李显

发布时间:2023-07-10 

姓名:李显

职称:教授(博导)

办公室:18luck新利电竞 清洁能源大楼S1207

联系电话027-87542417/13396090385

工作单位:18luck新利电竞 煤燃烧国家重点实验室, 教授(博导)

                    新疆大学化工学院,副院长(援疆干部)

邮箱:xian_li@hust.edu.cn


个人简介:

李显,男,教授,博士生导师,18luck新利电竞 /新疆大学(援疆干部)。主要从事能源化工及固体燃料燃烧等方面的研究工作。2008. 3年大连理工大学获得博士学位。2008.4-2009.6在德国马普所(Max-Planck Institute)做博士后工作,主要研究课题为无烟煤的催化加氢。2009.7-2013.1在日本京都大学(Kyoto U.)先后做COE研究员和助理教授,主要研究方向为低阶碳源材料的提质及利用。2013.2至今在18luck新利电竞 工作,2017.9以援疆干部身份挂职于新疆大学。作为负责人承担国家重点研发计划项目子课题1项、国家自然科学基金项目3项、科技部国际合作项目2项(亚非青年科学家来华项目),日本文部科学省全球 COE计划项目2项,、及横向课题多项,作为骨干成员参与国家重点研发计划项目、973、国际合作项目、日本学术振兴会(JSPS)支持项目等多项。2019年获得教育部高等学校科学研究优秀成果奖(自然科学二等奖,排名第五)、新疆化学会突出贡献奖,2018年获得“苏州高新区科技创新创业领军人才”称号,2013年入选湖北省“楚天学者”。2012年获得日本能源学会年度奖和日本煤炭科学会议优秀论文奖。近5年来发表科技论文70余篇,其中SCI收录50余篇,申请或授权专利15项。

Xian LI, Doctor, Professor. State Key Laboratory of Coal Combustion, Huazhong University of Science & Technology. Dr. Xian LI`s research interest is related to upgrading, thermal conversion, and utilization of the low grade carbonaceous energy resources. Dr. Xian LI got doctorate from Dalian University of Technology in 2008, and work as a postdoc in Max-Planck-Institut of coal research (Germany) from 2008 to 2009, as a Global-COE Researcher in Kyoto University from 2009 to 2010, Assistant Prof. in Kyoto University from 2010 to 2013, Associate Prof. in Huazhong University of Science and Technology from 2013 to the present, and Prof. in Xinjiang University from 2017 to the present. Dr. Xian LI got Excellent Achievement Award of Colleges and Universities from Ministry of Education of China (2018), Chutian Scholar Program Award from the Education Department of Hubei province of China (2013), Annual Award from Fuel Society of Japan, Excellent Paper Award of Coal Science and Technology Conference of Japan (2012). Dr. Xian LI is the principal investigator of more than 20 projects supported by Ministry of Science and Technology of China, National Natural Science Foundation of China, and industries. Dr. Xian LI published more than 70 papers and has 15 patents.


主要研究方向:

  • 低阶煤及有机固废的提质

  • 低阶煤及有机固废的高效热转化

  • 固体燃料燃烧及污染物控制


学术及社会兼职:

  • 2022 Carbon Resources Conversion客座编辑

  • 2019.12- 《热能动力工程》青年编委

  • 2019 第6届煤化工青年学者论坛执行主席

  • 2019 应用化学与工业催化国际学术会议(ACIC 2019)学术委员会委员

  • 2014.12-2018.12 中国能源学会专家委员会煤炭专家组委

  • 2018.10 新疆高碱煤产业技术创新战略联盟副秘书长

  • 2013  International Conference on Power Engineering国际会议分会主席

  • 2012  19th Regional Symposium on Chemical Engineering国际会议分会主席(co-chair)

  • 第2、3、4届煤化工青年学者论坛分会主席


工作及学习经历

  • 博士/硕士 (2003.09-2008.04,硕博连读)大连理工大学

  • 博士后研究员 (2008.04-2009.06)马普煤炭研究所 德国

  • 博士后研究员 (2009.07-2010.06)京都大学工学研究科化学工学专业 日本

  • 助理教授 (2010.07-2013.1)京都大学工学研究科化学工学专业 日本

  • 副教授 (2013.2-)18luck新利电竞 煤燃烧国家重点实验室

  • 教授,副院长 (2017.9-)新疆大学化学化工学院(援疆干部)


主要承担科研项目:

  1. 高碱煤热烟气强化水洗脱碱工艺包开发,民用横向,2022.5-2022.7,经费40万,项目负责人。

  2. 低阶煤热溶萃取-定向调控制备炼焦粘结剂技术开发,民用横向,2021.11-2023.10,经费135.9万元,项目负责人。

  3. 粉煤灰基陶瓷材料制备技术开发及产业化,佛山市促-高校科技成果服务产业发展中试项目,2021.10-2022.9,经费40万,项目负责人。

  4. 粉煤灰基陶瓷材料制备技术开发及产业化,2020 年佛山市促进高校科技成果服务产业发展扶持项目,2020.1-2020.12,经费5万,项目负责人。

  5. Production of high-quality bio-oil and biochar from pyrolysis process of torrefied biomass wastesProgram Management Unit for Human Resources & Institutional and Innovation (PMU-B)1.4 Million baht(June 2020 - June 2021),中方负责人。

  6. 型煤粘结剂及型煤制备技术开发,民用横向项目,2020.12-2022.9,经费29.3万,项目负责人。

  7. 有机固废高效气化及产品深度利用技术与装备,国家重点研发计划项目(SQ2019YFC190252),2020.1-2023.12,课题经费142万,子课题负责人。

  8. 新疆高碱煤的热烟气强化水洗脱碱技术开发,民用横向项目,2020.1-2020.12,项目经费61万,项目负责人。

  9. 生物质废弃物“热溶富碳”过程中循环溶剂与生物质的交互作用机理研究,18luck新利电竞 煤燃烧国家重点实验室开放课题,2020.1-2020.12,课题经费10万,项目负责人。

  10. 两段法制备多微孔煤基活性炭,苏州市科技计划(姑苏科技创业天使计划)项目,2020.1-2021.12,课题经费20万,项目负责人。

  11. 煤的热溶萃取及其产物在高附加值碳材料方面的应用开发,民用横向项目,2019.1-2020.1,课题经费15万元,项目负责人。

  12. 生物质烘焙及其热解动力学研究,科技部发展中国家杰出青年科学家来华工作项目,2019.04.3-2020.04.2,课题经费15万,项目负责人。

  13. CO2-水洗脱除生物质中AAEM的研究,中欧清洁与可再生能源学院双一流自主研发基金(ICARE-RP-2018-BIOMASS-003),2018.12-2020.11,课题经费10万元,项目负责人。

  14. 两段法制备高微孔比例煤基活性炭研发及产业化,苏州高新区科技创新创业领军人才项目,2018.12-2021.11,课题经费100万元,项目负责人。

  15. 空气净化活性炭制备技术开发,民用横向项目,2018.8-2019.11,课题经费12万元,项目负责人。

  16. 低阶煤热溶萃取提质-多级分离过程中循环溶剂与煤的交互作用机理研究,国家自然科学基金面上项目(21776109),64万(直接经费),2018.1-2021.12, 项目负责人。

  17. 强力去甲醛煤基改性活性炭研发,民用横向项目,5万,2017.6-2018.5,项目负责人。

  18. 生物质热解动力学研究,科技部发展中国家杰出青年科学家来华工作项目,2016.12.3-2017.12.2,课题经费15万,项目负责人。

  19. 新型碳纤维光催化新风系统研发,民用横向项目,10万,2017.9-2019.9,项目负责人。

  20. 高碱煤燃前AAEM脱除研究,18luck新利电竞 煤燃烧国家重点实验室自主课题(FSKLCCB1805),5万,2017.1-2017.12,项目负责人。

  21. 低阶煤热溶萃取-定向调控制备炼焦粘结剂的研究,山西煤化所煤转化国家重点实验室开放课题(J17-18-301),10万,2017.1-2018.12, 项目负责人。

  22. 煤的热溶萃取物制备碳纤维研究, NSFC-山西煤基低碳联合基金 (U1510119), 70万, 2016.1-2018.12, 项目负责人。

  23. 生物质基高性能碳纤维制备, 18luck新利电竞 国防自主创新研究基金, 8万, 2015.1-2016.12, 项目负责人.

  24. 温和条件下的低阶煤多级分离提质及其动力学研究, 国家自然科学基金青年基金项目 (21306059), 25万, 2014.01-2016.12, 项目负责人.

  25. 低阶煤溶剂萃取降解制备高附加值产品的工艺研究, 新疆维吾尔自治区国际科技合作计划项目 (20136007), 60万, 2013.1-2015.12, 外方负责人.

  26. 新的生物质基碳纤维制备方法, 18luck新利电竞 自主创新研究基金 (2013TS077), 10万, 2013.6-2015.6, 项目负责人.

  27. 低质碳源(低阶煤及生物质等)的提质及利用, 日本文部科学省全球COE(center of excellence)计划项目, 100万日元, 2011.4-2012.3, 项目负责人.

  28. 利用溶剂萃取的方法在温和条件下对低阶煤的脱水提质, 日本文部科学省全球COE(center of excellence)计划项目, 400万日元, 2009.7-2010.6, 项目负责人.


主要参与科研项目:

  1. 低阶煤热溶提质-多级分离技术开发与优化,上海合作组织科技伙伴计划及国际科技合作计划资助项目(2020E01018),2020.1-2022.12,35万,主要参与人。

  2. 燃煤烟气硫回收及资源化利用技术,国家重点研发计划项目,45万,2018.1-2022.12,主要参与人。

  3. 等离子强化吸附剂脱汞技术研究,民用横向项目,93万,2015.8-2016.11,主要参与人(排名第二)。

  4. 城市含碳固体废弃物清洁高效热转化关键技术的基础研究,国家自然科学基金国际(地区)合作与交流项目(51661145010),260万(直接经费),2016.09-2019.08, 主要参与人(排名第三)。

  5. 准东煤四大矿区数十种煤种分析及常用三种燃烧方式经济性分析, 煤燃烧国家重点实验室开放基金(与新疆大学化学化工学院合作申请), 30万, 2016.1-2018.6, 第二参与人.

  6. 中国西部煤高效清洁燃烧关键技术合作研究, 国家国际科技合作专项, 666万, 2015.4-2018.3, 主要参与人(排名第三).

  7. 热解工艺过程对煤热解半焦燃烧行为的影响, 煤燃烧国家重点实验室开放基金(与大连理工大学合作申请), 5万, 2015.1-2016.6, 第二参与人.

  8. Development of hot-press pretreatment technique for increasing efficiency of biomass gasification, 煤燃烧国家重点实验室开放基金(与日本京都大学合作申请), 10万, 2014.7-2016.6, 第二参与人.

  9. 低阶铁矿石还原速率的提高方法研究, 日本学术振兴会(JSPS)支持项目, 1400万日元, 2011.4-2014.3, 第三参与人.

  10. 泰国低阶煤和生物质的洁净利用技术, 日泰合作项目泰国低碳排放型能源技术战略设想课题, 600万日元, 2009.4-2011.3, 第三参与人.


期刊论文发表:(仅第一和通讯作者)

2023

[1]Shi L, Hu Z, Li X*, et al. Gas-pressurized torrefaction of lignocellulosic solid wastes: Low-temperature deoxygenation and chemical structure evolution mechanisms[J]. Bioresource Technology, 2023: 129414.

[2]Wang X, Xiong Z, Li X*, et al. Flue Gas-Enhanced Water Leaching: AAEM Removal from Agricultural Organic Solid Waste and Fouling and Slagging Suppression during Its Combustion[J]. ACS omega, 2023, 8(18): 16241-16250.

[3]王祥曦,马金荣,李建,李显*等.高碱煤的烟气强化水洗脱碱研究[J].工程热物理学报,2023,44(03):831-839.

[4]Wang X, Hu Z, Ma J, Li X*, et al. Effect of semi-continuous water washing on the combustion behaviors of agricultural organic solid waste[J]. Carbon Resources Conversion, 2023, 6(1): 58-64.

[5]Liu X, Hu Z, Hu D, et al. Degradative solvent extraction of low rank coal: Structural evolution of extraction products[J]. Journal of Analytical and Applied Pyrolysis, 2024, 177: 106290.

[6]Shi L, Sun Y, Li X, et al. Gas-Pressurized Torrefaction of Lignocellulosic Solid Wastes: Deoxygenation and Aromatization Mechanisms of Cellulose[J]. Molecules, 2023, 28(22): 7671.

[7]Cheng X, Hu Z, Wang X, et al. Flue gas enhanced water leaching: Prediction and condition optimization of demineralization effect from coal via machine learning algorithm[J]. Process Safety and Environmental Protection, 2023, 178: 247-254.



2022

[1] Zhenzhong Hu, Yue Yuan, Xian Li*, Zhengjun Tu, Omar Donovan Dacres, Yan Zhu, Liu Shi, Hongyun Hu, Huan Liu, Guangqian Luo, Hong Yao. Yield prediction of “Thermal-dissolution based carbon enrichment” treatment on biomass wastes through coupled model of artificial neural network and AdaBoost. Bioresource Technology, 2022, 343:126083.

[2] Yiming Sun, Shan Tong, Xian Li*, Zhenzhong Hu, Mingyue Sun, Li Guo, Huan Liu, Hongyun Hu, Guangqian Luo, Hong Yao. Gas-pressurized torrefaction of biomass wastes: Self-promoted deoxygenation of rice straw at low temperature. Fuel, 2022, 308:122029.

[3] Zhenzhong Hu, Xu Zhang, Xian Li*, Weixiang Qian, Guangqian Luo, Huan Liu, Hongyun Hu, Nakorn Worasuwannarak, Hong Yao. Degradative solvent extraction of low-rank coal: Role of water on pyrolysis mechanism of low-rank coal in a highly-dispersed medium. Carbon Resources Conversion, 2022, 5(2):111-118.

[4] Yuxian Wang, Jing Gu, Xian Li*, Yan Zhu, Hongyun Hu, Huan Liu, Guangqian Luo, Hong Yao, Apostolos Avgeropoulos. Boosted Thermal Storage Performance of LiOH·H2O by Carbon Nanotubes Isolated Multilayered Graphene Oxide Frames. Advances in Materials Science and Engineering, 2022, 2022:3109178.

[5] Zhenzhong Hu, Yue Yuan, Xian Li*, Yuxian Wang, Omar Donovan Dacres, Linlin Yi, Xianzhe Liu, Hongyun Hu, Huan Liu, Guangqian Luo, Hong Yao. “Thermal-dissolution based carbon enrichment” treatment of biomass: Modeling and kinetic study via combined lumped reaction model and machine learning algorithm. Fuel, 2022, 324:124701.

[6] 郭柱,李显*,李致煜,胡振中,钟梅,赵纯亮,等. 低阶煤的热溶萃取提质研究进展. 煤炭科学技术, 2022: 1-25.

[7] Linlin Yi, Hong Yao*, Xian Li*, Zhenzhong Hu, Liu Shi, Yangwei Wu. Selective production of aromatics from catalytic pyrolysis of biomass wastes: Effects of feedstock properties and key oxygenated intermediates on aromatics formation. Journal of Analytical and Applied Pyrolysis. 2022, 168,105675.

[8] 李致煜,郭柱,李显*,胡振中,易琳琳,李建,钟梅,罗光前,姚洪. 生物质热溶富碳及其产物利用.燃料化学学报: 2022:1-16.

[9] 王祥曦,郭柱,李显*,胡振中,李致煜,李建,刘景梅,钟梅,罗光前,姚洪. 煤的热溶萃取残渣制备高比表活性炭研究.工程热物理学报,2022,43(10):2565-2573.

[10]Wang X, Hu Z, Mian I, Li X*, et al. Gasification Kinetics of Organic Solid Waste Pellets: Comparative Study Using Distributed Activation Energy Model and Coats–Redfern Method[J]. Energies, 2022, 15(24): 9575.


2021

[1] Yiming Sun, Shan Tong, Xian Li*, Feng Wang, Zhenzhong Hu, Omar D. Dacres, Elbager M. A. Edreis, Nakorn Worasuwannarak, Mingyue Sun, Huan Liu, Hongyu Hu, Guangqian Luo, Hong Yao. Gas-pressurized torrefaction of biomass wastes: The optimization of pressurization condition and the pyrolysis of torrefied biomass. Bioresource Technology, 2021, 319:124216.

[2] Zhenzhong Hu, Xian Li*, Yiming Sun, Omar Donovan Dacres, Yuxian Wang, Hongyun Hu, Huan Liu, Guangqian Luo, Hong Yao. "Thermal-dissolution based carbon enrichment" treatment of biomass wastes: Mechanism study of biomass pyrolysis in a highly-dispersed medium. Energy Conversion and Management, 2021, 238:114151.

[3] Shan Tong, Yiming Sun, Xian Li*, Zhenzhong Hu, Nakorn Worasuwannarak, Huan Liu, Hongyun Hu, Guangqian Luo, Hong Yao. Gas-pressurized torrefaction of biomass wastes: Co-gasification of gas-pressurized torrefied biomass with coal. Bioresource Technology, 2021, 321:124505.

[4] 孙铭跃,熊钊,李显*,胡振中,童珊,刘欢,等. 生物质废弃物的烟气强化水洗脱碱研究. 工程热物理学报, 2021, 42(12): 3060-3065.

[5] 安娜,马金荣,李显*,马剑飞,孙铭跃,郭丽,等. 生物质水洗脱灰及其废液的资源化利用研究. 工程热物理学报, 2021, 42(12): 3083-3090.

2020

[1] Zhao Xiong, Yaxin Gao, Xian Li*, Lizhi Ding, Guangqian Luo, Dunxi Yu, Xin Yu, Hong Yao. A novel CO2-water leaching method for AAEM removal from coal: Suppression of PM formation and release during Zhundong coal combustion. Fuel, 2020, 271:117689.

[2] Inamullah Mian, Xian Li*, Omar D. Dacres, Jianjiang Wang, Bo Wei, Yiming Jian, Mei Zhong, Jingmei Liu, Fengyun Ma, Noor Rahman. Combustion kinetics and mechanism of biomass pellet. Energy, 2020, 205:117909.

[3] Omar D. Dacres, Shan Tong, Xian Li*, Yiming Sun, Feng Wang, Guangqian Luo, Huan Liu, Hongyun Hu, Hong Yao. Gas-pressurized torrefaction of biomass wastes: The effect of varied pressure on pyrolysis kinetics and mechanism of torrefied biomass. Fuel, 2020, 276:118132.

[4] Shan Tong, Yiming Sun, Xian Li*, Zhenzhong Hu, Omar D. Dacres, Nakorn Worasuwannarak, Guangqian Luo, Huan Liu, Hongyun Hu, Hong Yao. Gas-pressurized torrefaction of biomass wastes: Roles of pressure and secondary reactions. Bioresource Technology, 2020, 313:123640.

[5] Zhenzhong Hu, Xian Li*, Zhengjun Tu, Yuxian Wang, Omar Donovan Dacres, Yiming Sun, Mingyue Sun, Hong Yao. “Thermal dissolution carbon enrichment” treatment of biomass wastes: Supercapacitor electrode preparation using the residue. Fuel Processing Technology, 2020, 205:106430.

[6] Weixiang Qian, Xian Li*, Xianqing Zhu, Zhenzhong Hu, Xu Zhang, Guangqian Luo, Hong Yao. Preparation of activated carbon nanofibers using degradative solvent extraction products obtained from low-rank coal and their utilization in supercapacitors. Rsc Advances, 2020, 10(14):8172-8180.

[7] Jianjiang Wang, Bo Wei, Xian Li*, Wenjun Yang, Cheng Zhang, Inamullah Mian, Houzhang Tan, Fengyun Ma. Study on reduction characteristics of Fe species in coal ash under SNCR condition. Fuel, 2020, 277:118231.

[8] Xianqing Zhu, Weixiang Qian, Xian Li*, Shan Tong, Zhenzhong Hu, Yun Huang, Ao Xia, Hong Yao. Moisture adsorption and spontaneous combustion characteristics of biomass wastes after degradative solvent extraction. Fuel, 2020, 266:117109.

2019

[1] Lizhi Ding, Yaxin Gao, Xian Li*, Wenhui Wang, Yi Xue, Xianqing Zhu, Kai Xu, Hongyun Hu, Guangqian Luo, Ichiro Naruse, Hong Yao. A novel CO2-water leaching method for AAEM removal from Zhundong coal. Fuel, 2019, 237:786-792.

[2] Omar D. Dacres, Shan Tong, Xian Li*, Xianqing Zhu, Elbager M. A. Edreis, Huan Liu, Guangqian Luo, Nakorn Worasuwannarak, Somrat Kerdsuwan, Bundit Fungtammasan, Hong Yao. Pyrolysis kinetics of biomasses pretreated by gas-pressurized torrefaction. Energy Conversion and Management, 2019, 182:117-125.

[3] Inamullah Mian, Xian Li*, Yiming Jian, Omar D. Dacres, Mei Zhong, Jingmei Liu, Fengyun Ma, Noor Rahman. Kinetic study of biomass pellet pyrolysis by using distributed activation energy model and Coats Redfern methods and their comparison. Bioresource Technology, 2019, 294:122099.

[4] Chao Wu, Weixiang Qian, Xian Li*, Xianqing Zhu, Kai Xu, Yongchun Zhao, Omar D. Dacres, Zhenzhong Hu, Guangqian Luo, Huan Liu, Hongyun Hu, Hong Yao. Preparation of carbon nanofiber with specific features by degradative solvent extraction product from biomass wastes. Fuel, 2019, 258:116149.

[5] Yi-Ming Jian, Xian Li*, Xian-Qing Zhu, Ryuichi Ashida, Nakorn Worasuwannarak, Zhen-Zhong Hu, Guang-Qian Luo, Hong Yao, Mei Zhong, Jing-Mei Liu, Feng-Yun Ma, Kouichi Miura. Interaction between low-rank coal and biomass during degradative solvent extraction. Journal of Fuel Chemistry and Technology, 2019, 47(1):14-22.

2018

[1] Xian Li*, Zong Zhang, Lei Zhang, Xianqing Zhu, Zhenzhong Hu, Weixiang Qian, Ryuichi Ashida, Kouichi Miura, Hongyun Hu, Guangqian Luo, Hong Yao. Degradative solvent extraction of low-rank coals by the mixture of low molecular weight extract and solvent as recycled solvent. Fuel Processing Technology, 2018, 173:48-55.

[2] Shan Tong, Li Xiao, Xian Li*, Xianqing Zhu, Huan Liu, Guangqian Luo, Nakorn Worasuwannarak, Somrat Kerdsuwan, Bundit Fungtammasan, Hong Yao. A gas-pressurized torrefaction method for biomass wastes. Energy Conversion and Management, 2018, 173:29-36.

[3] 坚一明,李显*,钟梅,刘景梅,马凤云. 生物质型煤技术进展. 现代化工, 2018, 38(07): 48-52.

[4] 李显*,钱玮翔,坚一明,钟梅,刘景梅,马凤云. 介绍一个能源化学工程专业学生专业实验——煤中无机矿物质的赋存形态分析. 广东化工, 2018, 45(18): 227-228.

[5] 张艳敏,孔令涛,刘景梅,钟梅,李显*. 催化剂结构与焦油模型化合物裂解行为的关联性. 化工进展, 2018, 37(04): 1451-1459.

2017

[1] Xian Li*, Xian-Qing Zhu, Kenshiro Okuda, Zong Zhang, Ryuichi Ashida, Hong Yao, Kouichi Miura. Preparation of carbon fibers from low-molecular-weight compounds obtained from low-rank coal and biomass by solvent extraction. New Carbon Materials, 2017, 32(1):41-47.

[2] Yaxin Gao, Lizhi Ding, Xian Li*, Wenhui Wang, Yi Xue, Xianqing Zhu, Hongyun Hu, Guangqian Luo, Ichiro Naruse, Zongqing Bai, Hong Yao. Na&Ca removal from Zhundong coal by a novel CO2-water leaching method and the ashing behavior of the leached coal. Fuel, 2017, 210:8-14.

[3] Xianqing Zhu, Shan Tong, Xian Li*, Yaxin Gao, Yang Xu, Omar D. Dacres, Ryuichi Ashida, Kouichi Miura, Wenqiang Liu, Hong Yao. Conversion of Biomass into High-Quality Bio-oils by Degradative Solvent Extraction Combined with Subsequent Pyrolysis. Energy & Fuels, 2017, 31(4):3987-3994.

[4] Xianqing Zhu, Jian Tang, Xian Li*, Wei Lan, Kai Xu, Yuan Fang, Ryuichi Ashida, Kouichi Miura, Guangqian Luo, Hong Yao. Modeling and Kinetic Study of Degradative Solvent Extraction of Biomass Wastes. Energy & Fuels, 2017, 31(5):5097-5103.

[5] Xian Li*, Xian-Qing Zhu, Okuda Kenshiro, Zong Zhang, Ashida Ryuichi, Hong Yao, Miura Kouichi. Preparation of carbon fibers from low-molecular-weight compounds obtained from low-rank coal and biomass by solvent extraction. New Carbon Materials, 2017, 117:489.

[6] I. U. Mian, S. Alam, X Li*, M. Zhong, N. Rehman, F. Ma, et al. Isolation of Cellulose from Sawdust of Cedrus Deodara: Effect of Preparation Conditions on their Morphological Behavior. THE INTERNATIONAL JOURNAL OF SCIENCE & TECHNOLEDGE, 2017, 5(12): 140-146.

2016

[1] Xianqing Zhu, Xian Li*, Li Xiao, Xiaoyong Zhang, Shan Tong, Chao Wu, Ryuichi Ashida, Wenqiang Liu, Kouichi Miura, Hong Yao. Novel carbon-rich additives preparation by degradative solvent extraction of biomass wastes for coke-making. Bioresource Technology, 2016, 207:85-91.

[2] Xianqing Zhu, Yi Xue, Xian Li*, Zong Zhang, Wei Sun, Ryuichi Ashida, Kouichi Miura, Hong Yao. Mechanism study of degradative solvent extraction of biomass. Fuel, 2016, 165:10-18.

[3] Xian Li*, Zhenyu Wu, Lian Zhang, Xiaowei Liu, Xianqing Zhu, Hongyun Hu, Guangqian Luo, Zhenzhong Hu, Wenqiang Liu, Hong Yao. An updated acid dew point temperature estimation method for air-firing and oxy-fuel combustion processes. Fuel Processing Technology, 2016, 154:204-209.

2015年及之前

[1] Xian Li, Dedy Eka Priyanto, Ryuichi Ashida, Kouichi Miura. Two-Stage Conversion of Low-Rank Coal or Biomass into Liquid Fuel under Mild Conditions. Energy & Fuels, 2015, 29(5):3127-3133.

[2] Li Xiao, Xianqing Zhu, Xian Li*, Zong Zhang, Ryuichi Ashida, Kouichi Miura, Guangqian Luo, Wenqiang Liu, Hong Yao. Effect of Pressurized Torrefaction Pretreatments on Biomass CO2 Gasification. Energy & Fuels, 2015, 29(11):7309-7316.

[3] Xian Li, Ryuichi Ashida, Mitsunori Makino, Atsushi Nishida, Hong Yao, Kouichi Miura. Enhancement of Gasification Reactivity of Low-Rank Coal through High-Temperature Solvent Treatment. Energy & Fuels, 2014, 28(9):5690-5695.

[4] Xian Li, Ryuichi Ashida, Kouichi Miura. Preparation of High-Grade Carbonaceous Materials Having Similar Chemical and Physical Properties from Various Low-Rank Coals by Degradative Solvent Extraction. Energy & Fuels, 2012, 26(11):6897-6904.

[5] Li Xian, Yusuke Hasegawa, Masato Moromoto, Ryuichi Ashida, Kouichi Miura. Conversion of low-rank coals into upgraded coals and extracts having similar chemical and physical properties using degradative solvent extraction. Abstracts of Papers of the American Chemical Society, 2010, 240.

[6] Xian Li, Haoquan Hu, Lijun Jin, Shuxun Hu, Bo Wu. Approach for promoting liquid yield in direct liquefaction of Shenhua coal. Fuel Processing Technology, 2008, 89(11):1090-1095.

[7] X. Li, H. Hu, S. Zhu, S. Hu, B. Wu, M. Meng. Kinetics of coal liquefaction during heating-up and isothermal stages. Fuel, 2008, 87(4-5):508-513.

[8] Xian Li, Shuxun Hu, Lijun Jin, Haoquan Hu. Role of Iron-Based Catalyst and Hydrogen Transfer in Direct Coal Liquefaction. Energy & Fuels, 2008, 22(2):1126-1129.

[9] 王文慧,贾宝玉,姚洪,李显. 准东煤热解过程中钠的迁移规律研究. 工程热物理学报, 2015, 36(12): 2733-2737.

[10] 朱贤青,张宗,周岐雄,蔡颋,乔恩,李显,等. 稻杆的热溶剂提质及多级分离. 燃料化学学报, 2015, 43(04): 422-428.

[11] 李显,朱贤青,肖黎,芦田隆一,三浦孝一,罗光前,等. 酸洗脱灰及离子交换对低阶煤热溶剂提质分离的影响. 燃料化学学报, 2014, 42(08): 897-904.

[12] 李显,胡浩权,靳立军,胡树勋. 催化剂对神华煤直接液化的影响规律. 中国科技论文在线, 2007, 2(12): 881-885.



参加学术会议:

国际会议(仅第一和通讯作者)

  1. Liu Shi; Shuo Li; Xian Li*; et al., The deoxygenation and chemical structure evolution mechanism of agriculture organic solid waste during gas-pressurized torrefaction, ABBS-International Conference on Biohydrogen and Bioprocesses 2022, Chongqing, China, Dec.3-4.

  2. Zhenzhong Hu, Xianzhe Liu, Dawei Hu, Xian Li *, Hong Yao. Pilot scale study on “Green coke” preparations from biomasses via ‘Thermal-dissolution based carbon enrichment (TDCE)’ method, ABBS-International Conference on Biohydrogen and Bioprocesses 2022, Chongqing, China, Dec.3-4.

  3. Liu Shi, Zhenzhong Hu, Xian Li *, et al.,The deoxygenation and chemical structure evolution mechanism of agriculture organic solid waste during Gas-pressurized torrefaction,8th International Conference on Sustainable Energy and Environment (SEE 2022), Bangkok, Thailand, 2022, Nov. 7-9.

  4. Z. Hu, X. Li*, Z. Tu, Y. Sun, Y. Zhu, G. Luo, et al. An optimized ANN model for evaluation of product distributions in thermal-dissolution based carbon enrichment of biomass waste (Eds. Xuzhou, China: 2021.

  5. X. Li*, Y. Hong, Collaborative Research on Clean and Efficient Thermal Conversion Technologies of Carbonaceous Municipal Solid Waste, The 10th Renewable Energy Workshop between China and Thailand, Nanjing, China, 2019, Dec. 6-9.

  6. Y. Sun, S. Tong, F. Wang, X. Li*,et al., Mechanism of gas-pressurized torrefaction and the pyrolysis behaviour of the terrified biomass, The 1st International Conference on Energy and Environment, Nanjing, China, 2019, Sep. 19-22.

  7. Z. Hu, X. Li*, Z. Tu, et al., Feasibility of biomass solvent extraction product on electric double layer capacitor electrode preparation, The 1st International Conference on Energy and Environment, Nanjing, China, 2019, Sep. 19-22.

  8. W. Qian, X. Li*, C. Wu, et al., Preparation of activated carbon nanofibers by degradative solvent extraction product from low-rank coal and the utilization for supercapacitors, The 44thInternational Technical Conference on Clean Energy, Clearwater, Florida, USA, 2019, June 16th, 2019.

  9. S. Tong, F. Wang, X. Li*, et al., The effect of steam on biomass wastes torrefaction, The 10th International Conference on Combustion, Incineration Pyrolysis, Emission and Climate Change, Bangkok, Thailand, 2018, Dec. 18-21.

  10. S. Tong, F. Wang, X. Li*, et al., The effect of steam on biomass wastes torrefaction, Thirty-Fifth Annual International Pittsburgh Coal Conference, Xuzhou, China, 2018, Mar. 31-Apr.2.

  11. C. Wu, X. Li*, X. Zhu, et al., Preparation of carbon fibers with high specific surface area by degradative solvent extraction product from biomass wastes, Thirty-Fifth Annual International Pittsburgh Coal Conference, Xuzhou, China, 2018, Mar. 31-Apr.2.

  12. Z. Xiong, X. Li*, L. Ding, et al., A Novel CO2-water leaching for AAEM Removal from Biomass & Coal, The 6th international conference on biomass energy, Wuhan, China, 2018, Act. 15-16.

  13. Y. Gao, Z. Xiong, X. Yu, X. Li*, et al., A novel CO2-water leaching method for suppressing slagging/fouling and PM release characteristics of Zhundonng coal combustion 27th Conference on Impacts of Fuel Quality on Power Production and the Environment, Lake Louise, Canada, 2018, Sep. 24-28.

  14. S. Tong, L. Xiao,X. Li*, et al., A Novel Gas-pressurized Torrefaction of Biomass Wastes 6th Sino-Australian Symposium on Advanced Coal and Biomass Utilisation Technologies, Perth, Australia, 2017, 4-8 December.

  15. X. Li, X. Li, Z. Zhang, et al., Degradative solvent extraction of low-rank coals by the mixture of low molecular weight extract and solvent as recycled solvent, 6th Sino-Australian Symposium on Advanced Coal and Biomass Utilisation Technologies, Perth, Australia, 2017, 4-8 December.

  16. Y. Gao, L. Ding,X. Li*, et al., Na&Ca removal of Zhundong coal by a novel CO2-water leaching method and the ashing behavior of the leached coal 8th International Conference on Clean Coal Technologies, Cagliari, Italy, 2017, 8-12, May.

  17. L. Ding, Y. Gao,X. Li*, et al., Removal of AAEM from Zhundong coal using CO2-water leaching, 2017 INTERNATIONAL CONFERENCE ON COAL SCIENCE & TECHNOLOGY, Beijing, China, 2017, 27-29, September.

  18. Zhu X., Ge J., Tong S., Gao Y., Chang C., Wu C., Zhang X.,Li X.*, Yao H., Novel additives obtained from low grade biomasses for coke-making, International Coal Preparation Congress, Saint-Petersburg, Russia, 2016.

  19. Zhu X., Huang S., Liu H., Chang C., Xue Y., Ren S.,Li X. *, Yao H., Coke-making additives preparation by degradative solvent extraction of biomass, The 13th China-Japan Symposium on Coal and C1 Chemistry, Dunhuang Chian, 2015.

  20. Zhang Z., Xue Y., Zhu X.,Li X. *, Yao H., Miura K., Combustion behavior of low-rank coal upgraded by degradative solvent extraction, The 8th International Symposium on Coal Combustion, Beijing China, 2015.

  21. Xue Y., Wang W., Zhang Z., Zhu X.,Li X. *, Yao H., Removal of Na&Ca from zhundong coal by CO2-water treatment, The 13th China-Japan Symposium on Coal and C1 Chemistry, Dunhuang Chian, 2015.

  22. Xiao L., Kasanardjo D.,Li X. *, Ashida R., Miura K., Yao H., Influence of torrefactions under atmospheric pressure, gas pressure and mechanical pressure on biomass gasification, The 8th International Symposium on Coal Combustion, Beijing China, 2015.

  23. Wu Z.,Li X. *, Chen J., Hu H., Chen D., Yao H., The effect of minerals in coal ash on the formation of SO3 in flue gas, 15th International Conference on Power Engineering, Yokohama Japan, 2015.

  24. Wu Z.,Li X. *, Chen J., Hu H., Chen D., Yao H., The catalytic effect of the iron oxide and alumina in coal ash on the conversion of SO2 to SO3 in Oxy-fuel flue gas, The 8th International Symposium on Coal Combustion, Beijing, China, 2015.

  25. Li X., Wu Z., Zhang L., Chen J., Hu H., Chen D., Luo G., Yao H., Catalytic effect of the iron oxide and alumina in fly ash on the conversion of SO2 to SO3 in oxy-fuel flue gas, 5th Sino-Australian Symposium on Advanced Coal and Biomass Utilisation Technologies, Wuhan China, 2015.

  26. X. Li, Z. zhang, X. Zhu, R. Ashida, K. Muira, H. Yao, Upgrading and fractionation of low grade carbonaceous resources and the product utilization, International Workshop on Waste Thermal Treatment, Wuhan China, 2014.

  27. X. Li, R. Ashida, M. Makino, A. Nishida, H. Yao, K. Miura, Enhancement of Gasification Reactivity of Low-Rank Coal through High Temperature Treatment, 35th International Symposium on Combustion, San Francisco, California, USA, 2014.

  28. G. Luo,X. Li, H. Yao, Novel Method for Reaction Order Estimation of Non-isothermal Coal Pyrolysis, 30th Annual International Pittsburgh Coal Conference, Beijing China, 2013.

  29. X. Li, K. Okuda, R. Ashida, K. Miura, G. Luo, H. Yao, Carbon Fibers Preparation by Biomass or Low-Rank Coal Extracts Obtained by Degradative Solvent Extraction, International Symposium on EcoTopia Science 2013, Nagoya Japan, 2013.

  30. X. Li, K. Okuda, R. Ashida, G. Luo, H. Yao, K. Miura, Carbon Fibers Preparation by Low-Molecular-Weight Fraction Obtained from Low-Rank Coal or Biomass by Degradative Solvent Extraction, 30th Annual International Pittsburgh Coal Conference, Beijing China, 2013.

  31. X. Li, R. Ashida, K. Miura, G. Luo, H. Yao, Gasification of low-rank coal upgraded by degradative solvent extraction, The 12th Japan - China Symposium on Coal and C1 Chemistry, Fukuoka, Japan, 2013.

  32. A. Kato, D.E. Priyanto,X. Li, R. Ashida, K. Miura, Biodiesel production by degradative solvent extraction at mild condition, 15th Students Meeting of Society of Chemical Engineers of Japan, Kitakyushu City Japan, 2013.

  33. J. Wannapeera,X. Li, N. Worasuwannarak, R. Ashida, K. Miura, Dewatering and Upgrading of Low-Rank Coal and Biomass by Utilizing Degradative Solvent Extraction, 14th Asia Pacific Confederation of Chemical Engineering Congress, Singapore, 2012.

  34. J. Wannapeera,X. Li, N. Worasuwannarak, R. Ashida, K. Miura, Upgrading of biomass to chemical feedstock as high yield using degradative solvent extraction, International Symposium on Chemical Reaction Engineering, Maastricht Netherlands, 2012.

  35. D.E. Priyanto,X. Li, R. Ashida, K. Miura, Preparation of Activated Carbon from Extraction Residue of Low-Rank Coals, in: 19th Regional Symposium of Chemical Engineering, Bali, Indonesia, 2012.

  36. K. Okuda,X. Li, R. Ashida, K. Miura, Carbon Fiber Preparation by Low-Molecular-Weight Extracts Obtained from Low-Rank Coal or Biomass by Degradative Solvent Extraction, in: 19th Regional Symposium of Chemical Engineering, Bali, Indonesia, 2012.

  37. D.E. Priyanto,X. Li, R. Ashida, K. Miura, Liquefaction of Low-Molecular-Weight Extracts Obtained from Low-Rank Coal and Biomass by Degradative Solvent Extraction under Mild Condition, in: 19th Regional Symposium of Chemical Engineering, Bali, Indonesia, 2012.

  38. X. Li, D.E. Priyanto, R. Ashida, K. Miura, Two-Stage Conversion of Low-Rank Coal and Biomass into Liquid Fuel under Mild Condition, in: 29thInternational Pittsburgh Coal Conference, Pittsburgh, USA, 2012.

  39. K. Okuda,X. Li, R. Ashida, K. Miura, Carbon fiber preparation by a new precursor obtained from low-rank coal or biomass extraction, in:The 47thcoal science conference, Kushiro, Japan, 2012.

  40. D.E. Priyanto,X. Li, R. Ashida, K. Miura, Liquefaction of extracts obtained from low-rank coal and biomass waste by degradative solvent extraction, in:The 47thcoal science conference, Kushiro, Japan, 2012.

  41. X. Li, D.E. Priyanto, R. Ashida, K. Miura, Liquefaction of extracts obtained from low-rank coal and biomass waste by degradative solvent extraction, in: The 44thAutumn Meeting of The Society of Chemical Engineers, Sendai, Japan, 2012.

  42. X. Li, D.E. Priyanto, R. Ashida, K. Miura, Hydro-liquefaction of low-molecular-weight fraction prepared from low-rank coal or biomass waste by degradative solvent extraction, in: 21th Japan Institute of Energy conference, Tokyo, Japan, 2012.

  43. X. Li, R. Ashida, K. Muira, Upgrading of low-molecular-weight compounds prepared from low-rank coal/biomass by solvent treatment, in: The 77thAnnual Meeting of the Society of Chemical Engineers, Tokyo, Japan, 2012.

  44. D.E. Priyanto,X. Li, R. Ashida, K. Miura, Preparation of activated carbon from extraction residue of brown coal, in: The 77thAnnual Meeting of the Society of Chemical Engineers, Tokyo, Japan, 2012.

  45. K. Okuda,X. Li, R. Ashida, K. Miura, Carbon Fiber preparation by Extracts Obtained from Low-rank Coal Extraction in: 14thStudents Meeting of Society of Chemical Engineers of Japan, Ube, Japan, 2012

  46. X. Li, J. Wannapeera, N. Worasuwannarak, R. Ashida, K. Miura, Coprocessing of low-rank coal and biomass utilizing mild solvent treatment at around 350°C, in: International Conference on Coal Science and Technology, Oviedo, Spain, 2011.

  47. K. Miura, R. Ashida,X. Li, N. Worasuwannarak, J. Wannapeera, Upgrading of low-rank coal and biomass utilizing mild solvent treatment at around 350°C, in: 2011 IEEE First Conference on Clean Energy and Technology (CET), Kuala Lumpur, Malaysia 2011, pp. 15-18.

  48. X. Li, J. Wannapeera, N. Worasuwannarak, R. Ashida, K. Miura, Upgrading of low rank coals and biomass using solvent treatment at around 350°C, in: The 6thJoint China-Japan Chemical Engineering Symposium, Wuhan China, 2011

  49. X. Li, J. Wannapeera, N. Worasuwannarak, R. Ashida, K. Miura, Upgrading of Low Grade Carbonaceous Resources through Degradative Solvent Extraction at Temperature below 350°C in: 4thInternational Conference on Sustainable Energy and Environment, Bangkok, Thailand, 2011

  50. J. Wannnapeera,X. Li, N. Worasuwannarak, R. Ashida, K. Miura, Upgrading of Biomass and Low Rank Coal Mixture by Degradative Solvent Extraction in: 4thInternational Conference on Sustainable Energy and Environment Bangkok, Thailand, 2011.

  51. X. Li, J. Wannapeera, N. Worasuwannarak, R. Ashida, K. Miura, Degradative Solvent Extraction and Fractionation of Low-Grade Carbonaceous Resources, in: The 11thChina-Japan Symposium on Coal and C1 Chemistry, Yinchuan, China, 2011.

  52. J. Wannapeera,X. Li, N. Worasuwannarak, R. Ashida, K. Miura, Fractionation of Biomass for High-grade Carbonaceous Resources by Degradative Solvent Extraction, in: The 11thChina-Japan Symposium on Coal and C1 Chemistry, Yinchuan, China, 2011.

  53. X. Li, J. Wannapeera, N. Worasuwannarak, R. Ashida, K. Miura, Upgrading of Low Grade Carbonaceous Resources through Degradative Solvent Treatment, in: 18thRegional Symposium on Chemical Engineering, Ho Chi Minh City, Vietnam, 2011.

  54. J. Wannapeera,X. Li, N. Worasuwannarak, R. Ashida, K. Miura, Upgrading of Biomass by the Degradative Thermal Extraction at Mild Condition, in: 18thRegional Symposium on Chemical Engineering, Ho Chi Minh City, Vietnam, 2011.

  55. X. Li, J. Wannapeera, N. Worasuwannarak, R. Ashida, K. Miura, Upgrading of Low Grade Carbonaceous Resources Through Solvent Treatment To Produce Solid Fuels And Precursors For Chemicals And Materials, in: 28thInternational Pittsburgh Coal Conference, Pittsburgh, USA, 2011.

  56. X. Li, J. Wannapeera, N. Worasuwannarak, R. Ashida, K. Muira, Coprocessing of low-rank coal and biomass by using non-polar solvent extraction at around 350oC in: The 76th Annual Meeting of the Society of Chemical Engineers, Koganei, Japan, 2011.

  57. X. Li, H. FUJITSUKA, A. Ryuichi, K. Miura, Reforming of Low Rank Coal by Solvent Treatment at Around 350oC in: 27thInternational Pittsburgh Coal Conference, Istanbul Turkey, 2010.

  58. M. Makino,X. Li, R. Ashida, K. Miura, High-Pressure and High-Temperature Gasification of Upgraded Brown Coal Char Using a Mini Direct Heating Reactor in: 27thInternational Pittsburgh Coal Conference, Istanbul Turkey, 2010.

  59. X. Li, H. Yusuke, M. Masato, A. Ryuichi, K. Miura, Degradative Solvent Extraction of Low-Rank Coal for Converting them into Extracts having Similar Chemical and Physical Properties in: The 13thAsia Pacific Confederation of Chemical Engineering Congress Taipei, 2010.

  60. X. Li, Y. Hasegawa, M. Morimoto, R. Ashida, K. Miura, Conversion of Low-Rank Coals into Upgraded Coals and Extracts Having Similar Chemical and Physical Properties Using Degradative Solvent Extraction, in: 240thACS National Meeting, Boston, USA, 2010.

  61. X. Li, T. Yoshinoya, R. Ashida, K. Miura, Reforming of low rank coal by solvent treatment at around 350oC, in: The 47thcoal science conference, Kyoto, Japan, 2010.

  62. X. Li, Y. Hasegawa, R. Ashida, K. Miura, Upgrading of Low-Rank Coals Using Degradative Solvent Extraction at Around 35oC, in: 19th Japan Institute of Energy conference, Kyoto, Japan, 2010.

  63. X. Li, T. Yoshinoya, R. Ashida, K. Miura, W. J. Lee, J. S. Lee, Utilization of coal extraction at 350 °C for characterization of coking coal in: ORSJ Kansai, Kobe Japan, 2009.

  64. X. Li, R. Ashida, T. Yoshinoya, K. Miura, Characterization of coking coals using solvent extraction at 350 °C in: 46thCoal Science Conference, Kagoshima, Japan, 2009.

  65. X. Li, H. Hu, M. Haenel, Catalytic hydrogenation of coal, in: NRW Chinese Chemist Workshop, Düsseldorf Germany, 2009.

  66. X. Li, S. Hu, L. Jin, e. al., Multi-staged Liquefaction of Shenhua Coal, in: International Conference on Coal Science and Technology, Nottingham UK 2007.

  67. B. Wu, L. Jin, S. Huang,X. Li, e. al., Coal extraction with sub- and supercritical toluene, in: International Conference on Coal Science and Technology, Nottingham UK 2007.

  68. S. Hu,X. Li, L. Jin, e. al., Role of iron-based catalyst and hydrogen transfer in direct coal liquefaction, in: International Conference on Coal Science and Technology, Nottingham UK, 2007.

  69. X. Li, H. Hu, L. Jin, e. al., Reaction Order of Non-isothermal Coal Pyrolysis, in: The 4thJoint China/Japan Chemical Engineering Symposium, Chengdu China 2007, pp. 19-21.

  70. B. Wu, H. Hu, S. Huang,X. Li, e. al., Coal extraction with water in sub- and supercritical states, in: The 9thChina-Japan symposium on coal and C1chemistry, Chengdu, China, 2006.

  71. X. Li, H. Hu, S. Zhu, a. al., Kinetic study of direct coal liquefaction, in: The 9th China-Japan symposium on coal and C1 chemistry, Chengdu, China, 2006.

国内会议(仅第一和通讯作者)

  1. 石鎏, *, 胡振中等. 农林有机固废的气压烘焙脱氧提质研究, 2022 年中国工程热物理学会燃烧学学术年会; 暨国家自然科学基金燃烧项目进展交流会, 上海, 中国, 2022, 12. 9-11.(墙报)

  2. 王祥曦, 李显*, 马金荣,孙铭跃等. 高碱煤的烟气强化水洗脱碱研究. 中国工程热物理学会燃烧学学术年会,大连: 2022.1.14-16.

  3. 王祥曦,马金荣,李显*, 程延峰等. 生物质水洗脱碱抑制其燃烧过程结渣沾污行为研究. 第四届全国工程热化学学术会议,乌鲁木齐: 2022.7.28-30.

  4. 胡振中,刘显哲,李显*,姚洪. 热溶富碳关键因素对产物收率的影响研究. 第四届全国工程热化学学术会议,乌鲁木齐: 2022.7.28-30.

  5. 王意博,马金荣,程延峰,李显*,马剑飞,王峰,王祥曦,颜军军,李建*,李月,魏博,罗光前,姚洪. 以沥青渣为粘结剂的高热强度型煤研究. 第四届全国工程热化学学术会议,乌鲁木齐: 2022.7.28-30.

  6. 石鎏,童珊,孙一鸣,胡振中,易琳琳,李显*,罗光前,姚洪*. 生物质废弃物气压烘焙技术. 第四届全国工程热化学学术会议,乌鲁木齐: 2022.7.28-30.

  7. 王禹贤,朱燕,李显*,方灿,胡振中,易琳琳,顾菁,罗光前,姚洪。基于储热强化的非均质有机固废高效气化模拟。第四届全国工程热化学学术会议,乌鲁木齐: 2022.7.28-30.

  8. 刘显哲,郭柱,胡振中,李显*,易琳琳等. 关键因素对煤热溶萃取物模拟分子结构的影响研究,第四届全国工程热化学学术会议,乌鲁木齐:2022

  9. 王禹贤, 李显* 顾菁, 姚洪. 气化炉强化气化复合储热材料的优化设计与制备,第十九届全国分析与应用裂解学术会议,沈阳: 2021.

  10. 朱燕, 王禹贤, 李显*, 方灿, 胡振中, 顾菁等. 生物质与有机固废热化学利用学术会议,储热材料强化非均质有机固废稳定气化过程模拟. 南京: 2021.

  11. 李显, 胡振中, 孙一鸣, 李致煜, 郭柱, 易琳琳等. 温和条件下生物质废弃物脱氧提质反应机理研究. 生物质与有机固废热化学利用学术会议,南京: 2021.

  12. 安娜, 孙铭跃, 李显, 王建江, 魏博, 钟梅等. 生物质水洗脱灰及产物综合利用. 中国工程热物理学会燃烧学学术年会,厦门: 2020.

  13. 孙铭跃, 熊钊, 李显, 胡振中, 童珊, 刘欢等. 生物质废弃物的烟气强化水洗脱碱研究. 中国工程热物理学会燃烧学学术年会,厦门: 2020.

  14. 孙一鸣, Dacres Omar D., 李显, 童珊, 胡振中, 刘欢等. 生物质废弃物气压烘焙过程中二次反应的动力学研究. 中国工程热物理学会燃烧学学术年会,厦门: 2020.

  15. 李显. 煤中非常规特性矿物质的热烟气强化水洗脱除研究. 第七届全国煤化工青年学者论坛,西安: 2020.

  16. 李显. 生物质废弃物热溶富碳过程中循环溶剂与生物质的交互作用机理研究 . 第五届全国青年燃烧学术会议,北京: 2019.

  17. 聂帅, 胡振中, 李显, 张旭, 钱伟翔, 罗光前等. 水分对生物质废弃物热溶富碳的影响规律 . 中国化工年会,青岛: 2019.

  18. 熊钊, 高亚新, 李显*, et al., CO2-水洗对准东煤中灰融特性及颗粒物生成特性影响的研究, 中国工程热物理学会, 天津, 2019, 10.24-27.

  19. 聂帅, 胡振中, 李显*, et al., 水分对生物质废弃物热溶富碳的影响规律, 中国化工年会, 青岛, 2019, 10.17-20.

  20. 李显*, 生物质废弃物热溶富碳过程中循环溶剂与生物质的交互作用机理研究, 第五届全国青年燃烧学术会议, 北京, 2019, 4.12-4.14.

  21. 童珊, 肖黎, 李显*, et al., 气压烘焙对生物质特性的影响研究, 2018中国工程热物理学会·燃烧学术年会, 黑龙江,哈尔滨, 2018, 9.13-16.

  22. 李显*, 新疆大学化学化工学院简介, 第五届煤化工青年学者论坛, 山西,太原, 2018, 5.14-15.

  23. 坚一明, 钟梅, 李显*, Ni, Co Ni-Co双金属催化剂对脱灰煤热解性能的影响, 第三届能源转化化学与技术研讨会, 厦门, 2018, 4.20-22.

  24. 李显*, 煤的热溶提质及多级分离技术, 第三届全国青年燃烧学术会议, 陕西,西安, 2017, 4.14-17.

  25. 李显*, 低阶煤热溶萃取提质-多级分离过程中循环溶剂与煤的交互作用机理研究, 第四届煤化工青年论坛, 山东,青岛, 2017, 5.05-07.

  26. 丁立志, 高亚新, 李显*, et al., CO2-水洗方法脱除准东煤中的钠/钙研究, 中国工程热物理学会燃烧学学术年会, 江苏,南京, 2017, 10.13-15.

  27. 童珊, 肖黎, 朱贤青, 李显*et al., 气体压力条件下的生物质烘焙研究, 中国动力工程学会第六届青年学术年会, 成都, 2016, 11.26-27.

  28. 李显*, 张小勇, 周岐雄, 生物质热溶调控制备配煤炼焦粘结剂, 第三届煤化工青年学者论坛, 徐州, 2016, 5.6.

  29. 李显*, 低阶煤热溶提质-分质转化利用, 第二届全国青年燃烧学术会议, 合肥, 2016, 4.9-10.

  30. 李显*, 低阶煤和生物质的提质分离及其产品的应用, 第七届中国能源科学家论坛, 潍坊, 2016, 8.27-28.

  31. 李显*, 准东煤利用现状及前景, 新疆现代煤化工产业技术创新战略联盟第二届会议, 新疆乌鲁木齐, 2016, 12.17.

  32. 李显*, 丁立志, 李显, et al., CO2-水洗对准东煤中钠/钙的脱除研究, 中国工程热物理学会·燃烧学学术年会, 马鞍山, 2016, 10.21-23.

  33. 王文慧, 薛毅, 李显*, et al., 准东煤CO2-水洗脱钠及其热解燃烧特性研究, 中国化工学会年会, 北京, 2015, 10.16-10.18.

  34. 李显*, 生物质的提质-多级分离及其产品的应用, 第二届煤化工青年学者论坛, 马鞍山, 2015, 4.25-27.

  35. 吴振宇, 李显*, 陈娟等, 煤灰中铁铝氧化物对烟气中SO3生成的催化作用, 2014中国工程热物理学会燃烧分会, 西安,中国, 2014, 2014.12.01.

  36. 王文慧, 李显, 贾宝玉, 姚洪,准东煤热解过程中钠的迁移规律研究, 2014中国工程热物理学会燃烧分会,西安,中国, 2014.

  37. 李显, 张宗, D.E. Priyanto, R. Ashida, 罗光前, 姚洪, K. Miura,低阶煤温和条件下的两段液化,高等学校工程热物理第二十届全国学术会议,青岛, 2014.

  38. 李显,热溶剂提质法对生物质或低阶煤的提质分离及其产品的应用,第一届煤化工青年学者论坛,大连,中国, 2014.

  39. 吴振宇, 李显, 陈娟, 胡红云, 陈敦奎, 姚洪,煤灰中铁铝氧化物对烟气中SO3生成的催化作用, 2014中国工程热物理学会燃烧分会,西安,中国, 2014.

  40. 李显, 肖黎, 蘆田隆一, 三浦孝一, 罗光前, 姚洪,脱灰及离子交换对低阶煤热溶剂萃取的影响,中国工程热物理学会2013年燃烧学学术会议,重庆, 2013.

  41. 李显,胡浩权,靳立军等.催化剂对神华煤直接液化的影响规律.中国科技论文在线.2007, 2(12) : 881

  42. 李显,胡浩权,胡树勋.催化剂对煤液化产物分布的影响.第四届全国化学工程与生物化工年会.中国 浙江Nov. 27-29, 2007


专利:

  1. 李显, 石鎏, . 一种生物质气压烘焙造粒系统. 202323514207.4

  2. 李显, 石鎏, 等. 一种生物质热量自平衡气压烘焙系统. 中国ZL 202222981530.1

  3. 李显, 石鎏, 等. 一种生物质气压烘焙的自热型焦连续生产方法及系统. 202311779842.7

  4. 李显,夏慈良,赵纯亮,杨俊贤,姚洪,罗光前;一种低阶煤热溶萃取提质系统. 实用新型. 申请号:202222800355.1

  5. 李显,夏慈良,赵纯亮,杨俊贤,姚洪,罗光前;一种低阶煤热溶萃取提质工艺. 发明专利. 申请号: 202211304068.X

  6. 李显,夏慈良,赵纯亮,杨俊贤,姚洪,罗光前;一种低阶煤热溶萃取反应器. 实用新型. 申请号:202222800395.6

  7. 李显,夏慈良,赵纯亮,杨俊贤,姚洪,罗光前;一种间歇式低阶煤热溶萃取系统. 实用新型. 申请号:202222800261.4

  8. 李显,夏慈良,赵纯亮,杨俊贤,姚洪,罗光前;一种物料混合器. 实用新型. 申请号:202222800355.1

  9. 李显,夏慈良,赵纯亮,杨俊贤,姚洪,罗光前;一种低阶煤热溶萃取混合器. 发明专利. 申请号:202222800355.1

  10. 易琳琳,姚洪,李显,胡振中,刘显哲. 一种利用生物油加压制备改性氧化钙的方法、产品及装置, 国家发明专利. 申请号: 202211104829.7

  11. 李显, 王禹贤等. 一种纳米碳化硅强化蓄热的复合相变储热材料及制备方法, 中国, 发明专利, 202110784306.0,已授权

  12. 王禹贤, 李显. 一种三维纳米碳氢氧化锂复合储热材料的制备方法及产品, 中国, 发明专利, 202111449537.2

  13. 王禹贤, 李显. 速生木制质基复合显热-热化学蓄热材料及其制备方法, 中国, 发明专利, 202111489441.9

  14. 李显,李凯龙,魏博,钟梅,刘景梅,马凤云,生物质成型燃料粘结剂及其制备方法和添加方式,中国, 201911002523.9

  15. 李显, 钱玮翔, 吴超等, 一种煤基活性碳纤维、其制备方法和应用, 中国, 201910431614.8

  16. 李显, 安娜, 钟梅等, 一种新型土壤钾肥自循环滴灌系统, 中国, 201910167990.0

  17. 李显, 坚一明, 马凤云等, 型煤粘结剂、生物质型煤及其制备方法, 中国, 201811252949.5

  18. 李显, 熊钊, 丁立志等, 一种生物质的脱灰方法, 中国, 201810923158.4

  19. 李显, 丁立志, 熊钊等, 一种半连续式CO2水洗装置, 中国, 201821147334.1

  20. 李显,胡振中,姚洪,基于生物质热溶萃取物制备超级电容器电极材料的方法,中国, 201810113584.1 已授权

  21. 李显,朱贤青,姚洪等,一种用低阶煤萃取残渣制备活性炭的方法,中国, 201710725953.8

  22. 李显,朱贤青,姚洪等,一种低阶煤热溶剂萃取提质方法,中国, 201710769336.8

  23. 李显,吴超,朱贤青等,生物质萃取物与聚丙烯腈共纺制备碳纤维的方法及碳纤维,中国, 201711453452.5

  24. 李显,朱贤青,姚洪等,一种气煤及其制备方法(已授权),中国, 201610035651.3

  25. 李显,朱贤青,姚洪等,一种耦合热溶剂萃取和热解制备高品质生物油和气体的方法(已授权),中国, 201610834375.7

  26. 李显,张小勇,朱贤青等,一种将生物质萃取产物作为添加剂应用于配煤炼焦的方法(已授权),中国, 201510081203.2

  27. 李显,张宗,姚洪等,一种煤基碳纤维前驱体的制备方法,中国, 2015091100515700

  28. 李显,张宗,姚洪等,一种生物质_煤共热溶制备无灰煤的方法, 201510573944.2

  29. 李显,薛毅,王文慧等,一种煤的脱碱方法, 2015.10.08,中国, 2015100800187520


荣誉奖励:

  1. 2020年,广东高校成果路演大赛一等奖

  2. 2019年,教育部高等学校科学研究优秀成果奖(自然科学二等奖,排名第五)

  3. 2019年,新疆化学会突出贡献奖,新疆维吾尔自治区化学学会

  4. 2018年“苏州高新区科技创新创业领军人才”称号;

  5. 2013年湖北省“楚天学者”;

  6. 2012年日本能源学会年度奖;

  7. 2012年日本煤炭科学会议优秀论文奖。


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