Regeneration of Exhausted Palladium-Based Membranes: Recycling Process and Economics: Recycling Process and Economics

Luigi Toro; Emanuela Moscardini; Ludovica M. Baldassari; Flavia Forte; Jacopo Coletta; Emma Palo; Vittoria Cosentino; Fabio Angelini; Alba Arratibel Plazaola; Francesca Pagnanelli; Pietro Altimari

doi:10.3390/membranes12070723

Regeneration of Exhausted Palladium-Based Membranes: Recycling Process and Economics: Recycling Process and Economics

Luigi Toro
, Emanuela Moscardini
, Ludovica M. Baldassari
, Flavia Forte
, Jacopo Coletta
, Emma Palo
, Vittoria Cosentino
, Fabio Angelini
, Alba Arratibel Plazaola
, Francesca Pagnanelli
, Pietro Altimari

Eco Recycling Srl
KT—Kinetics Technology Spa
University of Rome La Sapienza

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

8 Citas (Scopus)

1 Descargas (Pure)

Resumen

The aim of the present work is the recycling treatment of tubular α-Al2O3-supported ceramic membranes with a Pd/Ag selective layer, employed in hydrogen production with integrated CO2 capture. A nitric acid leaching treatment was investigated, and recovered ceramic supports were characterized, demonstrating their suitability for the production of novel efficient membranes. The main objective was the metal dissolution that preserved the support integrity in order to allow the recovered membrane to be suitable for a new deposition of the selective layer. The conditions that obtained a satisfactory dissolution rate of the Pd/Ag layer while avoiding the support to be damaged are as follows: nitric acid 3 M, 60 °C and 3.5 h of reaction time. The efficiency of the recovered supports was determined by nitrogen permeance and surface roughness analysis, and the economic figures were analysed to evaluate the convenience of the regeneration process and the advantage of a recycled membrane over a new membrane. The experimentation carried out demonstrates the proposed process feasibility both in terms of recycling and economic results.

Idioma original	Inglés
Número de artículo	723
Páginas (desde-hasta)	723
Número de páginas	1
Publicación	Membranes
Volumen	12
N.º	7
DOI	https://doi.org/10.3390/membranes12070723
Estado	Publicada - 21 jul 2022

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

ODS 12: Producción y consumo responsables
ODS 13: Acción por el clima

Palabras clave

Recycling
Ceramic membranes
Palladium
CCS technology
Hydrogen
Integrated CO2 capture
Economic analysis
Circular economy
Prototype plant

Project and Funding Information

Project ID
info:eu-repo/grantAgreement/EC/H2020/760944/EU/Advanced MEMBranes and membrane assisted procEsses for pre- and post- combustion CO 2 captuRe/MEMBER
Funding Info
This research has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement no. 760944 (MEMBER project).

Acceder al documento

10.3390/membranes12070723

Membranes-12-00723-v2Versión publicada final, 13,2 MB

Otros archivos y enlaces

Enlace a la publicación en Scopus

Citar esto

@article{b9861927d126421590d99883f5cff49d,

title = "Regeneration of Exhausted Palladium-Based Membranes: Recycling Process and Economics: Recycling Process and Economics",

abstract = "The aim of the present work is the recycling treatment of tubular α-Al2O3-supported ceramic membranes with a Pd/Ag selective layer, employed in hydrogen production with integrated CO2 capture. A nitric acid leaching treatment was investigated, and recovered ceramic supports were characterized, demonstrating their suitability for the production of novel efficient membranes. The main objective was the metal dissolution that preserved the support integrity in order to allow the recovered membrane to be suitable for a new deposition of the selective layer. The conditions that obtained a satisfactory dissolution rate of the Pd/Ag layer while avoiding the support to be damaged are as follows: nitric acid 3 M, 60 °C and 3.5 h of reaction time. The efficiency of the recovered supports was determined by nitrogen permeance and surface roughness analysis, and the economic figures were analysed to evaluate the convenience of the regeneration process and the advantage of a recycled membrane over a new membrane. The experimentation carried out demonstrates the proposed process feasibility both in terms of recycling and economic results.",

keywords = "Recycling, Ceramic membranes, Palladium, CCS technology, Hydrogen, Integrated CO2 capture, Economic analysis, Circular economy, Prototype plant, Recycling, Ceramic membranes, Palladium, CCS technology, Hydrogen, Integrated CO2 capture, Economic analysis, Circular economy, Prototype plant, integrated CO capture",

author = "Luigi Toro and Emanuela Moscardini and Baldassari, \{Ludovica M.\} and Flavia Forte and Jacopo Coletta and Emma Palo and Vittoria Cosentino and Fabio Angelini and \{Arratibel Plazaola\}, Alba and Francesca Pagnanelli and Pietro Altimari",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors.",

year = "2022",

month = jul,

day = "21",

doi = "10.3390/membranes12070723",

language = "English",

volume = "12",

pages = "723",

journal = "Membranes",

issn = "2077-0375",

publisher = "MDPI AG",

number = "7",

}

TY - JOUR

T1 - Regeneration of Exhausted Palladium-Based Membranes: Recycling Process and Economics

T2 - Recycling Process and Economics

AU - Toro, Luigi

AU - Moscardini, Emanuela

AU - Baldassari, Ludovica M.

AU - Forte, Flavia

AU - Coletta, Jacopo

AU - Palo, Emma

AU - Cosentino, Vittoria

AU - Angelini, Fabio

AU - Arratibel Plazaola, Alba

AU - Pagnanelli, Francesca

AU - Altimari, Pietro

PY - 2022/7/21

Y1 - 2022/7/21

N2 - The aim of the present work is the recycling treatment of tubular α-Al2O3-supported ceramic membranes with a Pd/Ag selective layer, employed in hydrogen production with integrated CO2 capture. A nitric acid leaching treatment was investigated, and recovered ceramic supports were characterized, demonstrating their suitability for the production of novel efficient membranes. The main objective was the metal dissolution that preserved the support integrity in order to allow the recovered membrane to be suitable for a new deposition of the selective layer. The conditions that obtained a satisfactory dissolution rate of the Pd/Ag layer while avoiding the support to be damaged are as follows: nitric acid 3 M, 60 °C and 3.5 h of reaction time. The efficiency of the recovered supports was determined by nitrogen permeance and surface roughness analysis, and the economic figures were analysed to evaluate the convenience of the regeneration process and the advantage of a recycled membrane over a new membrane. The experimentation carried out demonstrates the proposed process feasibility both in terms of recycling and economic results.

AB - The aim of the present work is the recycling treatment of tubular α-Al2O3-supported ceramic membranes with a Pd/Ag selective layer, employed in hydrogen production with integrated CO2 capture. A nitric acid leaching treatment was investigated, and recovered ceramic supports were characterized, demonstrating their suitability for the production of novel efficient membranes. The main objective was the metal dissolution that preserved the support integrity in order to allow the recovered membrane to be suitable for a new deposition of the selective layer. The conditions that obtained a satisfactory dissolution rate of the Pd/Ag layer while avoiding the support to be damaged are as follows: nitric acid 3 M, 60 °C and 3.5 h of reaction time. The efficiency of the recovered supports was determined by nitrogen permeance and surface roughness analysis, and the economic figures were analysed to evaluate the convenience of the regeneration process and the advantage of a recycled membrane over a new membrane. The experimentation carried out demonstrates the proposed process feasibility both in terms of recycling and economic results.

KW - Recycling

KW - Ceramic membranes

KW - Palladium

KW - CCS technology

KW - Hydrogen

KW - Integrated CO2 capture

KW - Economic analysis

KW - Circular economy

KW - Prototype plant

KW - Recycling

KW - Ceramic membranes

KW - Palladium

KW - CCS technology

KW - Hydrogen

KW - Integrated CO2 capture

KW - Economic analysis

KW - Circular economy

KW - Prototype plant

KW - integrated CO capture

UR - https://www.scopus.com/pages/publications/85136192492

U2 - 10.3390/membranes12070723

DO - 10.3390/membranes12070723

M3 - Article

SN - 2077-0375

VL - 12

SP - 723

JO - Membranes

JF - Membranes

IS - 7

M1 - 723

ER -

Regeneration of Exhausted Palladium-Based Membranes: Recycling Process and Economics: Recycling Process and Economics

Resumen

ODS de las Naciones Unidas

Palabras clave

Project and Funding Information

Acceder al documento

Otros archivos y enlaces

Huella

Citar esto