職 務(wù):實(shí)驗(yàn)室與設(shè)備管理處副處長(zhǎng)
職 稱:教授
導(dǎo)師 資格:博導(dǎo)、碩導(dǎo)
所屬 部門:實(shí)驗(yàn)室與設(shè)備管理處
學(xué)科 專業(yè):油氣田開發(fā)工程
研究 方向:提高油氣采收率、油氣田化學(xué)、儲(chǔ)層保護(hù)與改造
聯(lián)系 方式:[email protected]; [email protected]
聯(lián)系 地址:610500 四川省成都市新都區(qū)西南石油大學(xué)國(guó)家重點(diǎn)實(shí)驗(yàn)室B307(左)
二級(jí)教授,博士生導(dǎo)師,國(guó)家高層次人才特殊支持計(jì)劃青年拔尖人才(2020年)、四川省天府科技菁英(2019年)。獲中國(guó)石油與化學(xué)工業(yè)聯(lián)合會(huì)青年科技突出貢獻(xiàn)獎(jiǎng)(2021年)、霍英東教育基金會(huì)基金獎(jiǎng)勵(lì)(2020年)、四川省杰出青年科技人才(2018年)等榮譽(yù)稱號(hào)。主要從事提高油氣采收率、油氣田化學(xué)、儲(chǔ)層保護(hù)與改造領(lǐng)域研究,在流場(chǎng)表征與調(diào)控、控水堵水、氣驅(qū)防竄、暫堵控漏、井筒封堵和化學(xué)暫堵方面取得了系列創(chuàng)新成果,豐富了石油工程封堵學(xué)理論體系。是全國(guó)高校黃大年式教師團(tuán)隊(duì)骨干,油氣藏地質(zhì)及開發(fā)工程全國(guó)重點(diǎn)實(shí)驗(yàn)室固定研究人員。主持國(guó)家自然科學(xué)基金、四川省杰出青年基金、中國(guó)石油科技創(chuàng)新基金等縱向項(xiàng)目和石油公司委托科技攻關(guān)項(xiàng)目50余項(xiàng)。獲省部級(jí)和社會(huì)力量一等獎(jiǎng)4項(xiàng)(排1、1、6、6)、二等獎(jiǎng)4項(xiàng)(排1、1、2、3)。在石油工程頂級(jí)期刊《石油勘探與開發(fā)》《SPE Journal》《SPE Production & Operations》等上發(fā)表論文90余篇,其中第1/通訊作者76篇,SCI檢索49篇,1篇入選領(lǐng)跑者F5000-中國(guó)精品科技期刊頂尖論文,授權(quán)發(fā)明專利20件。曾任中國(guó)石油學(xué)會(huì)青年工作委員會(huì)第一屆委員,中國(guó)能源學(xué)會(huì)專委會(huì)副主任。擔(dān)任《石油勘探與開發(fā)》編委,《天然氣工業(yè)》《Petroleum》《油氣地質(zhì)與采收率》青年編委。主講《油藏工程》《油層物理》2門本科生課程。指導(dǎo)多名研究生曾獲得四川省國(guó)際互聯(lián)網(wǎng)+大學(xué)生創(chuàng)新創(chuàng)業(yè)大賽金獎(jiǎng)、中國(guó)石油工程設(shè)計(jì)大賽一等獎(jiǎng)、成渝地區(qū)雙城經(jīng)濟(jì)圈留學(xué)生創(chuàng)新創(chuàng)業(yè)大賽二等獎(jiǎng)等重要學(xué)術(shù)競(jìng)賽獎(jiǎng)勵(lì)十余次。
●2002.09-2006.06 江漢石油學(xué)院,石油工程,學(xué)士
●2006.09-2009.06 西南石油大學(xué),油氣井工程,碩士
●2009.09-2012.06 西南石油大學(xué),油氣田開發(fā)工程,博士
●2012.09-2013.02 美國(guó)雪佛龍公司川東北項(xiàng)目部,實(shí)習(xí)工程師
●2012.07-2014.09 西南石油大學(xué),講師
●2015.04-2016.04 美國(guó)得州理工大學(xué),博士后
●2014.10-2018.11 西南石油大學(xué),副教授
●2018.12-至今 西南石油大學(xué),教授
●2024.07-至今 西南石油大學(xué)實(shí)驗(yàn)室與設(shè)備管理處,副處長(zhǎng)
●國(guó)家級(jí)人才項(xiàng)目,非常規(guī)油氣藏提高采收率,2020/10-2023/10,負(fù)責(zé)人
●國(guó)家自然科學(xué)基金原創(chuàng)探索計(jì)劃項(xiàng)目,5215000105,低滲透儲(chǔ)層就地生成氣水分離膜屏障實(shí)現(xiàn)天然氣井選擇性堵水研究,2023/01-2025/12,負(fù)責(zé)人
●霍英東教育基金會(huì)第十七屆高等院校青年教師基金,171043,離子液體納米復(fù)合凝膠的構(gòu)筑及堵水堵漏機(jī)理研究,2020/02-2023/02,負(fù)責(zé)人
●四川省杰出青年基金項(xiàng)目,2019JDJQ0036,油氣鉆采用納米復(fù)合凝膠的構(gòu)效關(guān)系及其封堵適應(yīng)性研究,2019/01-2021/12,負(fù)責(zé)人
●四川省區(qū)域創(chuàng)新合作項(xiàng)目,2020YFQ0036,準(zhǔn)噶爾盆地南緣深層油氣藏鉆完井離子液體凝膠堵漏機(jī)理研究,2020/01-2023/01,負(fù)責(zé)人
●國(guó)家科技重大專項(xiàng),2016ZX050048-007,致密油藏氣驅(qū)封竄工藝評(píng)價(jià)測(cè)試項(xiàng)目,2020/05-2020/12,負(fù)責(zé)人
●國(guó)家科技重大專項(xiàng),2016ZX05027003-007,深層低滲致密儲(chǔ)層解堵增產(chǎn)-高密度測(cè)試液-抗鹽型固化水完井液技術(shù)測(cè)試項(xiàng)目,2016/01-2020/12,負(fù)責(zé)人
●四川省杰出青年學(xué)術(shù)技術(shù)帶頭人培育基金,2015JQO038,注空氣開發(fā)致密油藏氣體-原油體系非平衡擴(kuò)散傳質(zhì)行為及預(yù)測(cè)模型,2015/01-2017/12,負(fù)責(zé)人
●中國(guó)石油科技創(chuàng)新基金,2017D-5007-0202,基于化學(xué)封堵縫網(wǎng)調(diào)控的致密油藏注空氣吞吐開采潛力研究,2017/10-2019/10,負(fù)責(zé)人
●中國(guó)石油科技創(chuàng)新基金,2013D-5006-0201,注空氣原油氧化自燃機(jī)理研究,2013/10-2015/10,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,程海6區(qū)塊水平井控水穩(wěn)油技術(shù)研究與應(yīng)用,2023/12-2024/12,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,稠油油藏水平井選擇性堵水技術(shù)研究,2023/10-2024/12,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,水驅(qū)油藏滲流場(chǎng)表征評(píng)價(jià)與重構(gòu)研究,2023/09-2024/12,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,子長(zhǎng)油田余家坪區(qū)長(zhǎng)2油藏水驅(qū)滲流場(chǎng)動(dòng)態(tài)演化規(guī)律與調(diào)控方法研究,2023/09-2024/12,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,定邊長(zhǎng)4+5油藏注采方式優(yōu)化與控水穩(wěn)油對(duì)策研究,2023/09-2024/12,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,下寺灣采油廠下組合致密油藏低阻力增滲化學(xué)驅(qū)(吞吐)提高采收率研究,2023/09-2024/12,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,干柴溝頁(yè)巖油可動(dòng)性及滲流特征測(cè)試,2023/10-2024/01,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,礫巖油藏CO2驅(qū)立體開發(fā)井網(wǎng)優(yōu)化設(shè)計(jì),2023/06-2024/12,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,涼高山組頁(yè)巖油壓前蓄能參數(shù)優(yōu)化數(shù)值模擬分析,2023/02-2023/07,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,修井作業(yè)過(guò)程中的暫堵壓井液體系研究-暫堵型修井液體系研究,2023/08-2023/11,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,注氣油藏注采井不動(dòng)管柱環(huán)空帶壓治理技術(shù)研究,2022/10-2023/06,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,高強(qiáng)度液流轉(zhuǎn)向劑優(yōu)選與性能評(píng)價(jià),2022//08-2023/08,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,順北二區(qū)儲(chǔ)層傷害機(jī)理及儲(chǔ)層保護(hù)鉆井液技術(shù)優(yōu)化研究,2021/11-2022/12,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,文昌19-1油田非均質(zhì)儲(chǔ)層選擇性化學(xué)堵水適應(yīng)性研究,2020/10-2021/10,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,白239區(qū)水平井控水見效規(guī)律研究,2020/08-2020/12,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,彈性液體膠塞暫堵壓井技術(shù)服務(wù),2020/05-2020/06,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,復(fù)合調(diào)驅(qū)體系評(píng)價(jià)與技術(shù)服務(wù),2019/07-2020/07,主持
●橫向協(xié)作項(xiàng)目,無(wú)自由水彈脆性壓井凍膠研究與技術(shù)服務(wù),2019/03-2019/11,主持
●橫向協(xié)作項(xiàng)目,下古暫堵壓井液現(xiàn)場(chǎng)試驗(yàn)及工藝參數(shù)優(yōu)化研究,2018/06-2019/10,主持
●橫向協(xié)作項(xiàng)目,下古碳酸鹽巖儲(chǔ)層暫堵壓井液研究及性能評(píng)價(jià),2017/06-2018/08,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,低壓儲(chǔ)層降低漏失修井液研發(fā)與試驗(yàn),2018/05-2018/12,主持
●橫向協(xié)作項(xiàng)目,凝膠防漏堵漏技術(shù)研究—高粘度凝膠段塞技術(shù)實(shí)驗(yàn)評(píng)價(jià)與優(yōu)化,2018/03-2018/11,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,塔中北坡高壓氣層鉆井液與固井配套技術(shù)研究—裂縫型地層凝膠延緩漏失實(shí)驗(yàn)評(píng)價(jià),2017/06-2018/12,負(fù)責(zé)人
●橫向協(xié)作項(xiàng)目,碎屑巖凝析氣藏修完井儲(chǔ)層保護(hù)技術(shù)優(yōu)選及評(píng)價(jià),2015/12-2016/10,負(fù)責(zé)人
(1)科研獲獎(jiǎng)
●中國(guó)石油和化學(xué)工業(yè)聯(lián)合會(huì)科技進(jìn)步一等獎(jiǎng),復(fù)雜工況油氣井化學(xué)暫堵高效復(fù)產(chǎn)增產(chǎn)關(guān)鍵技術(shù)及應(yīng)用,排名1,2022
●中國(guó)石油和化工自動(dòng)化應(yīng)用協(xié)會(huì)科技進(jìn)步一等獎(jiǎng),復(fù)雜油氣藏高效化學(xué)暫堵井下作業(yè)技術(shù)創(chuàng)新與工業(yè)應(yīng)用,排名1,2022
●天津市科技進(jìn)步二等獎(jiǎng),復(fù)雜斷塊油田提高采收率深部調(diào)驅(qū)關(guān)鍵工藝技術(shù)創(chuàng)新與推廣,排名2,2015
●新疆維吾爾自治區(qū)科技進(jìn)步二等獎(jiǎng),7000m超深油井井下工作液體系研發(fā)與應(yīng)用,排名3,2022
●中國(guó)石油和化學(xué)工業(yè)聯(lián)合會(huì)科技進(jìn)步二等獎(jiǎng),多壓力系統(tǒng)復(fù)雜油氣藏安全高效井下作業(yè)關(guān)鍵技術(shù)與工業(yè)應(yīng)用,排名1,2020
●中國(guó)石油和化工自動(dòng)化應(yīng)用協(xié)會(huì)科技進(jìn)步二等獎(jiǎng),多壓力層系油氣井暫堵控漏關(guān)鍵技術(shù)及規(guī)模應(yīng)用,排名1,2018
●中國(guó)石油和化工自動(dòng)化應(yīng)用協(xié)會(huì)科技進(jìn)步一等獎(jiǎng),深層碳酸鹽巖儲(chǔ)層酸壓關(guān)鍵技術(shù)與工業(yè)化應(yīng)用,排名6,2022
●中國(guó)石油和化工自動(dòng)化行業(yè)技術(shù)發(fā)明一等獎(jiǎng),頁(yè)巖氣藏水平井縫網(wǎng)壓裂關(guān)鍵技術(shù)與規(guī)模應(yīng)用,排名6,2021
(2)榮譽(yù)稱號(hào)
●中組部青年拔尖人才,2020
●四川省天府科技菁英,2019
●霍英東教育基金會(huì)基金獎(jiǎng)勵(lì),2020
●四川省杰出青年科技人才,2018
●中國(guó)石油與化學(xué)工業(yè)聯(lián)合會(huì)青年科技突出貢獻(xiàn)獎(jiǎng),2021
●西南石油大學(xué)第二屆教職工“飛翔獎(jiǎng)”科技新秀獎(jiǎng),2020
●首屆中國(guó)高校礦業(yè)石油與安全工程領(lǐng)域優(yōu)秀青年科技人才提名,2015
●四川省優(yōu)秀博士學(xué)位論文,2012
●四川省優(yōu)秀博士畢業(yè)生,2012
●西南石油大學(xué)第二屆學(xué)生“飛翔獎(jiǎng)”學(xué)術(shù)科技獎(jiǎng),2011
(3)學(xué)術(shù)論文
●賈虎,張瑞,羅憲波,等.高倍數(shù)水驅(qū)砂巖中原油黏度、巖心潤(rùn)濕性時(shí)變規(guī)律核磁共振實(shí)驗(yàn)[J].石油勘探與開發(fā),2024,51(1):DOI:10.11698/PED.20230069.
●賈虎,何威,牛騁程.磷酸鹽完井液高溫腐蝕行為及膜轉(zhuǎn)化緩蝕新方法[J].石油勘探與開發(fā),2023,50(6):1307-1317.
●賈虎,代昌樓,李三喜,等.一種耐高溫密度可調(diào)的柔性膠粒新型完井液[J].天然氣工業(yè),2022,42(12):106-116
●賈虎,張瑞,黎棚武.電磁場(chǎng)?滲流場(chǎng)耦合作用下離子液體多孔介質(zhì)流動(dòng)模型[J].力學(xué)學(xué)報(bào),2021,53(8):2214-2224.
●張瑞,賈虎.基于多變量時(shí)間序列及向量自回歸機(jī)器學(xué)習(xí)模型的水驅(qū)油藏產(chǎn)量預(yù)測(cè)方法[J].石油勘探與開發(fā),2021,48(1):175-184.
●賈虎,鄧力琿.基于流線聚類人工智能方法的水驅(qū)油藏流場(chǎng)識(shí)別[J].石油勘探與開發(fā),2018,45(2):312-319.
●賈虎,陳昊,陳波.彈性液體膠塞修井防漏機(jī)理及應(yīng)用[J].石油學(xué)報(bào),2018,39(3):349-356.
●賈虎,吳曉虎.考慮相態(tài)變化的凝析氣藏壓井液漏失機(jī)理與產(chǎn)能恢復(fù)[J].石油勘探與開發(fā),2017,(4):622-629.
●賈虎,趙金洲,楊懷軍,等.輕質(zhì)油藏空氣驅(qū)機(jī)理數(shù)值模擬[J].石油勘探與開發(fā),2014,41(2):215-222.
●Jia H,Li P W,and Zhang Y F. Polymer gel for water shutoff in complex oil and gas reservoirs:mechanisms,simulation,and decision-making[J].SPE Journal,2024, 29(01):243-259.
●Jia H,Niu C C,Liang W L,et al. High-Density solid-free flexible microgel fluid loss pill in high-temperature and high-pressure reservoirs:curing mechanism and working performance[J]. SPE Journal,2023,28(3):917-933.
●Jia H,Kang Z,Li Z J,et al. The potential of ultrahigh strength gel through novel multistage reinforcement method for sealing operations in medium to ultralow temperature reservoirs[J]. SPE Journal,2022,27(4):2145-2160.
●Jia H,Niu C C,Dai C L. Solid-Free flexible colloidal completion fluid with variable density for gas well completion in high-temperature and high-pressure reservoirs:experimental study and pilot test[J]. SPE Journal,2022,27(1):186-203.
●Jia H,Chen H,Li S X,et al. Development of a highly elastic composite gel through novel polymer intercalation crosslinking method for wellbore temporary plugging in high-temperature reservoirs[J]. SPE Journal,2020,25(6):2853-2866.
●Jia H,Yang X Y,Zhao J Z. Development of a novel in-situ generated foamed gel as temporary plugging agent used for well workover:affecting factors and working performance[J]. SPE Journal,2019,24(4):1757-1776.
●Jia H,Hu Y X,Zhao S J,et al. The Feasibility for Potassium-Based Phosphate Brines To Serve as High-Density Solid-Free Well-Completion Fluids in High-Temperature/High-Pressure Formations[J]. SPE Journal,2019,24(5):2033-2046.
●Kang Z,Jia H,Li Z G,et al. Comprehensive evaluation of chemical breakers for multistage network ultra-high strength gel[J]. Petroleum Science,2023,20:2864-2878.
●Jia H and Chen H. The potential of using cr3+/salt-tolerant polymer gel for well workover in low-temperature reservoir:laboratory investigation and pilot test[J]. SPE Production & Operations,2018,33(4):569-582.
●Jia H and Ren Q. Evidence of the gelation acceleration mechanism of hpam gel with ammonium salt at ultralow temperature by sem study[J]. SPE Production & Operations,2016,31(3):238-246.
●Jia H,Chen H,Guo S S. Fluid loss control mechanism of using polymer gel pill based on multi-crosslinking during overbalanced well workover and completion[J]. Fuel,2017,210:207-216.
●Jia H,Kang Z,Li Z. Using 1,2 dimethylimidazole to improve gel thermalstability for wellbore plugging in ultra-high temperature fractured reservoirs[J]. Journal of Dispersion Science and Technology,2023,44(5):852-864.
●Kang Z,Liu Y,Jia Hu,et al. Progress and prospects of in-situ polymer gels for sealing operation in wellbore and near-well zone[J]. Energy & Fuels,2024(in press),Manuscript ID:ef-2023-043829.
●Kang Z,Jia H,Liu S Q,et al. Improved understanding ultra-high strength gel for sealing operations:gelation kinetics and mechanism[J]. Journal of Dispersion Science and Technology,2023:https://doi.org/10.1080/01932691.2023.2228909.
●Jia H,Wu J,Wu S,et al. New insights into the DPR mechanism of elastic energy released by polymer gel for enhanced oil recovery[J]. Petroleum,2022.doi.org/10.1016/j.petlm.2022.08.002.
●Jia H,Li P,Lv W,et al. Application of fuzzy comprehensive evaluation method to assess effect of conformance control treatments on water-injection wells[J] .Petroleum,2022.doi.org/10.1016/j.petlm.2022.04.006.
●Jia H,Kang Z,Li S X,et al. Thermal degradation behavior of seawater based temporary plugging gel crosslinked by polyethyleneimine for fluid loss control in gas well:kinetics study and degradation prediction[J]. Journal of Dispersion Science and Technology,2021,42(9):1299-1310.
●Jia H,Chen S H,Zhou Z M. Strength-enhanced nanocomposite foamed gel as a temporary wellbore plugging fluid:Formulation design and working performance[J]. Journal of Dispersion Science and Technology,2021,42(8):1249-1258.
●Zhang R,Jia H. Method to generate random element equivalent core models based on the NMR T2 spectrum for waterflooding in tight sandstone[J]. ACS omega,2021,6(50):34783-34795.
●Jia H,Kang Z,Zhu J,et al. High density bromide-based nanocomposite gel for temporary plugging in fractured reservoirs with multi-pressure systems[J]. Journal of Petroleum Science and Engineering,205(2021):108778.
●Jia H,Niu C C,Yang X Y. High-strength nanocomposite gel for temporary plugging wellbore:from laboratory investigation to pilot test[J]. Journal of Petroleum Science and Engineering,2020(191):107214.
●Jia H,Xie D S,Kang Z. Secondary surface modified laponite-based nanocomposite hydrogel for gas shutoff in wellbore[J]. Journal of Petroleum Science and Engineering,2020(191):107116.
●Jia H,Yang X Y,Li S X,et al. Nanocomposite gel of high-strength and degradability for temporary plugging in ultralow-pressure fracture reservoirs[J].Colloids and Surfaces A:Physicochemical and Engineering Aspects,2020(585):124108.
●Jia H,Niu C C,Hu Y X. The potential study of ultra-high density heteropolysate solid free brine as well completion fluid for deep reservoir development[J].Journal of Natural Gas Science and Engineering,2020(84):103638.
●Jia H,Deng L H. Non-equilibrium 3-D simulator applied to air injection EOR in light oil reservoirs[J]. Journal of Petroleum Science and Engineering,2018,168:310-329.
●Jia H,Chen H. Using DSC technique to investigate the non-isothermal gelation kinetics of the multi-crosslinked Chromium acetate(Cr3+)-Polyethyleneimine(PEI)-Polymer gel sealant[J]. Journal of Petroleum Science and Engineering,2018,165:105-113.
●Jia H,Yang X Y. Environmental and strength-enhanced nano-silica based composite gel for well temporary plugging in high-temperature reservoirs[J]. Asia-Pacific Journal of Chemical Engineering,2018,14:e2270.
●Jia H,Sheng J J. Simulation study of huff-n-puff air injection for enhanced oil recovery in shale oil reservoirs[J]. Petroleum,2018,4(1):7-14.
●Jia H. Effect of reservoir heterogeneity on air injection performance in a light oil reservoir[J]. Petroleum,2018,4(1):15-24.
●Jia H,Sheng J J. Discussion of the feasibility of air injection for enhanced oil recovery in shale oil reservoirs[J]. Petroleum,2017,3(2):249-257.
●Jia H,Sheng J J. Numerical modeling on air injection in a light oil reservoir:Recovery mechanism and scheme optimization[J]. Fuel,2016,172:70-80.
●Jia H,Liu P G,Pu W F,et al. In situ catalytic upgrading of heavy crude oil through low-temperature oxidation[J]. Petroleum Science,2016,13(3):476-488.
●Pu W F,Pang S S,Jia H. Using DSC/TG/DTA techniques to re-evaluate the effect of clays on crude oil oxidation kinetics[J]. Journal of Petroleum Science and Engineering,2015,134:123-130.
●Jia H,Ren Q,Pu W F,et al. Swelling mechanism investigation of microgel with double-cross-linking structures[J]. Energy Fuels,2014,28(11):6735-6744.
●Jia H,Ni J H,Pu W F,et al. New view on the oxidation mechanisms of crude oil through combined thermal analysis methods[J]. Journal of Thermal Analysis and Calorimetry,2014,118:1707-1714.
●Ren Q,Jia H,Yu D,et al. New insights into phenol-formaldehyde‐based gel systems with ammonium salt for low-temperature reservoirs[J]. Journal of Applied Polymer Science,2014,DOI:10.1002/app.40657.
●Ni J H,Jia H,Pu W F,et al. Thermal kinetics study of light oil oxidation using TG/DTG techniques[J]. Journal of Thermal Analysis and Calorimetry,2014,117(3):1349-1355.
●Jia H,Zhao J Z,Jin F Y,et al. New Insights into the gelation behavior of polyethyleneimine cross-linking partially hydrolyzed polyacrylamide gels[J]. Industrial and Engineering Chemistry Research,2012,51(38):12155-12166.
●Jia H,Zhao J Z,Pu W F,et al. Thermal study on light crude oil for application of high-pressure air injection (HPAI) process by TG/DTG and DTA Tests[J]. Energy Fuels,2012,26(3):1575-1584.
●Jia H,Zhao J Z,Pu W F,et al. Laboratory investigation on the feasibility of light-oil autoignition for application of the high-pressure air injection (HPAI) process[J]. Energy Fuels,2012,26(9):5638-5645.
●Jia H,Zhao J Z,Pu W F,et al. The influence of clay minerals types on the oxidation thermokinetics of crude Oil[J]. Energy Sources,Part A:Recovery,Utilization and Environmental Effects,2012,34(10):877-886.
●Zhao J Z,Jia H,Pu W F,et al. Sensitivity studies on the oxidation behavior of crude oil in porous media[J]. Energy Fuels,2012,26(11):6815-6823.
●Jia H,Pu W F,Zhao J Z,et al .Experimental investigation of the novel phenol-formaldehyde cross-linking HPAM gel system:based on the secondary cross-linking method of organic cross-linkers and its gelation performance study after flowing through porous media[J]. Energy Fuels,2011,25(2):727-736.
●Zhao J Z,Jia H,Pu W F,et al. Influences of fracture aperture on the water-shutoff performance of polyethyleneimine cross-linking partially hydrolyzed polyacrylamide gels in hydraulic fractured reservoirs[J]. Energy Fuels,2011,25(6):2616-2624.
●Jia H,Pu W F,Zhao J Z,et al. Research on the gelation performance of low toxic PEI cross-linking PHPAM gel systems as water shutoff agents in low temperature reservoirs[J]. Industrial Engineering Chemistry Research,2010,49(20):9618-9624.
●賈虎,張雨霏,黎棚武,等.氣井化學(xué)控水研究進(jìn)展與挑戰(zhàn)及對(duì)策探析[J].西南石油大學(xué)學(xué)報(bào)(自然科學(xué)版),2024(in press).
●高偉,范勝,齊彪,代昌樓,賈虎,等.碳酸鹽巖儲(chǔ)層高酸溶多級(jí)架橋暫堵型鉆井完井液體系[J].鉆井液與完井液,2024(in press).
●劉岳龍,賈虎,柳思齊.一種新型體膨型熱固復(fù)合樹脂封堵劑[J].鉆采工藝,2024(in press).
●萬(wàn)小進(jìn),黎棚武,吳紹偉,彭東宇,程利民,賈虎.海上高含水大液量水平井凝膠堵水?dāng)?shù)值模擬[J].斷塊油氣田,2023,30(3):466-474.
●康紅兵,牛騁程,賈虎,等.順北油田抗超高溫柔性膠粒修井液[J].鉆井液與完井液,2021,38(4):525-530.
●賈虎,楊欣雨,李三喜,等.雙交聯(lián)型泡沫凝膠的制備及其暫堵壓井防漏機(jī)理[J].鉆井液與完井液,2019,36(3):384-390.
●李三喜,賈虎,吳曉虎.壓井液漏失對(duì)氣井井筒儲(chǔ)集效應(yīng)的影響研究[J].鉆采工藝,2019,42(5):12-15.
●賈虎,趙金洲,廖然,等.氣體壓迫多孔介質(zhì)中聚合物凝膠行為[J].中國(guó)石油大學(xué)學(xué)報(bào)(自然科學(xué)版),2013,37(2):146-152.
●賈虎,蒲萬(wàn)芬.有機(jī)凝膠控水及堵水技術(shù)研究[J].西南石油大學(xué)學(xué)報(bào)(自然科學(xué)版),2013,(6):141-152.
●賈虎,楊憲民.東海地區(qū)低孔低滲透氣田完井液優(yōu)化技術(shù)[J].天然氣工業(yè),2010,30(9):60-64.
●賈虎,蒲萬(wàn)芬,趙金洲,等.裂縫性油藏控水堵水方法研究與應(yīng)用[J].地質(zhì)科技情報(bào),2010,29(5):62-70.
●賈虎,楊憲民.固化水工作液在壓井修井過(guò)程中的成功應(yīng)用[J].鉆井液與完井液,2007,24(S):115-117.
(4)授權(quán)發(fā)明專利
●賈虎,周子力,張瑞.高倍數(shù)水驅(qū)巖心油水相對(duì)滲透率曲線測(cè)量裝置及方法:20221 1382197.0[P].2024-02-09.
●賈虎,周子力,代楊,等.基于CT掃描建立三維非均質(zhì)等效巖心模型的方法:2023105408459[P]. 2024-01-11.
●賈虎,黎棚武,張雨菲,等.基于累積效應(yīng)的油井化學(xué)堵水性能室內(nèi)評(píng)價(jià)方法:202210294524.0[P].2024-02-26.
●牛騁程,賈虎,何威. 競(jìng)爭(zhēng)交聯(lián)型高密度抗鹽固化水微凝膠暫堵劑及其制備方法:2023 1 0126732.4[P].2024-02-20.
●賈虎,張瑞,黎棚武,等.基于核磁共振T2譜建立隨機(jī)單元等效巖心模型的方法:2021107158035[P]. 2023-11-22.
●賈虎,高茂斐,柳思奇,等.一種斷縫體油藏物理模型的制作方法和實(shí)驗(yàn)方法:202111124690.8[P]. 2023-10-24.
●賈虎,代昌樓,牛騁程.一種抗超高溫180℃增粘型完井液與修井液:202011512785.2[P]. 2023-03-17.
●賈虎,牛騁程,代昌樓.一種抗超高溫180℃變密度無(wú)固相增粘型完井液與修井液:202011512787.1[P]. 2023-03-10.
●賈虎,鄧力琿,張瑞,等.基于流場(chǎng)診斷的水驅(qū)油藏滲流場(chǎng)可視化表征與評(píng)價(jià)方法:2019106356050[P]. 2022-04-22.
●賈虎,鄧力琿,張瑞,等.一種基于向量自回歸模型的水驅(qū)油藏滲流場(chǎng)評(píng)價(jià)方法:2019106361311[P]. 2022-04-22.
●賈虎,鄧力琿.低滲透油藏空氣驅(qū)數(shù)值模擬方法及裝置:201710401892.X[P]. 2020-09-22.
●賈虎,鄧力琿.水驅(qū)流場(chǎng)生產(chǎn)方法及裝置:2017110853042[P]. 2019-07-26.
●賈虎,康正,徐一彬,等.一種基于離子液體膠塞的井筒隔離方法:202010924483.X[P]. 2022-06-21.
●賈虎,康正,徐一彬,等.咪唑物增強(qiáng)型抗超高溫液體膠塞及其成膠測(cè)試改進(jìn)方法:202110205061.1[P]. 2022-03-25.
●賈虎,陳生懷,巨亞峰,等.一種降漏失柔性膠粒洗井液的制備及其應(yīng)用:201910590238.7[P]. 2021-12-21.
●賈虎,楊欣雨,趙金洲,等.一種多孔凝膠封堵劑、其制備方法及應(yīng)用:2019107083525[P]. 2021-12-10.
●賈虎,陳昊.一種壓井液及其制備方法、應(yīng)用:201610972574.4[P]. 2019-10-08.
●賈虎,蒲萬(wàn)芬,任強(qiáng).一種用于低溫油藏快速成膠的酚醛弱凝膠調(diào)驅(qū)劑:201510232844.3[P]. 2018-04-20.
●賈虎,任強(qiáng),蒲萬(wàn)芬,等.一種耐溫耐鹽高溫自交聯(lián)就地聚合堵水凝膠:201510004908.4[P]. 2017-10-10.
●賈虎,蒲萬(wàn)芬,趙金洲,等.一種用于油井堵水的新型選擇性堵水劑:201110239167.X[P]. 2012-09-12.
●提高油氣采收率方法:油藏流場(chǎng)表征與調(diào)堵防竄、蓄能壓裂壓驅(qū)、非常規(guī)油氣藏提高采收率
●儲(chǔ)層保護(hù)與增產(chǎn)措施:儲(chǔ)層損害表征、完井液與修井液、液體膠塞、納米流體等增產(chǎn)工作液
為國(guó)家級(jí)高層次人才科研團(tuán)隊(duì),是“油氣藏地質(zhì)及開發(fā)工程全國(guó)重點(diǎn)實(shí)驗(yàn)室”儲(chǔ)層改造基礎(chǔ)理論及關(guān)鍵技術(shù)、提高采收率基礎(chǔ)理論及配套技術(shù)研究團(tuán)隊(duì)重要力量。科研經(jīng)費(fèi)充足,提供具有競(jìng)爭(zhēng)力的科研補(bǔ)助、實(shí)習(xí)和推薦就業(yè)機(jī)會(huì)。歡迎有志者報(bào)考課題組碩士生、博士生和博士后,優(yōu)秀博士可擇優(yōu)推薦留校任教。
