基本情况
姓名:
史兵兵
性别:
男
职务:
/
职称:
学术副教授
所在系别:
矿产地质系
导师类别:
硕士生导师
最高学历:
博士研究生
最高学位:
博士
电话:
15764246073
Email:
Shibingbing@sdust.edu.cn;
Shibingbing1234@126.com
详细情况
所在学科专业:
地质资源与地质工程、地质学
所研究方向:
油气地球化学,油气成藏地质学,烃源岩地球化学,储层地质学
教育经历:
2012.09-2016.06,山东科技大学3044am永利集团3044noc地质工程专业本科,获学士学位;
2016.09-2019.06,山东科技大学3044am永利集团3044noc矿产普查与勘探专业硕士研究生,获硕士学位;
2019.09-2022.06,山东科技大学3044am永利集团3044noc矿产普查与勘探专业博士研究生,获博士学位。
工作经历:
2022.09-现在,山东科技大学,学术副教授
科研项目:
2024-2026,山东省青年科学基金《轻微-强烈生物降解原油中胶质组分的分子特征精细刻画及稠化成因机理研究》,15万,负责人;
2022-2027,山东科技大学“菁英计划”项目,30万,负责人;
2020-2021,2020年度校级研究生科技创新项目《基于GC×GC-TOF MS、HyPy和ESI FT-ICR MS技术对严重-强烈生物降解原油定量分级评价及油源判识》,1万,负责人;
2021-2022,2021年度校级研究生科技创新项目《准噶尔盆地东南缘二叠系烃源岩评价及生烃过程模拟》,0.5万,负责人;
2024-2026,国家自然科学基金项目《多成因要素叠加下的储层固体沥青分子地球化学判识及形成机制》,研究骨干;
2021-2023,国家自然科学基金项目《非常严重-强烈生物降解原油的分子地球化学表征及定量分级评价》,研究骨干;
2019-2021,国家自然科学基金项目《水驱过程中原油组分动态变化的分子地球化学响应及其蚀变机理研究》,研究骨干;
2016-2017,国家自然科学基金项目《C5-C13轻烃地球化学新参数的建立及其油气地质应用探索》,研究骨干;
2023-2024,中国石油勘探开发研究院科研外协项目“米斯布拉克-黑英山地区烃源岩与成藏特征研究”,研究骨干;
2023-2024,中国石化胜利油田勘探开发研究院技术外协项目“惠民凹陷基山砂体成因类型及分布规律研究”,研究骨干;
2022-2023,中国石化胜利油田勘探开发研究院技术外协项目“准噶尔盆地侏罗系烃源岩成烃模式及资源潜力”,研究骨干;
2020-2021,中国石化胜利油田勘探开发研究院技术外协项目“准噶尔盆地东南缘二叠系烃源岩评价标准及生烃过程模拟”,研究骨干;
2020-2021,中国石化胜利油田勘探开发研究院技术外协项目“车排子凸起中生界油气成藏期次与运聚规律研究”,研究骨干;
2019-2020,中国石化胜利油田勘探开发研究院技术外协项目“莫西庄-永进地区白垩系成藏条件研究”,研究骨干;
2018-2019,中国石化胜利油田勘探开发研究院技术外协项目“车排子地区东翼石炭系成藏期次与原油稠化机理”,研究骨干。
学术论文:
一、首位(导1本2)、唯一通讯论文:
1.Shi, B.B.,Chang, X.C., Xu, Y.D., Wang, Y.R., Mao, L.X., Wang, Y., (2020.12). Origin and migration pathway of biodegraded oils pooled in multiple-reservoirs of the Chepaizi Uplift, Junggar Basin, NW China: insights from geochemical characterization and chemometrics methods.Marine and Petroleum Geology, 122, 104655 [SCI二区];
2.Shi, B.B.,Chang, X.C., Liu, Z.Q., Pang, Y.M., Xu, Y.D., Mao, Li.X., Zhang, P.F., Chen, G., (2021.07). Intelligent identification of Sequence stratigraphy constrained by multi-population genetic algorithm and dynamic time warping technique: A case study of Lower Cretaceous Qingshuihe Formation in hinterland of Junggar Basin (NW China).Basin Research, 33, 2517-2544 [SCI一区] ;
3.Shi, B.B.,Chang, X.C., Yin, W., Li, Y., Mao, L.X., (2019.02). Quantitative evaluation model for tight sandstone reservoirs based on statistical methods - A case study of the Triassic Chang 8 tight sandstones, Zhenjing area, Ordos Basin, China.Journal of Petroleum Science & Engineering, 173, 601-616 [SCI二区,高被引];
4.Shi, B.B.,Chang, X.C., Xu, Y.D., Mao, L.X., Zhang, J.H., Li, Y., (2019.03). Charging history and fluid evolution for the Carboniferous volcanic reservoirs in the western Chepaizi Uplift of Junggar Basin as determined by fluid inclusions and basin modelling.Geological Journal, 55, 2591-2614 [SCI三区];
5.Shi, B.B.,Chang, X.C., Liu, Z.Q., Liu, Y., Ge, T.C., Zhang, P.F., Wang, Y.R., Wang, Y., Mao, L.X., (2021.06). Physical-property cutoffs of tight reservoirs by field and laboratory experiments: a case study from Chang 6, 8-9 in Ordos Basin.Frontiers of Earth Science, 15(3), 471-489 [SCI三区];
6.Chang, X.C.,Shi, B.B.,Liu, Z.Q., Wang, Y., Xu, Y.D., (2021.02). Investigation on the biodegradation levels of super heavy oils by parameter-striping method and refined Manco scale: a case study from the Chepaizi Uplift of Junggar Basin.Petroleum Science, 18, 380-397 [导一本二,SCI一区];
7.Chang, X.C.,Shi, B.B.,Han, Z.Z, & Li, T.T., (2017.08). C5-C13 light hydrocarbons of crude oils from northern Halahatang Oilfield (Tarim Basin, NW China) characterized by comprehensive two-dimensional gas chromatography.Journal of Petroleum Science & Engineering, 157, 223-231 [导一本二,SCI二区];
8.Chang Xiangchun, Tianjiao Liu,Shi, B.B*.,et al.,(2023.10). The shale oil potential of Permian Lucaogou shales (Southeastern Junggar Basin) evaluated by a new quantitative index based on geochemometric methods.Marine and Petroleum Geology156,106434 [通讯作者,SCI二区];
9.Xiangchun Chang, Xiaoman Liu,Shi, B.B*.,Tianjiao Liu, Youde Xu, Zhongquan Liu, Guo Chen, Pengfei Zhang.(2022.12).Biodegradation levels of oils from the Chepaizi Uplift, Junggar Basin (NW China) evaluated by a full-range biodegradation index as constrained by adamantane, diamantane homologs and carboxylic acids.Marine and Petroleum Geology,146,105939.[通讯作者,SCI二区];
10.Chang Xiangchun, Tianjiao Liu,Shi, B.B*.,et al.,(2022.12). NSO-bearing compounds in severely–extremely biodegraded crude oil revealed by ESI(-) FT-ICR MS.Energy Reports9, 1077-1092[通讯作者,SCI二区];
11.Chang Xiangchun,Ge Tianchen,Shi, B.B*.,Zhongquan Liu, Youde Xu, Yue Wang. 2022.Application of biomarker recovery method for oil-source correlation in severe to extreme biodegradation in eastern Chepaizi Uplift, Junggar Basin (NW China).Energy Reports, 8:11865-11884.[通讯作者,SCI二区];
12.史兵兵,常象春,尹伟,毛礼鑫(2020.02).鄂尔多斯盆地镇泾地区长8致密储层成藏期临界物性厘定.沉积学报, 38(1), 231-243 [中文核心,CSCD];
13.Liu, Z.Q.,Shi, B.B*.,Ge, T.C., Wang, Y., Zhang, P.F., Chang, X.C., Liu, Y., Wang, Y.R.,(2022.10). Tight sandstone reservoir sensitivity and damage mechanism analysis: A case study from Ordos Basin, China and implications for reservoir damage prevention,Energy Geoscience,3(4): 394-416.[通讯作者,EI].
二、其他作者论文:
14.Pang, Y.M.,Shi, B.B.,Guo, X.W., Zhang, X.H., Cai, L.X., Han, Z.Z., Xiao, G.L., Chang, X.C., (2021). Source–reservoir relationships and hydrocarbon charging history in the central uplift of the south Yellow Sea basin (East Asia): Constrained by machine learning procedure and basin modeling.Marine and Petroleum Geology, 123, 104731(SCI二区);
15.Chang, X.C., Wang, Y.,Shi, B.B.,Xu, Y.D., (2019). Charging of Carboniferous volcanic reservoirs in the eastern Chepaizi Uplift, Junggar Basin (NW China) constrained by oil geochemistry and fluid inclusion.AAPG Bulletin, 103, 1625-1652(SCI二区);
16.Xu, Y.D., Chang, X.C.,Shi, B.B.,Wang, Y., & Li, Y. (2018). Geochemistry of severely biodegraded oils in the carboniferous volcanic reservoir of the Chepaizi Uplift, Junggar Basin, NW China.Energy Exploration & Exploitation, 36, 1461-1481 [SCI四区];
17.Pang, Y.M., Guo, X.W.,Shi, B.B.,Zhang, X.H., Cai, L.X., Han, Z.Z., Xiao, G.L., Chang, X.C., (2020). Hydrocarbon generation evaluation, burial history, and thermal maturity of the Lower Triassic-Silurian organic-rich sedimentary rocks in the Central Uplift of the South Yellow Sea Basin, East Asia.Energy & Fuels, 34, 4565-4578 [SCI二区];
18.Pang, Y.M.,Shi, B.B.,Guo, X.W.,Zhang, X.H.,et al.,(2023). Machine learning algorithm optimization for intelligent prediction of rock thermal conductivity: A case study from a whole-cored scientific drilling borehole.Geothermics,111,102711[SCI二区];
19.Wang, Y., Chang, X.C., Sun, Y.Z.,Shi, B.B.,Qin, S.J., (2020). Investigation of fluid inclusion and oil geochemistry to delineate the charging history of Upper Triassic Chang 6, Chang 8, and Chang 9 tight oil reservoirs, Southeastern Ordos Basin, China.Marine and Petroleum Geology, 113, 104115 [SCI二区];
20.Mao, L.X., Chang, X.C., Xu, Y.D.,Shi, B.B.,Gao, D.K., (2020). Geochemical characterization and possible hydrocarbon contribution of the Carboniferous interval natively developed in the Chepaizi Uplift of Junggar Basin, NW China.Energy Exploration & Exploitation, 38, 654-681. [SCI四区];
21.Wang, Y.R., Chang, X.C., Sun, Y.Z.,Shi, B.B.,Qin, S.J., (2020). Timeframe of hydrocarbon migration in the Paleogene Shahejie Formation in the Dongying depression, Bohai Bay Basin (northeastern China) based on fluid inclusions and oil geochemistry.Journal of Petroleum Science & Engineering, 193, 107428 [SCI三区];
22.Li, Y., Chang, X.C., Yin, W., Wang, G.W., Zhang, J.L.,Shi, B.B.,Zhang, J.H., Mao, L.X., (2019). Quantitative identification of diagenetic facies and controls on reservoir quality for tight sandstones: A case study of the Triassic Chang 9 oil layer, Zhenjing area, Ordos Basin.Marine and Petroleum Geology, 102, 680-694 [SCI二区];
23.Wang, Y., Chang, X.C., Liu, Z.Q.,Shi, B.B.,Zhang, P.F., Xu, Y.D., 2020. New Insights on the Petroleum Migration and Accumulation in the Basal Conglomerate Reservoir of Cretaceous Qingshuihe Formation of Yongjin area, Central Junggar Basin. Geological journal, 56, 4429–4450 [SCI三区];
24.Wang, Z.Y., Chang, X.C., Liu, Z.Q., Pang, Y.M., Xu, Y.D.,Shi, B.B.,Mao, L.X., 2022. Sediment provenance and facies characteristics of the Lower Cretaceous Qingshuihe Formation in the hinterland of Junggar Basin (NW China) and its exploration implications. Arabian Journal of Geosciences 15, 635. [SCI四区];
25.Liu, Z.Q., Chang, X.C*., Xu, Y.D.,Shi, B.B.,Zeng, Z.P., Zhang, P.F., (2022). Depositional environment, age determination and source diagnose of oils from the western Chepaizi Uplift (Junggar Basin) constrained by molecular biomarkers.Journal of Petroleum Science and Engineering, 214, 110495 [SCI三区];
26.Wang, Z.Y., Chang, X.C., Xu, Y.D.,Zhang, P.F.,Shi, B.B.,et al.,2023. Origin of Mesozoic Biodegraded Crude Oils from the Eastern Chepaizi Uplift (Junggar Basin) Constrained by the Biomarker Recovery Method. Energy Fuels 37, 3, 1975–1997[SCI三区];
27. Zhang, G.L., Yang, Y.Q., Liu, T.J., Xu, Y.D., Chang, X.C., Qu, Y.S.,Shi, B.B., Yang, B, Song, T, 2023.Hydrocarbon source rock evaluation of the Lucaogou shale in periphery of Bogeda Mountain (SE Junggar Basin, China) and its implications for shale oil exploration: insights from organic geochemistry, petrology and kinetics pyrolysis.Processes.[SCI三区];
28.吕心婷,王婷男,邹庆超,史兵兵,常象春, 2021.基于优化Manco法的车排子凸起原油生物降解程度定量评价.西安石油大学学报(自然科学版), 36(6):23-29. [中文核心];
29.苏蕾,常象春,徐佑德,柳忠泉,史兵兵, 2022.车排子凸起东翼中生界原油生物降解程度评价.沉积学报.
https://doi.org/10.14027/j.issn.1000-0550.2022.140 [中文核心,CSCD];
30.刘烨,常象春,陈果,冯乔,史兵兵,葛天晨, 2022.基于有机-无机地球化学约束的胶莱盆地下白垩统莱阳群沉积环境重建.西安石油大学学报(自然科学版), 37(6): 22-31. [中文核心].
著作教材:
1.史兵兵,张奎华,徐佑德,常象春,刘天娇(2023.12).轻微-强烈生物降解原油的分子地球化学精细表征-以准噶尔盆地车排子凸起为例.地质出版社[专著];
2.常象春,徐佑德,石好果,史兵兵, (2019.12).准噶尔盆地车排子凸起石炭系火山岩油气藏形成与富集.地质出版社[专著].
发明专利:
1.史兵兵,常象春,刘天娇.一种用于油气微生物研究的模拟装置.
2.史兵兵,常象春,刘天娇.一种基于非负矩阵分解原理及弦图可视化的生物降解稠油油源混元比例定量计算的方法.
3.张金亮,李阳,史兵兵.一种致密油储层成岩相划分方法.
荣誉称号:
[1] 2023年12月,获“山东省优秀博士学位论文”;
[2] 2022年4月,获“山东省优秀毕业生”称号;
[3] 2021年7月,获2020-2021年度“山东省研究生优秀成果奖”三等奖;
[4] 2020年12月,获2019-2020年度“山东省研究生优秀成果奖”三等奖;
[5]2020年12月,获山东省“优秀硕士学位论文”;
[6] 2022年6月,获山东科技大学第17届研究生“十大科技精英”称号(博士期间);
[7] 2019年6月,获山东科技大学第14届研究生“十大科技精英(提名)”称号(硕士期间)。
获奖情况:
一、省部级奖学金:
[1] 2021年12月,获2020-2021年度“研究生国家奖学金”;
[2] 2020年12月,获2019-2020年度“研究生国家奖学金”;
[3] 2017年12月,获山东省“三箭奖学金”;
[4] 2015年12月,获2014-2015年度“国家励志奖学金”。
二、竞赛获奖:
[5]2016年获APMCM亚太地区数学建模竞赛二等奖;
[6]2017年获第七届MathorCup大学生数学建模挑战赛三等奖;
[7]2017年获全国油气地质大赛知识竞赛三等奖;
[8] 2017年获MCM美国大学生数学建模竞赛三等奖.
社会兼职:
ACS Earth and Space Chemistry、ACS Omega等期刊审稿人