当前位置: 首页 > 师资队伍 > 导师风采 > 博士生导师 > 正文

李斌

个人简历

出生年月:198510

任职年月:20187

职称:教授

党政职务:节能技术研究院常务副院长

技术职务:江苏特聘教授

所在学科:新能源科学与工程

导师:博导、硕导

最高学位:博士(华中科技大学 学士、博士、博士后,澳大利亚科廷大学 访问学者、博士后)

学术任职:1. 国家自然科学基金委工程热物理学科通讯评议专家;

2. Frontiers in Chemistry期刊特邀客座编辑;

3. Frontiers in Nanotechnology期刊审稿编辑;

4. FuelEnergyFuel Processing TechnologyBioresource TechnologyEnergy Conversion and Management等国际顶级期刊审稿专家;

5. 江苏省可再生能源学会生物质能专委会专家兼生物质多联产工作组组长

6. 江苏省能源研究协会 会员。

联系方式:libin198520@126.com

研究领域

1.          生物质催化气化制氢;

2.          生物质热解;

3.          生物质基碳材料;

4.          固体废弃物能源化利用;

5.          新型热解气化技术研发与应用;

6.          污染物排放控制。

在研项目

主持的主要项目:

1.        江苏特聘教授人才项目,2020-2023

2.        国家自然科学基金面上项目(51876225):生物质热解过程中挥发分与焦的多相交互反应机理研究,2019-2022

3.        江苏省“双创”博士:生物质/废弃物热解气固交互反应机理研究,2020-2021

4.        江苏省“六大人才高峰”高层次人才项目:新型高强度生物质基成型炭材料制备关键技术研究,2019-2022

5.        国家自然科学基金面上项目(51676081):生物质转化过程中焦油原位催化裂解与CO2捕集促进制氢的研究,2017-2020(合作主持)

6.        国家自然科学基金青年项目(51306066):基于CO2捕集的秸秆低温催化气化制氢过程机理研究,2014-2016

7.        中国博士后科学基金(2012M521425):基于CO2捕集的秸秆低温催化气化制氢机理研究,2012-2014

8.        煤燃烧国家重点实验室开放基金:生物质有氧热解过程机理与产物调控机制研究,2021-2022

9.        生物质热化学技术国家重点实验室开放基金:生物质裂解气化制备富氢合成气研究,2014-2015

10.     生物质发电成套设备国家工程实验室开放基金:生物质定向热解耦合催化/脱碳重整制氢机理研究,2013-2014

11.     中央高校基本科研业务费项目:吸收强化生物质水蒸气气化制氢的机理研究,2010-2011

12.     江苏大学高级人才科研启动基金,2018-2021

参与的主要项目:

13.     国家重点研发计划课题(2016YFB0600203-02):660MW高效超超临界循环流化床锅炉提效技术研究,2016-2020,排名2

14.     国家自然科学基金(51706083):聚焦太阳能高温气化生物质制备合成气的机理研究,2018-2020,排名2

15.     公益性行业(农业)科研专项(201303095-3):热解炭化气体产物净化提质技术与设备,2013-2015,排名2

16.     国家自然科学基金(51476067):生物质成型燃料燃烧颗粒物形成机理研究,2015-2018,排名3

17.     国家自然科学基金(51376076):生物质气化过程中热解焦与挥发分气体的交互反应机理研究,2014-2017,排名3

主要论文

1.          Understanding the catalytic upgrading of bio-oil from pine pyrolysis over CO2-activated biochar. Renewable Energy 2021; 174: 538-46.

2.          Defective molybdenum disulfide nanosheet for elemental mercury capture in simulated flue gas. Journal of the Energy Institute 2021; 94: 120-8.

3.          Hydrogen rich syngas production from sorption enhanced gasification of cellulose in the presence of calcium oxide. Energy 2021; 228: 120659.

4.          Volatile-char interactions during biomass pyrolysis: Effect of char preparation temperature. Energy 2021; 215: 119189.

5.          Elemental mercury capture from industrial gas emissions using sulfides and selenides: a review. Environmental Chemistry Letters 2020.

6.          Sorbents for hydrogen sulfide capture from biogas at low temperature: a review. Environmental Chemistry Letters 2020; 18: 113-28.

7.          Photocatalytic oxidation removal of elemental mercury from flue gas. A review. Environmental Chemistry Letters 2020; 18: 417-31.

8.          Elemental mercury capture by graphene-analogous carbon nitride anchored with copper sulfide. Chemical Engineering Journal 2020.

9.          Changes in Biochar Functional Groups and Its Reactivity after Volatile–Char Interactions during Biomass Pyrolysis. Energy & Fuels 2020; 34: 14291-9.

10.       Simulation of sorption enhanced staged gasification of biomass for hydrogen production in the presence of calcium oxide. International Journal of Hydrogen Energy 2020; 45: 26855-64.

11.       Volatile-char interactions during biomass pyrolysis: Understanding the potential origin of char activity. Bioresour Technol 2020; 316: 123938.

12.       Fundamental Advances in Biomass Autothermal/Oxidative Pyrolysis: A Review. ACS Sustainable Chemistry & Engineering 2020; 8: 11888-905.

13.       Ordinary clay as a support of nickel catalyst for steam reforming of acetic acid: impacts of pretreatments of clay on catalytic behaviors. International Journal of Energy Research 2020.

14.       Removal of elemental mercury from simulated flue gas by ZSM-5 modified with Mn-Fe mixed oxides. Chemical Engineering Journal 2019; 375.

15.       Co-hydrothermal carbonization of digested sewage sludge and cow dung biogas residue: Investigation of the reaction characteristics. Energy 2019; 187.

16.       Study on co-pyrolysis synergistic mechanism of seaweed and rice husk by investigation of the characteristics of char/coke. Renewable Energy 2019; 132: 527-42.

17.       Influence of Biochar on the Steam Reforming of Biomass Volatiles: Effects of Activation Temperature and Atmosphere. Energy & Fuels 2019; 33: 2328-34.

18.       Synergistic effects of co-pyrolysis of macroalgae and polyvinyl chloride on bio-oil/bio-char properties and transferring regularity of chlorine. Fuel 2019; 246: 319-29.

19.       Effects of potassium salts loading on calcium oxide on the hydrogen production from pyrolysis-gasification of biomass. Bioresource Technology, 2018, 249: 744-750.

20.       Influence of Addition of a High Amount of Calcium Oxide on the Yields of Pyrolysis Products and Noncondensable Gas Evolving during Corn Stalk Pyrolysis. Energy & Fuels, 2017, 31(12): 13705-13712.

21.       Absorption-enhanced steam gasification of biomass for hydrogen production: Effects of calcium-based absorbents and NiO-based catalysts on corn stalk pyrolysis-gasification. International Journal of Hydrogen Energy, 2017, 42(9): 5840-5848.

22.       Hydrogen production from agricultural biomass wastes gasification in a fluidized bed with calcium oxide enhancing. International Journal of Hydrogen Energy, 2017, 42(8): 4832-4839.

23.       Influence of Inherent Silicon and Metals in Rice Husk on the Char Properties and Associated Silica Structure. Energy & Fuels, 2015, 29(11): 7327–7334.

24.       The enhancing mechanism of calcium oxide on water gas shift reaction for hydrogen production. Energy, 2014, 68: 248-254.

25.       Absorption-enhanced steam gasification of biomass for hydrogen production: Effect of calcium oxide addition on steam gasification of pyrolytic volatiles. International Journal of Hydrogen Energy, 2014, 39(28): 15416-15423.

26.       Characteristics of the temperature distribution and product gas evolving of an updraft biomass gasifier. Energy & Fuels, 2013, 27(3): 1460-1465.

27.       Modeling and simulation of calcium oxide enhanced H2 production from steam gasification of biomass. Journal of Biobased Materials and Bioenergy, 2011, 5(3): 378-384.

28.       Experimental investigation of biomass gasification in a fluidized bed reactor. Energy & Fuels, 2008, 22(5): 3493-3498.

编著及参编主要教材专著

学术及科研成果

1.          一种连续式生物质热解炭气油多联产系统,中国专利优秀奖,2015

2.          吸收强化生物质水蒸气气化制氢的机理研究,优秀项目负责人,2011

获奖情况

1.          华中科技大学优秀博士后,2014

2.          华中科技大学优秀毕业生,2006.

授权专利

1.          一种木醋液蒸气冷凝脱水处理方法及设备,中国,ZL201510127280.72017.1.11

2.          一种用于富氧燃烧的注氧器,中国,ZL201410512537.62015.6.10

3.          一种用于大试样测试的热重反应器,中国,ZL201410019356.X2016.2.24

4.          一种生物质热解气化制备合成气的方法及装置,中国,ZL201410818064.22017.5.10

5.          一种富氮活性生物质焦炭及其制备方法,中国,ZL201410797968.12017.12.29

6.          一种石灰石石膏湿法烟气脱硫装置,中国,ZL201410019357.42015.7.8

7.          一种连续式生物质热解炭气油多联产系统,中国,ZL201210241955.72013.12.25

8.          一种竖行式移动床生物质连续热解装置,中国,ZL201210240636.42015.5.20

9.          一种适用于高水分宽粒径低阶煤的流化床分级干燥装置,中国,ZL201510161813.32017.4.26

10.       一种生物质双轴螺旋热解装置,中国,ZL201410810679.02017.3.1.

其他

1.          每年招收博士研究生1名,硕士研究生3名。

学院微信公众号

能动学院微博