招生就业

徐良伟

博士|讲师|硕士生导师

办公地点:

xuliangwei@hpu.edu.cn
非常规油气地质与地球化学、煤和煤层气地质与勘探、俯冲带深部碳循环与高压-超高压变质过程研究

个人简介

个人简介

徐良伟,男,汉族,1987年生,中共党员,河南理工大学专任教师。2010、2013、2018年分别获得长江大学、中国矿业大学(北京)、中国石油大学(北京)的学士、硕士和博士学位,2024年博士后出站于北京大学。受邀担任国外SCI期刊《Minerals》客座编辑,兼职担任Marine and Petroleum Geology,Fuel, Physics of Fluids, Energy & Fuels,Journal of Petroleum Science and Engineering, Australian Journal of Earth Sciences,Natural Resources Research,沉积学报等国内外学术期刊审稿人,现为美国石油地质学会(AAPG)、美国地质学会(GSA)、欧洲地球科学联盟(EGU)、国际沉积学会(IAS)、中国石油学会、中国煤炭学会、中国地质学会、中国矿物岩石地球化学学会等国内外学会会员。

课程教学

本科课程:

(1)油气地球化学,主讲(2024年至今)

(2)同位素地球化学,主讲(2024年至今)

(3)非常规天然气储层工程,主讲(2024年至今)

研究生课程:

(1)碳地质封存,主讲(2024年至今)

科研概况

科研项目

(1)河南理工大学博士基金:大洋板片表层沉积有机质深俯冲脱碳过程与生烃机制及碳同位素分馏效应,2025.1-2026.12,在研,主持.

(2)河南省高等学校重点科研项目:河南省石炭-二叠系海陆过渡相页岩气形成条件和有利区预测及勘探潜力,2025.1-2026.12,在研,主持.

(3)2025年度“双一流”学科创建工程项目:岩石圈高温超高压条件下褐煤生烃规律及其深部聚集成藏序列研究,2025.1-2026.12,在研,主持.

(4)国家重点研发计划变革性技术关键科学问题重点专项:俯冲带深部过程与非生物成气, 2021.03-2025.03,参与.

(5)中国石油长庆油田勘探开发研究院项目:鄂尔多期盆地延长组油藏地球化学及流体包裹体测试项目,2016.08-2016.12,项目骨干.

(6)中国石油长庆油田勘探开发研究院项目:鄂尔多斯盆地中生界致密油资源评价方法研究及勘探潜力分析, 2016.08-2016.12,项目骨干.

(7)国家重点基础研究发展计划(973计划):中国南方古生界页岩气赋存的基本地质条件, 2012.01-2016.08,项目骨干.

(8)国家重点基础研究发展计划(973计划):中国南方古生界页岩生气潜力研究, 2012.01-2016.08,项目骨干.

(9)国家自然科学基金:煤层构造有限变形及其对煤储层渗透性的控制, 2011.03-2012.08,参与.

第一作者/通讯作者论文

(1)Xu, L.W., Chen, L., Zhang, K., 2025. Depositional environment and evolution of the upper Ediacaran to lower Cambrian transition black rock series in northern Guizhou Province, China [J]. Lithos, 608-609: 108113.

(2)Xu, L.W., Yang, K.J*., Zhu, J.T., et al., 2023. Analysis of the H2S genetic mechanism and the main controlling factors of gas production in coal seams [J]. Fuel, 342: 127626.

(3)Wei, H.,Xu, L.W*., Li, D., et al., 2023. Fluid mineralization of the Dongtongyu gold deposit in the southern margin of North China craton: Evidence from microthermometry and composition of fluid inclusions[J]. Frontiers in Earth Sciences, 10, 1-13.

(4)Xu, L.W., Wei, H*., Chen, L., et al., 2022. Storing characteristics and main controlling factors of connate water in lower Paleozoic shales in southeast Chongqing, China[J]. Journal of Petroleum Science and Engineering, 215, 110543.

(5)Xu, L.W., Yang, K.J*., Wei, H., et al., 2021. Diagenetic evolution sequence and pore evolution model of Mesoproterozoic Xiamaling organic-rich shale in Zhangjiakou, Hebei, based on pyrolysis simulation experiments [J]. Marine and petroleum geology, 201, 105233.

(6)Xu, L.W., Yang, K.J*., Wei, H., et al., 2021.Pore evolution model and diagenetic evolution sequence of the Mesoproterozoic Xiamaling shale in Zhangjiakou, Hebei[J]. Journal of Petroleum Science and Engineering, 207, 109115.

(7)Xu, L.W., Yang, K.J*., Zhang, L.F., et al., 2021.Organic-induced nanoscale pore structure and adsorption capacity variability during artificial thermal maturation: Pyrolysis study of the Mesoproterozoic Xiamaling marine shale from Zhangjiakou, Hebei, China[J]. Journal of Petroleum Science and Engineering, 202, 108502.

(8)Xu, L.W., Yang, K.J*., Wei, H., et al., 2021. Full-Scale Pore Structure Characteristics and the Main Controlling Factors of Mesoproterozoic Xiamaling Shale in Zhangjiakou, Hebei, China[J]. Nanomaterials, 11(2): 527.

(9)Xu, L.W., Liu, L.F*., Jiang, Z.X., et al., 2018. Methane adsorption in the low-middle-matured Neoproterozoic Xiamaling marine shale in Zhangjiakou, Hebei [J]. Australian Journal of Earth Sciences, 65(05), 691~710.

(10)Xu, L.W., Wang, Y., Liu, L.F*., et al., 2019. Evolution characteristics and model of nanopore structure and adsorption capacity in organic-rich shale during artificial thermal maturation: A pyrolysis study of the Mesoproterozoic Xiamaling marine shale with type II kerogen fromZhangjiakou, Hebei, China [J]. Energy Exploration & Exploitation, 37(01): 493~518.

(11)徐良伟,杨克基*,鲁文婷,等., 2022.富有机质泥页岩微纳米孔隙系统演化特征及模式研究新进展[J].沉积学报,40(01), 1-21.

(12)Yang, K.J., Qi, J.F.,Xu, L.W*., et al., 2024.Influence of preexisting structures on salt structures in the Kuqa Depression, Tarim Basin, Western China: Insights from seismic data and numerical simulations[J]. Basin Research, 36(1): 1-26.

(13)Zhang, Z.H., Xu, X.K.,Xu, L.W*., et al., 2025. Research Article Study on the CO2 Adsorptive Sequestration Characteristics and Evaluation Model of High-Rank Coal Reservoirs in Situ Underground[J]. International Journal of Chemical Engineering,

(14)魏浩,朱苏加,徐良伟*,等., 2022.某金矿区下游土壤基于重金属化学形态风险评价及污染源解析[J].矿产保护与利用, 42(02), 162-171.

合著论文

(1)Liu, J.X., Wu, H., Nian, T.,Xu, L.W., et al., 2024. Automated Detection Of Beddings From Borehole Images: A New Improvement And First Comparative Study [J].IEEE Transactions on Geoscience and Remote Sensing, 62: 1-16.

(2)Yang, K.J.,Xu, L.W., Qi, J.F*., 2023. Structural deformation of the Northern Monocline belt in the Kuqa depression and implications for the Cenozoic uplift history of the South Tianshan Mountains [J]. Tectonophysics, 355: 229840.

(3)Chen, L., Liu, K.Y.,Xu, L.W., et al., 2022. Effect of water saturation on gas accessible effective pore space in gas shales[J]. Lithosphere, 13: 1939833.

(4)刘祖发*,谭圣林,徐良伟,等., 2013.扬子地区某些下古生界页岩孔隙特征及影响因素[J].煤炭学报, 38(05), 783~786.

(5)孟召平*,王保玉,徐良伟,等., 2012.煤炭开采对煤层底板变形破坏及渗透性的影响[J].煤田地质与勘探, 40(02), 39~43.

学术交流

(1)Xu, L.W., Liu, L.F*. Hydrocarbon potential evolution of Cretaceous source rock in the Laoting-Jiangdong area, Bohai Bay Basin[C]. 27th International Meeting on Organic Geochemistry, Prague, Czech Republic, Sep 10-12, 2015 (Poster presentation).

(2)徐良伟,刘洛夫*,高小跃,等.渝东南地区下古生界页岩气保存条件分析[C].第四届非常规油气地质评价学术研讨会.中国,北京,昌平, 2016.10,获优秀论文展板奖(展板报告).

(3)徐良伟,刘洛夫,汪洋,等.鄂尔多斯盆地铜川地区三叠系延长组长7泥页岩热模拟产气地球化学特征[C].第十六届全国有机地球化学学术会议.中国,重庆, 2017.7(展板报告).

(4)徐良伟,朱金涛,王超,等.西南天山高压-超高压变质带含碳物质特征与脱碳机制初探[C].中国矿物岩石地球化学学会第九届全国变质岩专业委员会. 2021年学术研讨会.中国,陕西,西安, 2021.4 (展板报告).

(5)徐良伟.富有机质泥页岩热成熟生烃与成岩作用的耦合演化[C].第六届非常规油气地质评价暨新能源学术研讨会.中国,湖北,武汉, 2021.7(口头报告).

(6)徐良伟,魏浩,陈磊,等.基于热模拟实验的泥页岩热成熟生烃与成岩作用及孔隙结构的耦合演化[C].第七届全国沉积学大会.中国,四川,成都, 2023.4 (口头报告).

(7)Xu, L.W., Chen, L., Yang, K.J., et al. Evolution characteristics and model of nanosclae pores in organic-rich shale during thermal maturation[C].EGU General Assembly 2022, Vienna, Austria, May 23–27, 2022, EGU22-3303(Oral presentation online).

(8)Xu, L.W., Wei, H*., Chen, L*., et al. Coupling variation model of hydrocarbon generation, nanoscale pore structure and diagenesis of the Mesoproterozoic Xiamaling shale in Zhangjiakou, Hebei, China[C]. 21st International Sedimentological Congress, Beijing, China, Aug 22-26, 2022 (Invited talk online).

(9)Xu, L.W., Chen, L*., Wei, H., et al. Geochemical characteristics and paleo-sedimentary environment of Lower Cambrian shales in Northern Guizhou, China[C]. 8th International Symposium on Hydrocarbon Accumulation Mechanisms and Petroleum Resources Evaluation. Beijing, China, Oct 10-12, 2022 (Oral presentation by outstanding youth).

(10)Xu, L.W., Chen, L*., Wei, H*., et al. Paleosedimentary environment and organic matter enrichment model of Lower Cambrian marine black shales in northern Guizhou, China[C]. GSA Connects 2022 meeting, Denver, Colorado, Oct 18-22, 2022(Oral presentation online).

(11)徐良伟,张立飞,陶仁彪,等.大洋板片表层沉积有机物深俯冲与碳氢化合物的形成过程[C].中国矿物岩石地球化学学会第九届全国变质岩专业委员会. 2023年学术研讨会.中国,湖北,宜昌, 2023.4 (口头报告).

(12)Xu, L.W., Chen, L*., Wei, H., et al. Diagenesis characteristics and diagenetic evolution of organic-rich marine shale[C]. EGU General Assembly 2023, Vienna, Austria, Apr 23–28, 2023, EGU23- 10601(Oral presentation online).

(13)Xu, L.W., Chen, L*., Wei, H., et al. Enrichment mechanism and sedimentary model of Lower Cambrian organic-rich black rock series in northern Guizhou, China[C]. 36th International Meeting of Sedimentology, June 12–16, 2023, Hotel Palace, Dubrovnik(Poster presentation online).

(14)徐良伟,张昆,陈磊等.大洋板片表层沉积有机质深俯冲生烃条件与成藏规律初探[C].中国能源学会油气地质学专业委员会成立大会暨第一届学术大会.中国,陕西,西安, 2024.10 (口头报告,优秀青年论文).

(15)徐良伟,王乾,胡咤咤等.大洋板片表层沉积有机质深俯冲脱碳过程及其地球深部资源勘察意义[C].第三届碳中和科学与工程学术论坛.中国,河南,焦作, 2024.11 (口头报告,优秀论文).

(16)徐良伟,张昆,胡咤咤等.黔北地区上震旦统-下寒武统黑色岩系形成环境及富集模式[C].第八届全国沉积学大会.中国,北京, 2025.4 (展板报告).

(17)徐良伟,张丽娟,齐宁等.日本南海Nankai俯冲带沉积有机质形成环境与富集模式[C].第八届全国沉积学大会.中国,北京, 2025.4 (口头报告).

(18)徐良伟,张昆,王乾等.岩石圈深部温压条件下褐煤的生烃特征与资源环境效应[C].第五届煤层气生物工程高峰论坛.中国,安徽,合肥, 2025.4(口头报告).

研究方向

(1)非常规油气地质与地球化学

(2)煤和煤层气地质与勘探

(3)俯冲带深部碳循环与高压-超高压变质过程研究

联系方式

电子邮箱:xuliangwei@hpu.edu.cn, xlwcumtbcupb@163.com

联系电话:13261968729

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