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李贺

来源:发表时间:2024-11-05字体大小:

李贺,1990.12-,山东济宁人,中共党员,教授,博导,湖南科技大学科技处副处长火灾爆炸防控与应急技术湖南省重点实验室副主任,地下空间防火防爆材料与装备湖南省工程研究中心副主任湖南省优青获得者(2022),湖南省青年科技人才(“荷尖”人才)(2022),湖湘青年英才(2022),全球前2%顶尖科学家20232024,江苏省优秀博士论文获得者(2019),第3届煤炭行业青年岗位能手标兵第一届安全领域优秀青年科技人才提名奖获得者,全国高等学校矿业石油安全工程领域优秀青年科技人才提名奖获得者,国家教育行政学院第七十一期高校中青年干部培训班学员,澳大利亚昆士兰大学访问学者,湘潭市C类高层次人才,湘潭市首届向上向善好青年,湖南科技大学学科带头人(湘江学者),湖南科技大学青年岗位能手,湖南科技大学第二届“十佳”优秀研究生导师团队骨干。兼任湖南省安全生产学会矿山安全专业委员会秘书长,湖南省应急管理专家,矿山安全科学与工程国际会议学术委员会委员,中国职业安全健康协会瓦斯灾害防治与利用专业委员会青年委员, Int J Min Sci Technol、中国矿业大学学报、煤炭科学技术、煤田地质与勘探等期刊青年编委。

中国矿业大学本-博(2008-2018),主持国家自然科学基金3项、中国博士后科学基金1、湖南省自然科学基金3项、湖南省教育厅科学基金2项、国家重点实验室基金3项、教育部重点实验室基金2项、湖南省学位与研究生教学改革研究项目(重点项目)1湖南省普通本科高校教学改革研究项目(重点项目)1;参与973计划课题1项、国家重点研发计划课题1项、澳大利亚采矿教育协会基金1项。出版学术专著1部。发表学术论文80余篇(SCI收录58篇、EI收录8篇),其中,以第一/通讯作者发表SCI/EI论文41篇,他引2827次,单篇最高他引193次,5篇入选ESI高被引论文3篇入选ESI热点论文发表教研教改论文5篇。授权国家发明专利42,实用新型专利12。获中国专利优秀奖1项(R3)、第十三届湖南省高等教育教学成果一等奖1项(R5)、河南省科技进步一等奖1项(R12)、煤炭工业科学技术一等奖2项(R1113)、中国职业安全健康协会科学技术二等奖1项(R3)、中国安全科技进步二等奖2项(R24)、中国安全科技进步三等奖1项(R2湖南科技大学煤炭行业教学成果特等奖R5指导硕士研究生获得国家奖学金2人次(何家威、沈先华)。

主要研究方向:

1)煤基甲烷资源化开发与防灾;

2)防火防爆与应急处置;

3)非常规油气安全高效开发;

4)深井煤岩瓦斯动力灾害智能防控;

5碳捕集、利用与封存

Email281323093@qq.com

科研项目(纵向)

[1] 国家自然科学基金面上项目(52474219),过热水蒸汽作用下深部低透煤层理化组构改性与瓦斯增流机制,49万元,2025/01-2028/12,主持;

[2] 国家自然科学基金面上项目(52274195),微波-酸化协同作用下煤体损伤改性与瓦斯增流机制研究,54万元,2023/01-2026/12,主持;

[3] 国家自然科学基金青年项目(51904103),微波辐射下煤体电磁热流固耦合效应及其改性增透机制,25万元,2020/01-2022/12,主持;

[4] 湖南省普通本科高校教学改革研究重点项目,“大思政”育人格局下课程思政的创新探索与融合实践——以安全工程专业为例,202401000880,主持

[5] 湖南省青年科技人才支持计划(荷尖人才)2022RC117840万元,2022/03,主持

[6] 湖南省自然科学基金优秀青年项目(2022JJ20024),微波-基质酸化协同作用下煤体损伤与瓦斯增流机制研究,20万元,2022/01-2024/12,主持;

[7] 中国博士后科学基金面上资助(2019M652765),脉冲微波辐射下煤体电磁热流固耦合及其增透机制,8万元,2019/06-2021/06,主持;

[8] 湖南省自然科学基金面上项目(2021JJ30254),基于纳米微泡材料的松软煤层瓦斯抽采钻孔抑喷与固结机制,5万元,2021/01-2023/12,主持;

[9] 湖南省自然科学基金青年项目(2019JJ50180),微波辐射下富水煤体电磁热耦合及其损伤机制研究5万元,2019/01-2020/12,主持;

[10] 湖南省教育厅科学研究优秀青年项目(21B0465),离子环境下低透煤层微波强化增透机制研究3万元,2021/10-2024/10,主持

[11] 湖南省教育厅科学研究一般项目(18C0328),煤层气产出过程中水锁效应的微波热解除机制研究1万元,2018/09-2020/12,主持

[12] 煤炭资源与安全开采国家重点实验室开放基金(SKLCRSM20KF001),无机离子对煤体微波增透效果的影响机制研究5万元,2020/01-2021/12,主持

[13] 深部岩石力学与地下工程国家重点实验室开放基金(SKLGDUEK2008),微波辐射对页岩气储运特性的影响机制研究5万元,2020/07-2022/06,主持

[14] 国家重点基础研究发展计划(973计划)(2011CB201200),深部煤炭开发中煤与瓦斯共采理论,参与;

[15] 国家重点研发计划项目(2016YFC0801400),煤矿典型动力灾害风险判识及监控预警技术研究,参与;

[16] 国家自然科学基金面上项目(51974120),基于免疫机理的瓦斯异常涌出风险识别与防控理论研究,参与;

[17] 国家自然科学基金面上项目(51974121),高瓦斯低透气性煤层绳锯连续切割区域卸压增透机理研究,参与;

[18] 国家自然科学基金青年项目(51404261),巷道超前应力分布特征对突出危险性的响应机制,参与;

[19] 国家自然科学基金青年项目(51204169),瓦斯煤尘多相耦合体系的爆炸敏感性及其惰化机理研究,参与;

[20] Enhancing Coal Permeability Using Microwave Irradiation: A Non-Water Stimulation Approach(利用微波辐射提高煤体渗透率:一种非水力化方法),Mea Collaborative Research Grant Scheme(澳大利亚采矿教育协会),参与

科研项目(横向):

[1] 煤岩微波转化技术数值模拟研究项目中联煤层气国家工程研究中心有限责任公司98.5万元,主持;

[2] 煤岩微波基础参数测试化验服务中联煤层气国家工程研究中心有限责任公司57.85万元,主持

教改项目

[1] 湖南省普通本科高校教学改革研究重点项目,“大思政”育人格局下课程思政的创新探索与融合实践----以安全工程专业为例202401000880,主持;

[2] 湖南省学位与研究生教学改革研究重点项目,新工科视域下安全科学与工程多学科融合研究生创新能力培养模式研究,2022JGZD039,主持;

学术专著

[1] 李贺, 林柏泉, 施式亮, 鲁义. 微波辐射下煤体热力响应及其流-固耦合机制研究. 中国矿业大学出版社, 2023

学术论文:

[1] He Li, Shiliang Shi*, Baiquan Lin, Jiexin Lu, Qing Ye, Yi Lu, Zheng Wang, Yidu Hong, Xiangnan Zhu. Effects of microwave-assisted pyrolysis on the microstructure of bituminous coals. Energy (0360-5442), 2019.11.15, 187: 115986.SCI, IF: 9, ESI 高被引论文,ESI 热点论文);被引193

[2] He Li, Chunshan Zheng*, Jiexin Lu, Li Tian, Yi Lu, Qing Ye, Wenke Luo, Xiangnan Zhu. Drying kinetics of coal under microwave irradiation based on a coupled electromagnetic, heat transfer and multiphase porous media model. Fuel (0016-2361), 2019.11.15, 256: 115966.SCI, IF: 6.7, ESI 高被引论文,ESI 热点论文);被引91

[3] He Li*, Wuche Liu, Jiexin Lu, Yi Lu, Shiliang Shi, Zheng Wang, Qing Ye, Zhenzhen Jia. Effect of microwave-assisted acidification on the microstructure of coal: XRD, 1H-NMR, and SEM studies. International Journal of Mining Science and Technology (2095-2686), 2023.7, 33: 919-926. SCI, IF: 11.7ESI 高被引论文,ESI 热点论文被引27

[4] He Li, Shiliang Shi*, Baiquan Lin, Jiexin Lu, Yi Lu, Qing Ye, Zheng Wang, Yidu Hong, Xiangnan Zhu. A fully coupled electromagnetic, heat transfer and multiphase porous media model for microwave heating of coal. Fuel Processing Technology (0378-3820), 2019.6.15, 189: 49-61.SCI, IF: 7.2, ESI 高被引论文);被引167

[5] He Li, Shiliang Shi*, Jiexin Lu, Qing Ye, Yi Lu, Xiangnan Zhu. Pore structure and multifractal analysis of coal subjected to microwave heating. Powder Technology (0378-3820). 2019.3.15, 346: 97-108.SCI, IF: 4.5, ESI 高被引论文);被引188

[6] He Li, Xi Wu, Meng Liu, Lin Baiquan, Yang Wei, Hong Yidu, Cao jieyan, Guo chang. Modification of Microstructural and Fluid Migration of Bituminous Coal by Microwave–LN2 Freeze–Thaw Cycles: Implication for Efficient Recovery of Coalbed Methane. Natural Resources Research (1520-7439). 2024.5.4,SCI, IF: 4.8

[7] He Li, Qingyi Guo, Meng Liu, Jiexin Lu, Yidu Hong, Ting Liu, Zheng Wang. Petrophysical characterization of coal subjected to cyclic N-methylpyrrolidone treatment based on two-dimensional NMR T1-T2. Fuel (0016-2361), 2024.6.1, 365: 131189.SCI, IF: 6.7

[8] He Li, Xuefen Lv, Jiexin Lu*, Meng Liu, Wei Yang*, Yidu Hong, Ting Liu, Baiquan Lin, Zheng Wang. Effect of cyclic thermal stimulation on the pore structure and fluid space of coal and inspiration for coalbed methane production, Energy (0360-5442), 2023.12.11, 289:129994.SCI, IF: 9被引5

[9] He Li, Jieyan Cao, Jiexin Lu*, Baiquan Lin, Yi Lu*, Shiliang Shi, Wei Yang, Yidu Hong, Ting Liu, Meng Liu, Effect of microwave-assisted cyclic oxidation on the coal internal and surface structure based on NMR and AFM, Energy (0360-5442), 2023.2.01, 288: 129872.SCI, IF: 9 被引1

[10] He Li, Xianhua Shen, Jiexin Lu, Yi Lu*, Shiliang Shi, Shuzhen Shao. Experimental and quantum chemical investigation on the inhibitory effects of Resveratrol on coal spontaneous combustion. Fuel (0016-2361), 2023.12.15, 354: 129297.SCI, IF: 8.035;被引9

[11] He Li, Qingyi Guo, Zheng Wang, Wei Yang*, Jiexin Lu, Yi Lu, Shiliang Shi. Molecular simulation of the adsorption and diffusion characteristics of CH4 in coal subjected to N-Methylpyrrolidone treatment. Fuel (0016-2361), 2023.11.15, 352: 129060.SCI, IF: 6.7被引9

[12] He Li*, Jieyan Cao, Jiexin Lu, Yi Lu, Shiliang Shi, Zheng Wang, Xin Guo, Qing Ye. Exploring the Effect of Low-Temperature Oxidation on the Petrophysical Characteristics of Coal. ACS Omega (2470-1343), 2023, 8, 43: 40572–40586. SCI, IF: 3.7

[13] He Li, Xiaolong Wang, Jiexin Lu*, Yi Lu, Shiliang Shi, Zheng Wang, Ting Liu, Qing Ye, Zhenzhen Jia. Study on the dynamics mechanism of methane diffusion in coal under microwave heating. Fuel (0016-2361), 2023.1.1, 331: 125758.SCI, IF: 6.7);被引20

[14] He Li*, Jiawei He, Jiexin Lu, Baiquan Lin, Yi Lu*, Shiliang Shi, Qing Ye. A review of laboratory study on enhancing coal seam permeability via chemical stimulation. Fuel (0016-2361), 2022.12.15, 330: 125561.SCI, IF: 6.7);被引33

[15] He Li*; Jiajun Liao ; Rui Liu ; Yidu Hong; Jiexin Lu ; Jieyan Cao, Coupling effect of high temperature steam-liquid nitrogen cyclic treatment on pore iteration and fluid flow behavior in bituminous coal. Physics of Fluids1070-6631, 2024.10.13, 36(11). SCI, IF:4.1

[16] He Li, Li Tian, Bingxiang Huang, Jiexin Lu, Shiliang Shi, Yi Lu, Fei Huang, Yong Liu, Xiangnan Zhu. Experimental Study on Coal Damage Subjected to Microwave Heating. Rock Mechanics and Rock Engineering (0723-2632), 2020.8.29, 53: 5631-5640.SCI, IF: 5.5);被引71

[17] He Li, Chaoping Xu, Guanhua Ni*, Jiexin Lu, Yi Lu, Shiliang Shi, Min Li, Qing Ye. Spectroscopic (FTIR, 1H-NMR) and SEM investigation of physicochemical structure changes of coal subjected to microwave-assisted oxidant stimulation. Fuel (0016-2361), 2022.6.1, 317: 123473. SCI, IF: 6.7);被引44

[18] He Li, Baiquan Lin, Wei Yang*, Chunshan Zheng, Yidu Hong, Yabin Gao, Tong Liu, Shiliang Wu. Experimental study on the petrophysical variation of different rank coals with microwave treatment. International Journal of Coal Geology (0166-5162), 2016.2.15, 154-155: 82-91.SCI, IF: 5.6);被引133

[19] He Li, Baiquan Lin, Wei Yang, Yidu Hong, Zheng Wang. A fully coupled electromagnetic-thermal-mechanical model for coalbed methane extraction with microwave heating. Journal of Natural Gas Science and Engineering (1875-5100), 2017.10, 46: 830-844. SCI, IF: 4.9);被引79

[20] He Li, Baiquan Lin*, Zhongwei Chen, Yidu Hong, Chunshan Zheng. Evolution of coal petrophysical properties under microwave irradiation stimulation for different water saturation conditions. Energy&Fuels (0887-0624), 2017.8.2, 31(9): 8852-8864.SCI, IF: 5.2);被引59

[21] He Li, Baiquan Lin*, Hong Yidu, Gao Yabin, Yang Wei, Liu Tong, Wang Rui, Huang Zhanbo. Effects of in-situ stress on the stability of a roadway excavated through a coal seam. International Journal of Mining Science and Technology (2095-2686), 2017.11, 27(6): 917-927.SCI, IF: 11.7);被引37

[22] He Li, Baiquan Lin*, Yidu Hong, Tong Liu, Huang Zhanbo, Rui Wang, Zheng Wang. Assessing the moisture migration during microwave drying of coal using low field nuclear magnetic resonance. Drying Technology (0737-3937), 2017.10.3, 36(5): 567-577.SCI, IF: 2.7);被引48

[23] He Li, Baiquan Lin*, Wei Yang, Yabin Gao, Tong Liu. Effects of an underlying drainage gallery on coal bed methane capture effectiveness and the mechanical behavior of a gate road. Journal of Natural Gas Science and Engineering (1875-5100), 2015.11, 27: 616-631.SCI, IF: 4.9);被引30

[24] Xianhua Shen, He Li, Jiexin Lu*, Yi Lu*, Meng Liu, Baiquan Lin, Wei Yang, Yidu Hong, Ting Liu, Zheng Wang. Effect of Resveratrol on physicochemical structure evolution of lignite during spontaneous combustion. Fuel (0016-2361), 2024, 360: 130463.SCI, IF: 6.7;被引2

[25] Jiawei He, He Li, Jiexin Lu, Wei Yang*, Baiquan Lin, Meng Liu*, Yi Lu, Shiliang Shi, Zheng Wang, Qing Ye. Variations in the pore structure and fluid mobility under anionic surfactant assisted matrix acidification of coal based on nuclear magnetic resonance T1-T2 spectra. Fuel (0016-2361), 2024.2.1, 355: 129488. SCI, IF: 6.7; 被引7

[26] Jiawei He, He Li, Wei Yang*, Jiexin Lu, Yi Lu, Ting Liu, Shiliang Shi. Experimental study on erosion mechanism and pore structure evolution of bituminous and anthracite coal under matrix acidification and its significance to coalbed methane recovery. Energy (0360-5442), 2023.11.15, 283:128485. SCI, IF: 9; 被引25

[27] Xi Wu, He Li*, Jiexin Lu, Yi Lu*, Yidu Hong, Chunshan Zheng, Meng Liu, Baiquan Lin, Shiliang Shi, Zheng Wang. Investigation of cross-scale characterization of porous structure and fluid index in bituminous coal via microwave- LN2 freeze-thaw cycles. Fuel (0016-2361), 2023.9.4, 357: 129701. SCI, IF: 6.7被引2

[28] Xi Wu, Chunshan Zheng*, He Li*, iexin Lu, Yi Lu, Shiliang Shi, Yuannan Zheng, Zheng Wang. Elucidation of evolutionary characteristics of pore structure in anthracite through microwave-LN2 freeze–thaw cycling. Fuel (0016-2361), 2023.11.15, 352:128989. SCI, IF: 6.7被引7

[29] Chaoping Xu, He Li*, Jiexin Lu, Shiliang Shi, Qing Ye, Min Li, Zheng Wang. An investigation into the modification of microwave-assisted oxidation in the macromolecular structure of coal via XRD and Raman spectroscopy. Fuel (0016-2361), 2023.4.15, 338: 127192. (SCI, IF: 6.7) 被引28

[30] Chaoping Xu, He Li*, Yi Lu*, Ting Liu, Jiexin Lu, Shiliang Shi, Qing Ye, Zhenzhen Jia, Zheng Wang. Influence of microwave-assisted oxidant stimulation on pore structure and fractal characteristics of bituminous coal based on low-temperature nitrogen adsorption. Fuel (0016-2361), 2022.11.1, 327: 125173.SCI, IF: 6.7);被引33

[31] 李贺,刘佳祥,林柏泉,施式亮,杨威,鲁义,路洁心,刘猛.微波强化酸蚀作用下五峰-龙马溪组页岩孔隙特征演化机制,20240806,2449.003;

[32] 李贺,沈先华,田丽,路洁心,鲁义,曾钢.基于FDS的细水雾抑制熄灭带式输送机火灾研究.煤矿安全,2023,54(09):53-59.

[33] 李贺,田丽,曾钢,鲁义,路洁心,施式亮.基于FDS的风速对矿井火灾蔓延规律的影响研究.中国安全生产科学技术(1673-193X),2022,18(05): 143-149.

[34] 李贺,林柏泉,洪溢都,杨威,刘统,黄展博,王瑞.微波辐射下煤体孔裂隙结构演化特性. 中国矿业大学学报(1000-1964), 2017, 46(6): 1194-1201.EI

[35] 李贺,林柏泉,黄展博,滕飞,杨威,高亚斌,刘统,王瑞.不同原岩应力方向下石门揭煤时应力与位移演化特征. 煤炭科学技术(0253-2336), 2017, 45(10): 88-95.

奖及荣誉:

[1] 微波辐射下煤体热力响应及其流-固耦合机制研究,江苏省优秀博士学位论文,2019

[2] 第一届安全领域优秀青年科技人才提名奖2024

[3] “全国高等学校矿业石油安全工程领域优秀青年科技人才”提名奖2023

[4] Spectroscopic (FTIR, 1H NMR) and SEM investigation of physicochemical structure changes of coal subjected to microwave-assisted oxidant stimulation 基于红外光谱、核磁共振 和扫描电镜的微波-氧化作用下煤体理化结构演化机制研究,湘潭市自然科学优秀学术论文,2023

[5] 一种高瓦斯煤层冲割压抽一体化卸压增透瓦斯抽采方法,中国专利优秀奖,2018

[6] 一流引领,两需驱动,三元协同,安全工程人才培养体系创新的探索与实践,第十三届湖南省高等教育教学成果一等奖,2022

[7] 再生顶板裂隙漏风诱发煤自燃基础理论及浆泡材料抑燃技术,第三届安全科技进步二等奖,2021

[8] 含瓦斯煤岩裂隙漏风氧化致灾机制及浆泡材料防控技术,中国职业安全健康协会科学技术二等奖,2020

[9] 基于人体生理响应机制的特种作业防护服研发,第三届安全科技进步二等奖,2021,排名4

[10] 基于信息耦合的煤矿瓦斯与煤自燃共生灾害协同防控技术,中国安全科技进步三等奖,2019,排名2

[11] 高瓦斯突出煤层--耦合卸压及瓦斯高效抽采技术,河南省科学技术进步一等奖,2016-J-15-R12/152016

[12] 瓦斯资源化开发及阶梯式利用关键技术研究与工程示范,煤炭工业科学技术一等奖,2015-127-R132015

[13] 高瓦斯突出煤层--耦合卸压及瓦斯高效抽采技术,河南省工业和信息化科技成果一等奖,HNGXJ- 20151146-122015

[14] 高瓦斯突出煤层强弱耦合结构石门揭煤关键技术,煤炭工业科学技术一等奖,2014-120-R112014

[15] 一流引领,两需驱动,三元协同,安全工程人才培养体系创新的探索与实践,湖南科技大学教学成果一等奖,2022

[16] 理念引领,需求驱动,多元协同,矿山安全工程人才体系创新的探索与实践,湖南科技大学煤炭行业教学成果特等奖(本科),2024


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