欢迎光临武汉理工大学安全科学与应急管理学院!
职称:特设副研究员
电话:13297966300
邮箱:yilinlin@whut.edu.cn
研究方向: 碳基燃料低碳清洁燃烧及高值利用,新能源及储能安全高 效利用,智慧消防安全
个人简介
易琳琳,湖南常德人,现任武汉理工大学安全科学与应急管理学院,特设副研究员/硕士研究生导师。2020年毕业于华中科技大学能源与动力学院热能工程专业,获华中科技大学大学工学博士学位及法国巴黎高科清洁和可再生能源工学硕士学位。2020-2022年华中科技大学煤燃烧与低碳利用全国重点实验室博士后。主持国家重点研发项目子课题、国家自然科学基金青年科学基金项目、中国博士后面上项目等国家/省部级等纵向项目5项, 企业攻关项目5项。共发表SCI等学术论文25篇,其中以第一作者/通讯作者在Proceedings of Combustion Institutet、Bioresource Technology、Chemical Engineering Journal等燃烧领域顶级或权威期刊上发表SCI/EI论文9篇,申请/授权国家发明专利13项,参加国际国内会议并作口头汇报5次,其中包括国际燃烧领域顶级会议--国际燃烧会议以及国内燃烧领域顶级会议--中国工程热物理学会学术年会并发表国际燃烧学会会刊。荣获中国安全生产协会“安全科学技术奖”科技进步奖二等奖(排名第二)、湖北省博士后创新创业大赛优胜奖(排名第二)、2019年中国工程热物理学会学术年会“优秀论文奖”等。指导本科生团队参加全国大学生节能减排竞赛、挑战杯竞赛、全国可再生能源科技竞赛分别获2020年全国可再生能源科技竞赛三等奖,2021年节能减排竞赛华中科技大学校赛二等奖。
负责课程:本科生课程《工程热力学与传热学》、《安全工程专业英语》;研究生课程《高等传热学》
主持及参与科研项目
【主持项目】
[1] 国家自然科学基金青年项目,有机固废低温热解过程中焦油粘附行为及防控机制研究,项目编号:52106146,2022.01-2024.12.
[2]国家重点研发项目(子课题),高层/超高层建筑外立面固定自动灭火系统及工程应用技术, 2024.12-2027.12.
[3]中国博士后科学基金会面上项目,2021.06-2023.06.
[4]湖北省博士后研究创新岗,地方创新人才支撑项目, 2021.08-2023.06.
[5]煤燃烧与低碳利用全国重点实验室开发基金, 2024.01-2024.12.
[6]武汉理工大学自主创新基金项目, 2024.01-2024.12.
[7]企业技术开发项目,2024.04-2024.10,25万.
[8]GF项目,2023.04-2024.10,100万.
[9]企业技术开发项目,2023.03-2026.05,50.3万.
[10]企业技术开发项目, 2024.05-2026.12, 33.2万.
【主要参与项目】
[1]国家重点研发计划项目,有机固废高效气化及产品深度利用技术与装备,2020/1-2023/12.
[2]国家自然科学基金面上项目,环境效应对针叶材管胞高温变性及热解气微渗流动力学影响机制研究, 2024/1-2027/12.
[3]国家自然科学基金面上项目,基于传热强化和反应调控的医疗垃圾低温梯级热解机理研究2021/01-2024/12.
[4]国家自然科学基金国际(地区)合作与交流项目,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,2016/09-2019/08.
发表学术论文情况
[1] J Fu, L. Yi*, K Li *, et al. Enhanced dechlorination for multi-source solid wastes using gas-pressurized torrefaction and its removal mechanism, Chemical Engineering Journal 506 (2025) 159906. ( 1 区,IF= 13.4)
[2] K Li, H Hu, Z Ye, Y Zou, L. Yi*, Behaviors and trajectory of horizontal spray flame induced by transformer insulating oil, Proceedings of the Combustion Institute 40 (2024) 105771. ( 1 区,IF= 5.3)
[3] Li K, Ye C, Peng W, Yi L*, et al. Effect of tracheid cell structure on gas permeability and porosity in conifer species[J]. Wood Science and Technology, 2024: 1-17. (2区,IF=2.898)
[4] L. Yi, Huan Liu, Hong Yao*. In situ upgrading of bio-oil via CaO catalyst derived from organic precursors. Proceedings of the Combustion Institute 2019 (37): 3119-3126. (1 区,IF= 5.3)
[5] L. Yi, Huan Liu, HongYao*. Catalytic pyrolysis of biomass wastes over Org-CaO/Nano-ZSM-5 to produce aromatics: Influence of catalyst properties. Bioresource Technology 2019 (294): 122186. (1 区,IF= 11.889)
[6] L. Yi, Huan Liu*, Hong Yao. Prevention of CaO deactivation using organic calcium precursor during multicyclic catalytic upgrading of bio-oil. Fuel 2020(271),117692. (1 区,IF=8.035)
[7] L. Yi, Huan Liu,Hong Yao*. Effect of mixed Fe/Ca additives on nitrogen transformation during protein and amino Acid Pyrolysis. Energy and Fuels. 2017(31), 9484-9490. (2 区,IF=3.605)
[8] L. 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. (1 区,IF=6.473)
[9] Xiao K, Liu H, Li Y, et al. Correlations between hydrochar properties and chemical constitution of orange peel waste during hydrothermal carbonization[J]. Bioresource technology, 2018, 265: 432-436. (1 区,IF=11.889)
[10] Liu H, Li Y, Hu H, et al. Emission control of NOx precursors during sewage sludge pyrolysis using an integrated pretreatment of Fenton peroxidation and CaO conditioning[J]. Fuel, 2017, 195: 208-216. (1 区,IF=8.035)
[11] Shi L, Hu Z, Li X, Li Y et al. Gas-pressurized torrefaction of lignocellulosic solid wastes: Low-temperature deoxygenation and chemical structure evolution mechanisms[J]. Bioresource technology, 2023, 385: 129414. (1 区,IF=11.889)
[12]Q Zhang, K Mu, B Zhao, L Yi, The Role of the Mannich Reaction in Nitrogen Migration during the Co-Hydrothermal Carbonization of Bovine Serum Albumin and Lignin with Various Forms of Acid–Alcohol Assistance, Molecules 28 (2023) 4408. (2 区,IF=4.2)
[13] Zhang Q, Mu K, Han J, Yi L et al. Low nitrogen and high value hydrochar preparation through co-hydrothermal carbonization of sludge and saw dust with acid/alcohol assistance[J]. Energy, 2023, 278: 128012. (1 区,IF=8.857)
[14] Liu H, Yi L, Zhang Q, et al. Co-production of clean syngas and ash adsorbent during sewage sludge gasification: Synergistic effect of Fenton peroxidation and CaO conditioning[J]. Applied Energy, 2016, 179: 1062-1068. (1 区,IF=11.446)
[15] Tang H, Li A, Yi L, et al. Targeted preparation of biochar for the application as composting additive: Influence mechanism of feedstock properties on biochar derived from traditional Chinese herb residue[J]. Process Safety and Environmental Protection, 2023, 177: 831-843. (1 区,IF=6.900)
[16] Zhang Q, Liu H, Lu G, Yi L, et al. Mechanism of conditioner CaO on NOx precursors evolution during sludge steam gasification[J]. Proceedings of the Combustion Institute, 2017, 36(3): 4003-4010. (2 区,IF=6.535)
[17] Mu K, Zhang Q, Luo G, Yi L, et al. Role of iron conditioners on organics evolution in overall process of sludge hydrothermal carbonization followed by pyrolysis[J]. Renewable Energy, 2022, 198: 169-175. (1 区,IF=8.634)
[18] Lu G, Liu H, Zhang Q, Yi L, et al. Nitrogen conversion during the homogeneous and heterogeneous stages of sludge steam gasification: Synergistic effects of Fenton's reagent and CaO conditioner[J]. Fuel, 2019, 241: 1109-1116. (1 区,IF=8.035)
[19] Hu Z, Yuan Y, Li X, Yi L, et al. “Thermal-dissolution based carbon enrichment” treatment of biomass: Modeling and kinetic study via combined lumped reaction model and machine learning algorithm[J]. Fuel, 2022, 324: 124701. (1 区,IF=8.035)
[21] Li K, Zhou W, Jiang L, Yi L. et al. Inerting and dilution–nitrogen foam suppressions of air mixing effect and flame intensification[J]. Proceedings of the Combustion Institute, 2024, 40(1-4): 105375. ( 1 区,IF= 5.3)
[22] Zou Y, Pau D, Yi L, et al. Optimizing in-situ capture of Cl and C through HCl acidification and crystal formation in PVC-based cable pyrolysis[J]. Journal of Thermal Analysis and Calorimetry, 2024: 1-14. (3区,IF=4.755)
[23] 李致煜,李显,易琳琳罗光前,姚洪等.生物质“热溶富碳”及其产物利用.燃料化学学报(中英文),2023,51(2):129-144.
[24] 刘洁丽, 易琳琳, 姚洪等. 调理污泥气化灰对SO2的吸附特性. 燃烧科学与技术. 2016, 22(04): 357-363.
[25] 卢更 , 易琳琳, 姚洪等. 氧化钙调理污泥气化过程中重金属的迁移转化规律. 化工学报, 2017, 68(01): 272-280.
申请或授权的发明专利
[1] 发明专利,一种基于多源固废的电池负极高值化再生系统,CN202510103381.4,2025
[2] 发明专利,一种卤代污染物吸收剂及其制备方法和应用方法,CN202410507012.7,2024
[3] 发明专利,锥形量热仪联用槽型燃烧器实施介质灭池火装置及方法,CN118465173A,2024
[4] 发明专利,一种管道泄漏检测方法及巡检小车,CN117906083A,2024
[5] 发明专利,一种基于连通器原理的消防泡沫析液测定装置及方法,CN117388435A,2023
[6] 发明专利,基于双子氟碳-碳氢表面活性剂复配的泡沫灭火剂及其制备方法,CN117101072A,2023
[7] 发明专利,一种基于气压烘焙的高氯固废处理方法及装置,CN116689463A,2023
[8] 发明专利,一种针对医疗废弃物的热解产物的高值化利用系统,CN116286048A,2023
[9] 发明专利,一种医疗废弃物的热解产物中氯形态的分析方法,CN116380824A,2023
[10] 发明专利,一种生物质热量自平衡气压烘焙系统,CN218842057U,2022
[11] 发明专利,一种利用生物油加压制备改性氧化钙的方法、产品及装置, ZL202211104829.7,2022
[12] 发明专利,一种减少焦油粘附的方法及其应用,ZL202110740963.5,2021
[13] 发明专利,一种生物油在线脱氧提质方法,ZL201810309843.8,2019
[1] K Li, H Hu, Linlin Yi* et al. Behaviors and trajectory of horizontal spray flame induced by transformer insulating oil. 40th International Symposium on Combustion,Milan, Italy, 2024-7-21至2024-7-26.
[2] Linlin Yi, Hong Yao* et al. In situ upgrading of bio-oil via CaO catalyst derived from organic precursors, 37th International Symposium on Combustion. Dublin, Ireland. July 28- August 3, 2018
[3] Linlin Yi, Hong Yao* et al. Effect of Mix-Fe/Ca additives on nitrogen transformation during protein and amino acids pyrolysis. 5th International symposium on gasification and its application. Busan, Korea, November 29- December 2, 2016
[4] 付嘉,易琳琳*,李开源,李显,李爱军,姚洪等;气压烘焙协同处置高氯固废燃烧的污染物控制研究,第三届全国热安全科学与技术研讨会,合肥,2024-08-20至2024-08-21.
[5] 易琳琳,李开源;李显;姚洪*等;有机固废低温热解过程中焦油粘附行为及防控机制研究,第二十届全国分析与应用裂解学术会议,杭州,2023-11-17至2023-11-20.
[6] 易琳琳,姚洪*,李显*,胡振中等. 生物焦油脱除及其催化抗失活特性的影响研究, 第四届全国热化学学术会议,乌鲁木齐,2022-07-29.
[7] 易琳琳, 刘欢, 李显,姚洪*等. 生物油提质过程中有机钙衍生 CaO的失活机理及循环再生性能研究. 工程热物理学术年会.天津, 2019. 10.24-27.
