张永生

姓名:张永生

职称:教授、博导

职务:电站能量传递转化与系统教育部实验室副主任

院系:澳门英皇赌博官方网址

研究方向:

燃烧及污染物控制、含碳材料储能、新能源利用

联系方式:

电话:010-61772351

邮箱:yszhang@ncepu.edu.cn

地址:主楼F806


个人简介及主要荣誉称号:

山西大同人,2006年于浙江大学能源清洁利用国家重点实验室获工学博士学位,国际燃烧学会会员、北美热分析学会会员、中国重金属污染防治专业委员会会员、中国汞污染防治技术产业创新联盟理事。是Fuel(杰出审稿人)、Energy Fuels、Combustion Science and Technology、Fuel Processing Technology、Environmental Science and Technology、Journal of Environmental Chemical Engineering、Journal of Hazardous Materials等能源环境领域SCI期刊审稿人,国家自然科学基金委及科技部评审专家。

在能源环境领域权威期刊发表论文60余篇,主编英文著作1部,合编英文著作2部,合作编写本科教材1部。作为第一发明人获得中国授权发明专利8项、美国授权发明专利1项,转让及应用发明专利各1项。作为项目负责人承担基金委、科技部及发电企业纵向、横向科研项目30余项。

首创电厂飞灰一体化在线改性吸附脱除重金属技术,研制了世界首台套飞灰在线改性脱除重金属装置,首次在300MW燃煤机组完成了工程示范,并进一步推广应用到1000MW燃煤机组。


教学与人才培养情况:

本科生课程:热力发电厂

硕士生课程:电厂燃烧污染及控制技术

培养30余名博士硕士研究生,具有丰富的实验室和现场锻炼机会,多人曾获得中国工程热物理年会奖、优秀毕业生称号等,大多数毕业后快速成为科研单位和大型发电企业的业务骨干。


主要负责科研项目情况:

1)2016年—,国家重点研发计划子课题,660MW超超临界CFB发电的超低排放系统集成研究

2)2015—2017年,国家科技支撑计划子课题,大型燃煤电站近零排放控制关键技术及工程示范

3)2015—2016年,北京市科技计划重大课题,燃煤发电烟气重金属脱除工艺研究与示范

4)2013—2015年,863计划子课题,燃煤烟气中多种重金属污染物的联合控制技术与示范

5)2018年,华北电力科学研究院有限责任公司,寿光电厂环保测试试验

6)2017—2018年,国华徐州发电有限公司2号机组烟气脱汞改造

7)2015年,中国原子能科学研究院,燃煤机组放射性重金属元素测试

8)2013年,西安热工研究院有限公司,活性焦烟气脱硫系统汞排放特征测试

9)2012年,中国环境科学研究院,典型燃煤电厂汞排放特征测试

10)2011-2013年,国家自然科学基金项目,氮气稀释富氢合成气微混合燃料喷射火焰燃烧特性研究


主要获奖情况:

1)2018年度中国电力科学技术进步奖二等奖(2/16):改性飞灰深度脱除燃煤烟气中重金属汞技术及应用

2)2016年度中国电力科学技术进步奖三等奖(7/7):燃煤电厂烟气脱汞创新技术研究及其应用


代表性论著:

著作:

11)Yongsheng Zhang, Tao Wang, Wei-ping Pan, Carlos E. Romero.“Advances in Ultra-Low Emission Control Technologies for Coal-Fired Power Plants”,2019,Elsevier.

12)陈海平,张永生,张学镭,李惊涛,于刚,李志宏,热力发电厂,“十三五”普通高等教育本科规划教材,2018,中国电力出版社

论文:

1)WenjunYin, DuoDong, Yongsheng Zhang*, TaoWang, JiaweiWang, Carlos E.Romero, Wei-pingPan. Effect of annealing temperature on the continuity and conductivity of coal-based carbon films prepared by ball milling, Applied Surface Science, 510, 145411,2020.

2)Jiawei Wang, Yongsheng Zhang*, Tao Wang, Hong Xu, Wei-Ping Pan. Effect of Modified Fly Ash Injection on As, Se and Pb Emissions in Coal-Fired Power Plant, ChemicalEngineering Journal, 380: 122561, 2020.

3)王家伟, 张永生*, 张翼, 顾永正, 刘钊, 汪涛, 隋子峰, 徐鸿, 潘伟平. 喷射点位及温度对超低排放电厂活性炭吸附脱汞的影响. 中国电机工程学报. 39 (11), 3303-3312,2019.

4)Yongsheng Zhang*, Dongqian Mei, Tao Wang, Jiawei Wang, Yongzheng Gu, Zailei Zhang, Carlos E. Romero, Wei-ping Pan. In-situ capture of mercury in coal-fired power plants using high surface energy fly ash. Environmental Science & Technology, 53(13): 7913-7920, 2019.

5)Shumin Wang, Yongsheng Zhang*,Yongzheng Gu, Jiawei Wang, Xuehai Yu, Tao Wang, Zhongchun Sun, Zhao Liu, Carlos E. Romero, Wei-ping Pan.Coupling of bromide and on-line mechanical modified fly ash for mercury removal at a 1000 MW coal-fired power plant,Fuel, 247:179-186, 2019.

6)Jiawei Wang, Yongsheng Zhang*,Zhao Liu, YongZheng Gu, Pauline Norris, Hong Xu, Wei-Ping Pan.Coeffect of Air Pollution Control Devices on Trace Element Emissions in an Ultralow Emission Coal-Fired Power Plant,Energy and Fuels, 33(1): 248-256, 2019.

7)Yue Peng, Zifeng Sui, Yongsheng Zhang*, Tao Wang, Pauline Norris, Wei-Ping Pan. The effect of moisture on particulate matter measurements in an ultra-low emission power plant,Fuel, 238:430-439, 2019.

8)Longchun Zhong, Yongsheng Zhang*, Tao Wang, Yong Ji, Pauline Norris, Wei-Ping Pan. Optimized methods for preparing activated carbon from rock asphalt using orthogonal experimental design. Journal of Thermal Analysis and Calorimetry, 136 (5):1989-1999, 2019.

9)Shuang Bian, Jiawen Wu, Yongsheng Zhang*, Tao Wang, Pauline Norris, Wei-Ping Pan. Increasing Recovery Ratios with Improved BCR Method for Mercury Analysis in FGD Gypsum,Energy and Fuels, 32(8): 8340−8347, 2018.

10)Zifeng Sui, Yongsheng Zhang*, Tao Wang, Hong Xu, Boning Zhang,Martin Cohron, Chuanchuan Cai, Pauline Norris, Wei-Ping Pan. Full-scale Demonstration of Enzyme-treated Coal Combustion for Improved Energy Efficiency and Reduced Air Pollution, Energy and Fuels, 32(6): 6592−6602, 2018.

11)Tao Wang,Jiawen Wu, Yongsheng Zhang*,Jun Liu, Zifeng Sui,Huicong Zhang, Wei-Yin Chen,Pauline Norris, Wei-Ping Pan. Increasing the chlorine active sites in the micropores of biochar forimproved mercury adsorption,Fuel, 229: 60-67, 2018.

12)Jie Cheng,Yongsheng Zhang*, Tao Wang, Hong Xu, Pauline Norris, Wei-Ping Pan. Emission of Volatile Organic Compounds (VOCs) during Coal Combustion at Different Heating Rates,Fuel, 225: 554-562, 2018.

13)Tao Wang*, Jun Liu, Yongsheng Zhang*, Wei-Yin Chen,Wei-Ping Pan. Increasing the chlorine active sites on biochar using non-thermal plasma technique for mercury removal,ChemicalEngineering Journal, 331: 536−544, 2018.

14)钟隆春,张永生,潘伟平.溴化氢改性飞灰汞吸附机理研究.澳门英皇游戏网址学报, 44(6):93-99, 2017.

15)Yongsheng Zhang*,Panfeng Shang, Jiawei Wang, Pauline Norris, Carlos E. Romero, Wei-Ping Pan. Trace Element (Hg, As, Cr, Cd, Pb) Distribution and Speciation in Coal-Fired Power Plants,Fuel, 208: 647-654, 2017.

16)Jiawei Wang, Yongsheng Zhang*,Zhao Liu, Pauline Norris, Carlos E. Romero, Hong Xu, Wei-Ping Pan. Effect of Coordinated Air Pollution Control Devices in Coal-Fired Power Plants on Arsenic Emissions,Energy and Fuels, 31(7): 7309−7316, 2017.

17)Jie Cheng,Yongsheng Zhang*, Tao Wang, Pauline Norris, Wei-Yin Chen, Wei-Ping Pan. Thermogravimetric-Fourier-Transform Infrared Spectroscopy-Gas Chromatography / Mass Spectrometry Study of Volatile Organic Compounds from Coal Pyrolysis,Energy and Fuels, 31(7): 7042−7051, 2017.

18)Yongsheng Zhang*, Zhensen Zhang, Zhao Liu, Pauline Norris,Wei-ping Pan. Study on the mercury captured by mechanochemical and bromide surface modification of coal fly ash,Fuel, 200: 427-434, 2017.

19)Yongsheng Zhang*, You Zhang, Tao Wang, JianWei Lin, Carlos E. Romero, Wei-ping Pan. Oxidation of elemental mercury with non-thermal plasma coupled with a wet process, Fuel, 197: 320-325, 2017.

20)Yongsheng Zhang*, LilinZhao, Ruitao Guo, Jiawei Wang, Yan Cao, William Orndorff, Wei-ping Pan. Influences of NO on mercury adsorption characteristics for HBr modified fly ash, International Journal of Coal Geology,170: 77-83, 2017.

21)Longchun Zhong, Wenhan Li, Yongsheng Zhang*, Pauline Norris, Yan Cao, Wei-Ping Pan. Kinetic Studies of Mercury Adsorption in Activated Carbon Modified by Iodine Steam Vapor DepositionMethod, Fuel, 188: 343-351, 2017.

22)ZifengSui,Yongsheng Zhang*, Yue Peng, Pauline Norris, Yan Cao, Wei-Ping Pan. Fine Particulate Matter Emission and Size Distribution Characteristics in an Ultra-Low Emission Power Plant, Fuel, 185: 863-871, 2016.

23)ZifengSui,Yongsheng Zhang*, Jiabin Yao, Pauline Norris, Yan Cao, Wei-Ping Pan. The influence of NaCl and Na2CO3 on fine particulate emission and size distribution during coal combustion, Fuel, 184: 718-724, 2016.

24)Shumin Wang, Yongsheng Zhang*,Yongzheng Gu, Jiawei Wang, Zhao Liu, You Zhang, Yan Cao, Carlos E. Romero, Wei-ping Pan. Using modified fly ash for mercury emissions control for coal-fired power plant applications in China,Fuel, 181: 1230-1237, 2016.

25)Yongsheng Zhang*, Minglei Shi, Jiawei Wang, Jiabin Yao, Yan Cao, Carlos E. Romero, Wei-ping Pan. Occurrence of uranium in Chinese coals and its emissions from coal-fired power plants, Fuel, 166:404-409, 2016.

26)Yongzheng Gu, Yongsheng Zhang*, Jianwei Lin, Zhensen Zhang, Hong Xu, Pauline Norris, Yan Cao, Wei-Ping Pan. Homogeneous Mercury Oxidation with Bromine Species Released from HBr-Modified Fly Ash,Fuel, 169: 58-67, 2016.

27)Longchun Zhong, Yongsheng Zhang*, Yong Ji, Pauline Norris, Wei-Ping Pan. Synthesis of activated carbon from coal pitch for mercury removal in coal-fired power plants,Journal of Thermal Analysis and Calorimetry, 123 (1):851-860, 2016.

28)Yongsheng Zhang*, Lilin Zhao, Ruitao Guo, Na Song, Jiawei Wang, Yan Cao, William Orndorff, Wei-Ping Pan. Mercury adsorption characteristics of HBr modified fly ash in an entrained-flow reactor, Journal of Environmental Sciences, 33(1):156-162, 2015.

29)Yongzheng Gu, Yongsheng Zhang*, Lvrong Lin, Hong Xu, William Orndorff, Wei-Ping Pan. Evaluation of elemental mercury adsorption by fly ash modified with ammonium bromide,Journal of Thermal Analysis and Calorimetry, 119 (3):1663-1672, 2015.

30)Yongsheng Zhang*, Hailong Zhang, Long Tian, Pengfei Ji, Shanchuan Ma. Temperature and emissions characteristics of a micro-mixing injection hydrogen-rich syngas flame diluted with N2, International Journal of Hydrogen Energy, 40 (36):12550-12559, 2015

31)Zifeng Sui, Yongsheng Zhang*, Wenhan Li, William Orndorff, Yan Cao, Wei-Ping Pan. Partitioning effect of mercury content and speciation in gypsum slurry as a function of time, Journal of Thermal Analysis and Calorimetry, 119 (3):1611-1618, 2015.

32)张永生,张海龙,田龙,付忠广,张锴,稀释合成气微混合燃料喷射燃烧火焰特性研究,动力工程学报,35(1):45-49,2015.

33)Yongsheng Zhang*, Wei Duan, Zhao Liu, Yan Cao. Effects of modified fly ash on mercury adsorption ability in an entrained-flow reactor,Fuel, 128( 15) : 274-280, 2014.

34)赵立林,张永生*,郭瑞涛,潘伟平。NO对HBr改性飞灰汞吸附特性影响机理探讨,2014,11,1-3,中国,西安.(2014年中国工程热物理学会燃烧分会优秀论文)

35)Yongsheng Zhang*, Tianming Yang, Xueqi Liu, Long Tian, Zhongguang Fu, Kai Zhang. Reduction of emissions from a syngas flame using micromixing and dilution with CO2, Energy and Fuels, 26(11): 6595−6601, 2012.

授权专利:

1)张永生,滕阳,吴国强,王家伟,曹晏.可调锅炉水冷取样枪装置及取样方法,申请号:201410261940.6,授权日:2019.03.29.

2)Yongsheng Zhang, Yongzheng Gu, Jiawei Wang, Zhao Liiu, Wei-Ping Pan.美国专利:mercury removal system for coal-fired power plant,Patent No:US10,142,963 B2, Date of Patent: Dec.4, 2018

3)张永生,顾永正,曹晏,徐鸿,潘伟平.控制烟气重金属污染物排放的大规模吸附剂改性耦合喷射系统,申请号:201410261836.7,授权日:2018.01.05.

4)张永生,高丹,徐钢,张锴,徐鸿.一种实现电站锅炉降低NOx排放及稳燃的方法及系统,申请号:201110190754.4,授权日:2014.03.26.

5)张永生,于刚,卞双,刑长燕,张光,鞠翠玲,电厂循环水热泵耦合热电联产的集中供暖系统及方法,201010163688.7,授权日:2014.12.03.

6)张永生,张锴,一种可控制调节滴管炉装置,申请号:201210052343.3,授权日:2011.5.18,

7)张永生,付忠广,实现高氢燃气轮机低NOx排放的方法和装置,申请号:200810117256.5,授权日:2011.5.18.

8)张永生,于刚,卞双,一种热电联产耦合热泵实现区域冷热联供装置,申请号:201020180014.3,授权日:2011.11.25.


软件著作权:

1)张永生,隋子峰,彭越,刘钊,王家伟,潘伟平。燃煤电厂重金属平衡计算软件,开发完成日期,2016.06.06,授权日期:2016.11.15,登记号:2016SR331691,登记号:软著登字第1510308号

2)张永生,张旭彪,王家伟,汪涛,潘伟平。改性飞灰吸附脱汞工艺软件,开发完成日期,2018.08.08,授权日期:2019.06.03,登记号:2019SR0562503,登记号:软著登字第3983260号


实验室:

所在的能源环境科学与工程研究所所成立于2014 年9 月,形成具有国际水平的重金属污染物监测与控制技术研发团队,本人为研究所所长。研究方向包括:(1)含碳燃料的清洁燃烧;(2)重金属等污染物监测与控制;(3)新能源开发与利用。

实验室仪器包括国际先进的重金属污染监测及控制平台、热分析平台、燃烧实验平台和电厂现场监测平台等大型设备40多台套。包括:PSA公司烟气汞在线分析仪3套、APEX公司OHM安大略法汞测定仪及30B吸附管采样仪各3套、Leeman Hydra C全自动固相汞分析仪、Leeman Hydra IIAA全自动液相汞分析仪、Lumex RA915+ 汞分析仪、PSA测汞仪、PSA测砷仪、等离子体发射光谱仪ICP-OES、电感耦合等离子体质谱ICP-MS、微波消解系统、以及TA公司的热分析仪器10余套、testo烟气分析仪、气相色谱-质谱分析仪、原子吸收光谱仪、离子色谱仪、傅立叶变换红外光谱仪、氮吸附仪等。