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雷春生

   发布时间: 2016-05-20    访问次数: 8384


 雷春生
 博士、教授
 williamhill威廉希尔官网环境与安全工程学院
 江苏常州 213164
 办公电话:15995017856
 E-MAIL:qiuyu_lei@126.com
 个人网页:
 教育背景:

2001.09-2004.07 石油大学(北京) 环境科学   理学硕士

2014.09-2017.06        武汉理工大学 材料科学专业   理学博士

 工作履历:

2018.08-             williamhill威廉希尔官网      教授

2012.10 - 2018.07          williamhill威廉希尔官网 副教授

2004.08-2012.07      江苏工业学院 助教 讲师

 学术兼职:
 
 主授课程:
 《水污染控制与工程》、《工业水处理技术》、《水质工程学》、《环境化学》、《仪器分析》
 研究领域:
  高浓度氨氮污水处理与技术、微污染水体中氮、磷处理技术、环境纳米吸附材料、光催化材料
 奖励与荣誉:

1. 2012年校“优秀教师”

2. 2012年科教城“优秀教师”

3. 2009年校青年教师教学三等奖

4. 2008年院科技突出贡献奖

 学术成果:


  •  发表论文

 

[1] Lei ChunSheng,Ma JianFeng,Li DingLong,Zhang WenYi,Guang XiaoHong,Ma Jun Composite  Denitrification Reagent for High Concentration Ammonia Removal by Air Stripping.

Chinese Science Bulletin,2010,55(24):2657-2661(SCI,1,IF=18.9

[2]Chunsheng Lei,Yingliu LI,Qian YAO,Lu Tang,Feng’e Zhang.Dynamic Adsorption of Microwave Modified Attapulgite on Micro-polluted Phenol Wastewater.

Agricultural Science and Technology,2012,13(11):2385-2388

[3]Chunsheng Lei, XiaoFeng Zhu,Meicheng Zhou, YuTing Liang, FengeZhang.Composition, Property Characterization, and Application of Agricultural and Forest Biomass Carbon.

Asian Agricultural Research.2014,6(7):72-76

[4] Chunsheng Lei, Zhu Xiao Feng,Meicheng Zhou, Liangfei Dong , Feng e Zhang.

Experimental study on the aeration oxygenation into printing and dyeing wastewater using jet aerator.Environmental engineering and management journal,2015,142:497-501 (SCI,4区)

[5] Chunsheng Lei, Xiaofeng Zhu , Jiaguo Yu. Hierarchical NiO-Al2O3 nanocomposite with enhanced adsorption performance to Congo red in water. RSC Advances,

2016,6:10272-10279(SCI,2,IF=3.9

[6]Chunsheng Lei, Xiaofeng Zhu , Bicheng Zhu, et al. Hierarchical NiO-SiO2 composite hollow microspheres with enhanced adsorption affinity towards Congo red in water. 

Journal of Colloid and Interface Science.2016,466:238-246(SCI,1,IF=9.965

[7]Chunsheng Lei, Meng Pi, Xiaofeng Zhu, Pengfei Xia, Yingqing Guo, Fenge Zhang.Highly efficient visible-light photocatalytic performance based on novel AgI/g-C3N4 

composite photocatalysts. Chemical Physics Letters, 2016,664 :167–172(SCI,4区)

[8]Chunsheng Lei, Meng Pi, Chuanjia Jiang , Jiaguo Yu. Synthesis of hierarchical porous zinc oxide (ZnO) microspheres with highly efficient adsorption of Congo red .

Journal of Colloid and Interface Science,2016,490:242-251(SCI,1,IF=9.965

[9] Chunsheng Lei, Xiaofeng Zhu , Jiaguo Yu. Superb adsorption capacity of hierarchically calcined Ni/Mg/Al layered double hydroxides for Congred and Cr(VI) e ions. 

Journal of Hazardous Materials .2017,321:801–811(SCI,1,IF=13.6

[10] Chunsheng Lei, Meng Pi, Chuanjia Jiang , Jiaguo Yu. Fabrication of hierarchical porous ZnO-Al2O3 microspheres with enhanced adsorption performance.

Applied Surface Science ,2017,426:360-368(SCI,1,IF=6.7

[11] Chunsheng Lei, Meng Pi, Panyong Kuang, Yingqing Guo, Fenge Zhang.Organic dye removal from aqueous solutions by hierarchical calcinedNi-Fe layered 

double hydroxide: Isotherm, kinetic and mechanism studies. Journal of Colloid and Interface Science,2017,496:158-166(SCI,1,IF=9.965

[12]Chunsheng Lei, Meng Pi , Wen Zhou, Yingqing Guo, Fenge Zhang, Jiaqian Qin.Synthesis of hierarchical porous flower-like ZnO-AlOOH structures and their 

applications in adsorption of Congo Red.Chemical Physics Letters,2017,687:143-151(SCI,4区)

[13] Chunsheng Lei, Meng Pi , Bei Cheng , Chuanjia Jiang , Jiaqian Qin. Fabrication of hierarchical porous ZnO/NiOhollow microspheres for adsorptive removal of Congo red.  

Applied Surface Science ,2018,435 :1002–1010(SCI,1,IF=6.7

[14] Yingqing Guo,Chunsheng Lei,Erdeng Du.Pretreatment of Micro-polluted Raw Water by Parallel Process of Photocatalysis-Biological Contact Oxidation. Sustainable 

Development of Urban Environment,2012,2(24) :374-377 (SCI,4区)

[15]Lei Chunsheng, ZhouWen,Feng, Qingguo;  Lei, Yongpeng ;  Zhang, Yi;  Chen, Yin; Qin, Jiaqian.Charge Engineering of Mo2C@Defect-Rich N-Doped Carbon Nanosheets 

for Efficient Electrocatalytic H-2 Evolution. NANO-MICRO LETTERS,2019,11(1):S1-S6(SCI,1,IF=26.6

[16] Chunsheng Lei,Wen Zhou, Lijuan Shen, Xiaohai Zheng, Qingguo Feng, Yi Liu, Yongpeng Lei , Shijing Liang,Dou Zhang, Lilong Jiang, and Kechao Zhou.Enhanced Selective 

H 2 S Oxidation Performance on Mo 2 CModified gC 3 N4. ACS Sustainable Chem. Eng. 2019, 7, 16257−16263(SCI,1,IF=9.224

[17] Kouhua Sun, Jun Shen, Yantao Yang, Hua Tang, Chunsheng Lei(通讯作者).Highly efficient photocatalytic hydrogen evolution from 0D/2D heterojunction of FeP 

nanoparticles/CdS nanosheets.Applied Surface Science. 2019(SCI,1,IF=6.7

[18] Kouhua Sun, Jun Shen, Qinqin Liu , Hua Tang , Mingyi Zhang, Syed ZulfiqarLei Chunsheng(通讯作者).Synergistic effect of Co(II)-hole and Pt-electron cocatalysts 

for enhanced photocatalytic hydrogen evolution performance of P-doped g-C 3 N 4. Chinese Journal of Catalysis 2020,41:72–81.  (SCI,1,IF=16.5

[19] Feng SY, Wang S, Lei CS(通讯作者), Liu SH, Jin QY. Photocatalytic Degradation of Antibiotics by S-Scheme Heterojunctions Constructed by Thermally Sheared Flower-Like 

TiO2-Loaded PDA. Catalysis Letters. Jan 20 2023.

[20]Jin QY, Wang S, Lei CS(通讯作者), et al. ZnAl2O4/sulfur-doped g-C3N4 S-scheme heterojunction for efficient photocatalytic degradation of malachite green. 

Optical Materials. Feb 2023;136.

[21]Liu SA, Wang S, Lei CS(通讯作者), Li RY, Feng SY, Jin QY. Study of the efficiency of g-C3N4-loaded P25 for photocatalytic degradation of malachite green in aqueous and Pickering 

emulsion systems. Journal of Materials Science-Materials in Electronics. Mar 2022;33(8):5846-5858.

[22]Wang S, Lei CS(通讯作者), Liu SH, Shen RF, Feng SY, Jin QY. Selective photodegradation of malachite green in water by Bi2O3-doped TiO2 supported on molecularly imprinted 

powdered activated carbon.Materials Letters. Dec 1 2021;304.

[23]Wang S, Lei CS(通讯作者), Liu SA, Zhang ZW, Li RY, Feng SY. Novel molecularly imprinted malachite green bifunctional imprinted microspheres through 

Pickering emulsion polymerization. New Journal of Chemistry. Oct 25 2021;45(41):19304-19314.

[24]T. J. Ma, H. Y. Long, Z. H. Shi, Z. C. Lang, M. X. Zhao, S. Q. Zhang, C. S. Lei(通讯作者), Optical Materials 2023, 143,  ARTN 11417510.1016/j.optmat.2023.114175.

[25] 雷春生,周家斌,王春江,牟玉静. 气相色谱测定环境空气中苯系物方法改进.江苏工业学院学报,2005,17(1):28-30

[26]雷春生,王春江. 北京市大气中苯、甲苯污染特征及其影响因子.江苏工业学院学报,2005,17(4):20-22

[27] 雷春生,徐春旭.SrNi2Fe16O27铁氧体的合成与性能研究.长江大学学报.2007,4(3):33-35

[28] 雷春生,马建锋,李定龙,.复合脱氮剂-吹脱法处理高浓度氨氮废水试验研究.科学通报,2009,54(22) :3565-3569

[29]雷春生,马军,关小红,.有机复合脱氮剂/吹脱法与直接吹脱法的除氨对比.中国给水排水,2009,25(23) :82-84

[30]郭迎庆,,雷春生,.光催化悬浮生物床预处理滆湖微污染原水.中国给水排水,2010,26(15) :72-74

[31]雷春生,王桂玉,王侃.Fe/C微电解法去除制药废水中磷试验研究.环境科学与技术,2010,33(10) :169-171

[32] 雷春生,李英柳,姚倩.改性凹凸棒滤料对苯酚废水动态吸附研究.安徽农业科学,2011,39(19):11741-11743

[33]涂保华,雷春生,魏永,.竺山湖底泥疏浚对内源磷释放控制作用研究. 安徽农业科学,2011,39(3):1675-1676

[34]雷春生,王桂玉,姚倩,.化学沉淀法预处理高质量浓度的氨氮废水.williamhill威廉希尔官网学报,2010,22(3):46-48

[35]吴健,雷春生.合成复合型絮凝剂聚合氯化铝铁性能影响因素.内江师范学院学报.2011,26(8):48-50

[36]郭迎庆,姚长吉,雷春生,.电气浮-光催化氧化对微污染原水中腐植酸的去处研究.环境工程,2011,29(5):32-34

[37] 赵玲萍,雷春生,张凤娥,.灰色模糊综合评价法在城市雨水利用系统中的应用.节水灌溉,2011,23(12),57-58

[38]李英柳,雷春生. 改性硅藻土复配聚合氯化铝对染料废水脱色的研究.工业水处理,2011,23(11):46-49

[39] 雷春生,李英柳,姚倩,唐璐,张凤娥.微波改性凹凸棒滤料对微污染苯酚废水动态吸附研究.水处理技术,2012,38(11):90-93

[40] 雷春生,朱晓峰.胺化凹凸棒黏土的制备及甲醛吸附性能研究.环境工程,201634216:95-100

[41] 雷春生,朱晓峰.不同形貌γ-AlOOH的制备及刚果红吸附试验研究.williamhill威廉希尔官网学报,2016,28(3)42-47

[42] 雷春生,朱晓峰,高雯,闫争,江黛玉.复配表面活性剂协同促进氨氮吹脱效能研究.中国给水排水,2016,32(5):77-80

[43] 雷春生,朱晓峰. 负载铂的酸活化高岭土室温甲醛氧化性能研究.环境工程学报,2016,10(10):5743-5748

[44] 雷春生,朱晓峰. 酸化凹凸棒粘土对印染废水中亚甲基蓝吸附性能研究.环境工程学报,2017,11(2):885-891

 


  • 授权发明专利

1.去除高浓度氨氮废水的有机复合脱氮剂ZL200810196612.7

2.一种去除高浓度氨氮废水的有机复合脱氮剂和脱氮方法ZL200810196623.5

3.一种去除废水中氨氮的方法ZL200810235452.2

4.一种去除废水中浓度氨氮废水的有机复合脱氮剂和脱氮方法ZL200810155038.0

5.有机复合脱氮剂处理高浓度氨氮废水的除氨氮装置ZL201010566237.8

6.一种促进炼油废水中氨氮转化的催化剂制备方法ZL201210403174.3

7.一种促进味精废水中氨氮转化的催化剂制备方法ZL201210403183.2

8.一种处理化工废气中高浓度氨氮的方法ZL201210253336.X

9.一种促进线路板蚀刻废水中氨氮转化的催化剂制备方法ZL201210253505.X

10.一种进化工废水中氨氮转化催化剂制备方法ZL201210253193.2

11.一种促进垃圾渗滤液废水中氨氮转化的催化剂制备方法ZL201210253225.9

12.一种促进焦化废水中氨氮转化的催化剂制备方法ZL201210253234.8

13.一种处理稀土废水中高浓度氨氮方法ZL201210253263.4

14.一种处理化肥厂废气中氨氮处理方法ZL201210253285.0

15.一种进农药废水中氨氮转化的催化剂制备方法ZL201210253487.5

16.一种促进冶金废水中氨氮转化的催化剂制备方法ZL201210253424.X

17.一种处理炼油废气中高浓度氨氮的方法ZL201210253406.1

18.面活性剂处理尿液中高浓度氨氮装置ZL201310564201.X

19.表面活性剂炼油废水中去除高浓度氨氮装置ZL 201310564420.8

 主持研究项目:

1、“表面活性剂复配有机物协同促进氨氮吹脱效能与机制”,国家自然科学基金资助(项目批准号:51208068),2013.01-2015.12

2、“煤化工等行业高浓度氨氮废水处理技术与装置研发”,国家科技部,项目编号:10C262132011832010.6-2013.5

3、“复合脱氮剂深度处理高浓度氨氮废水技术研究”,江苏省科技厅,项目编号:BY20111282011.1-2013.12

4、“低能耗高效处理工业废水中高浓度氨氮技术”,江苏省科技厅,项目编号:BY2013024-19 2013.1-2015.12

5、“低能耗高效处理高浓度氨氮废水关键技术开发与应用”,江苏省科技厅,项目编号:BE20156702015.7-2018.6

6、“悬浮生物膜-光催化协同降解微污染水体中痕量有机物装置研发”,江苏省科技厅,项目编号:BY2016029-202016.7—2018.6

7“常州市滆湖水体中氮、磷污染物控制技术研究,常州市科技局,项目编号:CN20090047,2009-2011

8、“高浓度氨氮废水资源化技术与设备”,常州市科技局,项目编号:CC201100182011-2013

9、“高浓度氨氮废水处理关键技术研究”,常州市科技局,项目编号:CC201101522011-2013

10、“印染废水曝气装置设计”,常州市钜岳水务环保科技有限公司,2010

11、“农村生活垃圾资源化技术与设备”,常州市君成机械有限公司,2011

12、“去除聚合氯化铝中悬浮颗粒物的沉降剂l研究”,常州友邦净水材料有限公司,2008


项目奖励

 1.2020年中国产学研合作创新与促进奖;

 2.2020年产学研合作创新成果奖;