南京师范大学能源与机械工程学院导师教师师资介绍简介-吴昊副教授

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姓名：吴昊学历：博士职称：副教授
地址(Add)：中国江苏省南京市玄武区板仓街78号
邮编(Zip Code):210042
电话/传真(Tel/Fax)：**
电子邮箱：wu-hao@njnu.edu.cn
研究方向：燃烧源重金属/PM_2.5污染物控制；脱硫废水零排放；烟气消白/节水。

教育背景 工作经历 学术兼职 研究方向 主讲课程 教学改革与获奖 科研项目与学术成果
教育背景

2014/03-2017.12 东南大学动力工程及工程热物理博士
2010/09-2013/07 南京师范大学热能工程硕士
2006/09-2010/07 南京师范大学热能与动力工程本科

工作经历

2017.12-至今：南京师范大学，第五类（副教授）引进

学术兼职

审稿人：Chemical Engineering Journal, Fuel, Fuel Processing Technology, Energy & Fuels, 化工学报等.

研究方向

燃烧源重金属/PM2.5污染物控制；脱硫废水零量排放；烟气消白/节水

主讲课程

锅炉原理（本科）；
能量平衡测试（本科）；
燃烧与污染物控制（本科）；
科技论文习作（研究生）。

教学改革与获奖

科研项目与学术成果

近五年主持及参与的主要科研项目：
纵向项目
[1] 国家自然科学基金青年项目：高湿烟气降温冷凝过程中细颗粒物凝并长大及脱除特性研究，（**），主持；
[2] 国家973子课题：烟气系统中细颗粒物的转化机制与脱除增强的机理与方法（2013CB228505），参与；
[3] 国家863子课题：燃煤电站PM_2.5新型湿式电除尘技术与装备（2013AA065004），参与；
[4] 国家重点研发计划：燃煤电站低成本超低排放控制协同控制技术基础研究（2016YFC**）参与；
[5] 国家自然科学基金：湿法烟气脱硫过程中PM_2.5物性变化及其高效脱除的研究（**），参与；
[6] 国家自然科学基金：SCR脱硝过程中PM_2.5物性变化机制及对燃煤电厂排放特征的影响研究（**），参与；
[7] 江苏省科技计划项目：基于水汽相变的协同烟气余热深度利用和PM_2.5高效脱除技术研究（BE**），参与；
横向项目
[1] 广东电网有限责任公司科技项目委托项目：燃煤电厂PM_2.5迁移规律及强化脱除的研究，参与；
[2] 济南市环境保护规划设计研究院项目：济南市能源消耗过程中细颗粒物排放特征研究，参与；
[3] 江苏方天电力技术有限公司委托项目：超低排放形势下燃煤电厂烟尘的迁移转化规律的研究，参与；
近五年代表性研究论文：
? 第一作者：
[1] Hao Wu, Linjun Yang, Jinpei Yan, et al. Improving the removal of fine particles by heterogeneous condensation during WFGD processes. Fuel Processing Technology, 2016, 145: 116-122. (SCI收录, WOS:013)
[2] Hao Wu, Danping Pan, Yezheng Jiang, et al. Improving the removal of fine particles from desulfurized flue gas by adding humid air. Fuel, 2016, 184: 153-161. (SCI收录, WOS: 018)
[3] Hao Wu, Danping Pan, Rongting Huang, et al. Abatement of fine particle emission by heterogeneous vapor condensation during wet limestone-gypsum flue gas desulfurization. Energy & Fuels, 2016, 30: 6103-6109.
[4] Hao Wu, Danping Pan, Jingjing Bao, et al. Improving the removal efficiency of sulfuric acid droplets from flue gas using heterogeneous vapor condensation in a limestone-gypsum desulfurization pr-ocess. Journal of Chemical Technology & Biotechnology, 2017, 92: 230–237.
[5] Hao Wu, Danping Pan, Guangxin Hong, et al. Removal of sulfuric acid aerosols in desulfurized flue gas by adding moist air. Journal of Chemical Technology & Biotechnology, 2017, 92: 1026-1034.
[6] Hao Wu, Danping Pan, Guilong Xiong, et al. The abatement of fine particles from desulfurized flue gas by heterogeneous vapor condensation coupling two impinging streams. Chemical Engineering and Processing, 2016, 108: 174-180.
[7] Hao Wu, Danping Pan, Rui Zhang, et al. Abatement of fine particle emission from a coal-fired power plant based on the condensation of SO₃ and water vapor. Energy & Fuels, 2017. 31: 3219-3226.
[8] Hao Wu, Danping Pan, Rui Zhang, et al. Reducing fine particle emissions by heterogeneous vapor condensation after wet desulfurization process. Journal of Chemical Technology & Biotechnology, 2017. 92: 2342-2350.
[9] Hao Wu, Linjun Yang. Removal of fine particles from coal combustion by heterogeneous condensational enlargement in wet flue gas desulfurization. Clean Coal Technology and Sustainable Development, 2016, 401-408.
[10] Hao Wu, Jiaxing Sun, Dongxu Qi, et al. Photocatalytic removal of elemental mercury from flue gas using multi-walled carbon nanotubes impregnated with titanium dioxide. Fuel, 2018, 230:218-225.
[11] Hao Wu, Danping Pan, Yezheng Jiang, et al. Removal of fine particles from flue gas by heterogeneous condensation in WFGD system. 32nd Annual International Pittsburgh Coal Conference, 2015, October 5 - October 8.
[12] Hao Wu, Hen Chen, Qianwen Wang, et al. Characteristics and inhibition of mercury re-emission from desulfurization slurry by Fenton reagent. Fuel Processing Technology, 2019, 188:89-97.
[13] Hao Wu, Jiaxing Sun, Changsong Zhou, et al. Effect of additives on stabilization and inhibition of mercury re-emission in simulated desulphurization slurry. International Journal of Environmental Science and Technology, 2019, 16:7705-7714.
[14] Hao Wu, Qianwen Wang, Hongmin Yang. Promoting the removal of particulate matters by heterogeneous vapor condensation in double-loop wet flue gas desulfurization system. Energy & Fuels, 2019, 33:4632-4639.
[15] 吴昊, 王萌, 刘浩等. SO₂对钙基CO₂吸收剂循环煅烧/碳酸化反应的影响. 燃料化学学报, 2013, 41(3):368-373.

? 通讯作者
[1] Lei Zhou, Shuying Yang, Wu Chen, Xiaobei Wang, Zhulin Yuan, Linjun Yang^*, Hao Wu^*. Chemical agglomeration properties of fine particles immersed in solutions and the reduction in fine particle emission by adding emulsion polymers. Fuel Processing Technology, 2018, 175:44-53.
[2] Lei Zhou, Shuying Yang, Zhulin Yuan, Linjun Yang^*, Hao Wu^*. Inhibition of fine particles fugitive emission from the open-pit lignite mines by polymer aqueous solutions. Colloids and Surfaces A, 2018, 555:429-439.
[3] Rui Zhang, Hao Wu^*, Xiaodong Si, Lingling Zhao, Linjun Yang^*. Improving the removal of fine particulate matter based on heterogeneous condensation in desulfurized flue gas. Fuel Processing Technology, 2018, 174:9-16.
[4] Lei Zhou, Shuying Yang, Bin Hu, Zhulin Yuan, Hao Wu^*, Linjun Yang^*. Evaluating of the performance of a composite wetting dust suppressant on lignite dust. Powder Technology, 2018, 339:882-893.
[5] Zongkang Sun, Linjun Yang^*, Ao Shen, Bin Hu, Xiaobei Wang, Hao Wu^*. Improving the removal of fine particles from coal combustion in the effect of turbulent agglomeration enhanced by chemical spray. Fuel, 2018, 234:558-566.
[6] Lei Zhou, Yong Liu, Lvyuan Luo, Zhulin Yuan, Linjun Yang^*, Hao Wu^*. Improving the removal of fine particles by chemical agglomeration during the limestone-gypsum wet flue gas desulfurization process. Journal of Environmental Sciences, 2019, 80:33-44.
[7] Lei Zhou, Wu Chen, Hao Wu^*, Ao shen, Zhulin Yuan, Linjun Yang^*. Investigation on the relationship of droplet atomization performance and fine particle abatement during the chemical agglomeration process. Fuel, 2019, 245:67-77.
[8] Teng Cheng, Lvyuan Luo, LinJun Yang,* Hongmei Fan, Hao Wu*. Formation and emission characteristics of ammonium sulfate aerosols in flue gas downstream of selective catalytic reduction. Energy & Fuels, 2019, 33:7861-7868.
[9] Zongkang Sun, Linjun Yang^*, Ao Shen, Lei Zhou, Hao Wu^*. Combined effect of chemical and turbulent agglomeration on improving the removal of fine particles by different coupling mode. Powder Technology, 2019, 344:242-250.
[10] Teng Cheng, Chengqiang Zheng, LinJun Yang^*, Hao Wu^*, Hongmei Fan. Effect of selective catalytic reduction denitrification on fine particulate matter emission characteristics. Fuel, 2019, 238:18-25.
[11] Heng Chen, Hao Wu^*, Qianwen Wang, Ling Ji, Tingting Zhang, Hongmin Yang. Separation performance of Hg²⁺ in desulfurization wastewater by the graphene oxide polyethersulfone membrane. Energy & Fuels, 2019, 33:9241-9248.
[12] Rongting Huang, Hao Wu^*, Linjun Yang^*. Study on the ammonia emission characteristics in an ammonia-based WFGD system. Chemical Engineering Journal, 2020, 379:1-8.
[13] Teng Cheng, Xincheng Zhou, LinJun Yang^*, Hao Wu^*, Hongmei Fan. Transformation and removal of ammonium sulfate aerosols and ammonia slip from selective catalytic reduction in wet flue gas desulfurization system. Journal of Environmental Sciences, 2020, 88:72-80.
[14] Zongkang Sun, Linjun Yang^*, Hao Wu^*, Xin Wu. Agglomeration and removal characteristics of fine particles from coal combustion under different turbulent flow fields. Journal of Environmental Sciences, 2020, 89:113-224.
[15] Zongkang Sun, Linjun Yang^*, Hao Wu^*, Xin Wu. Effect of turbulent flow field properties on improving the removal of coal-fired fine particles in chemical-turbulent agglomeration. Advanced Powder Technology, 2020, 31:158-168.
[16] Xiuwei Ma, Zhi Zhang, Hao Wu^*, Jinjin Li, Linjun Yang^*. Adsorption of Volatile Organic Compounds at Medium-High Temperature Conditions by Activated Carbons. Energy & Fuels, 2020, 34(3):3679-3690.
[17] Chengqiang Zheng, Teng Cheng, Linjun Yang^*, Hao Wu^*. Hongmei Fan. Effect of SiO₂ addition on NH₄HSO₄ decomposition and SO₂ poisoning over V₂O₅-MoO₃/TiO₂-CeO₂ catalyst. Journal of Environmental Sciences, 2020, 91:279-291.
[18] Rongting Huang, Hao Wu^*, Linjun Yang^*. Investigation on condensable particulate matter emission characteristics in wet ammonia-based desulfurization system. Journal of Environmental Sciences, 2020, 92:95-105.
[19] Teng Cheng, Xincheng Zhou, Linjun Yang^*, Zhiquan Sun, Hao Wu^*. Emission characteristics of soluble ions in fine particulates in limestone-gypsum wet flue gas desulfurization system. Energy & Fuels, 2020, 34(3):3836-3842.
[20] Ling Ji, Qianwen Wang, Zhiyue Zhang, Hao Wu^?, Changsong Zhou, Hongmin Yang. Release characteristics of mercury in chemical looping combustion of bituminous coal. Journal of Environmental Sciences, 2020, 941:197-203.
[21] Qianwen Wang, Leilei Wang, Hao Wu^?, Hongmin Yang. Promoting fine particle removal in double-tower cascade wet flue gas desulfurization system by flue gas temperature reduction. Powder Technology, 2020,373:581-589.

? 其他
[1] Hao Liu, Hao Wu, Jingjing Bao, et al. Photochemical removal of NO and SO₂ from flue gas using UV irradiation. Asia-Pacific Journal of Chemical Engineering, 2015, 9(5):775-781.
[2] Danping Pan, Hao Wu, Linjun Yang. Fine particle transformation during the limestone gypsum desulfurization process. Energy & Fuels (IF=3.091), 2016, 30(11): 9737-9744.
[3] Danping Pan, Hao Wu, Linjun Yang. Investigation on the relationship between the fine particle emission and cry-stallization characteristics of gypsum during WFGD process. Journal of environmental sciences, 2017, 55: 303-310.
[4] Danping Pan, Hao Wu, Linjun Yang. Investigation of the relationship between droplets and fine particle emission during the limestone-gypsum WFGD process. Energy & Fuels (IF=3.091), 2017, 31(6): 6472-6477.
[5] Danping Pan, Hao Wu, Linjun Yang. Effect of gypsum crystallization characteristics on fine particle emission after desulfurization. Asia-Pacific Journal of Chemical Engineering, 2017, 12(4): 573-581.
[6] 潘丹萍, 吴昊, 黄荣廷等. 石灰石-石膏法烟气脱硫过程中SO₃酸雾脱除特性. 东南大学学报(自然科学版), 2016, 46(02): 311-316.
[7] 潘丹萍, 吴昊, 姜业正等. 应用水汽相变促进湿法脱硫净烟气中PM_2.5和SO₃酸雾脱除的研究. 燃料化学学报, 2016, 44(01): 113-119.
[8] 潘丹萍, 吴昊, 鲍静静等. 电厂湿法脱硫系统对烟气中细颗粒物及SO₃酸雾脱除作用研究. 中国电机工程学报, 2016, 36(16): 4356-4362.
[9] Danping Pan, Linjun Yang, Hao Wu, et al. Formation and removal characteristics of sulfuric acid mist in a wet flue gas desulfurization system. Journal of Chemical Technology & Biotechnology, 2017, 92(3): 598-604.
[10] Danping Pan, Linjun Yang, Hao Wu, et al. Removal characteristics of sulfuric acid aerosols from coal-fired power plants. Journal of the Air & Waste Management Association, 2017, 67(3): 352-357.
[11] Rongting Huang, Ran Yu, Hao Wu, et al. Investigation on the removal of SO₃ in ammonia-based WFGD system. Chemical Engineering Journal, 2016, 289: 537-543.
获奖情况：
2016年国家奖学金
2016年协鑫奖学金

最后编辑日期: 2020年10月