楊鈺龍
副研究員(副教授) 博/碩導(dǎo)師
Petroleum Science 副主編
辦公室:新綜合樓北樓A310
郵箱:[email protected]
個(gè)人簡(jiǎn)介
2017年獲得澳大利亞阿德萊德大學(xué)石油工程專(zhuān)業(yè)博士學(xué)位����,2017年6月至今在中國(guó)石油大學(xué)(北京)工作���,主要從事提高采收率相關(guān)的多相多組分流動(dòng)及表/界面現(xiàn)象的研究��。
研究方向
多相多組分流動(dòng)�;界面物理化學(xué);管柱力學(xué)
歡迎認(rèn)真�、踏實(shí)、對(duì)基礎(chǔ)研究有濃厚興趣和強(qiáng)烈好奇心的同學(xué)加入課題組��,一起探索未知�。
教育背景
2012.09-2016.09,博士����,澳大利亞阿德萊德大學(xué),石油工程
2009.09-2012.06�����,碩士�,中國(guó)石油大學(xué)(北京),油氣井工程
2005.09-2009.06����,學(xué)士,中國(guó)石油大學(xué)(北京)��,石油工程
工作經(jīng)歷
2022.07至今���,副研究員����,中國(guó)石油大學(xué)(北京)全國(guó)油氣資源與工程全國(guó)重點(diǎn)實(shí)驗(yàn)室
2017.06-2022.06,助理研究員����,中國(guó)石油大學(xué)(北京)提高采收率研究院
科研項(xiàng)目
[1] 國(guó)家科技重大專(zhuān)項(xiàng)專(zhuān)題,超高溫特高壓復(fù)雜深層安全試油完井技術(shù)研究�,2025-2030. (任務(wù)負(fù)責(zé)人)
[2] 國(guó)家自然基金面上項(xiàng)目,致密砂巖油藏CO2納米氣泡流體滲吸驅(qū)油微觀(guān)機(jī)理及數(shù)學(xué)表征�,2025-2028. (主持)
[3] 國(guó)家自然基金青年項(xiàng)目,低滲油藏納米聚合物微球與低礦化度水復(fù)合深部調(diào)驅(qū)機(jī)理研究����,2019-2021. (主持)
[4] 強(qiáng)非均質(zhì)礫巖油藏CO2吞吐機(jī)理與方案優(yōu)化研究,中石油戰(zhàn)略合作項(xiàng)目專(zhuān)題任務(wù)���,2020-2024. (專(zhuān)題負(fù)責(zé)人)
[5] 低滲/特低滲油藏微/納米功能材料深部調(diào)驅(qū)機(jī)理研究�����,中國(guó)石油大學(xué)(北京)科研啟動(dòng)基金�,2017-2020. (主持)
發(fā)表論文
期刊論文
[1] Impact of temperature and salinity on fines detachment: AFM measurements and XDLVO theory. Petroleum Science, 2025, 22(1), 338-347. (中科院1區(qū)TOP, 2022-2023影響因子: 5.6)
[2] Probing spatial variation in AFM-measured adhesion: Implication of distributed nanoscale charge heterogeneity. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2025, 137276. (中科院2區(qū)TOP, 2022-2023影響因子: 4.9)
[3] Chain-Length Tunable Tertiary Amine/SDBS CO?��������-Switchable Emulsions: Mechanisms for Heavy Oil Viscosity Reduction and Rapid Demulsification. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2025, 137276. (中科院2區(qū)TOP, 2022-2023影響因子: 4.9)
[4] Water impact on adsorbed oil detachment from mineral surfaces by supercritical CO2: A molecular insight. Geophysical Research Letters, 2024, 51(9), p.e2024GL108208. (自然指數(shù)期刊����,中科院1區(qū)TOP, 2022-2023影響因子: 5.2)
[2] Impact of temperature and salinity on fines detachment: AFM measurements and XDLVO theory. Petroleum Science, 2024 (In Press 中科院1區(qū)TOP, 2022-2023影響因子: 5.6)
[3] Review on Physical and Chemical Factors Affecting Fines Migration in Porous Media. Water Research, 2022, 214, 118172. (自然指數(shù)期刊�,中科院1區(qū)TOP, 2022-2023影響因子: 13.4)
[4] Similarity-based Laboratory study on CO2 huff-n-puff in tight conglomerate cores. Petroleum Science. 2022, 20(1), 362-369. (中科院1區(qū)TOP, 2022-2023影響因子: 5.6)
[5] Morphology of MoS2 nanosheets and its influence on water/oil interfacial tension: A molecular dynamics study. Fuel, 2022, 312, 122938. (中科院1區(qū)TOP, 2022-2023影響因子: 7.4)
[6] A Novel Polymer Gel with High-Temperature and High-Salinity Resistance for Conformance Control in Carbonate Reservoirs. Petroleum Science. 2022, 19(6), 3159-3170. (In Press,中科院1區(qū)TOP, 2022-2023影響因子: 5.6)
[7] Oil Displacement Performance Using Bilayer-Coating Microspheres. Industrial & Engineering Chemistry Research, 2021, 60(5): 2300-2313. (中科院3區(qū), 2020-2021影響因子: 3.720)
[8] The effect of nanoparticles on reservoir wettability alteration: a critical review. Petroleum Science, 2021, 18, 136-153. (中科院1區(qū)TOP, 2020-2021影響因子: 4.090)
[9] Profile Control Using Fly Ash Three-Phase Foam Assisted by Microspheres with an Adhesive Coating. Applied Sciences, 2021, 11(8), 3616. (中科院3區(qū), 2020-2021影響因子: 2.679)
[10] Study on the Impact Pressure of Swirling-Round Supercritical CO2 Jet Flow and Its Influencing Factors. Energies, 2021, 14(1), 106. (中科院3區(qū), 2020-2021影響因子: 3.004)
[11] Stochastic and upscaled analytical modeling of fines migration in porous media induced by low-salinity water injection. Applied Mathematics and Mechanics, 2020, 41(3), 491-506. (中科院1區(qū)TOP, 2020-2021影響因子: 2.866)
[12] Enhanced Oil Recovery Using Oleic Acid-Modified Titania Nanofluids: Underlying Mechanisms and Oil-Displacement Performance. Energy & Fuels, 2020, 34(5), 5813-5822. (中科院3區(qū), 2020-2021影響因子: 3.605)
[13] Kaolinite Detachment from Silica Substrate - Laboratory and Theoretical Study. International Journal of Water and Wastewater Treatment, 2020, 6(3), 1-7.
[14] Synthesis of α-starch based nanogel particles and its application for long-term stabilizing foam in high-salinity, high-temperature and crude oil environment. Journal of Petroleum Science and Engineering, 2020, 191, 107185. (中科院2區(qū)TOP, 2020-2021影響因子: 4.346)
[15] Gas injection for enhanced oil recovery in two-dimensional geology-based physical model of Tahe fractured-vuggy carbonate reservoirs: karst fault system. Petroleum Science, 2020, 17(2), 419-433. (中科院1區(qū)TOP, 2020-2021影響因子: 4.090)
[16] Study on the plugging performance of bilayer-coating microspheres for in-depth conformance control: experimental study and mathematical modeling. Industrial & Engineering Chemistry Research, 2019, 58(16), 6796-6810. (中科院3區(qū), 2020-2021影響因子: 3.720)
[17] Fines migration in geothermal reservoirs: Laboratory and mathematical modelling. Geothermics, 2019, 77:344-67. (中科院2區(qū), 2020-2021影響因子: 4.284)
[18] Exact Solutions for Nonlinear High Retention-Concentration Fines Migration. Transport in Porous Media, 2017, 119(2):351-372. (中科院3區(qū), 2020-2021影響因子: 3.019)
[19] Slow migration of detached fine particles over rock surface in porous media. Journal of Natural Gas Science and Engineering, 2016, 34:1159-1173. (中科院2區(qū), 2020-2021影響因子: 4.965)
[20] Mathematical modelling of fines migration in geothermal reservoirs. Geothermics, 2016, 59: 123-133. (中科院2區(qū), 2020-2021影響因子: 4.284)
[21] Deep bed and cake filtration of two-size particle suspension in porous media. Journal of Petroleum Science and Engineering, 2015, 126:201210. (中科院2區(qū)TOP, 2020-2021影響因子: 4.346)
[22] Laboratory-based mathematical modelling of graded proppant injection in CBM reservoirs. International Journal of Coal Geology, 2014, 136:1-16. (中科院1區(qū)TOP, 2020-2021影響因子: 6.806)
[23] Slow migration of mobilised fines during flow in reservoir rocks: Laboratory study. Journal of Petroleum Science and Engineering, 2014, 122, 534-541. (中科院2區(qū)TOP, 2020-2021影響因子: 4.346)
[24] Modeling the pressure characteristics of parallel chokes used in managed pressure drilling and related experiments. Petroleum Science, 2012, 9(3): 363-369. (中科院1區(qū)TOP, 2020-2021影響因子: 4.090)
合作出版專(zhuān)著
[1] Fines Migration in Aquifers and Oilfields: Laboratory and Mathematical Modelling. Flow and Transport in Subsurface Environment (2018): 3-67. (Springer)
[2] New Development of Air and Gas Drilling Technology. In Drilling. 2018, 163 (IntechOpen).
[3] Formation Damage Challenges in Geothermal Reservoirs. In Formation Damage During Improved Oil Recovery (2018): 447-497. (Elsevier)
