职 务:全国重点实验室办公室副主任
职 称:研究员
导师资格:博导
所属部门:油气藏地质及开发工程全国重点实验室
学科专业:石油与天然气工程
研究方向:钻、完井液处理剂、体系及井下复杂情况处理对策研究;油田废水处理等研究
联系方式:13541340183
联系地址:610500四川成都市新都区红宝石官方网站hbs123油气藏地质及开发工程全国重点实验室
国家高层次人才特殊支持计划青年拔尖人才、四川省杰出青年科技人才、四川省“XX计划-天府箐英”、油气藏地质及开发工程全国重点实验室副主任、四川省城镇污水处理技术工程实验室副主任、四川省科青联常务理事、四川省生态文明促进会理事、石油工程钻井液与完井液新技术专家委员、中国石油学会油田化学专家委员。主要从事钻完井液处理剂及体系研发、井下复杂情况处理对策及油田废水处理等研究。近年来主持包括国家自然基金、国家重点研发计划、四川省杰出青年科学基金等各类科研项目50余项,发表SCI\EI论文76篇,4篇入选ESI高被引论文,授权美国发明专利23件、中国国家发明专利79件(转让、转化专利56件),软件著作权4件、实用新型专利9件,获日内瓦国际发明展金奖1项,国家级教学成果二等奖1项,省部级一等奖4项(3项排名1)。2013年获得红宝石官方网站hbs123第三届学生“飞翔奖”科技成就奖,2018年获得红宝石官方网站hbs123第一届教职工“飞翔奖”科技新秀奖,2019年入选首批红宝石官方网站hbs123“双带头人”教师党支部书记工作室党支部书记。
●2008.09-2011.06 红宝石官方网站hbs123,油气田开发工程,硕士
●2011.09-2014.06 红宝石官方网站hbs123,油气井工程,博士
●2014.09-2017.12 红宝石官方网站hbs123石油与天然气工程,讲师
●2017.12-2019.12 红宝石官方网站hbs123石油与天然气工程,副教授、硕导
●2019.10-至今 海天水务集团,博士后
●2019.12-至今 红宝石官方网站hbs123石油与天然气工程,研究员、博导
●2024.01-至今 油气藏地质及开发工程全国重点实验室,副主任
●国家自然科学联合基金项目,U23A2026,深层页岩气水平井井壁岩石结构强化及调控机理研究,2024-2027,参与
●国家自然科学基金面上项目,52274008,深井、超深井水基钻井液失水造壁性与流变性调控机理研究,2023-2026,主持
●国家自然基金-青年科学基金项目,51702270,复杂卤氧化铋纳米材料调控制备及其光催化处理页岩气返排废液研究,2018-2020,主持
●科技部,2019YFA0708300,井筒稳定性闭环响应机制与智能调控方法,2020-2025,主持
●中国石油与天然气集团有限公司与红宝石官方网站hbs123创新联合体,2020CX040102,深井复杂地层井下复杂情况预防及对策研究,2020-2025,主持
●四川长宁天然气开发有限责任公司,石工F1602,长宁区块复杂区域龙马溪组纳微米井壁强化技术服务合同,2023-2025,主持
●四川中页利华新能源科技有限公司,石工F1509,油基钻井液强封堵技术服务合同,2023-2025,主持
●中国石化股份有限公司江汉油田分公司石油工程技术研究院,10351513-23-FW0409-0005,2023-2024年钻井二公司西南油基钻井液强封堵技术服务合同,2023-2025,主持
●中国石油天然气股份有限公司西南油气田分公司工程技术研究院,XNS工程院JS2023-136(13618),工程院2023-2025年高密度钻井液抗盐水、抗酸性气体污染机理及对策研究技术开发合同,2023-2025,主持
●中国石油天然气股份有限公司西南油气田分公司工程技术研究院,XNS工程院JS2023-137(13585),工程院2023-2025年深层页岩气防漏堵漏及提高地层承压能力技术研究技术开发合同,2023-2025,主持
●四川长宁天然气开发有限责任公司,石工F938,长宁区块复杂区域龙马溪组井壁稳定性专项研究及现场试验技术服务合同,2021-2023,主持
●中石油西南油气田工程技术研究院,石工F1440,四川盆地微纳米及智能凝胶高效承压防漏堵漏技术服务合同,2022-2023,主持
●陕西延长石油集团有限责任公司,石工F1149,田百户油区洛河组钻井防漏堵漏措施及工艺项目,2022-2023,主持
●中国石油天然气股份有限公司西南油气田分公司页岩气研究院,石工F847,龙马溪组裂缝性页岩井壁强化技术现场试验合同,2021-2023,主持
●中国石油西部钻探工程有限公司,石工K398,地层承压能力技术研究与封堵剂研发,2022-2023,主持
●四川省科技厅,无,油田含聚污水处理,2020-2022,主持
●中石油西南油气田工程技术研究院,石工K081,四川地区复杂地层井壁失稳与对策研究,2019-2022,主持
(1)SCI文章
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●Bai Y,Nie G Z,Ye L Q. Cu-MOF for effectively organic pollutants degradation and E. coli inactivation via catalytic activation of peroxymonosulfate[J]. Journal of the Taiwan Institute of Chemical Engineers,2022,132:104154.
●Bai Y,Zhang K,Shi X,et al. New 2D material Ti3C2 and AgBr co-modified BiOBr with improved photocatalytic activity for degradation of organic pollutants[J]. Journal of Materials Science-Materials in Electronics,2020,31(2):1183-1190.
●Bai Y,Zhang K,Shi X,et al. Ultrathin structural BiOI with surface oxygen vacancies for improved photocatalytic degradation of organic pollutants[J]. Journal of Materials Science-Materials in Electronics,2019,30:13425-13433.
●Bai Y,Shi X,Ye L Q,et al. BiOBrxI1−x/BiOBr heterostructure engineering for efficient molecular oxygen activation[J]. Chemical Engineering Journal,2019,356:34-42.
●Bai Y,Luo P Y,Yang B,et al. Ultrathin Bi4O5Br2 nanosheets for selective photocatalytic CO2 conversion into CO[J]. Chemical Engineering Journal,2019,360:473-482.
●Bai Y,Shi X,Wang P Q,et al. Synthesis of one-dimensional Bi5O7Br0.5I0.5 solid solution for effective real oilfield wastewater treatment via exciton photocatalytic process[J]. Journal of the Taiwan Institute of Chemical Engineers,2018,91:358-368.
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●Bai Y,Yang P,Wang P Q,et al. Solid phase fabrication of Bismuth-rich Bi3O4ClxBr1-x solid solution for enhanced photocatalytic NO removal under visible light[J]. Journal of the Taiwan Institute of Chemical Engineers,2018,82:273-280.
●Bai Y,Ye L Q,Wang L,et al. G-C3N4/Bi4O5I2 heterojunction with I3-/I- redox mediator for enhanced photocatalytic CO2 conversion[J]. Applied Catalysis B-Environmental,2016,194:98-104.
●Bai Y,Ye L Q,Chen T,et al. Synthesis of hierarchical bismuth-rich Bi4O5BrxI2-x solid solutions for enhanced photocatalytic activities of CO2 conversion and Cr(VI) reduction under visible light[J]. Applied Catalysis B-Environmental,2017,194:98-104.
●Bai Y,Ye L Q,Wang L,et al. g-C3N4/Bi4O5I2 Heterojunction with I3-/I- Redox Mediator for Enhanced Photocatalytic CO2 Conversion[J]. Applied Catalysis B-Environmental,2016,194:98-104.
●Bai Y,Ye L Q,Chen T,et al. Synthesis of Hierarchical Bismuth-rich Bi4O5BrxI2-x Solid Solutions for Enhanced Photocatalytic Activities of CO2 Conversion and Cr (VI) Reduction under Visible Light[J]. Applied Catalysis B-Environmental,2017,203:633-640.
●Bai Y,Ye L Q,Chen T,et al. Facet-Dependent Photocatalytic N-2 Fixation of Bismuth-Rich Bi5O7I Nanosheets[J]. ACS APPLIEDMATERIALS & INTERFACES,2016,8:41.
●Bai Y,Chen T,Wang P Q,et al. Bismuth-rich Bi4O5X2 (X= Br,and I) nanosheets with dominant {101}facets exposure for photocatalytic H2 evolution[J]. Chemical Engineering Journal,2016,304:454-460.
●Bai Y,Ye L Q,Wang L,et al. A dual-cocatalysts loading Au/BiOI/MnOx system for enhanced photocatalytic greenhouse gases conversion into solar fuels[J]. Environmental Science Nano,2016,3(4):76-93.
●Bai Y,Chen T,Wang P Q,et al. Size-dependent role of gold in g-C3N4/BiOBr/Au system for photocatalytic CO2 reduction and dye degradation[J]. Solar Energy Materials & Solar Cells,2016,157:406-414.
●Bai Y,Wang P Q,Liu J Y,et al. Enhanced photocatalytic performance of direct Z-scheme BiOCl–g-C3N4 photocatalysts[J]. RSC Advances 2014,37:19456-19461.
●Bai Y,Luo P Y,Wang P Q,et al. Synthesis of uniform anatase TiO2 microspheres with exposed {001} facets:without HF utilization and it’s photocatalytic selectivity[J]. Catalysis Communications,2013,37:45-49.
●Bai Y,Luo P Y,Wang P Q,et al. Studies on preparation and photocatalytic degrading pollutants of polythiophene/TiO2 composite particles[J]. Asian Journal of Chemistry,2013,25(6):369-3372.
●Bai Y,Luo P Y,Wang P Q,et al. Miscibility,thermal and mechanical properties of poly(paradioxanone)/poly(lactic-co-glycolic acid) blends[J]. Journal of Polymers and the Environment.
●Bai Y,Ma C,Wang P Q,et al. Effect of particle size and surface modification on mechanical properties of poly(para-dioxanone)/inorganic particles[J]. Polymer Composites,2012,(10):1700-1706.
●Wang P Q,Bai Y,Liu J Y,et al. Facile synthesis and activity of daylight-driven plasmonic catalyzer Ag/AgX (X=Cl,Br)[J]. Micro undefinedamp:Nano Letters,2012,7(8):838-841.
●Wang P Q,Bai Y,Liu J Y,et al. N,C-codoped BiOCl flowerlike hierarchical structures[J].
Micro & Nano Letters,2012,(9):876-879.
●Wang P Q,Bai Y,Liu J Y,et al. One-pot synthesis of rutile TiO2 nanoparticle modified anatase TiO2 nanorods toward enhanced photocatalytic reduction of CO2 into hydrocarbon fuels[J]. Catalysis Communications,2012(29):185-188.
●Wang P Q,Bai Y,Liu J Y,et al. Synthesis of BiOI Nanobelt and It’s Visible Light Photocatalytic Activity[J]. Micro & Nano Letters,2013,8(2):99-101.
●Wang P Q,Bai Y,Luo P Y,et al. Ag2O/Ag3PO4 heterostructures:highly efficient and stable visible-light-induced photocatalyst for the degradation of methyl orange and phenol[J]. Micro & Nano Letters,2013,8(7):340-344.
●Liu J Y,Bai Y,Wang P Q. Photocatalytic degradation of phenol using Au/Bi2WO6 composite microspheres under visible light irradiation[J]. Micro & Nano Letters,2013,8:90-93.
●Liu J Y,Bai Y,Luo P Y,et al. One-pot synthesis of graphene-BiOBr nanosheets composite for enhanced photocatalytic generation of reactive Oxygen species[J]. Catalysis Communications,2013,42:58-61.
(2)发明专利
●白杨,吴凌风,徐文,等.Leak-proof lost-circulation control water-based drilling fluid composition and preparation method and use thereo:US11542425B1f[P]. 2023-01-03.
●白杨,刘德秩,李文哲,等.Preparation method of fully adaptive modified nanographene plugging type anti-collapse drilling fluid and use thereof:US11525079B1[P]. 2022-12-13.
●白杨,李道雄,罗平亚,等.Oil-based drilling fluid composition,oil-based drilling fluid and preparation method and use thereof:US114485896B2[P]. 2022-11-01.
●白杨,刘春艳,罗平亚,等.Modified polyvinyl acetate and preparation method and use thereof and oil-based drilling fluid:US11441062B1[P]. 2022-09-13.
●白杨,吴凌风,罗平亚,等.Pressure-bearing plugging composition,pressure-bearing plugging slurry and preparation method and use thereof:US11396621B1[P]. 2022-07-26.
●白杨,吴凌风,罗平亚,等.Fiber silica composite microsphere for shale stratum,drilling fluid and preparation method and use thereof:US11345841B1[P]. 2022-05-31
●白杨,罗平亚,程焱,等. Nanometer plugging water-based drilling fluid and preparation method and use thereof:US11162010B2[P]. 2021-11-02.
●白杨,程焱,罗平亚,等. Method and system for obtaining micro-nano level fracture model and evaluating plugging performance of drilling fluid:US10989576B1[P]. 2021-04-27.
●白杨,罗平亚,蒋官澄,等. Multi-functional weighting agent for drilling fluid and preparation method thereof,and water-based drilling fluid and use thereof:US10865337B1[P]. 2020-12-15.
●白杨,罗平亚,李成,等. Micro-nanometer plugging anti-collapse drilling fluid and preparation method and use thereof:US10829679B1[P]. 2020-11-10.
●白杨,罗平亚,李国军,等. Modified nano-silica plugging agent,water-based drilling fluid,and preparation method and use thereof:US10829681B1[P]. 2020-11-10.
●白杨,李成,李国军,等.Strong plugging drilling fluid composition and preparation method thereof,and use thereof:US10533122B1[P]. 2020-01-14.
●白杨,罗平亚,孙金声,等. Expandable plugging agent and preparation method thereof,micro-capsule plugging agent,water-based drilling fluid,and use thereof:US10487255B1[P]. 2019-11-26.
●白杨,罗平亚,孙金声,等. Micro-nano composite plugging agent for drilling fluid and preparation method thereof,and drilling fluid and use thereof:US10336932B1[P]. 2019-07-02.
●白杨,罗平亚,邓嘉丁,等. Gel plugging slurry for well drilling and preparation method thereof,and slug plugging method:US10233377B1[P]. 2019-03-19.
●白杨,周莹,叶立群,等. Photocatalyst for removing hydroxypropyl guar gum in backflow fluid of fracturing fluid,preparation method for photocatalyst,and applications thereof:US10183280B1[P]. 2019-01-22.
●白杨,罗平亚,林凌,等.High-temperature cross-linking deep-well drilling fluid and preparation method thereof:US10005946[P]. 2018-06-26.
●白杨,罗平亚,林凌,等. Deep-well polysulfonate drilling fluid and preparation method thereof:US9926482B1[P]. 2018-03-27.
●白杨,罗平亚,张浩,等. Drilling fluid for enhancing stratum pressure bearing capacity and preparation method and method of using thereof:US11225594B1[P]. 2018-01-18.
●白杨,柳新国,李文哲,等.一种抗高温聚合物钻井液:ZL202210333015.4[P]. 2023-12-01.
●白杨,李道雄,罗平亚,等.纳米石墨烯及其制备方法与应用以及油基钻井液:ZL202210920684.1[P]. 2023-10-20.
●白杨,吴凌风,张靖,等.一种防漏堵漏水基钻井液组合物及其制备方法和应用:ZL202210173339.6[P]. 2023-04-11.
●白杨,常爽,刘宇程,等.一种压裂支撑剂、制备方法及应用:ZL202210487173.5[P]. 2023-03-21.
●白杨,刘德秩,张靖,等.一种全适应改性纳米石墨烯封堵型防塌钻井液制备方法和其应用:ZL202111501327.3[P]. 2022-12-20.
●白杨,程焱,罗平亚,等.获取评价模型的方法与系统及评价方法与评价系统:ZL202010054631.7[P]. 2022-06-17.
●白杨,李国军,邓明毅,等.纳米封堵水基钻井液及其制备方法和应用:ZL202010054631.7[P]. 2022-05-06.
●白杨,李道雄,罗平亚,等.油基钻井液组合物、油基钻井液及其制备方法和应用:ZL202110269570.0[P]. 2022-04-19.
●白杨,李宏波,罗平亚,等.一种降滤失剂制备方法、钻井液、钻井液制备方法:ZL202110473294.X[P]. 2022-04-08.
●白杨,张昊,罗平亚,等.提高地层承压能力的钻井液及其制备方法与应用:ZL202011077074.7[P]. 2022-04-08.
●白杨,罗平亚,邓嘉丁,等.承压堵漏剂及其制备方法和应用:ZL202110198747.2[P]. 2022-03-29.
●白杨,罗平亚,邓嘉丁,等.页岩地层用纤维二氧化硅复合微球和钻井液及其制备方法和应用:ZL202110198747.2[P]. 2022-03-29.
●白杨,李国军,邓明毅,等.一种生物可降解环保强抑制钻井液及其制备方法:ZL201910067708.1[P]. 2021-10-22.
●白杨,李成,罗平亚,等.微纳米封堵防塌钻井液及其制备方法和应用:ZL201911215700.1[P]. 2021-10-19.
●白杨,李成,李国军,等.一种强封堵钻井液组合物及其制备方法和其应用:ZL201910418798.4[P]. 2021-10-01.
●白杨,杨萍,叶立群,等.一种可见光下氧化有机硼的Bi/Bi4O5X2(X=Br,I)光催化剂的制备方法:ZL201711108524.2[P]. 2021-03-02.
●白杨,罗平亚,程焱,等.一种钻井液用微纳米复合堵漏剂及其制备方法以及钻井液和其应用:ZL201910013586.8[P]. 2021-01-15.
●白杨,罗平亚,程焱,等.一种膨胀堵漏剂及其制备方法和微胶囊型堵漏剂以及水基钻井液及其应用:ZL201910013586.8[P]. 2020-12-29.
●白杨,罗平亚,邓嘉丁.钻井用凝胶堵漏浆以及堵漏浆的制备方法和段塞堵漏方法:ZL201810812801.6[P]. 2019-12-03.
●白杨,石晛,王平全,等.一种超薄卤氧化铋基固溶体光催化剂及其制备方法和应用:ZL201810594148.0[P]. 2019-11-08.
●白杨,石晛,王平全,等.一种钻进页岩用强抑制性钻井液:ZL201610961270.8[P]. 2019-03-26.
●白杨,石晛,王平全,等.一种钻进页岩用降滤失抑制防塌钻井液:ZL201610973796.8[P]. 2019-03-26.
●白杨,敬玉娟,王平全,等.一种页岩用强抑制性纳米封堵水基钻井液:ZL201610882474.2[P]. 2019-03-26.
●白杨,周莹,叶立群,等.去除压裂液返排液中羟丙基胍胶的光催化剂及其制备方法和应用:ZL201810241811.9[P]. 2019-03-26.
●白杨,罗平亚,王平全,等.一种适用于页岩气井的钻井液及其制备方法:ZL201810122623.4[P]. 2019-01-18.
●白杨,石晛,王平全,等.富铋固溶体光催化剂及其制备方法和应用:ZL201711063714.7[P]. 2018-11-30.
●白杨,石晛,王平全,等.一种钻进页岩用抗盐防漏钻井液:ZL201610517164.0[P]. 2018-11-27.
●白杨,石晛,王平全,等.改性卤氧化铋基复合体光催化剂及其制备方法和应用:ZL201711065036.8[P]. 2018-07-31.
白杨,罗平亚,林凌,等.高温交联深井钻井液及其制备方法:ZL201710565460.2[P]. 2018-07-06.
●白杨,石晛,王平全,等.一种钻进页岩用低密度荧光钻井液:ZL201610136671.X[P]. 2018-06-22.
●白杨,罗平亚,林凌,等.深井聚磺钻井液及其制备方法:ZL201710565459.X [P]. 2018-03-20.
●白杨,石晛,王平全,等.一种弹性微球防塌钻井液:ZL201610142027.3[P]. 2018-02-13.
●白杨,罗平亚,林凌,等.高温交联深井钻井液及其制备方法:ZL201710565460.2[P]. 2017-11-03.
●白杨,石睍,王平全,等.一种钻进页岩用低密度荧光钻井液:ZL201610136671.X[P]. 2016-07-06.
●白杨,罗平亚,林凌,等.深井聚磺钻井液及其制备方法:ZL201710565459.X[P]. 2017-10-13.
●白杨,石睍,王平全,等.一种弹性微球防塌钻井液:ZL201610142027.3[P]. 2016-06-29.
●白杨,石睍,王平全,等.一种钻进页岩用低摩阻钻井液:ZL201610140123.4[P]. 2016-06-22.
●白杨,石睍,王平全,等.富铋固溶体光催化剂及其制备方法和应用:ZL201711063714.7[P]. 2018-03-23.
●白杨,石睍,王平全,等.一种钻进页岩用抗盐防漏钻井液:ZL201610517164.0[P]. 2016-06-28.
●白杨,罗平亚,王平全,等.一种适用于页岩气井的钻井液及其制备方法:ZL201810122623.4[P]. 2019-01-18.
●白杨,石睍,王平全,等.一种钻进页岩用强抑制性钻井液:ZL201610961270.8[P]. 2019-03-26.
●白杨,石睍,王平全,等.一种钻进页岩用降滤失抑制防塌钻井液:ZL201610973796.8[P]. 2019-03-29.
●白杨,敬玉娟,王平全,等.一种页岩用强抑制性纳米封堵水基钻井液:ZL201610882474.2[P]. 2019-03-26.
●白杨,周莹,叶立群,等.去除压裂液返排液中羟丙基胍胶的光催化剂及其制备方法和应用:ZL201810241811.9[P]. 2019-03-26.
●白杨,石晛,王平全等.改性卤氧化铋基复合体光催化剂及其制备方法和应用:ZL201711065036.8[P]. 2018-01-16.
●白杨,王平全,王波,等.一种钻进页岩的两性钾基聚合醇水基钻井液:ZL201410850895.8[P]. 2015-05-06.
●白杨,王平全,王波,等.一种钻进页岩用低密度水基钻井液:ZL201410850834.1[P]. 2015-04-01.
●白杨,王平全,王波,等.一种钻进页岩用高密度水基钻井液:ZL201410852999.2[P]. 2015-04-15.
(3)奖励和荣誉
●国际发明展金奖,Dispositif de surveillance en ligne des parametres de performance multi-sources d'un fluide de forage,排名4,2024
●中国石油和化工自动化应用协会科学技术发明一等奖,深部薄弱地层井壁强化钻井液技术与应用,排名1,2023
●中国石油和化学工业联合会科学技术进步奖一等奖,页岩气水平井长水平段强化井壁关键技术及规模化应用,排名1,2023
●中国石油和化工自动化应用协会技术发明一等奖,高效光催化材料的研发及在有机废气、废水处理中的应用,排名1,2018
●中国石油和化工自动化应用协会专利一等奖,一种抑制黏土表面水化的钻井液及其制备方法,排名2,2022
●中国石油和化工自动化应用协会技术发明二等奖,深井防塌钻井液体系及其无害化处理技术研究与应用,排名1,2020
●中国石油和化学工业联合会技术发明二等奖,西北油田外围区块裂缝性漏失-垮塌地层井筒强化钻井液技术与应用研究,排名2,2021
●中国发明创业成果二等奖,光催化材料制备及其处理油田废水应用,排名3,2022
●湖北省科学技术进步二等奖,深层页岩气藏高效改造一体化技术及应用,排名6,2019
●科学技术进步二等奖,硬脆性页岩地层井壁稳定性定量评价研究与应用四川省人民政府,排名6,2018
●深井、超深井钻井液处理剂及体系研究
●水基钻井液打长水平段页岩气处理剂及体系研究
●复杂地质钻井条件下的喷、漏、塌、卡、毒、慢及高温高压所要求钻井液解决的关键理论、技术及应用工艺研究
●油田废水无害化处理等研究
由罗平亚院士亲自指导,教授、讲师等组成的创新型研究团队。依托红宝石官方网站hbs123“钻井液研究室”——我国由石油部批准建立最早的部省级专业化钻井液研究室,是在罗平亚院士直接指导下发展起来的我国历史最长、科研实力雄厚的专业化钻井液研究室。主要从事钻井液(包含完井液)的作用机理研究,新型处理剂开发与应用,钻井液新体系新技术研究与应用,各种复杂地质钻井条件下的喷、漏、塌、卡、毒、慢及高温高压所要求钻井液解决的关键理论、技术及应用工艺研究。研究特色为:以钻井液工作原理为基础,以解决钻井液技术相关的技术难题为目标,开展各类新型钻井液处理剂研发与新型钻井液体系研究及减少和防止井下复杂与事故钻井液技术。科研成果显著,一直处于本技术领域的研究前沿,在我国钻井液发展史上,对推动我国钻井液技术的发展与进步起到过重要作用和影响。在石油的新型钻井液处理剂研制、新型钻井液体系及应用技术研究、复杂结构井(含水平井)钻井液应用技术、高温高压、复杂地质等苛刻条件下的深井、超深井钻井液和井下安全的重大工程工作液控制理论与技术中,本课题组已经成为我国主要钻井液技术相关领域技术创新和科研攻关的重要依靠力量和技术支撑,促进、引领着我国钻井液技术的发展。近年来团队获国家奖10项,省部级一等奖13项(其中三项被评为中国石油天然气总公司年度十大优秀成果),出版专著6部,发表论文200余篇,培养硕博士150余人。