Add to ORKGThis work summarizes the research activities carried out by this group and concerning the development of calcium looping (CaL) processes, based on the use of calcium-based sorbents, aimed at the CO2 capture from flue gases. Three main research themes were investigated. A) Effect of SO2 on the attrition propensity and on the CO2 capture capacity for a sorbent upon CaL cycles in a lab-scale fluidized bed reactor. B) Development of a model of the two CaL stages, based on population balances on sorbent particles. C) Water-induced reactivation of the CO2 capture capacity for exhausted sorbents
The calcium looping process (Ca-L) is a promising technology to reduce of the carbon dioxide (CO2) e...
The loss of calcium oxide CO2 capture capacity and the extent of particle attrition over iterated cy...
The Calcium Looping (CaL) technology, based on the multicyclic carbonation/calcination of CaO in gas...
The CO2 capture capacity and the extent of particle attrition during simulated calcium looping cycle...
In this paper we present a population balance model on sorbent particles in a dual fluidized bed cal...
AbstractPostcombustion CO2 capture by Calcium Looping (CaL) has been successfully carried out for mo...
Attrition of six different limestones was studied during calcium looping cycles for CO2 capture in a...
Attrition of a limestone during calcium looping cycles for CO2 capture was studied in a lab-scale f...
Global warming due to anthropogenic CO2 emissions is stimulating the development of novel combustion...
The calcium carbonate looping (CaL) process is a promising post-combustion technology for CO2 captur...
Attrition of six different limestones during calcium looping cycles for CO2 capture was studied in a...
AbstractThe development of Calcium-Looping for CO2 capture has made vast progress in recent time. Th...
The potential of water hydration as a mean to reactivate a spent reactive limestone-based sorbent us...
AbstractThe Calcium Looping (CaL) process using CaO as sorbent for capturing CO2 from flue gases is ...
A population balance model on sorbents in a fluidized bed Ca-looping process is presented. The model...
The calcium looping process (Ca-L) is a promising technology to reduce of the carbon dioxide (CO2) e...
The loss of calcium oxide CO2 capture capacity and the extent of particle attrition over iterated cy...
The Calcium Looping (CaL) technology, based on the multicyclic carbonation/calcination of CaO in gas...
The CO2 capture capacity and the extent of particle attrition during simulated calcium looping cycle...
In this paper we present a population balance model on sorbent particles in a dual fluidized bed cal...
AbstractPostcombustion CO2 capture by Calcium Looping (CaL) has been successfully carried out for mo...
Attrition of six different limestones was studied during calcium looping cycles for CO2 capture in a...
Attrition of a limestone during calcium looping cycles for CO2 capture was studied in a lab-scale f...
Global warming due to anthropogenic CO2 emissions is stimulating the development of novel combustion...
The calcium carbonate looping (CaL) process is a promising post-combustion technology for CO2 captur...
Attrition of six different limestones during calcium looping cycles for CO2 capture was studied in a...
AbstractThe development of Calcium-Looping for CO2 capture has made vast progress in recent time. Th...
The potential of water hydration as a mean to reactivate a spent reactive limestone-based sorbent us...
AbstractThe Calcium Looping (CaL) process using CaO as sorbent for capturing CO2 from flue gases is ...
A population balance model on sorbents in a fluidized bed Ca-looping process is presented. The model...
The calcium looping process (Ca-L) is a promising technology to reduce of the carbon dioxide (CO2) e...
The loss of calcium oxide CO2 capture capacity and the extent of particle attrition over iterated cy...
The Calcium Looping (CaL) technology, based on the multicyclic carbonation/calcination of CaO in gas...