职务:土木与资源工程学院党委副院长
学位职称:博士/教授
办公电话:010-62332189
办公地点:土木楼903
Email:zhongrichen@126.com
简介:
获国家自然科学基金优秀青年科学基金资助,入选中国科协青年人才托举工程。第一/通讯作者在Geology、Geochimica et Cosmochimica Acta、Chemical Geology、Geochemistry Geophysics Geosystems、Economic Geology等SCI期刊发表论文27篇。任《Ore Geology Reviews》副主编,《矿床地质》、《矿物岩石学杂志》编委。任中国地质学会青年工作委员会委员。
学习工作简历:
2005年9月-2009年7月,北京大学地质学专业,学士
2009年9月-2014年7月,北京大学矿物学、岩石学、矿床学专业,博士
2014年7月至今,北京科技大学土木与资源工程学院,讲师、副教授、教授
研究领域:
1. 热液成矿作用热力学模拟
2. 水热地球化学实验
3. 地质大数据与机器学习
代表性论文:
[1] Cui, H., Zhong, R.*, Xie, Y.*, Yuan, X., Liu, W., Brugger, J. and Yu, C. (2020) Forming sulfate- and REE-rich fluids in the presence of quartz. Geology 48, 145–148.
[2] Zhong, R., Brugger, J.*, Tomkins, A.G., Chen, Y. and Li, W.* (2015) Fate of gold and base metals during metamorphic devolatilization of a pelite. Geochimica et Cosmochimica Acta 171, 338–352.
[3] Zhong, R., Brugger, J.*, Chen, Y. and Li, W.* (2015) Contrasting regimes of Cu, Zn and Pb transport in ore-forming hydrothermal fluids. Chemical Geology 395, 154–164.
[4] Zhong, R*., Li, Y., Etschmann, B., Brugger, J., Yu, C. and Cui, H. (2020) HighPGibbs, a practical tool for fluid‐rock thermodynamic simulation in deep Earth and its application on calculating nitrogen speciation in subduction zone fluids. Geochemistry, Geophysics, Geosystems 20, e2020GC008973.
[5] Chen, H., Zhong, R.*, Xie, Y.*, Cui, H., Yu, C., Ling, Y., Li, Z. and Li, L. (2021) Solubility of K2SO4 in silica-saturated solutions and applications to determine the composition of ore-forming fluids. Chemical Geology 580, 120387.
[5] Li, Y., Zhong, R.*, Ni, Z., Cui, H., Li, S., Yuan, X., Chen, H. and Yu, C. (2022) Toward quantitative experiment using hydrothermal diamond anvil cell: Solubility of sylvite up to 1.6 GPa. Chemical Geology 609, 121071.
[7] Chen, H., Cui, H., Zhong, R.*, Xie, Y.*, Yu, C., Li, Z. and Ling, Y. (2020) Solubility of Na2SO4 in silica-saturated solutions: Implications for REE mineralization. American Mineralogist 105, 1686–1694.
[8] Zhong, R*., Deng, Y., Li, W., Danyushevsky, L.V., Cracknell, M.J., Belousov, I., Chen, Y. and Li, L. (2021) Revealing the multi-stage ore-forming history of a mineral deposit using pyrite geochemistry and machine learning-based data interpretation. Ore Geology Reviews 133, 104079.
[9] Zhong, R.*, Deng, Y. and Yu, C. (2021) Multi-layer perceptron-based tectonic discrimination of basaltic rocks and an application on the Paleoproterozoic Xiong'er volcanic province in the North China Craton. Computers and Geosciences 149, 104717.
[10] Zhong, R. and Li, W.* (2016) The multistage genesis of the giant Dongshengmiao Zn-Pb-Cu deposit in western Inner Mongolia, China: Syngenetic stratabound mineralization and metamorphic remobilization. Geoscience Frontiers 7, 529–542.
[11] Zhong, R., Li, W.*, Chen, Y. and Huo, H. (2012) Ore-forming conditions and genesis of the Huogeqi Cu-Pb-Zn-Fe deposit in the northern margin of the North China Craton: Evidence from ore petrologic characteristics. Ore Geology Reviews 44, 107–120.
[12] Zhong, R., Li, W.*, Chen, Y., Ji, J., Yang, Y. and Hu, C. (2015) Significant Zn-Pb-Cu remobilization of a syngenetic stratabound deposit during regional metamorphism: A case study in the giant Dongshengmiao deposit, northern China. Ore Geology Reviews 64, 89–102.
[13] Zhong, R., Li, W.*, Chen, Y., Yue, D. and Yang, Y. (2013) P-T-X conditions, origin, and evolution of Cu-bearing fluids of the shear zone-hosted Huogeqi Cu-(Pb-Zn-Fe) deposit, northern China. Ore Geology Reviews 50, 83–97.
[14] Cui, H., Zhong, R.*, Wang, X., Li, Z., Ling, Y., Yu, C. and Chen, H. (2020) Reassessment of the zircon Raman spectroscopic pressure sensor and application to pressure determination of fused silica capillary capsule. Ore Geology Reviews 122, 103540.
[15] Yu, C., Zhong, R.*, Bai, R., Wang, Y. and Ling, Y. (2020) A method to predict the homogenization temperatures of easily decrepitated fluid inclusions. Ore Geology Reviews 117, 103311.
[16] Pi, Q., Zhong, R.* and Hu, R. (2015) Tracing the ore-formation history of the shear-zone-controlled Huogeqi Cu-Pb-Zn deposit in Inner Mongolia, northern China, using H, O, S, and Fe isotopes. Ore Geology Reviews 71, 263–272.
[17] Wang, X.*, Qiu, Y., Lu, J., Chou, I.M., Zhang, W., Li, G., Hu, W., Li, Z. and Zhong, R.* (2020) In situ Raman spectroscopic investigation of the hydrothermal speciation of tungsten: Implications for the ore-forming process. Chemical Geology 532, 119299.
[18] Xie, Y.*, Qu, Y., Zhong, R.*, Verplanck, P.L., Meffre, S. and Xu, D. (2019) The similar to 1.85 Ga carbonatite in north China and its implications on the evolution of the Columbia supercontinent. Gondwana Research 65, 125–141.
[19] Zhou, H., Sun, X.*, Cook, N.J., Lin, H., Fu, Y., Zhong, R.* and Brugger, J. (2017) Nano- to Micron-Scale Particulate Gold Hosted by Magnetite: A Product of Gold Scavenging by Bismuth Melts. Economic Geology 112, 993–1010.