbargoed May 8, 2026 - Role of zeolite framework and acidity in Cu-based catalysts for dimethyl ether steam reforming Tabular Data - 1,2 KB
readme-en Role of zeolite framework and acidity in Cu-based catalysts.txt May 8, 2026 - Role of zeolite framework and acidity in Cu-based catalysts for dimethyl ether steam reforming Texto plano - 8,3 KB - MD5: 8ee85ebb63aca8c68bf4deab5009ed27
Shaped mesostructured Ni/CeO2 as active catalysts in hydrogen production from acetic acid oxidative steam reforming Mar 2, 2026 MORENO DE LA CALLE, Alvaro; MEGIA, Pedro J.; Calles, Jose A; CARRERO, ALICIA; Vizcaíno, Arturo, 2027, "Shaped mesostructured Ni/CeO2 as active catalysts in hydrogen production from acetic acid oxidative steam reforming", https://doi.org/10.21950/DTGWBT, e-cienciaDatos, V2 Oxidative steam reforming (OSR) of acetic acid was carried out using shaped catalysts prepared by combining Ni supported on mesostructured ceria with various clays (kaolinite, sepiolite, attapulgite, and bentonite). Bentonite or attapulgite extrudates calcined with 1°C/min heating rate demonstrated better mechanical resistance. Higher acetic acid c...

Sustainable hydrogen production from green methanol using agglomerated catalysts: a design-of‑experiments approachEmbargoed

May 21, 2026

MEGIA, Pedro J.; MORENO DE LA CALLE, Alvaro; Vizcaíno, Arturo; Calles, Jose A; CARRERO, ALICIA, 2028, "Sustainable hydrogen production from green methanol using agglomerated catalysts: a design-of‑experiments approach", https://doi.org/10.21950/TWMUB1, e-cienciaDatos, V1

This database includes all the data from figures included in the publication: "Sustainable hydrogen production from green methanol using agglomerated catalysts: a design-of‑experiments approach"

Dataset Sustainable hydrogen production from green methanol.tabEmbargoed

May 21, 2026 - Sustainable hydrogen production from green methanol using agglomerated catalysts: a design-of‑experiments approach

Tabular Data - 4,1 KB

readme-en Sustainable hydrogen production from green methanol.txt

May 21, 2026 - Sustainable hydrogen production from green methanol using agglomerated catalysts: a design-of‑experiments approach

Texto plano - 8,1 KB -

Renewable hydrogen from pine wood waste via pyrolysis and autothermal steam reforming: technoeconomic and environmental performance of single and co-production pathways.Embargoed

May 12, 2026

MORENO DE LA CALLE, Alvaro; Martin-Gamboa, Mario; Calles, Jose A; MEGIA, Pedro J.; Vizcaíno, Arturo; CARRERO, ALICIA, 2028, "Renewable hydrogen from pine wood waste via pyrolysis and autothermal steam reforming: technoeconomic and environmental performance of single and co-production pathways.", https://doi.org/10.21950/XPBQ9Q, e-cienciaDatos, V1

This database includes all the data from figures included in the publication: "Renewable hydrogen from pine wood waste via pyrolysis and autothermal steam reforming: technoeconomic and environmental performance of single and co-production pathways."

Dataset articulo acv.xlsxEmbargoed

May 12, 2026 - Renewable hydrogen from pine wood waste via pyrolysis and autothermal steam reforming: technoeconomic and environmental performance of single and co-production pathways.

Hoja de cálculo MS Excel - 13,7 KB -

readme-en paper ACV.txt

May 12, 2026 - Renewable hydrogen from pine wood waste via pyrolysis and autothermal steam reforming: technoeconomic and environmental performance of single and co-production pathways.

Texto plano - 25,0 KB -

Role of zeolite framework and acidity in Cu-based catalysts for dimethyl ether steam reformingEmbargoed

May 8, 2026

López Martin, Juan José; MEGIA, Pedro J.; Vizcaíno, Arturo; Calles, Jose A; CARRERO, ALICIA, 2027, "Role of zeolite framework and acidity in Cu-based catalysts for dimethyl ether steam reforming", https://doi.org/10.21950/LGVK31, e-cienciaDatos, V1

This work investigates the influence of zeolite structure and acidity on the performance of 10 wt.% Cu‑based catalysts for dimethyl ether steam reforming (DME-SR). Four commercial zeolites (denoted as HFER (Si/Al = 10), HY‑1 (Si/Al = 40), HY‑2 (Si/Al =2.6) and HZSM‑5 (Si/Al = 45) were evaluated at 400 and 500 ºC. NH3‑TPD showed differences in total...

Dataset Role of zeolite framework and acidity in Cu-based catalysts.tabEmbargoed

May 8, 2026 - Role of zeolite framework and acidity in Cu-based catalysts for dimethyl ether steam reforming

Tabular Data - 1,2 KB

readme-en Role of zeolite framework and acidity in Cu-based catalysts.txt

May 8, 2026 - Role of zeolite framework and acidity in Cu-based catalysts for dimethyl ether steam reforming

Texto plano - 8,3 KB -

Shaped mesostructured Ni/CeO2 as active catalysts in hydrogen production from acetic acid oxidative steam reforming

Mar 2, 2026

MORENO DE LA CALLE, Alvaro; MEGIA, Pedro J.; Calles, Jose A; CARRERO, ALICIA; Vizcaíno, Arturo, 2027, "Shaped mesostructured Ni/CeO2 as active catalysts in hydrogen production from acetic acid oxidative steam reforming", https://doi.org/10.21950/DTGWBT, e-cienciaDatos, V2

Oxidative steam reforming (OSR) of acetic acid was carried out using shaped catalysts prepared by combining Ni supported on mesostructured ceria with various clays (kaolinite, sepiolite, attapulgite, and bentonite). Bentonite or attapulgite extrudates calcined with 1°C/min heating rate demonstrated better mechanical resistance. Higher acetic acid c...

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