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賈虎
(西南石油大學石油與天然氣工程學院教師)
鎖定
湖北武漢人,教授、博導。國家“萬人計劃”青年拔尖人才、四川省“天府萬人計劃”天府科技菁英、霍英東教育基金會優秀青年教師基金、四川省傑出青年科技人才、四川省優秀博士畢業生、四川省優秀博士學位論文、首屆中國高校礦業石油與安全工程領域優秀青年科技人才提名獎獲得者。主要從事油田化學與提高油氣採收率領域科研,主要包括油藏優勢流表徵與調控、油氣井安全高效增產井筒工作液、非常規油氣藏EOR。近來,主持國家、省部級項目和石油公司委託科技攻關項目近40項。在石油工程頂級期刊《SPE Journal》《SPE Production and Operations》《石油勘探與開發》《石油學報》《力學學報》等上發表論文75篇,第1或通訊SCI論文40篇,SCI他引1000餘次,1篇入選領跑者F5000-中國精品科技期刊頂尖論文,申請和授權發明專利25件。成果獲省部級科技進步一、二等獎7項。
[1]
- 中文名
- 賈虎
- 國 籍
- 中國
- 民 族
- 漢
- 出生地
- 湖北省武漢市
- 畢業院校
- 西南石油大學
- 學位/學歷
- 博士
- 政治面貌
- 中共黨員
- 性 別
- 男
- 職 稱
- 教授
賈虎人物經歷
2009.09—2012.06 西南石油大學,油氣田開發工程,博士
2012.09—2013.02 美國雪佛龍公司川東北項目部,實習工程師
2015.04—2016.04 美國德克薩斯理工大學石油工程系,博士後
2012.07—2014.09 西南石油大學石油與天然氣工程學院,講師
2014.10—2018.12 西南石油大學石油與天然氣工程學院,副教授
2018.12—至今 西南石油大學石油與天然氣工程學院,教授
賈虎研究領域
主要從事油田化學與提高油氣採收率領域的科研與教學工作。
賈虎論文
在《石油勘探與開發》《石油學報》《SPE Journal》《SPE Production and Operations》《Fuel》《Journal of Petroleum Science and Engineering》《Journal of Natural Gas Science and Engineering》等刊物發表論文75篇。
Jia H*,Chen H,Zhao J Z. 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.
Jia Hu*; 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, 2021, 205, 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, 191(2020)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,191(2020)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,585(2020)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,84(2020)103638.
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,2020, DOI:10.1080/01932691.2020.1740727.
Jia H*, Jiang P, Yan Z, et al. Modelling air injection in shale oil reservoirs: physical process and recovery mechanism[J]. International Journal of Oil Gas and Coal Technology,2020,DOI:10.1504/IJOGCT.2020.107025.
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,2019,DOI:10.1080/01932691.2020.1737104.
Jia H*, 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 and Operations,2018,33(4):569-582.
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*,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*, 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*,Yin S P, Ma X P. Enhanced oil recovery mechanism of low oxygen air injection in high water cut reservoir[J].Journal of Petroleum Exploration and Production Technology,2018,8,917-923.
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,Petroleum,2018,4(1):15-24.
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*,Sheng 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*,Ren Q. Evidence of the Gelation Acceleration Mechanism of HPAM Gel with Ammonium Salt at Ultralow Temperature by SEM Study[J]. SPE Production and Operations,2016,31(3): 238-246.
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.
Jia H*,Ren Q,Li Y M et al. Evaluation of polyacrylamide gels with accelerator ammonium salts for water shutoff in ultralow temperature reservoirs:Gelation performance and application recommendations[J]. Petroleum,2016,2(1):90-97.
Huang S Y,Jia H,Sheng J J*. Exothermicity and oxidation behavior of tight oil with cuttings from the Wolfcamp shale reservoir[J]. Petroleum Science and Technology,2016,34(21):1735-1741.
Huang S Y,Jia H,Sheng J J*. Effect of shale core on combustion reactions of tight oil from Wolfcamp reservoir[J]. Petroleum Science and Technology,2016,34(13):1172-1179.
Huang S Y*,Jia H,Sheng J J. Research on oxidation kinetics of tight oil from Wolfcamp field[J]. Petroleum Science and Technology,2016,34(10):903-910.
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,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.
張瑞,賈虎.基於多變量時間序列及向量自迴歸機器學習模型的水驅油藏[J].石油勘探與開發,2021,48(1): 175-184.
賈虎,鄧力琿.基於流線聚類人工智能方法的水驅油藏流場識別[J].石油勘探與開發,2018,45(2):312-319.
賈虎,吳曉虎.考慮相態變化的凝析氣藏壓井液漏失機理與產能恢復[J].石油勘探與開發,2017,(4):622-629.
賈虎,趙金洲,楊懷軍,等.輕質油藏空氣驅機理數值模擬[J].石油勘探與開發,2014,41(2):215-222.
賈虎,張瑞, 黎棚武.電磁場−滲流場耦合作用下離子液體多孔介質流動模型[J].力學學報, 2021, 53(8): 1-11 doi:10.6052/0459-1879-21-156
賈虎,陳昊,陳波.彈性液體膠塞修井防漏機理及應用[J].石油學報,2018,39(3):349-356.
賈虎,楊欣雨,李三喜,等.雙交聯型泡沫凝膠的製備及其暫堵壓井防漏機理[J].鑽井液與完井液,2019,36(3):384-390.
李三喜,賈虎,吳曉虎.壓井液漏失對氣井井筒儲集效應的影響研究[J].鑽採工藝,2019,42(5):12-15.
賈虎,趙金洲,廖然,等.氣體壓迫多孔介質中聚合物凝膠行為[J].中國石油大學學報(自然科學版),2013,37(2):146-152.
賈虎,蒲萬芬.有機凝膠控水及堵水技術研究[J].西南石油大學學報(自然科學版),2013,(6):141-152.
賈虎,楊憲民.東海地區低孔低滲透氣田完井液優化技術[J].天然氣工業,2010,30(9):60-64.
賈虎,蒲萬芬,趙金洲.裂縫性油藏控水堵水方法研究與應用[J].地質科技情報,2010,29(5):62-70.
賈虎,蒲萬芬,廖然,等.縫洞型油氣藏物理模擬試驗方法研究[J].石油鑽探技術,2010,38(6):102-108.
賈虎,楊憲民.固化水工作液在壓井修井過程中的成功應用[J].鑽井液與完井液,2007,24:115-117.
- 參考資料
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- 1. 教師名錄 .西南石油大學石油與天然氣工程學院[引用日期2021-08-24]
