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[1] Yu, D., Wen, C., Xu, M. Effect of low-NOx combustion on PM10 emissions from pulverized-coal-fired boilers. Energy & Fuels. 2013, 27(10): 5811-5815.
[2] Wen, C., Xu, M., Yu, D., Sheng, C., Wu, H., Zhang, P. a., Qiao, Y., Yao, H. PM10 formation during the combustion of N2-char and CO2-char of Chinese coals. Proceedings of the Combustion Institute. 2013, 34(2): 2383-2392.
[3] Weizhi Lv, Dunxi Yu, Lanlan He, Jianqun Wu, Xu, M. The effect of CO2 on pyrite transformation Advanced Materials Research. 2013, 724-725: 1301-1305.
[4] Morris, W. J., Yu, D., Wendt, J. O. L. A comparison of soot, fine particle and sodium emissions for air- and oxy-coal flames, with recycled flue gases of various compositions. Proceedings of the Combustion Institute. 2013, 34(2): 3453-3461.
[5] Lanlan He, Dunxi Yu, Weizhi Lv, Jianqun Wu, Xu., M. CO2 sequestration by indirect carbonation of high-calcium coal fly ash. Advanced Materials Research. 2013, 726-731: 2870-2874.
[6] Jianqun Wu, Dunxi Yu, Lanlan He, Jun Chen, Mengting Si, Weizhi Lv, Xu, M. Partitioning of harmful elements in PM10 from air- and oxy-coal combustion: Iron and sulfur. Advanced Materials Research 2013, 726-731: 963-966.
[7] He, L., Yu, D., Lv, W., Wu, J., Xu, M. A Novel Method for CO2 Sequestration via Indirect Carbonation of Coal Fly Ash. Industrial & Engineering Chemistry Research. 2013, 52(43): 15138-15145.
[8] Yu, D., Zhao, L., Zhang, Z., Wen, C., Xu, M., Yao, H. Iron Transformation and Ash Fusibility during Coal Combustion in Air and O2/CO2 Medium. Energy & Fuels. 2012, 26(6): 3150–3155.
[9] Yu, D., Morris, W. J., Erickson, R., Wendt, J. O. L., Fry, A., Senior, C. L. Ash and deposit formation from oxy-coal combustion in a 100 kW test furnace. International Journal of Greenhouse Gas Control. 2011, 5(Supplement 1): S159-S167.
[10] Xu, M., Yu, D., Yao, H., Liu, X., Qiao, Y. Coal combustion-generated aerosols: Formation and properties. Proceedings of the Combustion Institute. 2011, 33(1): 1681-1697.
[11] Morris, W. J., Yu, D., Wendt, J. O. L. Soot, unburned carbon and ultrafine particle emissions from air- and oxy-coal flames. Proceedings of the Combustion Institute. 2011, 33(2): 3415-3421.
[12] Zhou, K., Xu, M., Yu, D., Wen, C., Zhan, Z., Yao, H. The effects of coal blending on the formation and properties of particulate matter during combustion. Chinese Science Bulletin. 2010, 55(30): 3448-3455.
[13] Zhou, K., Xu, M., Yu, D., Liu, X., Wen, C., Zhan, Z., Yao, H. Formation and Control of Fine Potassium-Enriched Particulates during Coal Combustion. Energy & Fuels. 2010, 24(12): 6266-6274.
[14] Zhang, L., Yu, D., Yao, H., Xu, M., Wang, Q., Ninomiya, Y. Characterization of combustion-derived individual fine particulates by computer-controlled scanning electron microscopy. AIChE Journal. 2009, 55(11): 3005-3016.
[15] Yu, D. X., Xu, M. H., Yao, H., Liu, X. W., Zhou, K., Wen, C., Li, L. Physicochemical properties and potential health effects of nanoparticles from pulverized coal combustion. Chinese Science Bulletin. 2009, 54(7): 1243-1250.
[16] Yu, D. X., Xu, M. H., Yao, H., Liu, X. W. Size distributions of major elements in residual ash particles from coal combustion. Chinese Science Bulletin. 2009, 54(6): 958-964.
[17] Yu, D., Xu, M., Yao, H., Liu, X., Zhou, K., Li, L., Wen, C. Mechanisms of the central mode particle formation during pulverized coal combustion. Proceedings of the Combustion Institute. 2009, 32(2): 2075-2082.
[18] Liu, X., Xu, M., Yao, H., Yu, D., Zhang, Z., Lv, D. Characteristics and composition of particulate matter from coal-fired power plants. Science in China Series E: Technological Sciences. 2009, 52(6): 1521-1526.
[19] Yu, D. X., Xu, M. H., Yao, H., Liu, X. W., Zhou, K. Effective identification of the three particle modes generated during pulverized coal combustion. Chinese Science Bulletin. 2008, 53(10): 1593-1602.
[20] Yu, D., Xu, M., Yao, H., Liu, X., Zhou, K. A new method for identifying the modes of particulate matter from pulverized coal combustion. Powder Technology. 2008, 183(1): 105-114.
[21] Liu, X., Xu, M., Yao, H., Yu, D., Lv, D., Zhou, K. The formation and emission of particulate matter during the combustion of density separated coal fractions. Energy & Fuels. 2008, 22(6): 3844-3851.
[22] Yu, Y., Xu, M. H., Yao, H., Yu, D. X., Qiao, Y., Sui, J. C., Liu, X. W., Cao, Q. Char characteristics and particulate matter formation during Chinese bituminous coal combustion. Proceedings of the Combustion Institute. 2007, 31: 1947-1954.
[23] Yu, D. X., Xu, M. H., Zhang, L., Yao, H., Wang, Q. Y., Ninomiya, Y. Computer-controlled scanning electron microscopy (CCSEM) investigation on the heterogeneous nature of mineral matter in six typical Chinese coals. Energy & Fuels. 2007, 21(2): 468-476.
[24] Yu, D. X., Xu, M. H., Yao, H., Sui, J. C., Liu, X. W., Yu, Y., Cao, Q. Use of elemental size distributions in identifying particle formation modes. Proceedings of the Combustion Institute. 2007, 31(2): 1921-1928.
[25] Wang, Q. B., Yao, H., Yu, D. X., Dai, L., Xu, M. H. Emission behavior of particulate matter during co-combustion of coal and biomass in a drop tube furnace. Energy & Fuels. 2007, 21(2): 513-516.
[26] Sui, J. C., Xu, M. H., Du, Y. G., Liu, Y., Yu, D. X., Yi, G. Z. Emission characteristics and chemical composition of PM10 from two coal fired power plants in China. Journal of the Energy Institute. 2007, 80(4): 192-198.
[27] Liu, X. W., Xu, M. H., Yao, H., Yu, D. X., Gao, X. P., Cao, Q., Cai, Y. M. Effect of combustion parameters on the emission and chemical composition of particulate matter during coal combustion. Energy & Fuels. 2007, 21(1): 157-162.
[28] Liu, X., Xu, M., Yu, D., Gao, X., Cao, Q., Hao, W. Influence of mineral transformation on emission of particulate matters during coal combustion. Frontiers of Energy and Power Engineering in China. 2007, 1(2): 213-217.
[29] Yu, D. X., Xu, M. H., Yu, Y., Liu, X. W. Swelling behavior of a Chinese bituminous coal at different pyrolysis temperatures. Energy & Fuels. 2005, 19(6): 2488-2494.
[30] Yu, D. X., Xu, M. H., Sui, J., Liu, X. W., Yu, Y., Cao, Q. Effect of coal particle size on the proximate composition and combustion properties. Thermochimica Acta. 2005, 439(1-2): 103-109.
[31] Yu, D., Xu, M., Liu, X., Huang, J., Li, G. Mechanisms of submicron and residual ash particle formation during pulverised coal combustion: A comprehensive review. Developments in Chemical Engineering and Mineral Processing. 2005, 13(3-4): 467-482.
[32] Li, P. S., Xiong, Y. H., Yu, D. X., Sun, X. X. Prediction of grindability with multivariable regression and neural network in Chinese coal. Fuel. 2005, 84(18): 2384-2388.
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