能源与动力工程学院
旧版入口| 学校主页| 加入收藏 | 设为首页

师资队伍

teaching staff

热点文章

站内搜索

教授

当前位置: 首 页 > 师资队伍 > 煤燃烧国家重点实验室 > 教授 > 正文
姓 名 于敦喜 性 别 保密
职 称 教授(博导) 毕业学校 华中科技大学
个人主页 http://sklcc.hust.edu.cn/jzyg/index.jhtml
联系方式 027-87542417-8312
邮 箱 yudunxi@hust.edu.cn
通讯地址 华中科技大学煤燃烧国家重点实验室
个人资料简介
   于敦喜,男,教授/博导,实验室副主任,1975年生,全国优秀博士论文提名奖获得者,入选2011年"新世纪优秀人才支持计划",2011年获"武汉市青年科技晨光计划"项目资助,2012年获聘华中科技大学"华中学者"。主要从事煤的燃烧理论、燃烧污染物(尤其是颗粒物)生成机理和先进燃烧技术的研究与开发工作,主持完成/在研国家自然科学基金青年项目、面上项目、对外交流与合作项目共4项、"新世纪优秀人才支持计划"项目1项,作为科研骨干参与包括国家自然科学基金杰出青年基金、国际合作重大项目、国家重点基础研究发展规划(973)项目课题、国家高技术研究发展计划(863计划)等在内的国家级科研项目数项。尤其在燃煤颗粒物的生成机理及控制技术等方面开展了较系统的研究工作,取得了创新性成绩,赢得了较高的学术声誉,担任第7届国际煤燃烧会议分会主席,在国际燃烧学会会刊(Proceedings of The Combustion Institute)发表主题综述(Topical Review)论文,为大陆学者首次。获得湖北省优秀博士学位论文奖,作为主要完成人获得湖北省自然科学二等奖1项,已授权国家发明专利4件。合作出版专著1部;在国际学术刊物发表论文20余篇,SCI、EI收录论文50余篇,多次应邀在高水平国际会议特邀报告。

教育及工作经历

    013.11 - 华中科技大学,教授
    2013.10 - 2014.08 澳大利亚莫纳什大学(Monash Uiversity),访问学者
    2009.02 - 2011.01 美国犹他大学(Uiversity of Utah),博士后
    2007.11 - 2013.10 华中科技大学,副教授
    2006.02 - 2006.03 日本中部大学(Chubu University),访问学者
    1999.07 - 2007.10 华中科技大学,助教、讲师
    2002.09 - 2007.12 华中科技大学,博士
    1999.09 - 2002.06 华中科技大学,硕士
    1995.09 - 1999.06 华中理工大学,本科

研究方向

    各种燃料(尤其是煤炭)的利用理论与技术; 污染物(尤其是颗粒物)的形成与控制; 可再生能源利用技术

科研项目

    主持完成/在研项目:
    9) 国家自然科学基金面上项目:烟气再循环氧/燃料燃烧黄铁矿的反应动力学机理及模型研究,2014.1-2017.12;
    8) 武汉市科技计划项目:燃煤PM2.5源头控制技术研究,2013.1-2014.12;
    7) “新世纪优秀人才支持计划”项目:O2/CO2燃烧条件下煤灰沉积机理研究,2012.1-2014.12;
    6) 华中科技大学自主创新研究基金项目:O2/CO2循环燃烧煤灰的生成机理,2012.5 -2013.12;
    5) 国家自然科学基金面上项目:烟气再循环氧-燃料燃烧煤灰特性及其对沉积行为的影响,2011.1-2013.12
    4) 国家自然科学基金国际合作与交流项目:O2/CO2燃烧条件下飞灰的碳酸化机理研究,2011.7-2011.12;
    3) 国家自然科学基金青年基金项目:高温煤焦结构形态显微学定量表征及其对燃烧影响的研究,2008.1-2010.12;
    2) 华中科技大学科研基金:燃煤亚微米颗粒物(PM1)的形成与控制研究,2007.1-2009.12;
    1) 国家“973”项目子课题:燃煤过程中一次颗粒物的生成机理研究,2002.1-2008.6。部分参与项目:

    8) “973”项目课题:矿物质细颗粒物燃烧形成与控制研究,2013.1-2017.12;

    7) “973”项目课题:燃烧源一次颗粒物的生成、成核与生长机制,2002-2008;

    6) “863”项目:煤燃烧前多种污染物定向脱除及煤质改性技术,2009-2011;

    5) 国家自然科学基金国际合作重大项目:氧/燃料燃烧方式下燃煤多种污染物生成与协同控制,2008-2010;

    4) 国家自然科学基金创新群体:燃煤排放物生成、控制与资源化利用的基础研究,2011-2013;

    3) 高等学校学科创新引智计划(“111计划”)项目,2005-2010;

    2) 武汉重大专项:烧结烟气脱硫技术研究,2009- 2011;

    1) 教育部博士点基金:O2/CO2煤粉燃烧致渣铁基矿物的衍化机制,2012.1-2014.12。

代表性论文与专利

    专著:

    1. 徐明厚, 于敦喜, 刘小伟. 燃煤可吸入颗粒物的形成与排放. 北京: 科学出版社, 2009.06

    部分论文:

    [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.

    [33] Xiang, J., Sun, X., Hu, S., Yu, D. An experimental research on boiler combustion performance. Fuel Processing Technology. 2000, 68(2): 139-151.

所获荣誉和奖励

    优秀学士学位论文指导教师,湖北省,2013

    “华中学者”,华中科技大学,2012

    武汉市青年科技晨光计划,武汉市,2011

    “新世纪优秀人才支持计划”,教育部,2011

    全国优秀博士学位论文提名奖,教育部,2010

    湖北省优秀博士学位论文,湖北省,2009

    校优秀博士学位论文,华中科技大学,2008

    湖北省自然科学二等奖,湖北省,2007

    工程热物理年会优秀论文奖,中国工程热物理学会,2006

    突出论文奖, 国际煤燃烧技术会议(ICCS&T),2005