|
姓名:万野 性别:男 职称:副研究员 最后学位:博士 通讯地址:贵州省贵阳市观山湖区林城西路99号 邮编:550081 E-mail:wanye@mail.gyig.ac.cn;jswanye@163.com |
个人简介:
研究方向与兴趣:1. 实验地球化学,利用一系列高温高压模拟装置(热液金刚石压腔、熔融毛细硅管反应腔、冷封式高压釜、动态金刚石压腔等)控制研究体系的温度、压力、氧逸度等条件,模拟研究岩浆–流体阶段地质过程,结合原位检测手段(光学、拉曼等)定量/定性刻画流体的物理–化学性质,为成岩、成矿作用研究提供实验支撑;2. 成矿机制研究,结合实验模拟、热力学计算、流体动力学计算、传统地质分析等手段,探讨成矿元素的分配、迁移、富集、沉淀机制。目前,已在Geology、EPSL、GCA、CG等地质学主流期刊发表学术论文20余篇,其中第一作者SCI论文7篇。
简历:
2024.04-今,中国科学院地球化学研究所,副研究员
2023.10-2024.03,中国科学院深海科学与工程研究所,副研究员
2022.05-2023.10,中国科学院深海科学与工程研究所,特别研究助理
2018.10-2022.05,中国科学院地质与地球物理研究所/中国科学院深海科学与工程研究所,博士后,合作导师:周义明 研究员/郝天珧 研究员
2016.12-2018.03,博士联合培养,澳大利亚联邦科工组织(CSIRO),导师:Julien Bourdet 高级研究员
2013.09-2018.10,地质学博士,南京大学,导师:胡文瑄 教授、王小林 副教授
2009.09-2013.06,地质学学士,南京大学
承担科研项目情况:
1、国家自然科学基金委面上项目,稀土元素在富碱金属热液中的迁移和富集机制实验研究,2024-2027,54万,主持
2、国家自然科学基金委青年基金,典型热液体系中稀土元素的迁移形式与富集机理,2019-2022,25万,主持
3、博士后基金面上项目(二等),有机酸的热稳定性及其在成矿过程中的作用,2019-2022,8万,主持
4、海南省自然科学基金面上项目,富硫酸盐热液的形成及其对成矿作用的影响,2022-2025,8万,主持
5、海南省科协青年科技英才创新计划项目,有机酸根离子热稳定性、与金属离子络合作用研究及其地质意义,2019-2022,8万,主持
6、国家自然科学基金委重点项目,透视性反应腔中原位氧逸度控制和测量技术的开发及应用,2022-2026,292万,参与
7、国家自然科学基金委面上项目,低温(<400℃)热液实验中氧逸度缓冲及测量技术的开发及应用,2020-2023,70万,参与
代表论著:
(1) Wan,Y.,Chou,I. M.*,Wang,X.*,Wang,R.,Li,X. (2023). Hydrothermal sulfate surges promote rare earth element transport and mineralization. Geology,51(5),449-453.
(2) Wan,Y.,Wang,X.*,Chou,I. M.*,& Li,X. (2021). Role of sulfate in the transport and enrichment of REE in hydrothermal systems. Earth and Planetary Science Letters, 569,117068.
(3) Wan,Y.,Wang,X.,Hu,W.,Chou,I. M.,Wang,X.,Chen,Y.,& Xu,Z. (2017). In situ optical and Raman spectroscopic observations of the effects of pressure and fluid composition on liquid–liquid phase separation in aqueous cadmium sulfate solutions(≤400°C,50MPa)with geological and geochemical implications. Geochimica et Cosmochimica Acta,211,133-152.
(4) Wan,Y.,Chou,I. M.*,Wang,X.*,& Sun,X. (2021). Explorations on footprints of salt-rich fluid and salt-depleted fluid immiscibility in hydrothermal systems: Insights from divergent partitioning of sulfate and perchlorate in the ZnSO4–Zn(ClO4)2–H2O system. Chemical Geology, 584,120520.
(5) Wan,Y.,Bourdet,J.,Hu,W.*,Kang,X.,Heath,C.,Qiu,Y.,...& Wang,X.* (2021). Experimental investigations on the thermochemical oxidation of n-alkane and alcohol compounds by MnO2 and Fe2O3 at temperatures up to 325° C. Chemical Geology, 559,119982.
(6) Wan,Y.,Wang,X.*,Chou,I.,Hu,W.,Zhang,Y.,& Wang,X. (2017). An Experimental Study of the Formation of Talc through CaMg(CO3)2–SiO2–H2O Interaction at 100–200 °C and Vapor-Saturation Pressures. Geofluids,3942826,1-14.
(7) Wan,Y.,Wang,X.,Hu,W.,& Chou,I. M. (2015). Raman Spectroscopic Observations of the Ion Association between Mg2+ and SO42– in MgSO4-Saturated Droplets at Temperatures of ≤380° C. The Journal of Physical Chemistry A,119(34),9027-9036.
(8) Wang,X.*,Wan,Y.,& Chou,I. M. (2021). Fate of sulfate in seafloor hydrothermal systems: Insights from in situ observation of the liquid–liquid phase separation in hydrothermal fluids. Solid Earth Sciences, 6(1),1–11.
(9) Wang,X.*,Wan,Y.,Hu,W.,Chou,I. M.,Cao,J.,Wang,X.,Wang,M.,& Li,Z. (2016). In situ observations of liquid–liquid phase separation in aqueous ZnSO4 solutions at temperatures up to 400 °C: Implications for Zn2+–SO42− association and evolution of submarine hydrothermal fluids. Geochimica et Cosmochimica Acta,181,126-143.
(10) Wang,X.*,Wan,Y.,Hu,W.,Chou,I. M.,Cai,S.,Lin,N.,Zhu,Q.,& Li,Z. (2016). Visual and in situ Raman spectroscopic observations of the liquid–liquid immiscibility in aqueous uranyl sulfate solutions at temperatures up to 420 °C. The Journal of Supercritical Fluids,112,95-102.
其他论文:
(1) Qiu,Y.,Yang,Y.,Wang,X.*,Wan,Y.,Hu,W.,Lu,J.,...& Meng,F. (2020). In situ Raman spectroscopic quantification of aqueous sulfate: Experimental calibration and application to natural fluid inclusions. Chemical Geology,533,119447.
(2) Yu,Y.,Hu,W.,Chou,I.,Jiang,L.,Wan,Y.,Li,Y.,...& Wang,X.* (2021). Species of Sulfur in Sour Gas Reservoir: Insights from In Situ Raman Spectroscopy of S–H2S–CH4–H2O System and Its Subsystems from 20 to 250° C. Geofluids,2021.
(3) Chang,C.,Hu,W. X.*,Fu,Q.,Cao,J.,Wang,X. L.,Wan,Y.,& Yao,S. P. (2018). Characteristics and formation processes of (Ba,K,NH4)-feldspar and cymrite from a Lower Cambrian black shale sequence in Anhui Province,south China. Mineralogical Magazine,82(1),1-21.
(4) Wang,X.,Wang,X.,Chou,I. M.,Hu,W.,Wan,Y.,& Li,Z. (2017). Properties of lithium under hydrothermal conditions revealed by in situ Raman spectroscopic characterization of Li2O-SO3-H2O (D2O) systems at temperatures up to 420 °C. Chemical Geology,451,104-115.
(5) Wang,X.,Wang,X.,Hu,W.,Wan,Y.,Cao,J.,Lv,C.,Wang,R.,& Cui,M. (2017). Supercritical CO2-involved water–rock interactions at 85 °C and partial pressures of 10–20 MPa: Sequestration and enhanced oil recovery. Energy Exploration & Exploitation,35(2),237-258.
(6) Wang,X.,Chou,I. M.,Hu,W.,Yuan,S.,Liu,H.,Wan,Y.,& Wang,X. (2016). Kinetic inhibition of dolomite precipitation: Insights from Raman spectroscopy of Mg2+–SO42− ion pairing in MgSO4/MgCl2/NaCl solutions at temperatures of 25 to 200 °C. Chemical Geology,435,10-21.
(7) Liao,Z.,Hu,W.,Cao,J.,Wang,X.,Yao,S.,& Wan,Y. (2016). Permian–Triassic boundary (PTB) in the Lower Yangtze Region,southeastern China: A new discovery of deep-water archive based on organic carbon isotopic and U–Pb geochronological studies. Palaeogeography,Palaeoclimatology,Palaeoecology,451,124-139.
(8) Liao,Z.,Hu,W.,Cao,J.,Wang,X.,Yao,S.,Wu,H.,& Wan,Y. (2016). Heterogeneous volcanism across the Permian–Triassic Boundary in South China and implications for the Latest Permian Mass Extinction: New evidence from volcanic ash layers in the Lower Yangtze Region. Journal of Asian Earth Sciences,127,197-210.
(9) Wang,X.,Chou,I. M.,& Wan,Y. (2017). Effect of pressure on liquid–liquid phase separation of aqueous sulfate solution observed in fused silica capillary tubes at elevated temperatures. (Conference abstract: Goldschmidt Conference,2017)
(10) 王小林,万野,胡文瑄,尤东华,曹剑,朱东亚,& 李真. (2017). 白云岩与富硅流体的水—岩反应实验及其储层地质意义. 地质论评,63(6),1639-1652.
(11) 王晓宇,王小林,万野,& 胡文瑄. (2017). 一种新的热台校准方法:硫酸盐—水体系液—液相分离原位观测. 地球化学,46(4),319-332.
(12) 王小林,胡文瑄,张军涛,朱井泉,& 万野. (2016). 塔里木盆地和田1井中寒武统膏岩层段发现原生白云石. 地质论评,62(2),419-433.
(13) 廖志伟,胡文瑄,王小林,曹剑,姚素平,& 万野. (2016). 下扬子PTB界线深水相区粘土岩的火山成因研究及其对LPME的指示意义.地质学报,90(4),785-800.
(14) 廖志伟,胡文瑄,曹剑,姚素平,许志敏,张月霞,万野,& 丁海. (2016). 下扬子皖南大隆组黑色岩系发育特征及油气资源潜力初探. 高校地质学报,22(1),138-151.
(15) 王利超,胡文瑄,王小林,曹剑,吴海光,廖志伟,& 万野. (2016). 白云岩化过程中锶含量变化及锶同位素分馏特征与意义. 石油与天然气地质,37(4),464-472.
(16) 廖志伟,胡文瑄,王小林,曹剑,姚素平,& 万野. (2015). 皖南牛山剖面PTB粘土岩的火山成因研究及其地质指示意义. 吉林大学学报(地球科学版),45(1). (会议论文)
版权所有:中科院地球化学研究所 关键矿产成矿与预测全国重点实验室
电话:0851-5891199 传真:0851-5891664 电子邮件:chenhongwei@mail.gyig.ac.cn
京ICP备05002857号