人物經歷
●2008.09—2011.06
西南石油大學,油氣田開發工程,碩士
●2011.09—2014.06 西南石油大學,油氣井工程,博士
●2014.09—2017.12 西南石油大學,石油與天然氣工程,講師
●2017.12—2019.12 西南石油大學,石油與天然氣工程,副教授,碩導
●2019.10—至今 海天水務集團,博士後
●2019.12—至今 西南石油大學,石油與天然氣工程,研究員,博導
研究領域
●深井、超深井鑽井液處理劑及體系研究
●水基鑽井液打長水平段頁岩氣處理劑及體系研究
●複雜地質鑽井條件下的噴、漏、塌、卡、毒、慢及高溫高壓所要求鑽井液解決的關鍵理論、技術及套用工藝研究
●油田廢水無害化處理等研究
研究項目
●國家自然基金-青年科學基金項目,51702270,複雜鹵氧化鉍納米材料調控制備及其光催化處理頁岩氣返排廢液研究,2018-2020,主持
●國家科技部-國家重點研發計畫任務,雙層連續管雙梯度鑽井工藝,2019-2023,主持
●中石油創新基金:基於太陽能驅動的高效油田廢水治理技術研究,2018-2020,主持
●固體表面物理化學國家重點實驗室(廈門大學)開放課題:Bi4O5X2-yXy(X=Cl, Br, I, O≤y≤1)光催化劑合成、表征及光催化廢液降解研究,2018-2019,主持
●油氣藏地質及開發工程國家重點實驗室(西南石油大學)開放課題:固溶體光催化劑可控設計暨降解油田廢水聚合物機理研究,2017/01-2017/12,主持
●中國石油化工股份有限公司勘探分公司,南方海相超深探井鑽完井工作液體系及套用研究2016-2018,主持
●中石化石油工程技術研究院,四川盆地龍馬溪頁岩水平井井壁穩定技術研究,2014-2015,主持
●陝西延長石油(集團)有限責任公司研究院,延長氣田水平井鑽井液關鍵技術研究及套用,2016-2018,主持
●中石化華北石油分公司,大牛地氣田定北區塊儲層保護評價實驗,2014-2015,主持
●陝西延長石油(集團)有限責任公司研究院,主持陸相頁岩裂縫及惡性漏失相關堵漏測試實驗,2018-2019,主持
●中石油西南油氣田工程技術研究院,四川地區複雜地層井壁失穩與對策研究,2019-2020,主持
●中石油新疆油田工程技術研究院,南緣深層抗高溫高密度水基鑽井液及防漏堵漏技術研究,2019-2020,主持
●中石化西北油田分公司,順北5-11H井儲層段鑽井液配方技術服務契約,2019/02-2019/05,主持
●中石化西北油田分公司,主持麥蓋提二區二疊系鑽井液技術研究-玉中2井二疊系承壓技術與抗高鈣鹽水鑽井液技術研究,2017-2018,主持
學術論文
●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.
●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.
● 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.
● Y, Luo P Y, Wang P Q*, et al. Semimetal bismuth mediated UV-vis-IR driven photo-thermocatalysis of Bi4O5I2 for carbon dioxide to chemical energy[J]. Journal of CO2 Utilization, 2018, 23 : 51-60.
●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 I-3(-)/I- redox mediator for enhanced photocatalytic CO2 conversion[J]. Applied Catalysis B: Environmental, 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.(IF=9.446)
●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.(IF=9.446),
●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. (IF=6.214)
●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.(IF=6.047)
●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. (IF=4.784)
●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.(IF=3.708)
●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.(IF=3.299)
●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.(IF=0.239)
●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.(IF=1.955)
●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.(IF=1.479)
●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 & Nano Letters, 2012, 7(8): 838-841.(IF=1.06)
●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.(IF=1.06)
●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.(IF=3.299)
●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.(IF=1.06)
●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.(IF=1.06): elevated conduction band toward photocatalytic reduction of CO2 into hydrocarbon fuels[J]. Catalysis Communications 2013, 38 : 82-85.(IF=3.299)
●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.(IF=1.06)
●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.(IF=3.299)
以上信息參考
發明專利
●白楊,羅平亞,林凌,等. DEP-WELL POLYSULFONATE DRILLING FLUID AND PREPARATION METHOD THEREOF:美國,US 9,926482 B1[P]. 2018-03-27.
●白楊,羅平亞,林凌,等. HIGH-TEMPERATURE CROSS LINKING DEEP-WELL DRILLING FLUID AND PRE-PARATION METHOD THEROF:美國,US15,795,799[P]. 2018-06-26.
●白楊,周瑩,葉立群,等. Photocatalyst for Removing Hydroxypropyl Guar Gum in Flow-Back Fluid of Fracturing Fluid and Preparation Method and Use Thereof:美國,US16,046,128[P].2019-01-22.
●白楊,羅平亞,鄧嘉丁,等. Gel Plugging Slurry for Well Drlling and PreparationMeth-od Thereof.and Slug Plugging Method:美國,US16,154,662[P].2019-03-19.
●白楊,羅平亞,孫金聲,蔣官澄等.MICRO-NANO COMPOSITE PLUGGING AGENT FOR DRILLING FLUID AND PREPARATION METHODTHEREOF:美國,US16,288,721[P].2019-07-02.
●白楊,羅平亞,鄧嘉丁.STRONG PLUGGING DRILLING FLUID SUITABLE FOR SHALE GAS WELLS AND PREOARATION METHOD THEREOF:美國,US15,952,917[P].2019-11-02
●羅平亞,白楊,謝剛.DRILLING FLUID FOR INHIBITING SURFACE HYDRATION OF CLAY AND PREPARATION METHOD THEROF:美國,US10,233,375 B1[P].2019-03-19
●羅平亞,梁大川,王平全,鄧明毅,黃進軍,白楊. PLUGGING AGENT FOR IMPROVING FOR MATION BEARING CAPACITY AND PREPARATION METHOD THEREOF:美國,US15,858,711[P]. 2018-07-10
●白楊,羅平亞,林凌,等.高溫交聯深井鑽井液及其製備方法:中國,ZL201710565460.2[P].2017-11-03.
●白楊,石睍,王平全,等.一種鑽進頁岩用低密度螢光鑽井液:中國,ZL201610136671.X[P].2016-07-06.
●白楊,羅平亞,林凌,等.深井聚磺鑽井液及其製備方法:中國,ZL201710565459.X[P].2017-10-13.
●白楊,石睍,王平全,等.一種彈性微球防塌鑽井液:中國,ZL201610142027.3[P].2016-06-29.
●白楊,石睍,王平全,等.一種鑽進頁岩用低摩阻鑽井液:中國,ZL201610140123.4[P].2016-06-22.
●白楊,石睍,王平全,等.富鉍固溶體光催化劑及其製備方法和套用:中國,ZL201711063714.7[P].2018
-03-23.
●白楊,石睍,王平全,等.一種鑽進頁岩用抗鹽防漏鑽井液:中國,ZL201610517164.0[P].2016-06-28.
●白楊,羅平亞,王平全,等.一種適用於頁岩氣井的鑽井液及其製備方法:中國,ZL201810122623.4[P].2019-01-18.
●白楊,石睍,王平全,等.一種鑽進頁岩用強抑制性鑽井液:中國,ZL201610961270.8[P].2019-03-26.
●白楊,石睍,王平全,等.一種鑽進頁岩用降濾失抑制防塌鑽井液:中國,ZL201610973796.8 [P]. 2019-03-29.
●白楊,敬玉娟,王平全,等.一種頁岩用強抑制性納米封堵水基鑽井液:中國,ZL201610882474.2[P]. 2019-03-26.
●白楊,周瑩,葉立群,等.去除壓裂液返排液中羥丙基胍膠的光催化劑及其製備方法和套用:中國,ZL201810241811.9[P]. 2019-03-26.
●白楊,石晛,王平全等.改性鹵氧化鉍基複合體光催化劑及其製備方法和套用:中國,ZL201711065036.8[P].2018-01-16.
●白楊,王平全,王波,等.一種鑽進頁岩的兩性鉀基聚合醇水基鑽井液:中國,ZL201410850895.8[P]. 2015-05-06.
●白楊,王平全,王波,等.一種鑽進頁岩用低密度水基鑽井液:中國,ZL201410850834.1[P].2015-04-01.
●白楊,王平全,王波,等.一種鑽進頁岩用高密度水基鑽井液:中國,ZL201410852999.2[P].2015-04-15.
●白楊,譚曉華,劉建儀,等.一種油井納米顆粒封竄堵水劑:中國,ZL201110310707.9.[P].2012-01-25.
●王平全,白楊,伊達,等.一種可控膨脹堵漏劑:中國,ZL201110047689.X,[P].2015-11-04.
●王平全,白楊.一種深井、超深井飽和鹽水鑽井液:中國,ZL201110360238.1,[P].2012-06-20.
●王平全,白楊,朱濤,等.一種凝膠排水率測試裝置及測試方法:中國,ZL201310088759.5,[P].2013-06-26.
(3)獎勵與榮譽
●中國石油和化工自動化協會技術發明一等獎,高效光催化材料的研發及在有機廢氣、廢水處理中的套用,排名1,2018
●中國石油和化工自動化協會技術發明二等獎,水基鑽井液微、納米封堵技術及工業化套用,排名4,2016
●中國石油和化學工業聯合會科學技術進步獎二等獎,深部複雜井型隨鑽噴射堵漏與高效完井技術研究及套用,排名4,2017
●四川省科學技術進步獎二等獎,硬脆性頁岩地層井壁穩定性定量評價研究與套用,排名6,2018
●湖北省科學技術進步獎二等獎,深層頁岩氣藏高效改造一體化技術及套用,排名6,2019
●四川省環境保護科學技術獎二等獎,基於太陽能驅動的環境污染治理技術研究及套用,排名1,2017
以上信息參考