Parametric Study of Cs/CaO Sorbents with Respect to Simulated Flue Gas at High Temperatures

The development of novel sorbents for reducing the carbon dioxide emissions at high temperature focused on cesium-doped CaO sorbents with respect to other major flue gas compounds in a wide temperature range has been studied in this paper. The sorbent calcined under oxygen atmosphere leads to the fo...

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Published inIndustrial & engineering chemistry research Vol. 44; no. 16; pp. 6485 - 6490
Main Authors Roesch, Alexander, Reddy, Ettireddy P, Smirniotis, Panagiotis G
Format Journal Article
LanguageEnglish
Published Washington, DC American Chemical Society 03.08.2005
Subjects
01 COAL, LIGNITE, AND PEAT
ADSORBENTS
Applied sciences
Atmospheric pollution
CALCIUM OXIDES
CARBON DIOXIDE
CESIUM
CESIUM OXIDES
Chemical engineering
DOPED MATERIALS
Exact sciences and technology
FLUE GAS
General processes of purification and dust removal
Pollution
Prevention and purification methods
REMOVAL
Gaseous effluent
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Abstract The development of novel sorbents for reducing the carbon dioxide emissions at high temperature focused on cesium-doped CaO sorbents with respect to other major flue gas compounds in a wide temperature range has been studied in this paper. The sorbent calcined under oxygen atmosphere leads to the formation of cesium superoxide (CsO2) on the sorbent surface. The thermogravimetric analysis of sorbent with 20 wt % cesium loading on CaO demonstrated a CO2 sorption uptake of 66 wt % CO2/g of sorbent. It is remarkable to note that zero adsorption affinity for N2 and O2 at temperatures as high as 600 °C was observed. This is due to the presence of highly oxidized phase of cesium (CsO2) on the sorbent surface and the sorbent being unable to react with nitrogen at the above-mentioned temperatures. In the presence of water vapor, the adsorption of CO2 increased to the highest capacity of 77 wt % CO2/g of sorbent. The reason for this behavior is that the water vapor digs into the bigger particles, thus making the porous type of sorbent material. In the presence of nitrogen oxide, the final CO2 adsorption remained the same, but the rate of adsorption was higher at the initial stages (10%) than the case where no nitrogen oxide was fed.
AbstractList The development of novel sorbents for reducing the carbon dioxide emissions at high temperature focused on cesium-doped CaO sorbents with respect to other major flue gas compounds in a wide temperature range has been studied in this paper. The sorbent calcined under oxygen atmosphere leads to the formation of cesium superoxide (CsO{sub 2}) on the sorbent surface. The thermogravimetric analysis of sorbent with 20 wt% cesium loading on CaO demonstrated a CO{sub 2} sorption uptake of 66 wt% CO{sub 2}/g of sorbent. It is remarkable to note that zero adsorption affinity for N{sub 2} and O{sub 2} at temperatures as high as 600{sup o}C was observed. This is due to the presence of highly oxidized phase of cesium (CsO{sub 2}) on the sorbent surface and the sorbent being unable to react with nitrogen at the above-mentioned temperatures. In the presence of water vapor, the adsorption of CO{sub 2} increased to the highest capacity of 77 wt% CO{sub 2}/g of sorbent. The reason for this behavior is that the water vapor digs into the bigger particles, thus making the porous type of sorbent material. In the presence of nitrogen oxide, the final CO{sub 2} adsorption remained the same, but the rate of adsorption was higher at the initial stages (10%) than the case where no nitrogen oxide was fed.
The development of novel sorbents for reducing the carbon dioxide emissions at high temperature focused on cesium-doped CaO sorbents with respect to other major flue gas compounds in a wide temperature range has been studied in this paper. The sorbent calcined under oxygen atmosphere leads to the formation of cesium superoxide (CsO2) on the sorbent surface. The thermogravimetric analysis of sorbent with 20 wt % cesium loading on CaO demonstrated a CO2 sorption uptake of 66 wt % CO2/g of sorbent. It is remarkable to note that zero adsorption affinity for N2 and O2 at temperatures as high as 600 °C was observed. This is due to the presence of highly oxidized phase of cesium (CsO2) on the sorbent surface and the sorbent being unable to react with nitrogen at the above-mentioned temperatures. In the presence of water vapor, the adsorption of CO2 increased to the highest capacity of 77 wt % CO2/g of sorbent. The reason for this behavior is that the water vapor digs into the bigger particles, thus making the porous type of sorbent material. In the presence of nitrogen oxide, the final CO2 adsorption remained the same, but the rate of adsorption was higher at the initial stages (10%) than the case where no nitrogen oxide was fed.
Author Roesch, Alexander
Smirniotis, Panagiotis G
Reddy, Ettireddy P
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SubjectTerms 01 COAL, LIGNITE, AND PEAT
ADSORBENTS
Applied sciences
Atmospheric pollution
CALCIUM OXIDES
CARBON DIOXIDE
CESIUM
CESIUM OXIDES
Chemical engineering
DOPED MATERIALS
Exact sciences and technology
FLUE GAS
General processes of purification and dust removal
Pollution
Prevention and purification methods
REMOVAL
Title Parametric Study of Cs/CaO Sorbents with Respect to Simulated Flue Gas at High Temperatures
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