職 稱:講師
導師 資格:碩導
所屬 部門:油氣田開發工程研究所
學科 專業:油氣田開發工程
研究 方向:油氣藏堵水調剖、CCUS
聯系 方式:[email protected]
聯系 地址:610500 成都市新都區新都大道85號西南石油大學全國重點實驗室
博士,講師,碩士生導師。主要從事油氣藏堵水調剖、油氣藏二氧化碳利用與埋存、油氣藏工程等方面的科研和教學工作。主持縱向課題3項,油田協作項目6項。以第一及通訊作者發表SCI論文16篇,授權發明專利15項,參加SPE會議4次,其中包括SPE年會、SPE提高采收率會議。目前擔任Processes特刊客座主編,《SPE Journal》《Fuel》《Energy》等期刊審稿人。
●2008.09-2012.06 中國石油大學(華東),數學與應用數學,學士
●2012.09-2018.06 中國石油大學(北京),油氣田開發工程,博士
●2016.12-2017.12 德克薩斯大學奧斯汀分校,訪問學者
●2018.09-至今 西南石油大學石油與天然氣工程學院,講師/師資博士后
●中國石化碳捕集、利用與封存(CCUS)重點實驗室,2016ZX05048-002-03-LH1,致密含水氣藏注CO2提高采收率機理與協同封存機制研究,2024.05-2025.05,主持
●中海油海南分公司院士工作站項目,2016ZX05048-002-03-LH1,CO2在多孔介質中的多相滲流機理實驗測試評價,2023.06-2024.08,主要完成人
●中國博士后基金,2018M643527,裂縫性水平井堵水失效及深部縫油相產能恢復機理與控制,2018.11-2020.07,主持
●“十三五”國家重大專項,2016ZX05048-002-03-LH1,大牛地風化殼碳酸鹽巖氣藏滲流機理研究,2016.01-2020.11,技術首席
●江蘇油田,低效單元開發中后期微觀驅油機理及提高采收率對策,2024.08-2025.08,主持
●中石化石油勘探開發研究院,微納孔隙內多相流體流動機理及提高微觀滯留氣動用機制,2023.04-2023.12,主持
●中石油勘探開發研究院,鄂東海陸過渡相頁巖氣流動規律及氣體賦存狀態測試,2023.06-2024.12,主持
●中石油勘探開發研究院,堵劑選擇性封堵邊界條件測試,2022.01-2022.07,主持
●中石油勘探開發研究院,淺層頁巖氣分段壓裂水平井動用評價方法研究,2022.07-2023.06,主持
●江蘇油田,莊2斷塊微觀水驅機理及改善開發效果技術優化,2021.12-2022.09,主持
●吐哈油田,致密油多介質驅替實驗與機理研究,2020.09-2021.12,技術負責
●國家自然科學基金,U1562217,致密氣多相多尺度流動規律及跨尺度耦合滲流,2016.01-2020.09,參與
●國家自然科學基金,51404280,復雜裂縫潛山油藏水平井堵水封堵機理研究,2015.03-2017.12,參與
●塔里木油田,東河油田東河砂巖儲層優勢通道及開發對策研究,2013.11-2016.12,參與
●大港油田分公司采油三廠,小集油田官979和官938斷塊二次開發深部調驅試驗方案優化調整—油藏數值模擬研究,2015.06-2015.12,參與
(1)學術論文
●Liang B,Chen C,Jia C,et al. Carbon capture,utilization and storage(CCUS)in oil and gas reservoirs in China:Status,Opportunities and Challenges[J]. Fuel,2024(375):132353.
●Liang B,Liu J,Kang L,et al. A novel framework for predicting non-stationary production time series of shale gas based on BiLSTM-RF-MPA deep fusion model[J].Petroleum Science,2024,21(5):3326-3339.
●Pan Y,Liang B,Li N,et al. Decoding the dynamic of ch4 and CO2 displacement for enhanced condensate oil recovery[J]. Chemical Engineering Science,2024,295.
●Liang B,Liu J,You J,et al. Hydrocarbon production dynamics forecasting using machine learning:A state-of-the-art review[J]. Fuel,2023,337:127067.
●Liang B,Wu Q,Yang H,et al. Interplay between viscous pressure and capillary pressure on polymer gel dehydration and water shutoff in hydraulically fractured reservoirs[J]. Energy & Fuels,2020,34(5):5696-5706.
●Liang B,Wu Q,Lan Y,et al. Sizing Gelant treatment for conformance control in hydraulically-fractured horizontal wells[C]. Tulsa America:SPE Improved Oil Recovery Conference,Society of Petroleum Engineers,2020-08.
●Liang B,Jiang H,Li J,et al. Investigation of oil saturation development behind spontaneous imbibition front using nuclear magnetic resonance T2[J]. Energy & Fuels,2017,31(1):473-481.
●Liang B,Jiang H,Li J,et al. Mechanism study of disproportionate permeability reduction using nuclear magnetic resonance T2[J]. Energy & Fuels,2018,32(4):4959-4968.(SCI)
●Liang B,Jiang H,Li J,et al. Novel enhanced-oil-recovery decision-making work flow derived from the Delphi-AHP-TOPSIS method:a case study[J]. SPE Reservoir Evaluation & Engineering,2018,21(2):325-343.
●Liang B,Jiang H,Li J,et al. A systematic study of fracture parameters effect on fracture network permeability based on discrete-fracture model employing Finite Element Analyses[J]. Journal of Natural Gas Science and Engineering,2016,28:711-722.
●Liang B,Jiang H,Li J,et al. Flow in multi-scale discrete fracture networks with stress sensitivity[J]. Journal of Natural Gas Science and Engineering,2016,35:851-859.
●Liang B,Jiang H,Li J,et al. Further insights into the mechanism of disproportionate permeability reduction[C]. Texas USA:SPE Annual Technical Conference and Exhibition,2017-10-19-21.
●Liang B,Jiang H,Li J,et al. Novel EOR strategy-decision system based on Delphi-AHP-TOPSIS methodology[C]. Bali Indonesia:SPE/IATMI Asia Pacific Oil & Gas Conference and Exhibition,2015-10-20-22.
●Li J,Jiang H,Liang B,et al. Injection allocation in multi-layer water flooding reservoirs using SVM optimized by genetic algorithm[C]. Bangkok Thailand:In SPE-International Petroleum Technology Conference,2016-11-14-16.
(2)專利
●梁彬,王東,吳倩,等.一種微納米管夾持裝置、微納米氣液流動實驗裝置及方法:201910734643.1[P]. 2024-06-25.
●梁彬,劉曉妍,潘毅,等.一種復雜縫洞型油藏三維物理模擬實驗裝置及實驗方法:202211128670.2[P]. 2024-06-07.
●梁彬,陳沖,賈春生,等.一種高溫高壓微觀可視化微觀驅替模型夾持裝置及使用方法:202410013029.7[P]. 2024-05-10.
●梁彬,陳沖,賈春生,等.一種邊底水油藏水平井分段堵水物理模擬實驗裝置及方法:202311503025.9[P]. 2024-04-19.
●孫揚,梁彬,潘毅,等.一種跨尺度凝析氣霧狀流重力沉降弛豫時間測試方法:202310291256.1[P]. 2024-01-09.
●梁彬,吳倩,李閩,等.一種油水相對滲透率曲線測試裝置及測試方法:201910476614.X[P]. 2023-12-15.
●梁彬,劉鵬,李閩,等.一種復雜縫網條件下致密油精細物理模擬實驗方法:202110931357.1[P]. 2023-09-08.
●梁彬,陳鵬屹,賈春生,等.一種多段壓裂水平井聚合物凝膠選擇性堵水設計方法:202211192985.3[P]. 2023-08-29.
●梁彬,索倉,潘毅,等.三維物理模擬實驗裝置及模擬致密油藏開發的方法:202011040652.X[P]. 2022-02-01.
●梁彬,吳倩,王東,等.耐高溫耐高壓可攪拌中間容器裝置和多孔介質驅替實驗系統:202010064565.1[P]. 2020-12-08.
●梁彬,吳倩,李閩,等.一種三維非均質油藏多井網模式水驅物理模擬實驗裝置:202010000391.2[P]. 2020-07-14.
●梁彬,吳倩,王東,等.一種在線滲吸實驗用核磁共振實驗裝置及實驗方法:201811581754.5[P]. 2020-07-10.
●油氣藏堵水調剖
●CO2-EGR-EOR滲流機理表征
●CO2與油氣藏流體相態
●機器學習與竄流通道智能識別
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