李增华

发布者:韩善楚发布时间:2019-06-27浏览次数:5760

姓名:

李增华

性别:

职称:

教授

学位:

博士

电话:


传真:


Email

lizenghua@ecut.edu.cn

邮编:

330013

地址:

江西省南昌市经开区广兰大道418


简   历:

 博士,教授,入选江西省青年井冈学者、江西省“双千计划”创新领军人才。综合运用矿床构造解析、矿床地球化学、三维地质建模、GIS分析、地学大数据和机器学习、成矿物理-化学过程数值模拟等研究方法开展成矿规律和成矿预测研究。研究成果主要发表在《Economic Geology》《Mineralium Deposita》《Ore Geology Reviews》等矿床学领域期刊。

学习经历:

·2012.1–2016.4,University of Regina,地质学专业,博士

·2005.9–2008.7,中国地质大学(武汉),地球探测与信息技术专业,硕士

·2001.9–2005.7,中国地质大学(武汉),资源勘查工程基地班专业,本科

工作经历:

·201812-至今, 东华理工大学, 地质系, 教授

·20164-201812, University of Regina, 地质系, 博士后

·20087-20115, 天津华北地质勘查局, 助理工程师

研究方向:

·成矿流体动力学

·铀矿地质学

·数学地球科学

招生专业:

·0709地质学

·0818地质资源与地质工程

·0857资源与环境

获奖及荣誉:

·2018年入选江西省青年井冈学者

·2021年入选江西省“双千计划”创新领军人才

教授课程:

1.《铀资源地质学》、2.《(铀)资源勘查学》、3.Uranium Geology》、《地质资源与地质工程研究方法》

代表论著:

1.Chi, G., Ashton, K., Deng, T., Xu, D., Li, Z., Song, H., Liang, R., Kennicott, J., 2020. Comparison of granite-related uranium deposits in the Beaverlodge district (Canada) and South China – A common control of mineralization by coupled shallow and deep-seated geologic processes in an extensional setting. Ore Geology Reviews 117, 103319.

2.Chi, G., Li, Z., Bethune, K.M., 2014. Numerical modeling of hydrocarbon generation in the Douglas Formation of the Athabasca basin (Canada) and implications for unconformity-related uranium mineralization. Journal of Geochemical Exploration 144, 37–48.

3.Chi, G., Li, Z., Chu, H., Bethune, K.M., Quirt, D.H., Ledru, P., Normand, C., Card, C., Bosman, S., Davis, W.J., 2018. A shallow-burial mineralization model for the unconformity-related uranium deposits in the Athabasca Basin. Economic Geology 113, 1209–1217.

4.Chi, G., Xu, D., Xue, C., Li, Z., Ledru, P., Deng, T., Wang, Y., Song, H., 2022. Hydrodynamic Links between Shallow and Deep Mineralization Systems and Implications for Deep Mineral Exploration. Acta Geologica Sinica - English Edition 96, 1–25.

5.Deng, T., Chi, G., Zhang, X., Li, Z., Xu, D., Li, S., Du, P., Shang, P., Zou, S., Zhou, W., Xu, K., Yan, H., Wen, M., Ding, Z., 2022. Mass Transfer during hematitization and implications for uranium mineralization in the Zoujiashan deposit, Xiangshan volcanic basin. J. Earth Sci. 33, 422–434.

6.Deng, T., Xu, D., Chi, G., Zhu, Y., Wang, Z., Chen, G., Li, Z., Zhang, J., Ye, T., Yu, D., 2019. Revisiting the ca. 845 - 820 Ma S-type granitic magmatism in the Jiangnan Orogen: New insights on the Neoproterozoic tectono-magmatic evolution of South China. International Geology Review 61, 383–403.

7.Ding, Z., Deng, T., Xu, D., Li, Z., Zou, S., Li, L., Xu, K., Hai, Y., Ma, W., 2020. Genesis of Two Types of Carbonaceous Material Associated with Gold Mineralization in the Bumo Deposit, Hainan Province, South China. Minerals 10, 708.

8.Guo, F., Li, Z., Deng, T., Qu, M., Zhou, W., Huang, Q., Shang, P., Zhang, C., Yan, Z., 2020. Key factors controlling volcanic-related uranium mineralization in the Xiangshan Basin, Jiangxi Province, South China: A review. Ore Geology Reviews 122, 103517.

9.Huang, Q., Li, Z., Xu, D., Guo, F., Deng, T., Wu, Z., Zhou, W., Liu, Z., Luo, W., 2022. The effects of red beds on fluid flow and implications for the formation of volcanic-type uranium deposits in the Xiangshan basin, China. Ore Geology Reviews 148, 105031.

10.Khalifa Eldursi, Guoxiang Chi, Kathryn Bethune, Zenghua Li, Patrick Ledru, David Quirt, 2020. New insights from 2- and 3-D numerical modelling on fluid flow mechanisms and geological factors responsible for the formation of the world-class Cigar Lake uranium deposit, eastern Athabasca Basin, Canada. Mineralium Deposita.

11.Li, H., Li, Z., Ouyang, Y., Yang, L., Deng, Y., Jiang, Q., Deng, T., Shang, P., Lin, Y., Zeng, H., 2022. Application of principal component analysis and spectrum-area fractal model to identify geochemical anomalies associated with vanadium mineralization in northeastern Jiangxi Province, South China. Geochemistry: Exploration, Environment, Analysis.

12.Li, Y., Zhang, C., Chi, G., Duo, J., Li, Z., Song, H., 2019. Black and red alterations associated with the Baimadong uranium deposit (Guizhou, China): Geological and geochemical characteristics and genetic relationship with uranium mineralization. Ore Geology Reviews 111.

13.Li, Z., Chi, G., Bethune, K.M., Eldursi, K., Quirt, D., Ledru, P., Thomas, D., 2020. Interplay between thermal convection and compressional fault reactivation in the formation of unconformity-related uranium deposits. Mineralium Deposita.

14.Li, Z., Chi, G., Bethune, K.M., Eldursi, K., Quirt, D., Ledru, P., Gudmundson, G., 2018a. Numerical simulation of strain localization and its relationship to formation of the Sue unconformity-related uranium deposits, eastern Athabasca Basin, Canada. Ore Geology Reviews 101, 17–31.

15.Li, Z., Chi, G., Bethune, K.M., Eldursi, K., Thomas, D., Quirt, D., Ledru, P., 2018b. Synchronous egress and ingress fluid flow related to compressional reactivation of basement faults: the Phoenix and Gryphon uranium deposits, southeastern Athabasca Basin, Saskatchewan, Canada. Mineralium Deposita 53, 277–292.

16.Li, Z., Chi, G., Bethune, K.M., Thomas, D., Zaluski, G., 2017. Structural Controls on Fluid Flow During Compressional Reactivation of Basement Faults: Insights from Numerical Modeling for the Formation of Unconformity-Related Uranium Deposits in the Athabasca Basin, Canada. Economic Geology 112, 451–466.

17.Li, Z., Chi, G., Bethune, K.M., 2016. The effects of basement faults on thermal convection and implications for the formation of unconformity-related uranium deposits in the Athabasca Basin, Canada. Geofluids 16, 729–751.

18.Li, Z., Bethune, K.M., Chi, G., Bosman, S.A., Card, C.D., 2015. Topographic features of the sub-Athabasca Group unconformity surface in the southeastern Athabasca Basin and their relationship to uranium ore deposits. Canadian Journal of Earth Sciences 52, 903–920.

19.Ma, W., Deng, T., Xu, D., Chi, G., Li, Z., Zhou, Y., Dong, G., Wang, Z., Zou, S., Qian, Q., Guo, S., 2021. Geological and geochemical characteristics of hydrothermal alteration in the Wangu deposit in the central Jiangnan Orogenic Belt and implications for gold mineralization. Ore Geology Reviews 104479.

20.Wang, K., Chi, G., Bethune, K.M., Li, Z., Blamey, N., Card, C., Potter, E.G., Liu, Y., 2018. Fluid P-T-X characteristics and evidence for boiling in the formation of the Phoenix uranium deposit (Athabasca Basin, Canada): Implications for unconformity-related uranium mineralization mechanisms. Ore Geology Reviews 101, 122–142.

21.Wang, Y., Chi, G., Li, Z., Bosman, S., 2021. Large-scale thermal convection in sedimentary basins revealed by coupled quartz cementation-dissolution distribution pattern and reactive transport modeling – a case study of the Proterozoic Athabasca Basin (Canada). Earth and Planetary Science Letters 574, 117168.

22.Xu, K., Xu, D., Deng, T., Li, Z., Zou, S., Wang, Z., Hai, Y., Zhang, S., Qian, Q., Guo, S., 2022. Genesis of altered slate type ores in the Huangjindong gold deposit, Jiangnan Orogenic Belt, South China. Journal of Geochemical Exploration 107047.

23.Yuan, L., Chi, G., Wang, M., Li, Z., Xu, D., Deng, T., Geng, J., Hu, M., Zhang, L., 2019. Characteristics of REEs and trace elements in scheelite from the Zhuxi W deposit, South China: Implications for the ore-forming conditions and processes. Ore Geology Reviews 109, 585–597.

24.Zhao, X., Xue, C., Chi, G., Chu, H., Li, Z., Pak, N., Wang, X., Zhang, G., Zu, B., 2017. Multi-stage gold mineralization in the Taldybulak Levoberezhny deposit, Tien Shan, Kyrgyzstan: Reply to comment by Boris Trifonov on “Re–Os pyrite and U–Pb zircon geochronology from the Taldybulak Levoberezhny gold deposit: Insight for Cambrian metallogeny of the Kyrgyz northern Tien Shan.” Ore Geology Reviews 82, 217–231.

25.黄鑫怀, 李增华, 邓腾, 刘志锋, 陈冠群, 曾皓轩, 郭世超, 2022. 基于机器学习的华南诸广山花岗岩体铀矿潜力评价. 地球科学.

26.韦晓艳, 李增华, 杜鹏飞, 严兆彬, 于炳飞, 李胜苗, 刘传东, 2022. 数值模拟在砂岩型铀矿流体运移机制研究中的应用. 铀矿地质38, 106–114.

27.杨立飞, 李增华, 欧阳永棚, 邓腾, 邓友国, 孟德磊, 郑华, 2022. 钒矿床研究进展与展望. 沉积与特提斯地质.

28.黄沁怡, 李增华, 许德如, 池国祥, 邓腾, 赵朝霞, 于得水, 2021. 多过程耦合动力学数值模拟在热液矿床研究中的应用及发展前景. 大地构造与成矿学45, 1146–1160.

29.代俊峰, 李增华, 许德如, 邓腾, 赵磊, 张鑫, 王水龙, 张健, 孔令涛, 尚培, 2021. 煤型关键金属矿产研究进展. 大地构造与成矿学45, 963–982.

30.李增华, 池国祥, 邓腾, 许德如, 2019. 活化断层对加拿大阿萨巴斯卡盆地不整合型铀矿的控制. 大地构造与成矿学43, 518–527.

31.李增华,成秋明,谢淑云,徐德义,夏庆霖,张生元,2009. 云南个旧期北山七段玄武岩中磁黄铁矿结构变化分形特征. 地球科学(中国地质大学学报), 34(2):275–280.

32.谢淑云,成秋明,李增华,邢细涛,陈守余,2009. 矿物微观结构的多重分形, 地球科学(中国地质大学学报), 34(2):263–269.