ACP Atmospheric Chemistry and Physics ACP 1680-7324 Copernicus GmbH Göttingen, Germany 10.5194/acp-10-11905-2010 Trend and characteristics of atmospheric emissions of Hg, As, and Se from coal combustion in China, 1980–2007 Tian H. Z. 1 Wang Y. 1 Xue Z. G. 2 Cheng K. 1 Qu Y. P. 1 Chai F. H. 2 Hao J. M. 3 School of Environment, Beijing Normal University, Beijing 100875, China Chinese Research Academy of Environmental Sciences, Beijing, China Department of Environmental Science and Engineering, Tsinghua University, Beijing, China 14 12 2010 10 23 11905 11919 This is an open-access article ditributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. This article is available from http://www.atmos-chem-phys.net/10/11905/2010/acp-10-11905-2010.html The full text article is available as a PDF file from http://www.atmos-chem-phys.net/10/11905/2010/acp-10-11905-2010.pdf

Emissions of hazardous trace elements in China are of great concern because of their negative impacts on local air quality as well as on regional environmental health and ecosystem risks. In this paper, the atmospheric emissions of mercury (Hg), arsenic (As), and selenium (Se) from coal combustion in China for the period 1980–2007 are estimated on the basis of coal consumption data and emission factors, which are specified by different categories of combustion facilities, coal types, and the equipped air pollution control devices configuration (Dust collectors, FGD, etc.). Specifically, multi-year emission inventories of Hg, As, and Se from 30 provinces and 4 economic sectors (thermal power, industry, residential use, and others) are evaluated and analyzed in detail. Furthermore, the gridded distribution of provincial-based Hg, As, and Se emissions in 2005 at a resolution of 1° × 1° is also plotted. It shows that the calculated national total atmospheric emissions of Hg, As, and Se from coal combustion have rapidly increased from 73.59 t, 635.57 t, and 639.69 t in 1980 to 305.95 t, 2205.50 t, and 2352.97 t in 2007, at an annually averaged growth rate of 5.4%, 4.7%, and 4.9%, respectively. The industrial sector is the largest source for Hg, As, and Se, accounting for about 50.8%, 61.2%, and 56.2% of the national totals, respectively. The share of power plants is 43.3% for mercury, 24.9% for arsenic, and 33.4% for selenium, respectively. Also, it shows remarkably different regional contribution characteristics of these 3 types of trace elements, the top 5 provinces with the heaviest mercury emissions in 2007 are Shandong (34.40 t), Henan (33.63 t), Shanxi (21.14 t), Guizhou (19.48 t), and Hebei (19.35 t); the top 5 provinces with the heaviest arsenic emissions in 2007 are Shandong (219.24 t), Hunan (213.20 t), Jilin (141.21 t), Hebei (138.54 t), and Inner Mongolia (127.49 t); while the top 5 provinces with the heaviest selenium emissions in 2007 are Shandong (289.11 t), Henan (241.45 t), Jiangsu (175.44 t), Anhui (168.89 t), and Hubei (163.96 t). Between 2000 and 2007, provinces always rank at the top five largest Hg, As, and Se emission sources are: Shandong, Hebei, Shanxi, Henan, and Jiangsu, most of which are located in the east and are traditional industry-based or economically energy intensive areas in China. Notably, Hg, As, and Se emissions from coal combustion in China begin to grow at a more moderate pace since 2005. Emissions from coal-fired power plants sector began to decrease though the coal use had been increasing steadily, which can be mainly attributed to the increasing use of wet flue gas desulfurization (WFGD) in power plants, thus the further research and control orientations of importance for these hazardous trace elements should be the industrial sector.

 References % vor jede Referenz Afonso, R. F. and Senior, C. L.: Assessment of Mercury Emissions from Full Scale Power Plants, In Proceedings of the EPRI-EPA-DOEAWMA Mega Symposium and Mercury Conference, Air & Waste Management Association, Pittsburgh, 2001. Akers, D. and Dospoy, R.: Role of coal cleaning in control of air toxics, Fuel Process. Technol., 39, 73–86, 1994. A'lvarez-Ayuso, E., Querol, X., and Tomás, A.: Environmental impact of a coal combustion-desulphurisation plant: Abatement capacity of desulphurisation process and environmental characterisation of combustion by-products, Chemosphere, 65, 2009–2017, 2006. Andren, A. W. and Klein, D. H.: Selenium in coal fired steam plant emissions, Environ. Sci. Technol., 9(9), 856–858, 1975. Bai, X. F.: The distributions, modes of occurrence and volatility of trace elements in coals of China, Ph.D. Dissertation, China Coal Research Institute, Beijing, China, 2003 (in Chinese with abstract in English). Brekke, D. W., Botros, P. E., Erickson, T. A., and Mudd, M. J.: Comparison of hazardous air pollutants from advanced and conventional power systems. 12th Annual International Pittsburgh Coal Conference, Pittsburgh, Pennsylvania, 1995. Chen, P. and Tang, X. Y.: Selenium in coal of China, Coal Geol. China, 14(suppl.), 29–32, 2002 (in Chinese with abstract in English). Chen, B. R., Yang, S. J., Qian, Q. F., and Yang, Y. N.: Content distribution of As, Se, Cr, U and Th elements in Chinese coal samples, Chinese J. Environ. Sci., 10(6), 23–26, 1989 (in Chinese with abstract in English). Chen, P., Kuang, H. W., and Tang, X. Y.: Research on the distribution and occurrence of arsenic in coal, J. China Coal Society, 27(3), 259–263, 2002 (in Chinese with abstract in English). Chen, J., Huang, W. H., Zhang, A. Y., and Tang, X. Y.: Distribution characteristic of mercury in coal and gangue from Mid-west China and its environment impact, Coal Geol. Explor., 34(1), 5–7, 2006 (in Chinese with abstract in English). Chu, P. and Porcella, D. B.: Mercury stack emissions from U.S.A. electric utility power plants, Water Air Soil Pollut., 80, 135–144, 1995. Demir, I., Hughes, R. E., and DeMaris, P. J.: Formation and use of coal combustion residues from three types of power plants burning Illinois coals, Fuel, 80, 1659–1673, 2001. Department of Industrial and Transportation Statistics (DITS), State Statistical Bureau, P. R. China: China Energy Statistical Yearbook 1991, China Statistics Press, Beijing, 1992 (in Chinese). Department of Industrial and Transportation Statistics (DITS), State Statistical Bureau, P. R. China: China Energy Statistical Yearbook 1991–1996, China Statistics Press, Beijing, 1998 (in Chinese). DeVito, M. S., Rosendale, L. W., and Conrad, V. B.: Comparison trace element contents of raw and clean commercial coals, Fuel Process. Technol., 39(1), 87–106, 1994. Díaz-Somoano, M., Unterberger, S., and Hein, K. R. G.: Mercury emission control in coal-fired plants: The role of wet scrubbers, Fuel Process. Technol., 88, 259–263, 2007. Duker, A. A., Carranza, E. J. M., and Hale, M.: Arsenic geochemistry and health, Environ. Int., 31, 631–641, 2005. Fang, F., Wang, Q., Liu, R., Ma, Z., and Hao, Q.: Atmospheric particulate mercury in Changchun City, China, Atmos. Environ., 35, 4265–4272, 2001. Fang, G. C., Wu, Y. S., and Chang, T. H.: Comparison of atmospheric mercury (Hg) among Korea, Japan, China and Taiwan during 2000–2008, J. Hazard. Mater., 162, 607–615, 2009. Feng, X. B. and Hong, Y. T.: Evaluation of mercury emissions to atmosphere of China from coal combustion, Coal Mine Environ. Protect., 10(3), 10–13, 1996 (in Chinese with abstract in English). Feng, X. B., Sommar, J., Lindqvist, O., and Hong, Y. T.: Occurrence, emissions and deposition of mercury during coal combustion in the province Guizhou, China, Water Air Soil Pollut., 139, 311–324, 2002. Feng, X. B., Shang, L. H., Wang, S. F., Tang, S. L., and Zheng, W.: Temporal variation of total gaseous mercury in the air of Guiyang, China, J. Geophys. Res., 109(D3), D03303, doi:10.1029/2003JD004159, 2004. Finkleman, R. B.: Modes of occurrence of potentially hazardous elements in coal: level of confidence, Fuel Process. Technol., 39(1), 21–34, 1994. Finkelman, R. B. and Gross, P. M. K.: The types of data needed for assessing the environmental and human impacts of coal, Int. J. Coal Geol., 40(2–3), 91–101, 1999. Guo, X., Zheng, C. G., and Jia, X. H.: Mobility of arsenic in coal fly ash of different particle size, J. Combust. Sci. Technol., 10(4), 299–302, 2004 (in Chinese with abstract in English). Hao, J. M., Tian, H. Z., and Lu, Y. Q.: Emission inventories of NO<sub>x</sub> from commercial energy consumption in China, 1995$\sim $1998, Environ. Sci. Technol., 36(4), 552–560, 2002. Helble, J. J.: A model for the air emissions of trace metallic elements from coal combustors equipped with electrostatic precipitators, Fuel Process. Technol., 63, 125–147, 2000. Hong, B., Zhu, Y. X., Feng, X. B., Wang, Y., and Hong, Y. T.: Distribution of mercury in piping gas producing procedure, Environ. Sci. Technol., 25(5), 3–5, 2002 (in Chinese with abstract in English). Huang, W. H. and Yang, Y. C.: Mercury in coal of China, Coal Geol. China, 14(suppl.), 37–40, 2002 (in Chinese with abstract in English). Huang, Y. J., Jin, B. S., Zhong, Z. P., and Xiao, R.: Study on the distribution of trace elements in gasification products, Proceedings of the CSEE, 24(11), 208–212, 2004 (in Chinese with abstract in English). Jiang, J. K., Hao, J. M., Wu, Y., David G. Streets, Duan, L., and Tian, H. Z.: Development of mercury emission inventory from coal combustion in China, Environ. Sci., 26(2), 34–39, 2005 (in Chinese with abstract in English). Jiang, G. B., Shi, J. B., and Feng, X. B.: Mercury Pollution in China, Environ. Sci. Technol., 40(12), 3672–3678, 2006. Jiang, P., Chen, Z. S., Lu, X. T., Tu, Z. J., and Wang, Z. W.: An investigation of atmospheric Hg concentration and the removal of Hg by desulfurizing in gas of coal fired power plants in Guizhou area, Chinese J. Environ. Engineer., 1(3), 80–83, 2007 (In Chinese with English abstract). Lee, S. J., Seo, Y. C., Jang, H. N., Park, K. S., Baek, J. I., An, H. S., and Song, K. C.: Speciation and mass distribution of mercury in a bituminous coal-fired power plant, Atmos. Environ., 40, 2215–2224, 2006. Lenz, M. and Lens, P. N. L.: The essential toxin: The changing perception of selenium in environmental sciences, Sci. Total Environ., 407(12), 3620–3633, 2009. Liu, S. L., Nadim, F., Perkins, C., Carley, R. J., Hoag, G. E., Lin, Y. H., and Chen, L. T.: Atmospheric mercury monitoring survey in Beijing, China, Chemosphere, 48(1), 97–107, 2002. Liu, J., Zheng, C. G., Zhang, J. Y., and Wang, M. H.: Study on the speciation of most volatile trace elements in coal, J. Combust. Sci. Technol., 9(4), 295–299, 2003 (in Chinese with abstract in English). Luttrell, G. H., Kohmuench, J. N., and Yoon, R. -H.: An evaluation of coal preparation technologies for controlling trace element emissions, Fuel Process. Technol., 65–66, 407–422, 2000. Mao, D. J., Su, H. C., and Yan, L. R.: An epidemiologic investigation on selenium poisoning in southwestern Hubei Province, Chinese J. Endemiology, 9, 311–314, 1990 (in Chinese with abstract in English). Meij, R. and Henkte, W.: The emissions of heavy metals and persistent organic pollutants from modern coal-fired power stations, Atmos. Environ., 41, 9262–9272, 2007. Meij, R., Vredenbregt, L. H. J., and Winkel, H. T.: The fate and behavior of mercury in coal-fired power plants, J. Air Waste Manage. Assoc., 52, 912–917, 2002. National Bureau of Statistics (NBS), P. R. China: China Energy Statistical Yearbook (1997–1999), China Statistics Press, Beijing, 2001 (in Chinese). National Bureau of Statistics (NBS), P. R. China: China Energy Statistical Yearbook (2000–2002), China Statistics Press, Beijing, 2004 (in Chinese). National Bureau of Statistics (NBS) and National Development and Reform Commission (NDRC): China Energy Statistical Yearbook 2004–2008, China Statistics Press, Beijing, 2005–2009 (in Chinese). National Development and Reform Commission (NDRC): Energy development planning of the "Tenth Five-year", Beijing, Academy of Macroeconomic Research, 1998 (in Chinese). National Development and Reform Commission (NDRC), data online available at: http://www.ndrc.gov.cn/zjgx/t20080104_183396.htm, 2008. National Pollutant Inventory (NPI). Emissions estimation technique manual for aggregated emissions from domestic solid fuel burning, Environment Australia, 1999. Ondov, J. M., Ragaini, R. C., and Biermann, A. H.: Elemental emissions from a coal-fired power plant, Comparison of a venturi wet scrubber system with a cold-side electrostatic precipitator, Environ. Sci. Technol., 13, 598–607, 1979. Otero-Rey, J. R., López-Vilariño, J. M., Moreda-Piñeiro, J., Alonso-Rodriguez, E., Muniategui-Lorenzo, S., Lopez-Mahia, P., and Prada-Rodriguez, D.: As, Hg, and Se Flue Gas Sampling in a Coal-Fired Power Plant and Their Fate during Coal Combustion, Environ. Sci. Technol., 37, 5262–5267, 2003. Pavlish, J. H., Sondreal, E. A., Mann, M. D., Olson, E. S., Galbreath, K. C., Laudal, D. L., and Benson, S. A.: Status review of mercury control options for coal-fired power plants, Fuel Process Technol., 82(2–3), 89–165, 2003. Radian Corporation: Estimating Air Toxics Emissions from Coal and Oil Combustion Sources, U.S. Environmental Protection Agency report, EPA-450/2-89-001, 1989. Ren, D. Y., Zhao, F. H., Dai, S. F., Zhang, J. Y., and Luo, K. L.: Geochemistry of trace elements in coal. Science press, Beijing, 2006 (in Chinese). Renninger, S. A., Farthing, G. A., and Ghorishi, S. B.: Using wet FGD system to absorb mercury, Power, 8, 44–49, 2004. SEPA: Notice on the 11th five-year plan of SO<sub>2</sub> control for in-use coal-fired power plants, online available at: http://www.mep.gov.cn/gkml/hbb/qt/200910/t20091030_180722.htm last access: December 2010), 2007. Song, D. Y., Qin, Y., Zhang, J. Y., Wang, W. F., and Zheng, C. G.: Washability characteristics of hazardous trace elements in coals from western region of China, J. China Univers. Mining Technol., 35(2), 255–259, 2006 (in Chinese with abstract in English). Srivastava, R. K., Hutson, N., Martin, B., Princiotta, F., and Staudt, J.: Control of mercury emissions from coal-fired electric utility boilers, Environ. Sci. Technol., 40, 1385–1393, 2006. State Administration of Coal Mine Safety, P. R. China: China Coal Industry Yearbook 2005–2008, China Coal Industry Publishing House, Beijing, 2006–2009 (in Chinese). Streets, D. G., Hao, J. M., Wu, Y., Jiang, J. K., Chan, M., Tian, H. Z., and Feng, X. B.: Anthropogenic mercury emissions in China, Atmos. Environ., 39, 7789–7806, 2005. Tayban, N. B. A. B. and Preston, M. R.: Atmospheric vapour phase and particulate phase mercury in a coastal desert climate, J. Environ. Monitor., 7(10), 977–982, 2005. Tian, H. Z. and Qu, Y. P.: Emission and control of atmospheric arsenic from coal combustion in China, Electr. Power, 41(12), 82–86 , 2008 (in Chinese with abstract in English). Tian, H. Z., Qu, Y. P., Wang, Y., Pan, D., and Wang, X. C.: Atmospheric selenium emission inventories from coal combustion in China in 2005, China Environ. Sci., 29(10), 1011–1015, 2009. Wang, D. Y.: Research on the distribution and classification of arsenic in coal, Coal Quality Technol., 6, 27–30, 2000 (in Chinese with abstract in English). Wang, D. Y., Li, X. H., and Wu, C.: Preliminary Investigation on the Atmospheric Mercury in Chongqing, Chongqing Environ. Sci., 18, 58–61, 1996a (in Chinese with abstract in English). Wang, L.: The study on removal of trace elements in coal by coal preparation, Clean Coal Technol., 13(3), 13–17 , 2007 (in Chinese with abstract in English). Wang, M. S.: Study on environmental geochemistry of arsenic in Chinese coals. Chinese Academy of Sciences, China, 2005 (in Chinese with abstract in English). Wang, M. S., Yang, N. N., Zhu, J. M., and Zheng, B. S.: Estimation of arsenic emission from coal combustion in China, Coal conver., 31(2), 1–3, 2008a (in Chinese with abstract in English). Wang, M. Y., Zhang, D., and Yang, N. N.: Distribution of arsenic in Southwestern coals, J. Henan Polytechnic Univers, Natural Sci., 27(6), 721–723, 2008b (in Chinese with abstract in English). Wang, Q. C., Shao, Q. C., Kang, S. L., Wang, Z. T., and Zou, S. T.: Distribution of 15 trace elements in the combustion products of coal, J. Fuel Chem. Technol., 24(3), 137–142, 1996b (in Chinese with abstract in English). Wang, Q. C., Shen, W. G., and Ma, Z, W.: Estimation of mercury emission from coal combustion in China, Environ. Sci. Technol., 34, 2711–2713, 2000. Wang, S. X., Zhang, L., Li, G. H., Wu, Y., Hao, J. M., Pirrone, N., Sprovieri, F., and Ancora, M. P.: Mercury emission and speciation of coal-fired power plants in China, Atmos. Chem. Phys., 10, 1183–1192, doi:10.5194/acp-10-1183-2010, 2010. Wang, W. F., Qin, Y., and Song, D. Y.: Cleaning potential of hazardous elements during coal washing, J. Fuel Chem. Technol., 31(4), 295–299, 2003 (in Chinese with abstract in English). Wang, Z. X.: Status Quo and Prospect of Environment Protection of China's Elect ric Power, Electric Power, 32(10), 46–51, 1999 (In Chinese with abstract in English). Wang, Z. X.: Fly ash emission and control from coal-fired power plants in China, China Electric Enterprises Management, 1, 28–31, 2010 (In Chinese). Wu, D. S., Li, P., Wang, M. S., and Peng, X. L.: Fluorine and arsenic removal by coal-cleaning technology, Environ. Pollut. Control, 27(5), 321–323, 2005 (in Chinese with abstract in English). Wu, Y., Wang, S. X., and Streets, D. G.: Trends in anthropogenic mercury emissions in China from 1995 to 2003, Environ. Sci. Technol., 40, 5312–5318, 2006. Xu, W. D., Zeng, R. S., Ye, D. N., and Querol, X.: Distributions and environmental impacts of selenium in wastes of coal from a power plant, Environ. Sci., 26(2), 64–68, 2005 (in Chinese with abstract in English). Yang, H. Q., Xu, Z. H., Fan, M. H., Bland, A. E., and Judkins, R. R.: Adsorbents for capturing mercury in coal-fired boiler flue gas, J. Hazard. Mater., 146, 1–11, 2007. Yokoyama, T.: Trace element emissions from coal-fired power plants in Japan. Legislation, emissions, environmental control technologies. Proceedings of CEM 99, International Conference on Emissions Monitoring, held at the University of Warwick, Coventry, UK, 6–8 September, 1999. The paper was presented at the Trace Elements Workshop organised by IEA on 9 September 1999, 1999. You, C. F. and Xu, X. C.: Coal combustion and its pollution control in China, Energy, 35(11), 4467–4472, 2010. Zajusz-Zubek, E. and Konieczynski, J.: Dynamics of trace elements release in a coal pyrolysis process, Fuel, 82, 1281–1290, 2003. Zhang, L. and Wong, M. H.: Environmental mercury contamination in China: Sources and impacts, Environ. Intern., 33, 108–121, 2007. Zhang, L., Zhuo, Y. Q., Chen, L., Xu, X. C., and Chen, C. H.: Mercury emissions from six coal-fired power plants in China, Fuel Process. Technol., 89, 1033–1040, 2008. Zhang Q. L.: Study on enhancing coal fired industrial boiler operation efficiency and saving energy measure, Clean Coal Technol., 11(2), 5–10, 2005 (in Chinese with abstract in English). Zhang, Y., Liu, G. J., Zheng, L. G., Chou, C. L., and Qi, C. C.: Environmental geochemistry of selenium in Chinese coal, Bull. Mineral., Petrol. Geochem., 26(4), 389–398, 2007 (in Chinese with abstract in English). Zheng, L. G., Liu, G. J., Qi, C. C., Chen, Y. W., and Zhang, Y.: Study on environmental geochemistry of mercury in Chinese coals, J. Univers. Sci. Technol. China, 37(8), 953–963, 2007 (in Chinese with abstract in English). Zhou, J. S., Zhang, L., Luo, Z. Y., Hu, C. X., He, S., Zheng, J. M., and Cen, K. F.: Study on mercury emission and its control for boiler of 300 MW unit, Therm. Power Gener., 37(4), 22–27, 2008 (in Chinese with abstract in English). Zhu, J. M., Liang, X. B., Ling, H. W., Wang, M. S., Wang, F. S., and Liu, S. R.: Advances in studying occurrence modes of selenium in environment, Bull. Mineral. Petrol. Geochem., 22(1), 75–81, 2003 (in Chinese with abstract in English). Zhu, J. M., Wang, N., Li S. H., Li, L., Su, H. C., and Liu, C. X.: Distribution and transport of selenium in Yutangba, China: Impact of human activities, Sci. Total Environ., 392, 252–261, 2008. Zhu, Z. J., Xu, L., Tan, Y., Zhang, C. L., Li, Y. G., Zhang, D. L., Wang, Q. J., Pan, L. H., and Ke, J. X.: Research on characteristics of mercury distribution in combustion products for a 300 MW pulverized coal fired boiler, Power Engineer., 22(1), 1594–1597, 2002 (in Chinese with abstract in English). Zhuang, X. G., Yang, S. K., Zeng, R. S., and Xu, W. D.: Characteristics of trace elements in coals from several main coal districts in China, Geol. Sci. Technol. Inform., 18(3), 63–66, 1999 (in Chinese with abstract in English).