• 姓名: 贾望鲁
  • 性别: 男
  • 职务: 
  • 职称: 研究员
  • 学历: 博士研究生
  • 电话: 020-85291312
  • 传真: 020-85290706
  • 电子邮件: wljia@gig.ac.cn
  • 通讯地址: 广州市天河区科华街511号
    简  历:
  • 男,研究员,19768月出生,山东兖州人。国家杰出青年科学基金(2021)获得者。1993-2000年在中国地质大学(武汉)学习并获理学学士和硕士学位,2000-2004年在中国科学院广州地球化学研究所学习获理学博士学位,后继续在该所工作至今(20147–12月,美国加州理工学院访问学者)。

    长期从事有机与油气地球化学研究:(1)发展了沥青质键合态烃的研究技术并鉴定了新的分子标志物,揭示了烃源岩-油等多组分氮含量与同位素组成的热演化规律和机制,应用C-S-N-H多元同位素组成在叠合盆地古老油藏的成因等热点、难点问题上取得系列新认识;(2)定量分析了烃源岩不同排烃效率下的全烃和氢气的热演化过程,提出了轻质油气和凝析油气阶段的细分方案以及烃源岩晚期甲烷-氢气协同演化的新认识,促进了深层油-气资源潜力评价技术的发展;(3)厘定了有机质孔隙发育主要阶段及主控因素,揭示了有机质生-排烃促进孔隙发育的机制,提升了对页岩油气储集空间发育的理论认识;(4)完善了新元古代晚期黑色页岩的N-Mo同位素沉积记录,为新元古代氧化事件的海洋元素地球化学循环与氧化还原条件等基础前沿问题的解决提供了新依据。相关成果发表SCI等论文五十余篇。

    社会任职:
    研究方向:
  • 1)有机质(分子)多元-高维同位素组成与油气成因;(2)干酪根和原油裂解过程及油气潜力评价;(3)元素地球化学与沉积有机质和锰富集机制;(4)有机质组成和结构的热演化规律与孔隙发育机制。

    获奖及荣誉:
  • 广东省地质科学技术奖,一等奖,2020,排名第四

    第十四届全国有机地球化学会议“中青年优秀论文奖”(2013)

    代表论著:
  • (1)Susu Wang, Jian Chen, Wanglu Jia*, Ping’an Peng, 2024. Multiple isotopes (C-S-N-H) and bound biomarkers in asphaltenes: New constraints on the classification and genesis of reservoir bitumens from the northwestern Sichuan Basin, South China. Organic Geochemistry 193, 104807.

    (2)Xiaodong Liu, Wanglu Jia*, Qiang Wang, Jinxiang Wu, Jian Chen, Ping’an Peng, 2024. Experimental simulation of thermal evolution of nitrogen content and isotopes in source rocks: Implications for nitrogen cycling characterization and oil-source correlation. Marine and Petroleum Geology 163, 106796.

    (3)Jinxiang Wu, Zhaozhao Tan, Wanglu Jia*, Jian Chen, Ping’an Peng, 2024. Nitrogen isotopes and geochemistry of the basal Datangpo Formation: Contrasting redox conditions in the upper and lower water columns during the Cryogenian interglaciation period. Palaeogeography, Palaeoclimatology, Palaeoecology 637, 112005.

    (4)Jinxiang Wu, Wanglu Jia*, 2024. Nitrogen isotopic compositions of organic-rich shales (~560 Ma) in the Chengkou region, South China: Implications for a stable and relatively large nitrate reservoir of the late Ediacaran ocean. Journal of Asian Earth Sciences 260, 105969.

    (5)Xiaodong Liu, Qiang Wang, Wanglu Jia*, Jianzhong Song, Ping’an Peng, 2023. Pyrolysis of an organic-rich shale containing type II kerogen before and after oil generation and expulsion: Implications for the generation of late hydrocarbon and hydrogen gases. Journal of Analytical and Applied Pyrolysis 173, 106105.

    (6)Zhaozhao Tan, Jinxiang Wu, Wanglu Jia*, Jie Li, Brian Kendall, Jianzhong Song, Ping’an Peng, 2023. Molybdenum isotope evidence from restricted-basin mudstones for an intermediate extent of oxygenation in the late Ediacaran ocean. Chemical Geology 623, 121410.

    (7)Zhaozhao Tan, Wanglu Jia*, Jie Li, Lu Yin, Susu Wang, Jinxiang Wu, Jianzhong Song, Ping’an Peng, 2021. Geochemistry and molybdenum isotopes of the basal Datangpo Formation: Implications for ocean-redox conditions and organic matter accumulation during the Cryogenian interglaciation. Palaeogeography, Palaeoclimatology, Palaeoecology 563, 110169.

    (8)Wanglu Jia*, Yangen Huang, Zhongyao Xiao, Ping’an Peng, 2020. Identification and Implications of Trimethyl-n-Alkylbenzenes in Marine Oils from the Deep Tarim Basin. Geofluids, 8842891.

    (9)Qiang Wang, Wanglu Jia*, Chiling Yu, Jianzhong Song, Hui Zhang, Jinzhong Liu, Ping’an Peng, 2020. Potential of light oil and condensates from deep source rocks revealed by pyrolysis of type I/II kerogens after oil generation and expulsion. Energy & Fuels 34, 9262−9274.

    (10)Huijuan Guo, Wanglu Jia*, Ruliang He, Chiling Yu, Jianzhong Song, Ping’an Peng, 2020. Distinct evolution trends of nanometer-scale pores displayed by the pyrolysis of organic matter-rich lacustrine shales: Implications for the pore development mechanisms. Marine and Petroleum Geology 121, 104622.

    (11)Jian Chen, Wanglu Jia*, Chiling Yu, Xiangyun Zhang, Ping’an Peng, 2020. Bound hydrocarbons and structure of pyrobitumen rapidly formed by asphaltene cracking: Implications for oil–source correlation at relatively high maturities. Organic Geochemistry 146, 104053.

    (12)Jian Chen, Wanglu Jia*, Zhongyao Xiao, Ping’an Peng, 2020. Catalytic hydropyrolysis of asphaltenes in marine oil from the Tarim Basin, NW China: Implications to complicated oil charging histories in an old composite basin. Marine and Petroleum Geology 114: 104232.

    (13)Qiang Wang, Yan Qin, Wanglu Jia*, Yunpeng Wang, Wenzheng Zhang, Ping'an Peng, 2018. Density and viscosity of tight oil from Yanchang Formation, Ordos Basin, China and the geochemical controls. Petroleum Science and Technology 36, 1298–1304.

    (14)Huijuan Guo, Ruliang He, Wanglu Jia*, Ping’an Peng, Yuhong Lei, Xiaorong Luo, Xiangzeng Wang, Lixia Zhang, Chengfu Jiang, 2018. Pore characteristics of lacustrine shale within the oil window in the Upper Triassic Yanchang Formation, southeastern Ordos Basin, China. Marine and Petroleum Geology 91, 279–296.

    (15)Wanglu Jia*, Shasha Chen, Xinxu Zhu, Ping’an Peng, Zhongyao Xiao, 2017. D/H ratio analysis of pyrolysis-released n-alkanes from asphaltenes for correlating oils from different sources. Journal of Analytical and Applied Pyrolysis 126, 99–104.

    (16)Huijuan Guo, Wanglu Jia*, Ping’an Peng, Jian Zeng, Ruliang He, 2017. Evolution of organic matter and nanometer-scale pores in an artificially matured shale undergoing two distinct types of pyrolysis: A study of the Yanchang Shale with type II kerogen. Organic Geochemistry 105, 56–66.

    (17)Shasha Chen, Wanglu Jia*, Ping’an Peng, 2016. Carbon isotope analyses of n-alkanes released from rapid pyrolysis of oil asphaltenes in a closed system. Rapid Communications in Mass Spectrometry 30, 1779–1786.

    (18)Jian Zeng, Wanglu Jia*, Ping'an Peng, Chengguo Guan, Chuanming Zhou, Xunlai Yuan, Shasha Chen, Chiling Yu, 2016. Composition and pore characteristics of black shales from the Ediacaran Lantian Formation in the Yangtze Block, South China. Marine and Petroleum Geology 76, 246–261.

    (19)Wanglu Jia, Qiuling Wang, Jinzhong Liu, Ping’an Peng*, Baohua Li, Jialan Lu, 2014. The effect of oil expulsion or retention on further thermal degradation of kerogen in the high maturity stage: A pyrolysis study of type II kerogen from Pingliang shale, China. Organic Geochemistry 71, 17–29.

    (20)Huijuan Guo, Wanglu Jia*, Ping’an Peng, Yuhong Lei, Xiaorong Luo, Ming Cheng, Xiangzeng Wang, Lixia Zhang, Chengfu Jiang, 2014. The composition and its impact on the methane sorption of lacustrine shales from the Upper Triassic Yanchang Formation, Ordos Basin, China. Marine and Petroleum Geology 57, 509–520.

    (21)Wanglu Jia, Qiuling Wang, Ping’an Peng*, Zhongyao Xiao, Baohua Li, 2013. Isotopic compositions and biomarkers in crude oils from the Tarim Basin: Oil maturity and oil mixing. Organic Geochemistry 57, 95–106.

    (22)Wanglu Jia, Zhongyao Xiao, Chiling Yu, Ping’an Peng*, Molecular and isotopic compositions of bitumens in Silurian tar sands from the Tarim Basin, NW China: Characterizing biodegradation and hydrocarbon charging in an old composite basin. Marine and Petroleum Geology, 2010, 27:13–25.

    (23)Wanglu Jia*, Ping'an Peng, Jinzhong Liu. Gas chromatography flow rates for determining deuterium/hydrogen ratios of natural gas by gas chromatography/high-temperature conversion/isotope ratio mass spectrometry. Rapid Communications in Mass Spectrometry, 2008, 22: 2521–2525.

    (24)Jia Wanglu*, Peng Ping’an, Xiao Zhongyao.      Carbon isotopic compositions of 1,2,3,4-tetramethylbenzene in marine oil asphaltenes from the Tarim Basin: Evidence for the source formed in a strongly reducing environment. Science in China, series D, 2008, 51(4): 509–514.

    (25)Jia Wanglu, Peng Ping’an*, Yu Chiling, Xiao Zhongyao, Source of 1,2,3,4-tetramethylbenzene in asphaltenes from the Tarim Basin. Journal of Asian Earth Sciences, 2007, 30: 591–598.

    (26)Jia Wanglu*, Peng Ping’an. Molecular structure of kerogens from source rocks of Tarim Basin: A study by Py-GC-MS and methylation-Py-GC-MS. Science in China, series D, 2005, 48(3): 313–325.

    (27)Jia Wanglu*, Shuai Yanhua, Peng Ping’an, Wang Feiyu & Xiao Zhongyao. Kinetic study of hydrocarbon generation of oil asphaltene from Lunnan area, Tabei uplift, Chinese Science Bulletin, 2004, 49 (suppI) :83–88.

    (28)刘萧冬, 贾望鲁, 王强, 陈键, 李进步, 彭平安, 2024. 高压封闭体系中干酪根与油裂解生成氢气的演化特征及其意义. 地球化学.

    (29)朱信旭,王秋玲,陈键,于赤灵,贾望鲁*,肖中尧,彭平安,2019. 塔里木盆地寒武系干酪根催化加氢热解产物中正构烷烃的分布与碳同位素组成特征. 地球化学48(5), 447–457.

    (30)贺儒良,贾望鲁*,彭平安, 2018. 排/留烃过程对富有机质页岩纳米孔隙发育影响的热模拟实验研究. 地球化学47(5): 575–585.

    (31)陈莎莎, 朱信旭, 贾望鲁*, 于赤灵, 彭平安, 2017. 用于单体氢同位素分析的混合溶剂洗脱5Ǻ分子筛吸附正构烷烃的方法. 岩矿测试, 2017, 36(4): 413–419.

    (32)曾建, 贾望鲁*, 彭平安, 关成国, 周传明, 袁训来, 2017. 皖南埃迪卡拉系蓝田组页岩的有机质富集与孔隙发育特征. 地球化学, 2017, 46(2): 158–167.

    (33)郭慧娟,王香增,张丽霞,姜呈馥,贾望鲁*,彭平安,雷裕红,罗晓容,程明. 抽提前/后成熟页岩对氮气、二氧化碳的吸附特征及其对孔隙研究的意义. 地球化学, 2014, 43(4): 408–414.

    (34)贾望鲁, 刘金钟, 彭平安. 辅助器燃烧接口对有机化合物碳同位素测定的影响. 高等学校化学学报, 2012, 33(4): 718–724.

    (35)王秋玲, 贾望鲁*, 彭平安, 杨芝林, 肖中尧. 柯坪隆起阿克苏油苗的地球化学特征及其成因研究. 地球化学,2012,41(1):45–54.

    (36)杨扬,贾望鲁*,彭平安,宋健中,贾望鲁.  离线式的热化学降解技术研究 Pahokee泥炭腐殖酸. 地球与环境,2010,38(4):488–494.

    (37)贾望鲁,彭平安. 塔里木轮南地区原油沥青质的分子结构及其初步应用—热解、甲基化-热解和RICO研究. 地球化学, 2004, 33(2): 139–146

    (38)贾望鲁,彭平安. 凝析油充注对油藏沥青质分子结构的影响:实验模拟. 石油勘探与开发. 2003, 30(6) : 112–116

    (39)贾望鲁,高山,王林森,胡圣虹. 大别-苏鲁超高压变质带榴辉岩部分熔融的证据——微量元素和铅同位素. 地球科学,2003,28(2):121–128

    (40)贾望鲁、高山,华北克拉通后太古宙碎屑沉积岩地球化学研究——三叠纪的成分变化及其意义,地球科学,1999,24(2):204–210

    承担科研项目情况:
  • 国家杰出青年科学基金、中科院先导B