陈中红(教授)

发布时间:2018-12-23浏览次数:245

»姓名:陈中红

»系属: 资源系

»学位:博士

»职称:教授

»专业:地质资源与地质工程

»导师类别: 博导

»电子邮箱:hongczh@163.com

»联系电话:15966825759

»通讯地址:青岛市经济开发区长江西路66

»概况

研究方向

油气成藏机理,油气地球化学

教育经历

(1)2002.09–2005.06, 中国石油大学(华东),地质资源与地质工程,博士

(2)1999.09–2002.06, 石油大学(华东),矿产普查与勘探,硕士

(3)1995.09–1999.06, 石油大学(华东),矿产普查与勘探,学士


工作经历

(1)2016.01-至今,中国石油大学(华东),地球科学与技术学院资源系,教授

(2)2014.06-2016.10, 中国石油大学(北京),油气资源与探测国家重点实验室,博士后

(3)2009.06-2010.06, 美国斯坦福大学,访问学者

(3)2009.01-2015.12, 中国石油大学(华东),地球科学与技术学院资源系,副教授

(4)2005.07-2008.12, 中国石油大学(华东),地球科学与技术学院资源系,讲师


学术兼职

美国石油地质学家学会AAPG会员,美国能源与矿物学会EMD会员,《地质科技情报》编委


主讲课程

本科生:油气地球化学

研究生:应用地球化学


指导研究生

学术硕士及专业硕士:18名,工程硕士:6名;外籍硕士:2名;博士后:1


承担项目

  • 1.国家自然科学基金石油化工联合基金重点项目,陆相湖盆页岩油储层形成演化过程与成因机制,U17622172018/1-2021/12,参与

  • 2.中国科学院A类战略性先导科技专项,XDA14010305,塔里木盆地重点地区深层油气运移机理与富集模式,2017/1-2021/12,参与

  • 3.国家自然科学基金项目,41572120,深层高-过成熟天然气藏来源,原位裂解成因判别及其古油藏充注途径示踪研究:以乐山-龙女寺古隆起为例,2016/01-2019/12,主持

  • 4.中石油新疆油田委托项目,XJ2017058,车拐地区火山岩油气成藏规律,2016/10-2017/12,主持

  • 5.国家自然科学基金项目,41272140,湖相页岩体油气赋存机制与含油气性定量表征,2013/01-2016/12,主持

  • 6.中石化胜利油田委托项目,SL2013078,埕岛地区油气富集规律与勘探实践,2013/10-2014/05,主持

  • 7.中石化胜利油田委托项目,SL2012156,哈山地区二叠系源岩演化与资源潜力,2012/10-2013/10,主持

  • 8.山东省自然科学基金项目,ZR2011DM004,山东东部湖相页岩气形成机制与成藏条件,2011/1-2013/12,,主持

  • 9.中石油新疆油田委托项目,XJ2011006,准噶尔盆地火山岩油气成藏机理与勘探实践,2011/01-2013/12,参与

  • 10.中石油新疆油田委托项目,XJ2011007,准噶尔盆地中拐地区二叠系致密砂岩气藏成藏机理,2011/01-2012/12,参与

  • 11.中石化胜利油田委托项目,SL2011125,烃源岩排烃物理模拟实验,2011/01-2011/10,主持

  • 12.国家自然科学基金项目,40802026,超压湖盆原油裂解成气门限及动力学模型,2008/01-2011/12,主持

  • 13.山东省自然科学基金,ZR2008DM007,山东东部超压湖盆裂解气形成机制及资源潜力研究,2008/01-2011/12,主持

  • 14.中石化胜利油田委托项目,SL2006012,胜利山东探区中深层天然气富集控制因素与勘探方向研究,2006/01-2008/12,参与


获奖情况

  • 2018年,AAPGBulletin Outstanding Reviewer.

  • 2015年,第十五届青年地质科技奖银锤奖

  • 2015年,山东省青年地质科技奖

  • 2013年,山东省科技进步一等奖(9/12)

  • 2013年,教育部科技进步二等奖(9/15)

  • 2017年,中国石油和化学工业联合会科技进步二等奖(3/10)

  • 2017年,青岛市政府科技进步一等奖(2/10

  • 2013年,全国有机地化学术会议中青年优秀论文奖

  • 2011年,全国有机地化学术会议中青年优秀论文奖


荣誉称号

中国石油大学(华东)青年拔尖人才


著作(7部,第一作者两部)

    • 陈中红,查明.盆地流体与油气成藏.北京:科学出版社,2013

    • 陈中红,查明.断陷湖盆烃源岩排烃机理与模型.山东:中国石油大学出版社,2011

    • 油气地球化学(教材),石油工业出版社,参编。

论文(合100余篇,近五年部分如下)

  1. ChenZ.H.*,Wang,T.-G.Li,M.J.*, Yang, F.L., Cheng, B. 2018. Biomarker geochemistry ofcrude oils and Lower Paleozoic source rocks in the Tarim Basin,western China: An oil-source rock correlation study.Marine andPetroleum Geology, 96:94-112.

  2. ChenZ.H.*,Simoneit, B.R.T., Wang, T.G., Ni, Z.Y., Yuan, G.H., 2018.Molecular markers, carbon isotopes, and rare earth elements ofhighly mature reservoir pyrobitumens from Sichuan Basin,southwestern China: Implications for PreCambrian-Lower Cambrianpetroleum systemsPrecambrian Research 317, 33-56

  3. ChenZ.H.*,Jian, W.B., Zhagn, L.Y., Zha, M., 2018. Organic matter, mineralcomposition, pore size, and gas sorption capacity of lacustrinemudstones Implications for the shale oil and gas exploration inthe Dongying depression.AAPGBulletin, v. 102, no. 8, pp. 1565–1600.

  4. ChenZ.H*.,2018. Biomarker signatures of Sinian bitumens in theMoxi–Gaoshiti Bulge of Sichuan Basin, China: Geologicalsignificance for paleo-oil reservoirs: Reply. PrecambrianResearch 314, 94-112.

  5. Cheng,B*.,ChenZ.H*.,Chen, T., Yang, C.Y., Wang, T-G, 2018. Biomarker signatures ofthe Ediacaran–Early Cambrian origin petroleum from the centralSichuan Basin, South China: Implications for source rockcharacteristics.Marineand Petroleum Geology 96, 577–590.

  6. Yang,C.Y., Ni, Z.Y., Li, M.J.*.,Wang, T_G., Chen,Z.H.,Hong, H.T., Tian, X.W., 2018. Pyrobitumen in South China: Organicpetrology, chemical composition and geological significance.International Journal of Coal Geology 188 (2018) 51–63. 5/7

  7. Yang,C.Y., Ni, Z.Y.*,Wang, T_G., Chen,Z.H.,Hong, H.T., Long, W., Luo, B., Wang, W.Z., 2018.Anew genetic mechanism of natural gas accumulation. ScientificReports 8: 8336 | DOI:10.1038/s41598-018-26517-y.

  8. Cheng,B.*,Tan, W.J., Wu, Z.P., Chen,Z.H.,2018. Polycyclic aromatic hydrocarbon in solid reservoir bitumenfrom the central Sichuan Basin.PetroleumScience and Technology 36(12),  875-881.

  9. ChenZ.H*.,Simoneit, B.R.T., Wang, T.G., Yang, Y.M., Ni, z.y., Cheng, B.,Luo, B., Yang, C.Y., Chen, T. Biomarker signatures of Sinianbitumens in the Moxi–Gaoshiti Bulge of Sichuan Basin, China:Geological significance for paleo-oil reservoirs. PrecambrianResearch 296 (2017) 1–19

  10. ChenZ.H*,Yang, Y.M., Wang, T.G., Cheng, B., Li, M.J., Luo, B., Chen, Y.,Ni, Z.Y., Yang, C.Y., Chen , T., Fang, R.H., Wang, M.Dibenzothiophenes in solid bitumens: Use of molecular markers totrace paleo-oil filling orientations in the Lower Cambrianreservoir of the Moxi–Gaoshiti Bulge, Sichuan Basin, southernChina. Organic Geochemistry 108 (2017) 94–112.

  11. ChenZ.H*.,Wang, X.Y., Wang, X.L., Zhang, Y.Q., Yang, D.S., Tang, Y.Characteristics and petroleum origin of the Carboniferousvolcanic rock reservoirs in the Shixi Bulge of Junggar Basin,western China. Marine and Petroleum Geology, 2017, 80, 517-537.

  12. Yuan,G.H.*,Cao, Y.C., Qiu, L.W., Chen,Z.H., 2017.Genetic mechanism of high-quality reservoirs in Permian tight fandelta conglomerates at the northwestern margin of the JunggarBasin, northwestern China. AAPG Bulletin. AAPG Bulletin, V. 101,No. 12, p. 1995-2019. 4/4.

  13. Ni,Z.Y.*,Wang, T_G., Li, M.J., Chen,Z.H.,Ou, G.X., Cao, Z.C., 2017. Natural gas characteristics, fluidevolution, and gas charging time of the Ordovician reservoirs inthe Shuntuoguole region, Tarim Basin, NW China. GeologicalJournal 53, 1–13. 4/6

  14. ChenZ.H*.,Simoneit, B.R.T., Wag, T.G., Huang, W., Yan, D.T., Ni, Z.Y., Liu,K.Y. Effects of high temperatures on biomarker ratios duringoil-to-gas cracking experiments at two pressures. OrganicGeochemistry, 2016, 101,108-131.

  15. ChenZ.H*.,Wang,X.L., Zha, M., Zhang, Y.Q., Cao, Y.C., Yang, D.S., Wu, K.Y.,Chen, Y., Yuan, G.H. Characteristics and Formation mechanisms oflarge volcanic rock oil reservoirs: A case study of theCarboniferous rocks in the Kebai Fault zone of Junggar Basin.AAPG Bulletin, 2016, 100(10), 1585-1617.

  16. ChenZ.H*.,Huang, W., Liu, Q., Zhang, L.Y., Zhang, S.C. Geochemicalcharacteristics of the Paleogene shales in the DongyingDepression, eastern China. Marine and Petroleum Geology, 2016,73: 249-270.  

  17. ChenZ.H*.,Zha, M., Liu, K.Y., Zhang, Y.Q., Yang, D.S., Tang, Y., Wu, K.Y.,Chen, Y. Origin and accumulation mechanisms of petroleum in theCarboniferous volcanic rocks of the Kebai Fault zone, WesternJunggar Basin, China. Journal of Asian Earth Sciences, 2016,127,170-196.

  18. ChenZ H*.,Liu, W., Zhang, Y., Yan, D.T., Yang, D.S., Zha, M., Li, L.Characterization of the paleocrusts of weathered carboniferousvolcanics from the Junggar Basin, western China: Significance asgas reservoirs. Marine and Petroleum Geology, 2016, 77, 216-234.

  19. ChenZ H*,Cao Y C, Wang X L., Qiu L W., Tang Y. Oil origin and accumulationin the Paleozoic Chepaizi–Xinguang field, Junggar Basin,China. Journal of Asian Earth Sciences 115 (2016) 1–15.

  20. Cheng,B*.,Wang, T-G, ChenZ.H., Chang,X.C., Yang, F.L., 2016.Biodegradationand possible source of Silurian and Carboniferous reservoirbitumens from the Halahatang sub-depression, Tarim Basin, NWChina. Marine and Petroleum Geology 78, 236-246. 3/5.

  21. Chen,Z.H*,Wang, TG, Liu Q, Zhang SC., Zhang L.Y. Quantitative evaluation ofpotential organic-matter porosity and hydrocarbon generation andexpulsion from mudstone in continental lake basins: A case studyof Dongying sag, eastern China, Marine and Petroleum Geology 66(2015) 906-926.

  22. ChenZ H*,Wang T.-G., Yan D T. Changes in Concentration and Distribution ofBiomarkers in Biodegraded Oils from Dongying Depression, China.Appl Biochem Biotechnol (2015) 177:713–73.

  23. Chen Z H*,Huang W, Sun T K, Wang X Y, Chen Z Q. Prediction of element andclay mineral content in lacustrine mudstone using logging data:an example from Dongying Depression. Aata Geologica Sinica(English Edition), 2015, 89, 378-382.

  24. Yan,D.T.*,Wang, H., Fu, Q.L., Chen,Z.H.,He, J., Gao, Z., 2015.Organic matter accumulation of LateOrdovician sediments in North Guizhou Province, China: Sulfurisotope and trace element evidences. Marine and Petroleum Geology59,348-358.  4/6.

  25. Yan,D.T.*,Wang, H., Fu, Q.L., Chen,Z.H.,He, J., Gao, Z., 2015.Geochemical characteristics in the LongmaxiFormation (Early Silurian) of South China: Implications fororganic matter accumulation. Marine and Petroleum Geology 65,290-301, 4/6.

  26. ChenZ H*,Ma Z J, Zha M, Sha X Y, Zhang S C. The effects of high pressureon oil-to-gas cracking during laboratory simulation experiments.Journal of Petroleum Geology, 2014, 37, 2, 143-162.

  27. ChenZ H*,Cao Y C, Ma Z J, Jiang W B. Geochemistry and origins of naturalgases in the Zhongguai area of Junggar Basin, China. Journal ofPetroleum Science and Engineering, 2014, 119:17-27.

  28. ChenZ H,Zhang S C, Zha M. Geochemical evolution during cracking of crudeoil into gas under different pressure systems. Science China:Earth Sciences, 2014,573:480–490.

  29. ChenZ H,Ma Z J., Zha M. Evolution and kinetics of cracking gas fromlacustrine oil by laboratory simulation, Aata Geologica Sinica(English Edition), 2013, 87, 541-543

  30. ChenZ H,Jiang W B., Zha M., Zhang Y S and Bao Y S. Petterpane triterpanealteration in biodegraded heavy oils from Dongying depression,China. Aata Geologica Sinica (English Edition), 2013, 87,539-540.


发明专利及软件著作权

发明专利及软件著作权合20余项。