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吕万军

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吕万军,教授,博士生导师,教育部新世纪人才计划入选者,自然资源部天然气水合物重点实验室学术委员会委员,中国可再生能源学会天然气水合物专业委员会委员,广东海洋协会天然气水合物分会理事,美国地球物理学会终身会员,中国矿物岩石地球化学学会终身会员。主要从事海洋天然气水合物成矿机理与勘探开发相关研究,承担海洋水合物地质地球化学、成矿成藏过程实验模拟、数值模拟技术与软件开发、实验地球化学技术、深海资源探测技术与装备研究等方面的项目。担任《Geochimica et Cosmochimica Acta》、《Chemical Geology》、《Journal of Geochemical Exploration》、《European Journal of Mineralogy》、《International Journal of Greenhouse Gas Control》、《Journal of Natural Gas Chemistry》、《Review of Scientific Instruments》、《Applied Spectroscopy》、《Journal of Raman Spectroscopy》、《Fluid Phase Equilibria》、《Journal of Chemical & Engineering Data》、《Journal of Molecular Structure》、《Chemical Papers》在内的地球化学、天然气化学化工、科研仪器领域国际期刊的审稿人。


研究领域(主要研究兴趣)

u 海洋天然气水合物成矿动力学、水合物资源勘查与开发

u深海探测技术与装备研究、激光谱学观测技术研发

u地质流体热动力学、流体包裹体地球化学、实验地球化学


招生专业

Ø 海洋科学、地质地球化学、能源地质、化学化工、激光光谱、机电等专业方向。热忱欢迎有志于从事科学研究的本科生、研究生加盟!

Ø 每年招聘博士后1-2名,享受学校职工待遇、课题组配套科研经费、津贴。


主要国际合作伙伴

«日本高知大学桥本善孝教授,IODP全球大洋钻探计划科学评估组成员,俯冲带构造沉积专家;

«美国地质调查局Robert C. Burruss教授,油气地球化学、流体包裹体界知名专家;

«美国地质调查局I-Ming Chou教授,海外华人地球科学协会主席,著名实验地球化学家;

«美国普渡大学Dor Ben-Amotz教授,著名物理化学家、光谱学家;

«法国洛林大学Jean Dubessy教授, GeoRaman 前主席、法国国家研发中心(CNRS)主任;


«那不勒斯费德里科二世大学Benedetto De Vivo教授,国际期刊“Journal of Geochemical Exploration ”杂志前主编;

«加拿大魁北克大学里穆斯基分校海洋研究所Huixiang Xie教授,海洋化学家。


主要科研项目

«国家自然科学基金重大研究计划重点支持项目“西北太平洋俯冲带含碳流体形成、演化、活动及其资源环境效应”(92058208),2021.012024.12

«国家自然科学基金项目BSR之下II型水合物聚集成藏机理41876069),2019.012022.12

« 国家重点研发计划子课题,“中国海域冷泉系统沉积层中高品质水合物幕式聚散微观机理 2018YFC0310006-04 2018.082021.12

« 国家重点研发计划“近海底高精度水合物探测技术”项目课题二“近海底原位多参量地球化学测量技术与装置研究”(2016YFC0303902),2016.072020.12

«国家自然科学基金项目海底未固结沉积物中天然气水合物动态聚散与孔隙流体地球化学时空响应动力学研究41176047),2012.012015.12

«国家水合物调查专项课题(GZH201100305-07-01天然气水合物成矿过程和动态聚散规律研究2011.052018.12

«国家高技术研究发展计划(863计划)子课题天然气水合物成矿过程数值模拟技术研究2009AA09A202-3),2009.012011.12

«国家重点基础研究发展计划(973计划)南海北部陆坡天然气水合物成藏机理与资源分布规律子课题南海北部天然气水合物成藏的动力学机制2009.012012.12

« 教育部科学技术研究重点项目拉曼光谱法测定H2O-CO2-CH4- NaCl体系包裹体的组成与密度N0.109108),2009.042010.12

« 国家自然科学基金项目海水-水合物体系甲烷扩散-水合动力学的拉曼光谱研究40603016),2007.012009.12

« 中国科学院知识创新工程重要方向项目深部地质流体的物理化学性质和演化机制:热力学、分子动力学和实验综合研究中课题深部地质流体的物理化学性质实验研究”(kzcx2-yw-124-02) 2007.012009.12

«国家高技术研究发展计划(863计划)天然气水合物探测技术课题中三级课题稳定带模拟与水合物定位预测技术2003AA611020/03-02),2004.012005.10

« 国家水合物专项调查课题我国海域天然气水合物资源评估及资源前景研究,参加天然气水合物资源评价研究,2001.8-2008.12


学术成果

Ø 教学与科研奖励

v依托地学优势的海洋科学建设及精英化人才培养模式探索与实践,湖北省教学成果一等奖项2018075-R4

v南海北部大陆边缘盆地动力学及其资源效应,教育部自然科学奖二等奖(2017-094-R3)。

v东海陆坡天然气水合物资源调查评价,国土资源部科学技术奖二等奖(KJ2007-2-24-R3)。

Ø 代表性论文

[1] Lin Wang, Xiaoyu Fang, Hui Li, Tianhua Li, Xiang’en Wu, and Wanjun Lu*. Effects of β-cyclodextrins and their aggregates on the formation of methane hydrate. Energy Fuels 2022, 36, 4, 2023–2033.

[2]Huang Yahao; Tarantola Alexandre; Wanjun Lu*, Marie-Camille CaumonWenjing Wang. CH4 accumulation characteristics and relationship with deep CO2 fluid in Lishui sag, East China Sea Basin. Applied Geochemistry, 2020, 115.104563.

[3]Wenjing WangMarie-Camille CaumonAlexandre TarantolaJacques PirononWanjun Lu*, Yahao Huang. Raman spectroscopic densimeter for pure CO2 and CO2-H2O-NaCl fluid systems over a wide P-T range up to 360 degrees C and 50 MPa. Chemical Geology, 2019, 528: 119281.

[4]Wenjia Ou, Wanjun Lu*, Fulong Ning*, Xiangen Wu, Measurement of methane solubility in pure water in equilibrium with hydrate by using high-pressure optical capillary cell, Marine Chemistry, 2019, 212: 74-82.

[5]Yahao Huang, Alexandre Tarantola, WenjingWang, Marie-Camille Caumon, Jacques Pironon, Wanjun Lu*, DetianYan, Xingguo Zhuang. 2018. Charge history of CO2 in Lishui sag, East China Sea basin: Evidence from quantitative Raman analysis of CO2-bearing fluid inclusions. Marine and Petroleum Geology, 98: 50-65.

[6]Xiangen Wu, Wanjun Lu, Louis M. Streacker, Henry S. Ashbaugh, Dor Ben-Amotz*, Methane Hydration‐Shell Structure and Fragility. Angewandte Chemie International Edition, 2018.11.12, 57(46): 15133~15137.

[7]Xiangen Wu, Wanjun Lu, Louis M. Streacker, Henry S. Ashbaugh, Dor Ben-Amotz*, Temperature-dependent hydrophobic crossover length scale and water tetrahedral order. The Journal of Physical Chemistry Letters, 2018.2.13, 9(5): 1012~1017.

[8]Lantao Geng, Kang Qu, Wanjun Lu*, Lei Jiang, I-Ming Chou. 2017. In situ Raman spectroscopic study of the pressure effect on the concentration of CO2 in water at hydrate-liquid water equilibrium up to 900 bar. Fluid Phase Equilibria, 438:37-43.

[9]Wu Xiangen, Lu Wanjun*, Ou Wenjia, Marie-Camille Caumon, Jean Dubessy. 2017. Temperature and salinity effects on the Raman scattering cross section of the water OH stretching vibration band in NaCl aqueous solutions from 0 to 300 oC. Journal of Raman Spectroscopy, 48(2): 314322.

[10]Ou Wenjia, Lu Wanjun*, Qu Kang, Geng Lantao, I-Ming Chou. 2016. In situ Raman spectroscopic investigation of flux-controlled crystal growth under high pressure: A case study of carbon dioxide hydrate growth in aqueous solution. International Journal of Heat and Mass Transfer, 101: 834-843.

[11]Hu Qingcheng, Guo Huirong, Lu Xinbiao, Lu Wanjun, Chen Ying, Zhu Yan, Geng Lantao. 2016. Determination of P–V–T–x properties of the CO2–H2O system up to 573.15 K and 120MPa—Experiments and model. Chemical Geology, 424: 60-72.

[12]Zhang Jianli, Qiao Shaohua, Lu Wanjun*, Hu Qingcheng, Chen Shuguang, Liu Yuan. 2016. An equation for determining methane densities in fluid inclusions with Raman shifts. Journal of Geochemical Exploration, 171: 20-28.

[13]Ou Wenjia, Guo Huirong, Lu Wanjun*, Wu Xiangen, I-Ming Chou. 2015. A re-evaluation of the effects of temperature and NaCl concentration on quantitative Raman spectroscopic measurements of dissolved CH4 in NaCl aqueous solutions: Application to fluid inclusion analysis. Chemical Geology, 417: 1-10.

[14]Ou Wenjia, Geng Lantao, Lu Wanjun*, Guo Huirong, Qu Kang, Mao Peixiao. 2015. Quantitative Raman spectroscopic investigation of geo-fluids high-pressure phase equilibria: Part II. Accurate determination of CH4 solubility in water from 273 to 603K and from 5 to 140MPa and refining the parameters of the thermodynamic model. Fluid Phase Equilibria, 391: 18-30.

[15]Wang Menhan, I-Ming Chou, Lu Wanjun*, De Vivo Benedetto. 2015. Effects of CH4 and CO2 on the sulfidization of goethite and magnetite: an in situ Raman spectroscopic study in high-pressure capillary optical cells at room temperature[J]. European Journal of Mineralogy, 27(2): 193-201.

[16]Wang Menghan, Lu Wanjun*, Li Lanlan, Qiao Shaohua. 2014. Pressure and temperature dependence of the Raman peak intensity ratio of asymmetric stretching vibration (ν3) and asymmetric bending overtone (2ν2) of methane. Applied spectroscopy, 68(5): 536-540.

[17]Hu Qingcheng, Guo Huirong, Chen Ying, Lu Wanjun*. 2014. Raman spectroscopic investigation on aqueous NaCl solutions at temperatures from 273 to 573 K: Effect of NaCl on water structure. Journal of Molecular Liquids, 199: 83-87.

[18]Guo Huirong, Chen Ying, Lu Wanjun*, Hu Qingcheng, Ou Wenjia, Geng Lantao. 2014. Quantitative Raman spectroscopic investigation of geo-fluids high-pressure phase equilibria: Part I. Accurate calibration and determination of CO2 solubility in water from 273.15 to 573.15 K and from 10 to 120 MPa. Fluid Phase Equilibria, 382: 70-79.

[19]Wang Menghan, De Vivo Benedetto, Lu Wanjun, Muniz-Miranda Maurizio. 2014. Surface-Enhanced Raman Scattering (SERS) Detection of Nitroaromatic Pollutants in Water. Applied Spectroscopy, 68(7): 784-788.

[20]Ou Wenjia, Lei Huaiyan*, Lu Wanjun, Zhang Jie, Shi Chunxiao, Gong Chujun, Han Chao, Lipid distribution in marine sediments from the northern South China Sea and association with gas hydrate, Acta Geologica Sinica, 2014, 88(1): 226-237.

[21]Lu Wanjun, Guo Huirong, Chou I.M., Burruss R.C., Li Lanlan. 2013. Determination of diffusion coefficients of carbon dioxide in water between 268 and 473 K in a high-pressure capillary optical cell with in situ Raman spectroscopic measurements. Geochimica et Cosmochimica Acta, 115:183-204.

[22]Lu Wanjun*, Wang Feifei, Wang Menghan. 2013. Experimental Simulation of Hydrate Accumulation and Dispersion in Pore Fluids. Natural Gas Hydrates. Springer Geophysics, pp 217-237.

[23]Guo Huirong, Chen Ying, Lu Wanjun*, Li Lanlan, Wang Menghan. 2013. In situ Raman spectroscopic study of diffusion coefficients of methane in liquid water under high pressure and wide temperatures. Fluid Phase Equilibria, 360:274-278.

[24]Hu Qingcheng, Lü Xinbiao, Lu Wanjun*, Chen Ying, Liu Hong. 2013. An extensive study on Raman spectra of water from 253 to 753 K at 30 MPa. Journal of Molecular Spectroscopy, 292:23-27.

[25]Liu Chang-ling, Ye Yu-guang, Meng Qing-guo, Lu Wanjun , Wang Feifei. 2011. In situ Raman spectroscopic observation of micro-processes of methane hydrate formation and dissociation. Spectroscopy and Spectral Analysis, 31(6),1524-1528

[26]Shang Linbo, Chou I-Ming, Lu Wanjun, Burruss, R.C., and Zhang Youxue, 2009. Determination of diffusion coefficients of hydrogen in fused silica between 296 and 523 K by Raman spectroscopy and application of fused silica capillaries in studying redox reactions. Geochim. Cosmochim. Acta, 73(18), 5435-5443

[27]Song Yucai, Chou I-Ming, Hu Wenxuan, Burruss R. C, Lu Wanjun. 2009. CO2 Density-Raman shift relation derived from synthetic inclusions in fused silica capillaries. Acta Geologica Sinica , 83(5),932-938

[28]Lu Wanjun*, I-Ming Chou, and R.C. Burruss. 2008. Determination of methane concentrations in water in equilibrium with sI methane hydrate in the absence of a vapor phase by in-situ Raman spectroscopy. Geochimica et Cosmochimica Acta, 72(2): 412-422.9

[29]Lu Wanjun*, I-Ming Chou, R.C. Burruss and Yucai Song. 2007. A unified equation for calculating methane vapor pressures in the CH4–H2O system with measured Raman shifts. Geochimica et Cosmochimica Acta, 71(16): 3969-3978

[30]Lu Wanjun*, Chou I-Ming, Burruss R. C. 2007.Temperature effect on the quantitative analysis of CO2 concentration in water by in situ laser Raman spectroscopy: A preliminary study at temperatures between 20 and 150 °C and pressures up to 30 MPa In: Water-Rock Interaction (Proceeding of the 12th International Symposium on Water-Rock Interaction), T. Bullen and Y. Wang, Eds. (Taylor &Francis Group, London), p519-522

[31]Lu Wanjun, Chou, I.M., Burruss, R.C., and Yang, M.Z., 2006. In-situ study of mass transfer in aqueous solutions under high pressures via Raman spectroscopy: A new method for the determination of diffusion coefficients of methane in water near hydrate formation conditions. Applied Spectroscopy,60(2):122-129

[32]Chou I-Ming, Burruss R.C., and Lu Wanjun. 2005. A new optical cell for spectroscopic studies of geologic fluids at pressures up to 100 MPa, In: Advances in High-Pressure Technology for Geophysical Applications, J. Chen, Y. Wang, T.S. Duffy, G. Shen, L.F. Dobrzhinetskaya, Eds. (Elsevier, Amsterdam,), Chap. 24: 475-483.


主讲课程

Ø 《海洋科学前沿》(研究生)

Ø 《海洋地质新进展》(研究生)

Ø 《海洋资源》(研究生)

Ø 《博士专业英语写作与交流》(研究生)

Ø 《海洋矿产资源》(本科生)

Ø 《海洋地球化学》(本科生)

Ø 《海洋调查技术与方法》(本科生)


联系方式

, :湖北省武汉市洪山区鲁磨路388号必赢必赢565net官网(邮编:430074

* wjlu@cug.edu.cn


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