Atmospheric mercury emissions from two pre-calciner cement plants in Southwest China

	Atmospheric mercury emissions from two pre-calciner cement plants in Southwest China
	Xinyu Li ; Zhonggen Li ; Tingting Wu ; Ji Chen ; Chengcheng Fu ; Leiming Zhang ; Xinbin Feng ; Xuewu Fu ; Li Tang ; Zhikang Wang ; Zhibo Wang
	2019
发表期刊	Atmospheric Environment
卷号	199 页码:177-188
摘要	China produces the most cement product worldwide, and cement plants (CPs) have been regarded as the largest anthropogenic sources of atmospheric mercury (Hg) emissions in China since 2009. Onsite studies of this source are scarce compare to the huge numbers of CPs in China. Hence, quantifying Hg emissions from more CPs is needed in reducing the large uncertainties existed in the current Hg emission inventories and for assessing subsequent impacts of Hg on human and ecosystem health. In this study, two pre-calciner CPs in Guizhou province of Southwest China were selected for quantifying the emission factor and mass balance of Hg. Results showed that Hg emission levels in the two CPs were obviously different due to the differences in Hg input and circulation in the production system. In cement plant #1 (CP #1), the input and output of Hg reached a dynamic equilibrium condition, the emission factor was 76.1 mg Hg·t⁻¹ clinker, and Hg concentration in the stack flue gas was in the range of 14.46–16.64 μg m⁻³. In cement plant #2 (CP #2), Hg was in an enriching status because it was a new plant with operation of several months and most input Hg was retained inside the production system, hence with a much lower emission factor of 1.8 mg Hg·t⁻¹ clinker and Hg concentration of 0.15–0.49 μg m⁻³ in the stack gas. Kiln tail stack was the main output pathway of Hg in the clinker production process. With removal efficiency of 73.06% and 99.95% at kiln tail by ESP in CP #1 and humidifier + ESP-FF in CP #2, respectively, Hg emitted into the atmosphere was mainly in the forms of gaseous oxidized mercury (Hg²⁺) and gaseous elemental mercury (Hg⁰). Besides, the operation mode (on or off) of raw mill had great impact on the concentration and speciation of Hg in flue gas and flue gas temperature at kiln tail. In the clinker production system, limestone is the main source of Hg input (41.4–56.4%), followed by the fueled coal (15.3–32.5%). While, in the clinker to cement production process, the additives (mainly gypsum from coal-fired power plants, 83.2–94.4%) was the main source of Hg in the cement because Hg concentration in the clinker was very low.
关键词	Atmospheric Mercury Emissions air Pollution Control emission factor Mercury Enrichment cement Plant
收录类别	SCI
语种	英语
文献类型	期刊论文
条目标识符	http://ir.gyig.ac.cn/handle/42920512-1/10411
专题	环境地球化学国家重点实验室
作者单位	1.State Key Laboratory of Environmental Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang, 550081, China 2.University of Chinese Academy of Sciences, Beijing, 100049, China 3.Guizhou Environmental Monitoring Center, Guiyang, 550081, China 4.Air Quality Research Division, Science and Technology Branch, Environment and Climate Change Canada, Toronto, Canada 5.College of Eco-environmental Engineering, Guizhou Minzu University, Guiyang, 550025, China
推荐引用方式 GB/T 7714	Xinyu Li,Zhonggen Li,Tingting Wu,et al. Atmospheric mercury emissions from two pre-calciner cement plants in Southwest China[J]. Atmospheric Environment,2019,199:177-188.
APA	Xinyu Li.,Zhonggen Li.,Tingting Wu.,Ji Chen.,Chengcheng Fu.,...&Zhibo Wang.(2019).Atmospheric mercury emissions from two pre-calciner cement plants in Southwest China.Atmospheric Environment,199,177-188.
MLA	Xinyu Li,et al."Atmospheric mercury emissions from two pre-calciner cement plants in Southwest China".Atmospheric Environment 199(2019):177-188.

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