Synergistic Elimination of NOx and Chloroaromatics on a Commercial V2O5–WO3/TiO2 Catalyst: Byproduct Analyses and the SO2 Effect

The synergistic control of multipollutants is the frontier of environmental catalysis. This research is in the infancy stage, and many uncertainties still remain. Herein, we investigated the reaction characteristics of synergistic elimination of NOx and chloroaromatics on a commercial V2O5–WO3/TiO2...

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Veröffentlicht in:	Environmental science & technology 2019-11, Vol.53 (21), p.12657
Hauptverfasser:	Jiang, Weiyu, Yu, Yulei, Bi, Feng, Sun, Pengfei, Weng, Xiaole, Wu, Zhongbiao
Format:	Artikel
Sprache:	eng
Schlagworte:	Alkalinity Alkanes Alkenes Aromatic compounds Byproducts Catalysis Catalysts Chemical reduction Chloroaromatics Chlorobenzene Chlorophenol Congeners Deactivation Dioxins Environmental assessment Environmental risk Gases Nitrogen oxides Nitrophenol Origins PCB Polychlorinated biphenyls Polychlorinated dibenzodioxins Polychlorinated dibenzofurans Selective catalytic reduction Sulfur dioxide TCDD Titanium dioxide Tungsten oxides Vanadium pentoxide
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creator	Jiang, Weiyu Yu, Yulei Bi, Feng Sun, Pengfei Weng, Xiaole Wu, Zhongbiao
description	The synergistic control of multipollutants is the frontier of environmental catalysis. This research is in the infancy stage, and many uncertainties still remain. Herein, we investigated the reaction characteristics of synergistic elimination of NOx and chloroaromatics on a commercial V2O5–WO3/TiO2 catalyst. The reaction byproducts were qualitatively and quantitatively analyzed, and their origins were clarified. In particular, the origins of polychlorinated dibenzo-p-dioxins (PCDDs) and polychlorinated dibenzofurans (PCDFs) from the synergistic reaction with or without SO2 were first explored; this is crucial for assessing the environmental risk by applying such a synergistic system. Experimental results indicate that during the synergistic reaction, the V2O5–WO3/TiO2 catalyst was deactivated at 200 and 250 °C, whereas the 300 °C was sufficient to durably convert the NO and chlorobenzene at the turnover frequency (TOF) of 7.23 × 10–4 and 1.32 × 10–4 s–1, respectively. A range of aromatics, alkenes, and alkanes, particularly their chlorinated congeners, were observed in the off-gases and on the catalyst surface, where those of 3-chlorobenzonitrile, 4-chloro-2-nitrophenol, and inorganic CS2 were first discovered. In the time-on-stream test at 250 °C, the PCDD/Fs collected from the off-gases was measured at 0.0514 ng I-TEQ Nm–3, but the most toxic dioxins congener, 2,3,7,8-TCDD, was not observed. The alkalinity of selective catalytic reduction reaction likely facilitated the chlorophenol formation, which eventually promoted PCDD/F generation. The SO2 was found to benefit polychlorinated byproduct generation, but the addition of which distinctly inhibited PCDD/F formation.
doi_str_mv	10.1021/acs.est.9b04155
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This research is in the infancy stage, and many uncertainties still remain. Herein, we investigated the reaction characteristics of synergistic elimination of NOx and chloroaromatics on a commercial V2O5–WO3/TiO2 catalyst. The reaction byproducts were qualitatively and quantitatively analyzed, and their origins were clarified. In particular, the origins of polychlorinated dibenzo-p-dioxins (PCDDs) and polychlorinated dibenzofurans (PCDFs) from the synergistic reaction with or without SO2 were first explored; this is crucial for assessing the environmental risk by applying such a synergistic system. Experimental results indicate that during the synergistic reaction, the V2O5–WO3/TiO2 catalyst was deactivated at 200 and 250 °C, whereas the 300 °C was sufficient to durably convert the NO and chlorobenzene at the turnover frequency (TOF) of 7.23 × 10–4 and 1.32 × 10–4 s–1, respectively. A range of aromatics, alkenes, and alkanes, particularly their chlorinated congeners, were observed in the off-gases and on the catalyst surface, where those of 3-chlorobenzonitrile, 4-chloro-2-nitrophenol, and inorganic CS2 were first discovered. In the time-on-stream test at 250 °C, the PCDD/Fs collected from the off-gases was measured at 0.0514 ng I-TEQ Nm–3, but the most toxic dioxins congener, 2,3,7,8-TCDD, was not observed. The alkalinity of selective catalytic reduction reaction likely facilitated the chlorophenol formation, which eventually promoted PCDD/F generation. The SO2 was found to benefit polychlorinated byproduct generation, but the addition of which distinctly inhibited PCDD/F formation.</description><identifier>ISSN: 0013-936X</identifier><identifier>DOI: 10.1021/acs.est.9b04155</identifier><language>eng</language><publisher>Easton: American Chemical Society</publisher><subject>Alkalinity ; Alkanes ; Alkenes ; Aromatic compounds ; Byproducts ; Catalysis ; Catalysts ; Chemical reduction ; Chloroaromatics ; Chlorobenzene ; Chlorophenol ; Congeners ; Deactivation ; Dioxins ; Environmental assessment ; Environmental risk ; Gases ; Nitrogen oxides ; Nitrophenol ; Origins ; PCB ; Polychlorinated biphenyls ; Polychlorinated dibenzodioxins ; Polychlorinated dibenzofurans ; Selective catalytic reduction ; Sulfur dioxide ; TCDD ; Titanium dioxide ; Tungsten oxides ; Vanadium pentoxide</subject><ispartof>Environmental science & technology, 2019-11, Vol.53 (21), p.12657</ispartof><rights>Copyright American Chemical Society Nov 5, 2019</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>Jiang, Weiyu</creatorcontrib><creatorcontrib>Yu, Yulei</creatorcontrib><creatorcontrib>Bi, Feng</creatorcontrib><creatorcontrib>Sun, Pengfei</creatorcontrib><creatorcontrib>Weng, Xiaole</creatorcontrib><creatorcontrib>Wu, Zhongbiao</creatorcontrib><title>Synergistic Elimination of NOx and Chloroaromatics on a Commercial V2O5–WO3/TiO2 Catalyst: Byproduct Analyses and the SO2 Effect</title><title>Environmental science & technology</title><description>The synergistic control of multipollutants is the frontier of environmental catalysis. 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A range of aromatics, alkenes, and alkanes, particularly their chlorinated congeners, were observed in the off-gases and on the catalyst surface, where those of 3-chlorobenzonitrile, 4-chloro-2-nitrophenol, and inorganic CS2 were first discovered. In the time-on-stream test at 250 °C, the PCDD/Fs collected from the off-gases was measured at 0.0514 ng I-TEQ Nm–3, but the most toxic dioxins congener, 2,3,7,8-TCDD, was not observed. The alkalinity of selective catalytic reduction reaction likely facilitated the chlorophenol formation, which eventually promoted PCDD/F generation. The SO2 was found to benefit polychlorinated byproduct generation, but the addition of which distinctly inhibited PCDD/F formation.</description><subject>Alkalinity</subject><subject>Alkanes</subject><subject>Alkenes</subject><subject>Aromatic compounds</subject><subject>Byproducts</subject><subject>Catalysis</subject><subject>Catalysts</subject><subject>Chemical reduction</subject><subject>Chloroaromatics</subject><subject>Chlorobenzene</subject><subject>Chlorophenol</subject><subject>Congeners</subject><subject>Deactivation</subject><subject>Dioxins</subject><subject>Environmental assessment</subject><subject>Environmental risk</subject><subject>Gases</subject><subject>Nitrogen oxides</subject><subject>Nitrophenol</subject><subject>Origins</subject><subject>PCB</subject><subject>Polychlorinated biphenyls</subject><subject>Polychlorinated dibenzodioxins</subject><subject>Polychlorinated dibenzofurans</subject><subject>Selective catalytic reduction</subject><subject>Sulfur dioxide</subject><subject>TCDD</subject><subject>Titanium dioxide</subject><subject>Tungsten oxides</subject><subject>Vanadium pentoxide</subject><issn>0013-936X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><recordid>eNotULtOwzAA9AASpTCzWmJO60ccJ2wlKgWpIkPLY6scP1pXSQyxI9EN8Qv8IV-CeUwn3Z1OdwfABUYTjAieCukn2odJUaMUM3YERghhmhQ0ez4Bp97vEUKEonwEPlaHTvdb64OVcN7Y1nYiWNdBZ-B99QZFp2C5a1zvRO_aKEkPoypg6dpW99KKBj6Sin29fz5VdLq2FYGlCKI5-HAFrw8vvVODDHDW_VDa_waGnYaraJwbo2U4A8dGNF6f_-MYPNzM1-VtsqwWd-VsmWwJoyFhaW3y1BijuBZ1JnBBZMpZ3KcM4Srj2DBG6ppRxjXJVRYnq5wYXHDCuBF0DC7_cmOn1yHes9m7oY-9_IZQTBErCpTTbyAxYXs</recordid><startdate>20191105</startdate><enddate>20191105</enddate><creator>Jiang, Weiyu</creator><creator>Yu, Yulei</creator><creator>Bi, Feng</creator><creator>Sun, Pengfei</creator><creator>Weng, Xiaole</creator><creator>Wu, Zhongbiao</creator><general>American Chemical Society</general><scope>7QO</scope><scope>7ST</scope><scope>7T7</scope><scope>7U7</scope><scope>8FD</scope><scope>C1K</scope><scope>FR3</scope><scope>P64</scope><scope>SOI</scope></search><sort><creationdate>20191105</creationdate><title>Synergistic Elimination of NOx and Chloroaromatics on a Commercial V2O5–WO3/TiO2 Catalyst: Byproduct Analyses and the SO2 Effect</title><author>Jiang, Weiyu ; 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This research is in the infancy stage, and many uncertainties still remain. Herein, we investigated the reaction characteristics of synergistic elimination of NOx and chloroaromatics on a commercial V2O5–WO3/TiO2 catalyst. The reaction byproducts were qualitatively and quantitatively analyzed, and their origins were clarified. In particular, the origins of polychlorinated dibenzo-p-dioxins (PCDDs) and polychlorinated dibenzofurans (PCDFs) from the synergistic reaction with or without SO2 were first explored; this is crucial for assessing the environmental risk by applying such a synergistic system. Experimental results indicate that during the synergistic reaction, the V2O5–WO3/TiO2 catalyst was deactivated at 200 and 250 °C, whereas the 300 °C was sufficient to durably convert the NO and chlorobenzene at the turnover frequency (TOF) of 7.23 × 10–4 and 1.32 × 10–4 s–1, respectively. A range of aromatics, alkenes, and alkanes, particularly their chlorinated congeners, were observed in the off-gases and on the catalyst surface, where those of 3-chlorobenzonitrile, 4-chloro-2-nitrophenol, and inorganic CS2 were first discovered. In the time-on-stream test at 250 °C, the PCDD/Fs collected from the off-gases was measured at 0.0514 ng I-TEQ Nm–3, but the most toxic dioxins congener, 2,3,7,8-TCDD, was not observed. The alkalinity of selective catalytic reduction reaction likely facilitated the chlorophenol formation, which eventually promoted PCDD/F generation. The SO2 was found to benefit polychlorinated byproduct generation, but the addition of which distinctly inhibited PCDD/F formation.</abstract><cop>Easton</cop><pub>American Chemical Society</pub><doi>10.1021/acs.est.9b04155</doi></addata></record>
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subjects	Alkalinity Alkanes Alkenes Aromatic compounds Byproducts Catalysis Catalysts Chemical reduction Chloroaromatics Chlorobenzene Chlorophenol Congeners Deactivation Dioxins Environmental assessment Environmental risk Gases Nitrogen oxides Nitrophenol Origins PCB Polychlorinated biphenyls Polychlorinated dibenzodioxins Polychlorinated dibenzofurans Selective catalytic reduction Sulfur dioxide TCDD Titanium dioxide Tungsten oxides Vanadium pentoxide
title	Synergistic Elimination of NOx and Chloroaromatics on a Commercial V2O5–WO3/TiO2 Catalyst: Byproduct Analyses and the SO2 Effect
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