Novel process for simultaneous removal of NOx and SO{sub 2} from simulated flue gas by using a sustainable Ag(I)/Ag(II) redox mediator

The objective of this work is to develop a sustainable process for simultaneous removal of waste gases such as NO, NO{sub 2}, and SO{sub 2} by an electrochemically generated Ag(I)/Ag(II) redox mediator system. High removal efficiency was achieved for NO and SO{sub 2} by the wet scrubbing method at r...

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Veröffentlicht in:	Environmental science & technology 2008-10, Vol.42 (19)
Hauptverfasser:	Thasan Raju, Sang Joon Chung, Il Shik Moon
Format:	Artikel
Sprache:	eng
Schlagworte:	01 COAL, LIGNITE, AND PEAT COMBINED SOXNOX PROCESSES CONCENTRATION RATIO EFFICIENCY ELECTROCHEMISTRY FLUE GAS NITROGEN OXIDES OXIDATION REDOX REACTIONS REMOVAL SILVER SULFUR DIOXIDE
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container_title	Environmental science & technology
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creator	Thasan Raju Sang Joon Chung Il Shik Moon
description	The objective of this work is to develop a sustainable process for simultaneous removal of waste gases such as NO, NO{sub 2}, and SO{sub 2} by an electrochemically generated Ag(I)/Ag(II) redox mediator system. High removal efficiency was achieved for NO and SO{sub 2} by the wet scrubbing method at room temperature and atmospheric pressure. This removal is achieved through oxidation and absorption by contacting the gaseous stream with redox mediator ions that offer specific or selective solubility for the solute gases to be recovered in a wet scrubber. The process parameters such as gas velocity, liquid velocity, Ag(I) concentration, and HNO{sub 3} concentration were investigated to explore the possibility of complete removal of waste gases. The Ag(I)/Ag(II)-based mediated electrochemical oxidation process proved to be quite effective for simultaneous removal of NO, NOx, and SO{sub 2} from the simulated flue gas mixtures containing NO and SO{sub 2} over a wide concentration range of 100-400 ppm. Studies were carried out with individual gas components for the mixture, and the effect of input NO and input SO{sub 2} concentrations on the NOx and SO{sub 2} removal efficiencies at 20{sup o}C was examined. Complete oxidation of NO to NO{sub 2} with 100% NO removal efficiency and 92% NOx removal efficiency was achieved along with 100% SO{sub 2} removal efficiency, highlighting a potentially far greater efficiency of the Ag(I)/Ag(II)-based system in functionality and selectivity. Active research work in this direction is anticipated in the near future. 34 refs., 8 figs.
doi_str_mv	10.1021/es801174k
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High removal efficiency was achieved for NO and SO{sub 2} by the wet scrubbing method at room temperature and atmospheric pressure. This removal is achieved through oxidation and absorption by contacting the gaseous stream with redox mediator ions that offer specific or selective solubility for the solute gases to be recovered in a wet scrubber. The process parameters such as gas velocity, liquid velocity, Ag(I) concentration, and HNO{sub 3} concentration were investigated to explore the possibility of complete removal of waste gases. The Ag(I)/Ag(II)-based mediated electrochemical oxidation process proved to be quite effective for simultaneous removal of NO, NOx, and SO{sub 2} from the simulated flue gas mixtures containing NO and SO{sub 2} over a wide concentration range of 100-400 ppm. Studies were carried out with individual gas components for the mixture, and the effect of input NO and input SO{sub 2} concentrations on the NOx and SO{sub 2} removal efficiencies at 20{sup o}C was examined. Complete oxidation of NO to NO{sub 2} with 100% NO removal efficiency and 92% NOx removal efficiency was achieved along with 100% SO{sub 2} removal efficiency, highlighting a potentially far greater efficiency of the Ag(I)/Ag(II)-based system in functionality and selectivity. 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Studies were carried out with individual gas components for the mixture, and the effect of input NO and input SO{sub 2} concentrations on the NOx and SO{sub 2} removal efficiencies at 20{sup o}C was examined. Complete oxidation of NO to NO{sub 2} with 100% NO removal efficiency and 92% NOx removal efficiency was achieved along with 100% SO{sub 2} removal efficiency, highlighting a potentially far greater efficiency of the Ag(I)/Ag(II)-based system in functionality and selectivity. 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subjects	01 COAL, LIGNITE, AND PEAT COMBINED SOXNOX PROCESSES CONCENTRATION RATIO EFFICIENCY ELECTROCHEMISTRY FLUE GAS NITROGEN OXIDES OXIDATION REDOX REACTIONS REMOVAL SILVER SULFUR DIOXIDE
title	Novel process for simultaneous removal of NOx and SO{sub 2} from simulated flue gas by using a sustainable Ag(I)/Ag(II) redox mediator
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