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孔令照

作者:   时间:2021-05-24   点击数:

姓名

孔令照

性别

出生年月

1980.05

职务


职称

教授

评聘时间

2016.12

所在系

环境科学

专业

环境科学

主要研究方向

生物质废弃物资源化

主讲课程


联系电话


电子邮箱

lizhkong@usts.edu.cn

个人简介

孔令照,教授,博士生导师。2009-2011年在美国奥本大学开展博士后研究,2011-2022年在中科院青岛生物能源所、上海高等研究院历任副研究员、研究员、课题组长,2022年起在bat365官网登录任教授。主要从事有机固废热化学转化和水热催化方面的研究工作,主持国家自然基金、中科院、上海市、江苏省和壳牌(Shell)等政府及中外企业项目16项,在ACS Catalysis、Green Chemistry、Journal of Hazardous Materials、Green Energy & Environment等期刊上发表学术论文80余篇,授权发明专利19件,参编中英文书籍总计3部,指导博士生6人,硕士生14人,中科院青年促进会会员,欧洲生物质会议(EUBCE)科学委员会委员,“Green Energy & Environment”和“Carbon Neutrality”期刊青年编委,获侯祥麟石油加工科学技术奖。

研究方向:

主要从事生物质及有机废弃物资源化方面的研究工作。

1. 生物质/有机固废定向热转化制备油品、材料与反应网络构建。

2. 生物质/有机固废催化转化制备高附加值含氧化学品。

学习经历

1998-2002辽宁石油化工大学环境工程工学学士

2002-2005辽宁石油化工大学环境工程工学硕士

2005-2008同济大学环境科学工学博士

2009-2011美国奥本大学(Auburn University)化工系博士后

个人荣誉

入选中科院青年促进会会员(2015),获得侯祥麟石油加工科学技术奖(2006)

社会兼职

1.美国化学会会员,2009-

2.美国化学工程师协会会员,2009-

3.中国环境科学学会高级会员,2012-

4.中国环境科学学会固废分会学术委员会委员,2016-

5.欧美同学会会员,2013-

6.中科院青年促进会会员,2015-

7.科技部国际合作项目评审专家,2017-

8.辽宁石油化工大学学报特约编委,2017-

9.科技部、北京市、上海市、江苏省、河南省、浙江省、福建省、辽宁省、中林集团等部委省市科技专家库入库及评审专家,2017-

10.中国化学会会员,2019-

11.欧洲生物质会议(EUBCE)科学委员会委员,2019-

12.中国可再生能源学会会员,2020-

13.“Green Energy & Environment”期刊青年编委(Top期刊,1区),2021-

14.辽宁石油化工大学客座教授,2021-

15.Carbon Neutrality”期刊青年编委,2022-

论文论著(部分)

1.R. Li, Q. Lin, J. Ren, X. Yang, Y. Wang,L. Kong*, Dealuminated Hβ zeolite for selective conversion of fructose to furfural and formic acid,Green Energy & Environment,https://doi.org/10.1016/j.gee.2022.06.003. (IF 12.8,一区)

2.G. Miao, L. Shi, Z. M, Zhou, L. Z. Zhu, Y. F. Zhang, X. P. Zhao, H. Luo, S. G. Li,L. Z. Kong*, Y. H. Sun. Catalyst design for selective hydrodeoxygenation of glycerol to 1,3-propanediol,ACS Catalysis,2020,10, 15217-15226. (IF, 13.7,一区)

3.X. P. Zhao, Z. M, Zhou,H. Luo, Y. F. Zhang, W. Liu, G. Miao, L.J. Zhu,L. Z. Kong,*S. G. Li, Y. H. Sun, γ-valerolactone-introduced controlled-isomerization of glucose for lactic acid production over sn-beta catalyst,Green Chemistry,2021, 23,2634-2639. (IF, 11.0,一区)

4.H. Luo, Y. F. Zhang, H. Zhu, X. P. Zhao, L.J. Zhu, W. Liu, M. Y. Sun, G. Miao, S. G. Li,L. Z. Kong,*Microwave-assisted low temperature biomass pyrolysis: from mechanistic insights to pilot scale,Green Chemistry, 2021, 23,821-827. (IF, 11.0,一区)

5.Y. F. Zhang, H. Luo,L. Z. Kong,*X. P. Zhao, G. Miao, L .J. Zhu, S. G. Li, Y. H. Sun, Highly efficient production of lactic acid from xylose using Sn-Beta catalysts,Green Chemistry, 2020, 22, 7333-7336. (IF, 11.0,一区,热点文章)

6.J. J. Wang, Z. C. Tan, C. C. Zhu, G. Miao,L. Z. Kong,*and Y. H. Sun, One-pot catalytic conversion of microalgae (Chlorococcum sp.) into 5-hydroxymethylfurfural over the commercial H-ZSM-5 zeolite.Green Chemistry, 2016, 18, 452-460. (IF, 11.0,一区)

7.G. Miao, C. C. Zhu, J. J. Wang, Z. C. Tan, L. Wang, J. L. Liu,L. Z. Kong*and Y. H. Sun. Efficient one-pot production of 1,2-propanediol and ethylene glycol from microalgae(Chlorococcum sp.)in water.Green Chemistry, 2015, 17, 2538-2544.(IF, 11.0,一区)

8.H Luo, L W Bao,L Z Kong,*Y H Sun.Revealing low temperature microwave-assisted pyrolysis kinetic behaviors and dielectric properties of biomass components.AIChE Journal,2018, 64(6):2124-2134. (IF,4.17,化工顶级期刊)

9.Y. F. Zhang, H. Luo, X. P. Zhao, L. J. Zhu, G. Miao, H. Wang, S. G. Li,L Z Kong*,Continuous conversion of glucose into methyl lactate over Sn-Beta zeolite: catalytic performance and activity insight.Industrial & Engineering Chemistry Research. 2020, 59(39), 17365-17372 (IF,4.32,化工顶级期刊)

10.Y. F. Zan, Y. Y. Sun,L. Z. Kong*, G. Miao, L. W. Bao, H. Wang, S. G. Li*, and Y.H. Sun*.Formic acid-induced controlled-release hydrolysis of microalgae (Scenedesmus) to lactic acid over Sn-beta catalyst. ChemSusChem.2018, 11, 1-6.(封面文章,IF, 9.14,一区)

11.H Luo, L W Bao, H Wang,L Z Kong,* S G Li, Y H Sun. Insights into oil recovery, soil rehabilitation and low temperature behaviors of microwave-assisted petroleum-contaminated soil remediation.Journal of Hazardous Materials,2019, 377, 341-348 (IF, 14.2,一区)

12.L W Bao, L Shi, H Luo,L Z Kong,*S G Li, W Wei, Y H Sun.Mechanism of microwave-assisted pyrolysis of glucose to furfural revealed by isotopic tracer and quantum chemical calculations. ChemSusChem, 2017, 10, 3040-3043. (IF, 9.14,一区)

13.H Luo, L W Bao,L Z Kong,*Y H Sun. Low temperature microwave-assisted pyrolysis of wood sawdust for phenolic rich compounds: Kinetics and dielectric properties analysis.Bioresource Technology, 2017, 238, 109-115.(IF, 11.9,一区)

14.H Luo, L W Bao, H Wang,L Z Kong,* Y H Sun. Microwave-assisted in-situ elimination of primary tars over biochar: Low temperature behaviours and mechanistic insights,Bioresource Technology, 2018, 267: 33-340. (IF, 11.9,一区)

15.Y. F. Zan, G. Miao, H. Wang,L. Z. Kong*, Y. P. Ding*, and Y.H. Sun.Revealing the roles of components in glucose selective hydrogenation into 1,2- propanediol and ethylene glycol over Ni-MnOx-ZnO catalysts,Journal of Energy Chemistry,2019,38,15-19. (IF, 13.6,一区)

16.S L Li, Y F Zan, Y Y Sun, Z C Tan, G Miao,L Z Kong*, Y H Sun, Efficient one-pot hydrogenolysis of biomass-derived xylitol into ethylene glycol and 1,2-propylene glycol over Cu-Ni-ZrO2catalyst without solid bases,Journal of Energy Chemistry,2019,28,101-106. (IF, 13.6,一区)

17.W P Deng, Y C Feng, J Fu, H W Guo, Y Guo , B X Han*, Z C Jiang,L Z. Kong, C Z Li, H C Liu*, P T T Nguyen, P Ren, F Wang, S Wang, Y Q Wang, Y Wang*, S S Wong, K Yan, N Yan*, X F Yang, Y B Zhang, Z R Zhang, X H Zeng, H Zhou,Catalytic conversion of lignocellulosic biomass into chemicals and fuels,Green Energy & Environment, https://doi.org/10.1016/j.gee.2022.07.003.(IF, 12.8,一区)

18.W. Liu, Z. Zhou, Z. Guo, Z. Wei, Y. Zhang, X. Zhao, G. Miao, L. Zhu, H. luo, M. Sun, Y. Wang, S. Li andL. Z. Kong*,Sustainable Energy & Fuels, 2022, 6,1264-1268 (IF, 6.81)

19.Y. Y. Sun, L. Shi, H. Wang, G. Miao,L. Z. Kong*,S. G. Li, Y. H. Sun. Efficient production of lactic acid from sugars over Sn-Beta zeolite in water: Catalytic performance and mechanistic insights.Sustainable Energy & Fuels, 2019, 3, 1163-1171.(Hot Article,IF, 6.81)

20.M. Y. Sun, L.J. Zhu, W. Liu, X. P. Zhao, Y. F. Zhang, H. Luo, G. Miao, S. G. Li, S. Yin,L. Z. Kong*,Efficient upgrading of polyolefin plastics into C5–C12 gasoline alkanes over a Pt/W/Beta catalyst,Sustainable Energy & Fuels,2022, 6, 271-275. (IF, 6.81)

21.X. P Zhao, W. Liu, L.J Zhu, Y.F Zhang, M. Y Sun, G. Miao, H. Luo, S. Li and L. Z. Kong,Sustainable Energy & Fuels, 2022, 6, 1051–1057 (IF, 6.81)

22.H. Wang, G. Miao,L. Z. Kong*,H. Luo, Y. F. Zhang, X. P. Zhao, S. G. Li, Y. H. Sun.Efficient one-pot valorization of ethanol to 1-butanol over an earth-abundant Ni–MgO catalyst under mild conditions.Sustainable Energy & Fuels, 2020, 4, 1612-1615 (IF, 6.81)

23.L.J. Zhu, M. Y. Sun, X. P. Zhao, Y. F. Zhang, H. Luo, W. Liu, G. Miao,L. Z. Kong,*Continuously efficient hydrodeoxygenation of glycerol into 1,3-propanediol over Pt/WOx/beta catalysts. Sustainable Energy &Fuels,2021,5,1747-1755. (IF, 6.81)

24.G. Miao, Y. F. Zan, Y. Y. Sun, H. Wang, S. L. Li,L. Z. Kong*, L S. G. Li*, and Y.H. Sun*.Mn-promoted hydrogenation of microalgae (Chlorococcum sp.) to 1,2-propanediol and ethylene glycol over Ni-ZnO catalysts.Applied Catalysis A, General.2018, 565, 34-45.(IF, 5.72,二区)

25.Z. C. Tan, L. Shi, Y. F. Zan, G. Miao, S. L. Li,L. Z. Kong*, S. G. Li, Y. H. Sun. Crucial role of support in glucose selective conversion into 1,2-propanediol and ethylene glycol over Ni-based catalysts: A combined experimental and computational study.Applied Catalysis A, General. 2018, 560:28-36. (IF, 5.72,二区)

26.Y Y Sun, C Liu,, Y F Zan, G Miao, H Wang,L Z Kong*.Hydrothermal carbonization of microalgae (chlorococcum sp.) for porous carbons with high Cr(VI) adsorption performance.Applied Biochemistry and Biotechnology, 2018,186(2),414-424.(IF,3.09)

27.C Liu, X Huang,L Z Kong*. Efficient low temperature hydrothermal carbonization of Chinese reed for biochar with high energy density.Energies, 2017, 10(12), 2094-2098.(IF,3.00)

28.Tan Z.C., Miao G., Liu C., Luo H., Bao L.W.,Kong L.Z.,* and Sun Y.H., Catalytic conversion of glucose into alkanediols over nickel-based catalysts: A mechanism study.RSC Advances, 2016, 6, 62747-62753.(IF,4.04)

29.Luo H., Zhu, C C.; Tan Z.C., Bao L.W., Wang J. J., Miao G.,Kong L.Z.,*and Sun Y.H., Preparation of N-doped activated carbons with high CO2capture performance from microalgae (Chlorococcum sp.).RSC Advances, 2016, 6, 38724-38730. (IF,4.04)

30.Dawei Li, Conglai Li, Yuanyu Tian,Lingzhao Kong*,Li Liu. Influences of impregnation ratio and activation time on ultramicropores of peanut shell active carbons.Materials Letters.2015, 141: 340-343. (IF,3.57)

31.L Z Kong,* G Miao, H Luo, LY H Sun. Advances in hydrothermal catalysis conversion of biomass into oxygen-containing chemicals.Chemical Journal of Chinese Universities, 2020,41,11-18.

32.Na Xiao, Hu Luo, Weiqi Wei, Zhiyong Tang, Bin Hu,Lingzhao Kong*, Yuhan Sun. Microwave-assisted gasification of rice straw char promoted by alkali and alkaline earth metals.Journal of Analytical and Applied Pyrolysis.2015, 112:173-179.(IF,6.44,一区)

33.H. W. Li, H. Yan, Y. Dai, X. F. Luo, X. Yang, X. Y. Guo*,L. Z. Kong*, Production of organic carboxylic acids by hydrothermal conversion of electron beam irradiation pretreated wheat straw.Biomass Conversion and Biorefinery, 2019, 1,1-10. (IF,4.05)

34.Lingzhao Kong, Pengjie Miao and Jianguang Qin. Characteristics and pyrolysis dynamic behaviors of hydrothermally treated micro crystalline cellulose. Journal of Analytical and Applied Pyrolysis. 2013,100:67-74. (IF,6.44,一区 )

35.Gasoline, Diesel and Ethanol Biofuels from Grasses and Plants,Ram. B. Gupta, A. Demirbas主编,2011-01-18,剑桥大学出版社。

36.石油石化废水处理技术及工程实例,赵杉林主编,2013-06-08,中国石化出版社。

37.资源化视角的污染控制理论与实践,李光明主编,2019-09-30,上海交通大学出版社。

专利(部分)

1.一种以微藻为原料制备5-羟甲基糠醛的方法,ZL201510520140.6,2015-08-21,授权

2.一种连续式高效谷物微波干燥机及其结构优化方法,ZL201510705591.7,2015-10-27,授权

3.微波热解生物质与生物炭混合样品瞬态温度的模拟方法,ZL201610172179.8,2016-03-24,授权

4.生物质废弃物水热降解生产乳酸的方法,ZL200710047062.8,2007-10-16,授权

5.一种含油污泥资源化处理工艺及装置,ZL201010194368.8,2010-06-08,授权

6.由微藻直接水热加氢制备化学品的方法,ZL201410092469.2,2014-03-13,授权

7.一种多层连续式高效谷物微波干燥设备,ZL201610080809.9,2016-02-24,授权

8.一种石油污染土壤微波快速修复与油品回收的方法及装置,ZL201610044637.X,2016-01-12,授权

9.褐煤微波热解利用的方法,ZL201410028331.6,2014-01-22,授权

10.微波热解生物质实时全景温度监测调控系统及方法,ZL201610165220.9,2016-03-22,授权

11.一种微波热重分析装置与联用系统,ZL201611047356.6,2016-11-21,授权

12.一种用于吸附二氧化碳的微藻基含氮炭材料及其制备方法,ZL201710106714.4,2017-02-27,授权

13.一种由玉米芯直接水热加氢制备化学品的方法,ZL201710106715.9,2017-02-27,授权

14.Biomass to biochar conversion in subcritical water,US20110179703,A120110728,2011-01-20,授权

15.利用糖类制备乳酸的方法,ZL201711097829.8,2017-11-09,授权

16.微波辅助生物质热解制备富含酚类化合物的方法及装置,ZL201811213014.6,2018-12-18,授权

17.一种利用分子筛催化剂催化玉米芯制备乳酸的方法,ZL201810079228.2,2018-01-26,授权

18.一种由木糖直接水热催化加氢制备化学品的方法,ZL201810079097.8,2018-01-26,授权

19.一种基于微波热点的生物质热解焦油低温脱除的方法及装置,PCT/ZL2018/102928,2018-08-29,授权

主持(承担)项目

1.基于数据挖掘和理论计算的甘油加氢脱氧催化剂理性设计新策略,国家自然科学基金面上项目,22278419,54万元,2023.01-2026.12,项目负责人

2.富糖微藻水热催化制备重要含氧化学品转化策略与基础研究,国家自然科学基金面上项目,21978316,65万元,2020.01-2023.12,项目负责人。

3.富糖微藻水相催化一步法制备重要含氧化学品关键技术,上海市科委院地合作重点项目,16dz1207200,300万元,2016.10-2018.09,项目负责人。

4.Energy Self-Sufficient Pilot Scale Mobile Pyrolysis System Based on Microwave Heating for Biomass Conversion,国际合作(壳牌前瞻项目),PT31205,366万元,2017.01-2020.12,项目负责人。

5.微波辐射粮食干燥关键技术研究,上海市农委重点攻关项目,沪农科攻字(2014)第6-4号,100万元,2014.10-2016.09,项目负责人。

6.水作为BrØnsted酸碱催化剂下水热反应水中氢的离子化行为,国家自然科学青年基金项目,21406255,25万元,2015.01-2017.12,项目负责人。

7.微波辐射粮食干燥脱水装备研制及示范,中科院STS计划项目,KFJ-EW-STS-054-1,80万元,2015.05-2017.05,项目负责人。

8.中科院青年促进会会员,中科院人才项目,2015231,70万元,2015.01-2018.12,项目负责人。

9.微波辐射粮食干燥装备研制及技术,企业横向项目,Y644181E01,100万元,2015.09-2017.09,项目负责人。

10.生物质微波干燥碳化及气化技术,企业横向项目,Y334281E01,252万元,2014.04-2016.04,项目负责人。

11.显微拉曼成像光谱仪及原位池附件,中科院修缮专项项目,Y724471241,130万元,2017.01-2017.12,项目负责人。

12.应对气候变化的碳收支认证及相关问题子课题:液化天然气,中国科学院战略性先导科技专项项目,XDA05010305,180万元,2011.03-2013.01,项目负责人。

13.生物质气化过程中供氧系统的设计及示范,法液空公司横向项目,20万元, 2011.09-2012.09,项目负责人。

获奖成果

指导员工获得上海市优秀毕业生(2021),钱易环境奖(2021),壳牌能源研究与创新卓越奖一等奖(2018)、优胜奖(2017/2018),本人获得侯祥麟石油加工科学技术奖(2006)

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