Estimation and characterization of unintentionally produced persistent organic pollutant emission from converter steelmaking processes

Li, Sumei; Zheng, Minghui; Liu, Wenbin; Liu, Guorui; Xiao, Ke; Li, Changliang

doi:10.1007/s11356-014-2652-y

Cited by 37 publications

(25 citation statements)

References 22 publications

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“…The less chlorinated PCN congeners CN-1, CN-2, CN-4, and CN-5/7 were the dominant PCNs in the air samples, contributing 60-96% of the total PCN mass concentrations. The PCDD, PCDF, dl-PCB, and PCN congener profiles in the air were similar to the profiles found in stack gases emitted during the converter steelmaking and iron ore sintering processes (Aries et al, 2006;Li et al, 2014).…”

Section: Comparison Of the Pcdd Pcdf And Dioxin-like Compound Profisupporting

confidence: 68%

Comparison of the contributions of polychlorinated dibenzo-p-dioxins and dibenzofurans and other unintentionally produced persistent organic pollutants to the total toxic equivalents in air of steel plant areas

Liu

Zheng

et al. 2015

Chemosphere

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h i g h l i g h t sLevel of dioxin and dioxin-like compounds in air of steel plant areas was studied. Relative contribution of dioxins and dioxin-like compounds was compared. Profiles of dioxins and dioxin-like compounds in the ambient air were stated. a r t i c l e i n f o , and 0.02-0.12 pg TEQ N m À3 , respectively. The PCNs were the most abundant compounds (by mass concentration), contributing about 87% of the total mass concentrations of the analytes that were found in the air of the steel plant areas. The PCDFs contributed about 47% of the total TEQs, following by the PBDFs (28%) and the PCDDs (18%). The dioxin-like compounds together contributed up to 40% of the total TEQs, so their contributions to the toxic effects that could be caused by exposure to the air of the steel plant areas were significant. The congener profiles in the air were similar to the congener profiles that were found in stack gas emissions, indicating that the steelmaking plants were possible sources of the PCDDs, PCDFs, and dioxin-like compounds that were found in the air of the steel plant areas.

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Section: Comparison Of the Pcdd Pcdf And Dioxin-like Compound Profisupporting

confidence: 68%

Comparison of the contributions of polychlorinated dibenzo-p-dioxins and dibenzofurans and other unintentionally produced persistent organic pollutants to the total toxic equivalents in air of steel plant areas

Liu

Zheng

et al. 2015

Chemosphere

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“…One reason for this could be the effect of the feeding materials under the flowing gas. Feeding materials make important contributions to PCN concentration and formation during thermal processes [34]. PCNs present in feeding materials could be important sources of PCNs emitted during thermal processes.…”

Section: Variations and The Factors Influencing Pcn Concentrations Inmentioning

confidence: 99%

Variations and factors that influence the formation of polychlorinated naphthalenes in cement kilns co-processing solid waste

Jin

Zhan

Liu

et al. 2016

Journal of Hazardous Materials

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h i g h l i g h t s• PCN destruction efficiencies of cement kilns were derived.• Factors influencing PCN variation and formation were identified.• Major pathways for PCN formation and decomposition in cement kiln were discussed.• PCN indicators for sources involved with coal burning were proposed. a r t i c l e i n f o b s t r a c tPilot studies of unintentionally produced pollutants should be performed before waste being coprocessed in cement kilns. Polychlorinated naphthalene (PCN) formation and emission from cement kilns co-processing sorted municipal solid waste, sewage sludge, and waste acid, however, have not previously been studied. Here, PCNs were analyzed in stack gas samples and solid samples from different stages of three cement production runs. PCN destruction efficiencies were higher when waste was coprocessed (93.1% and 88.7% in two tests) than when waste was not co-processed (39.1%), so co-processing waste would not increase PCN outputs. The PCN concentrations were higher in particle samples from the C1 preheater and stages at back end of kiln than in particle samples from other stages, suggesting that cyclone preheater and back end of kiln should be focused for controlling PCN emissions. Besides that, based on the variation of PCN concentrations and corresponding operating conditions in different stages, the temperature, feeding materials, and chlorine content were suggested as the main factors influencing PCN formation. The PCN homologue and congener profiles suggested chlorination and dechlorination were the main PCN formation and decomposition pathways, and congeners CN-23, CN-46, and CN-59 appear to be appropriate indicators of PCNs emitted from coal-burning sources.

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“…The concentrations of PCBs in fly ash from sintering processes have seldom reported, and no other published data on PCB levels from sintering processes are available for comparison. However, the PCBs from some other thermal industries have been reported, including converter steelmaking processes (0.036-0.75 ng g −1 for dl-PCB, 0.03-2.85 pg WHO-TEQ g − 1 ), iron foundries (0.028-9.34 pg WHO-TEQ g −1 ), secondary aluminum production (0.018-10.2 ng TEQ g −1 ), and secondary copper production (0.003-103.1 ng TEQ g −1 ) (Li et al 2014) (Ba et al 2010;Lv et al 2011). The levels of PCBs in fly ash samples from sintering processes were far higher than those of converter steelmaking processes, iron foundries, secondary copper production, and secondary copper production.…”

Section: Concentrations Of Pcbs In Fly Ash Samples From Sintering Plantmentioning

confidence: 99%

“…Consequently, unintentional emissions of PCBs during industrial thermal processes have been becoming, and will continue to become, more important sources of PCBs in the environment. These thermal emission sources of PCBs include iron sintering, secondary nonferrousmetal smelting, iron casting, coking, and converter steelmaking; iron-ore sintering is an important industrial source of PCBs (Ba et al 2010;Ba et al 2009;Li et al 2014;Liu et al 2009a;Liu et al 2009b;Luthardt et al 2002;Lv et al 2011;Tian et al 2012). The environmental presence and behaviors of PCBs have been studied for more than 30 years (Li et al 2010).…”

Section: Introductionmentioning

confidence: 99%

Removal of polychlorinated biphenyls by desulfurization and emissions of polychlorinated biphenyls from sintering plants

Wang

Hou

Zhao

et al. 2015

Environ Sci Pollut Res

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The influence of desulfurization on polychlorinated biphenyls (PCBs) from sintering plants was investigated. The concentrations of dioxin-like (dl) PCBs, toxic equivalents (TEQs), indicator PCBs, and total tri-to deca-chlorinated PCB homolog groups (∑PCBs) in the flue gases at the desulfurization system inlets were 290-1906 pg m −3 (2.4-18.8 pg World Health Organization (WHO) TEQ m −3 ), 420-2885 pg m −3 , and 6496-22,648 pg m −3 , respectively. Desulfurization reduced the values to 43.3-500 pg m −3 (0.46-9.5 pg WHO-TEQ m −3 ), 183-587 pg m −3 , and 2383-11,639 pg m −3 , respectively. The removed PCBs were adsorbed by gypsum from the flue gas; the PCB concentration distributions at the inlets and outlets and in the gypsum samples were similar. The emission factors were 9.86 ng WHO-TEQ t −1 for the flue gas and 8.37 ng WHO-TEQ t −1 for gypsum. Desulfurization decreased the annual atmospheric PCB emissions from 48.6 to 30.7 g WHO-TEQ, and the estimated annual emissions in gypsum were 8.06 g WHO-TEQ. PCBs in the gypsum have not been effectively eliminated and will probably reenter the environment and in turn become a new source of PCB emission. The PCB concentrations in fly ashes from series-connected electrostatic precipitators clearly increased.

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Estimation and characterization of unintentionally produced persistent organic pollutant emission from converter steelmaking processes

Cited by 37 publications

References 22 publications

Comparison of the contributions of polychlorinated dibenzo-p-dioxins and dibenzofurans and other unintentionally produced persistent organic pollutants to the total toxic equivalents in air of steel plant areas

Comparison of the contributions of polychlorinated dibenzo-p-dioxins and dibenzofurans and other unintentionally produced persistent organic pollutants to the total toxic equivalents in air of steel plant areas

Variations and factors that influence the formation of polychlorinated naphthalenes in cement kilns co-processing solid waste

Removal of polychlorinated biphenyls by desulfurization and emissions of polychlorinated biphenyls from sintering plants

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