CO2 conversion in a photocatalytic continuous membrane reactor

Marianna Bellardita; Leonardo Palmisano; null Brunetti; null Drioli; null Sellaro; Giuseppe Barbieri; null Fontananova; null Barbieri

CO2 conversion in a photocatalytic continuous membrane reactor

Marianna Bellardita, Leonardo Palmisano, Brunetti, Drioli, Sellaro, Giuseppe Barbieri, Fontananova, Barbieri

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Risultato della ricerca: Article › peer review

27 Citazioni (Scopus)

Abstract

The reduction of CO2 with water by using photocatalysts is one of the most promising new methods for achieving CO2 conversion to valuable hydrocarbons such as methanol (MeOH). In this work, prepared TiO2-Nafion™-based membranes were used in a photocatalytic membrane reactor, operated in continuous mode, for converting CO2 to methanol. By using the membrane with the best TiO2 distribution, a MeOH flow rate/TiO2 weight of 45 μmol (gcatalyst h)-1 was measured when operating at 2 bar of feed pressure. This value is higher than those reported in most of the literature data to date. Moreover, methanol production is considered as a relevant advance over the existing literature results which mostly propose CH4 as the reaction product.

Lingua originale	English
pagine (da-a)	67418-67427
Numero di pagine	10
Rivista	RSC Advances
Volume	6
Stato di pubblicazione	Published - 2016

All Science Journal Classification (ASJC) codes

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title = "CO2 conversion in a photocatalytic continuous membrane reactor",

abstract = "The reduction of CO2 with water by using photocatalysts is one of the most promising new methods for achieving CO2 conversion to valuable hydrocarbons such as methanol (MeOH). In this work, prepared TiO2-Nafion{\texttrademark}-based membranes were used in a photocatalytic membrane reactor, operated in continuous mode, for converting CO2 to methanol. By using the membrane with the best TiO2 distribution, a MeOH flow rate/TiO2 weight of 45 μmol (gcatalyst h)-1 was measured when operating at 2 bar of feed pressure. This value is higher than those reported in most of the literature data to date. Moreover, methanol production is considered as a relevant advance over the existing literature results which mostly propose CH4 as the reaction product.",

author = "Marianna Bellardita and Leonardo Palmisano and Brunetti and Drioli and Sellaro and Giuseppe Barbieri and Fontananova and Barbieri",

year = "2016",

language = "English",

volume = "6",

pages = "67418--67427",

journal = "RSC Advances",

issn = "2046-2069",

publisher = "Royal Society of Chemistry",

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TY - JOUR

T1 - CO2 conversion in a photocatalytic continuous membrane reactor

AU - Bellardita, Marianna

AU - Palmisano, Leonardo

AU - Brunetti, null

AU - Drioli, null

AU - Sellaro, null

AU - Barbieri, Giuseppe

AU - Fontananova, null

AU - Barbieri, null

PY - 2016

Y1 - 2016

N2 - The reduction of CO2 with water by using photocatalysts is one of the most promising new methods for achieving CO2 conversion to valuable hydrocarbons such as methanol (MeOH). In this work, prepared TiO2-Nafion™-based membranes were used in a photocatalytic membrane reactor, operated in continuous mode, for converting CO2 to methanol. By using the membrane with the best TiO2 distribution, a MeOH flow rate/TiO2 weight of 45 μmol (gcatalyst h)-1 was measured when operating at 2 bar of feed pressure. This value is higher than those reported in most of the literature data to date. Moreover, methanol production is considered as a relevant advance over the existing literature results which mostly propose CH4 as the reaction product.

AB - The reduction of CO2 with water by using photocatalysts is one of the most promising new methods for achieving CO2 conversion to valuable hydrocarbons such as methanol (MeOH). In this work, prepared TiO2-Nafion™-based membranes were used in a photocatalytic membrane reactor, operated in continuous mode, for converting CO2 to methanol. By using the membrane with the best TiO2 distribution, a MeOH flow rate/TiO2 weight of 45 μmol (gcatalyst h)-1 was measured when operating at 2 bar of feed pressure. This value is higher than those reported in most of the literature data to date. Moreover, methanol production is considered as a relevant advance over the existing literature results which mostly propose CH4 as the reaction product.

UR - http://hdl.handle.net/10447/210290

UR - http://pubs.rsc.org/en/journals/journalissues

M3 - Article

SN - 2046-2069

VL - 6

SP - 67418

EP - 67427

JO - RSC Advances

JF - RSC Advances

ER -

CO2 conversion in a photocatalytic continuous membrane reactor

Abstract

All Science Journal Classification (ASJC) codes

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