王博(山東菏澤)�,男�����,漢族,博士��,副教授(碩導(dǎo)/博導(dǎo))����,校拔尖,天山英才
教育經(jīng)歷:
2009.7-2013.6,中國石油大學(xué)(北京)��,石油工程����,本科
2013.9-2015.6,中國石油大學(xué)(北京)����,油氣田開發(fā)工程,碩士
2015.7-2019.12���,中國石油大學(xué)(北京)�,油氣井工程���,博士
2018.10-2019.10����,美國塔爾薩大學(xué)�����,石油工程�����,博士聯(lián)合培養(yǎng)
工作經(jīng)歷:
2020.05-2022.07�,中國石油大學(xué)(北京)克拉瑪依校區(qū),講師
2022.08-至今 中國石油大學(xué)(北京)克拉瑪依校區(qū)�����,副教授
主講課程:
《采油工程》《完井工程》《非常規(guī)油氣開發(fā)與儲層改造》《油氣田開發(fā)工程概論》《采油工程進展與案例分析》���。
研究方向:
1.水力壓裂現(xiàn)場工藝�����、數(shù)值模擬�����、物模實驗����;2.人工智能輔助水力壓裂優(yōu)化�����;3.油藏數(shù)值模擬;4.質(zhì)工程一體化建模與仿真�����;5.壓裂效果分析
學(xué)生指導(dǎo):
[1] 2024屆碩士畢業(yè)生張谷暢以第一作者發(fā)表論文3篇�,以第2作者發(fā)表SCI論文3篇,以學(xué)生第1作者發(fā)表中文核心2篇�,獲中國石油大學(xué)(北京)院優(yōu)秀學(xué)術(shù)論文;
[2] 指導(dǎo)張寅赫�、張嘉鵬參加第十四屆石油工程設(shè)計大學(xué),獲北部賽區(qū)一等獎�、全國三等獎
[3] 碩士研究生人均高水平論文1篇
代表性成果:
1. 主持或作為技術(shù)負(fù)責(zé)人參與的項目:
[1] 國家自然科學(xué)基金面上項目 《段內(nèi)多簇壓裂孔眼封堵控制機理研究》,國家級����,主持,50萬��,2024-2027
[2] 國家青年自然科學(xué)基金《縫內(nèi)動態(tài)封堵規(guī)律與裂縫轉(zhuǎn)向機理研究》��,國家級�����,主持���,30萬�,2022-2024
[3] 天山英才青年科技創(chuàng)新人才項目《非常規(guī)油氣集團壓裂控制機理與智能優(yōu)化研究》���,省部級�,主持����,90萬,2024-2026
[4] 中石油科技創(chuàng)新基金《動態(tài)封孔下多簇裂縫競爭擴展規(guī)律研究》�����,省部級�����,主持����,17萬,2020-2022
[5] 自治區(qū)青年基金《頁巖油密切割限流壓裂優(yōu)化研究》��,省部級�,主持���,7萬,2022-2025
[6] 克拉瑪依市科技計劃項目《整體壓裂裂縫擴展及生產(chǎn)干擾規(guī)律研究》�,主持,8萬����,2023-2024年
[7] 校級啟動項目《基于縫內(nèi)暫堵的重復(fù)壓裂側(cè)向縫網(wǎng)形成機理研究》,校級��,主持����,20萬,2021-2023
[8] 《火山巖氣藏加密新井體積壓裂技術(shù)研究》����,副項目長,72萬�����,2024-2026
[9] 《礫巖儲層老區(qū)直井縫內(nèi)暫堵轉(zhuǎn)向物模評價》��,副項目長����,66萬�����,2024-2026
[10] 《高溫高壓超深井軟分層工藝暫堵劑運移及封堵規(guī)律模擬評價》��,項目長,50萬�����,2024-2025
[11] 《三低油藏”體積壓裂提質(zhì)提效技術(shù)測試技術(shù)服務(wù)》��,項目長��,60萬�����,2024-2025
[12] 《瑪湖礫巖儲層水平井段內(nèi)多簇暫堵壓裂工藝優(yōu)化研究》�����,副項目長�,124萬����,2021-2022
[13] 《新疆老井轉(zhuǎn)向蓄能重復(fù)壓裂技術(shù)研究與現(xiàn)場試驗》���,副項目長��,97萬��,2021-2022
[14] 《瑪湖礫巖油藏水平井段內(nèi)暫堵效果評估分析》����,副項目長����,47萬,2021-2022
[15] 《HW62031井分段多簇壓裂管外光纖監(jiān)測解釋結(jié)果分析與利用》��,副項目長��,24萬�,2020-2021
[16] 達(dá)13井區(qū)深層礫巖油藏三維地質(zhì)力學(xué)建模及壓裂方案優(yōu)化研究,副項目長�����,51.5萬,2022-2023
[17] 基于巖石力學(xué)實驗的一區(qū)石炭系水平井整體壓裂技術(shù)技術(shù)服務(wù)�,副項目長,76萬����,2022-2024
[18] 2022-2023年達(dá)13井區(qū)儲層改造方案優(yōu)化研究,58.15萬����,2023
2. 一作學(xué)術(shù)論文
[1] Wang Bo, Zhou Fujian*, Yang Chen, Wang Daobing, Yang Kai, Liang Tianbo*. Experimental study on injection pressure response and fracture geometry during temporary plugging and diverting fracturing[J]. SPE Journal, 2020, 25(02): 573-586.
[2] Wang Bo, Zhou Fujian*, Zou Yushi, Liang Tianbo. Wang Daobing, Xue Yanpeng, Gao Liyang. Quantitative investigation of fracture interaction by evaluating fracture curvature during temporarily plugging staged fracturing[J]. Journal of Petroleum Science and Engineering, 2019, 172: 559-571.
[3] Wang Bo, Zhou Fujian*, Yang Chen, Xu Chao, Liu Jianfu, Han Shaobao, Wang Daobing, Ren Zongxiao, Liang Tianbo*. A novel experimental method to investigate the plugging characteristics of diversion agents within hydro-fracture[J]. Journal of Petroleum Science and Engineering, 2019, 183: 106354.
[4] Wang Bo, Zhou Fujian*, Zou Yushi, Liang Tianbo, Wang Daobing, Hu Jia, Gao Liyang. Effects of previously created fracture on the initiation and growth of subsequent fracture during TPMSF[J]. Engineering Fracture Mechanics, 2018, 200: 312-326.
[5] Wang Bo, Zhou Fujian*, Wang Daobing, Liang Tianbo, Yuan Lishan, Hu Jia. Numerical simulation on near-wellbore temporary plugging and diverting during refracturing using XFEM-Based CZM[J]. Journal of Natural Gas Science and Engineering, 2018, 55: 368-381.
[6] Wang Bo*, Zhou Fujian*, Zhou Hang, Ge Hui, Li Lizhe. Characteristics of the fracture geometry and the injection pressure response during near-wellbore diverting fracturing[J]. Energy Reports, 2021, 7: 491-501.
[7] Wang Bo, Zhou Fujian*, Liang Tianbo, Wang Daobing. Gao Liyan, Hu Jia. Evaluations of fracture injection pressure and fracture mouth width during separate-layer fracturing with temporary plugging[J]. Mathematical Problems in Engineering, 2018, 2018.
[8] Wang Bo, Zhang Guchang, Xu Hualei, et al. Insights into the activation characteristics of natural fracture during in-fracture temporary plugging and diverting fracturing[J]. Computers and Geotechnics, 2023, 162.
[9] Wang Bo, Fang, Y.; Li, L.; Liu, Z. Automatic Optimization of Multi-Well Multi-Stage Fracturing Treatments Combining Geomechanical Simulation, Reservoir Simulation and Intelligent Algorithm. Processes 2023, 11, 1759. https://doi.org/10.3390/pr11061759
[10] Wang Bo, Zhang Guchang, Sun Zhenglong, et al. Plugging Characteristics of Self-degradable Diverters within three-dimensional Hydro-fractures: An Experimental Investigation[J]. Physics of Fluids,
[11] Lu Yutian, Wang Bo(共同一作), Zhao Yingying*, Yang Xiaochen, Li Lizhe, Dong Mingzhi, Lv Qin, Zhou Fujian, Gu Ning, Shang Li. Physics-informed surrogate modeling for hydro-fracture geometry prediction based on deep learning[J]. Energy, 2022, 253: 124139.
[12] Wang Bo, Zhang Guchang, Zhang Li, et al. Promoting the uniform propagation of multi-fracture through adjusting the injection rate and perforation parameter: A numerical study. Physics of Fluids, 2023, 35(12).
[13] 王博;李麗哲;董小衛(wèi);劉帥;周福建,基于光纖監(jiān)測的段內(nèi)多簇壓裂效果主控因素研究�,石油科學(xué)通報��,錄用待刊
[14] 王博,古小龍,李文霞,等.強沖蝕不規(guī)則孔眼封堵規(guī)律實驗研究[J].西安石油大學(xué)學(xué)報(自然科學(xué)版),2023,38(06):46-53.
[15] 王博,劉雄飛*, 胡佳, 劉進軍, 周福建, 周航. 縫內(nèi)暫堵轉(zhuǎn)向壓裂數(shù)值模擬方法[J].石油科學(xué)通報,2021,6(02):262-271
[16] 王博, 周福建*, 鄒雨時, 高李陽, 胡佳, 古小龍. 水平井暫堵分段縫間干擾數(shù)值模擬方法[J].斷塊油氣田,2018,25(04):506-509.
3. 通訊學(xué)術(shù)論文
[1] Zhou Hang, Wang Bo*, Zhang Li, Shi Guanghao, Tang Weiyu, Tan Lin, Chen Zhao, Zhou Fujian*. Quantitative characterization and fracture morphology in reservoirs with various lithologies: An experimental investigation[J]. Geoenergy Science and Engineering, 2024, 239: 212911.
[2] Zhou Hang, Zhang Li, Zhang Kiaxuan, Wang Bo*, Zhou Fujian. The synergistic mechanisms of fracture plugging in tight reservoirs with different lithologies: An experimental investigation[J]. Engineering Fracture Mechanics, 2024: 110301.
[3] Zhou Hang, Zhang Li, Zhang Kiaxuan, Shi Guanghao, Wang Bo*, Zhou Fujian. The hydraulic fracture propagation pattern induced by multi-stage temporary plugging and diverting fracturing in reservoirs with various lithologies: An experimental investigation[J]. Physics of Fluids, 2024, 36(8).
[4] Wang Yunjin, Wang Bo*, Su Hang, Chang Tu, Dong Rencheng, Li Lizhe, Tang Weiyu, Jiang Tingxue, Zhou Fujian*. Mechanisms of fracture propagation from multi-cluster using a phase field based HMD coupling model in fractured reservoir[J]. Petroleum Science, 2024.
[5] Li Lizhe, Wang Bo*, Ge Hui, Zhou Hang, Wang Yunjin, Zhang Li, Zhou Fujian*. The intelligent optimization of perforation cluster locations incorporating the fiber optics monitoring results[J]. Physics of Fluids, 2023, 35(12).
[6] Zhang, L., Yuan, L., Wang, B., Zhou, H., & Zhou, F. (2024). Quantitative investigation into the relationship between the fracture geometry and the well production during near-wellbore temporary plugging and diverting fracturing. Physics of Fluids, 36(8).
[7] Li Minghui, Lv Wenjing, Liu Jinjun, Sun Zhenglong, Zhou Fujian, Wang Bo*. Effect of perforation friction on 3D In-stage multiple fracture propagation: A numerical study[J]. Engineering Fracture Mechanics, 2022, 267: 108415.
[8] Wang Mingxing, Wang Jia, Cheng Fushan, Chen Xiaolu, Yang Xuda, Lv Wenjing, Wang Bo*. Diverter plugging pattern at the fracture mouth during temporary plugging and diverting fracturing: An experimental study[J]. Energy Reports, 2022, 8: 3549-3558.
[9] Shi Shanzhi, Cheng Fushan, Wang Mingxing, Wang Jian, Lv Wenjing, Wang Bo*. Hydrofracture plugging mechanisms and evaluation methods during temporary plugging and diverting fracturing[J]. Energy Science & Engineering, 2022.
[10] Li Minghui, Zhou Fujian*, Sun Zhonghua, Dong Enjia, Zhuang Xiaoying, Yuan Lishan, Wang Bo*. Experimental study on plugging performance and diverted fracture geometry during different temporary plugging and diverting fracturing in Jimusar shale[J]. Journal of Petroleum Science and Engineering, 2022, 215: 110580.
[11] Fan,Q.;Ma,Y.;Wang,J.;Chen,L.;Ye,Z.;Xu,Y.;Li,H.;Wang,B*.Investigation into the Perforation Optimization in Conglomerate Reservoir Based on a Field Test. Processes 2023,11,2446. https://doi.org/10.3390/pr11082446
[12] Li Minghui, Zhou Fujian*, Liu Jinjun, Yuan Lishan, Huang Guopeng, Wang Bo*. Quantitative investigation of multi-fracture morphology during TPDF through true tri-axial fracturing experiments and CT scanning[J]. Petroleum Science, 2022.
[13] Yuan Lishan, Zhou Fujian*, Li Minghui, Yang Xuda, Cheng Jiaqi, Wang Bo*. Experimental Study on Diverter Transport Through Perforations in Multicluster Fracturing of Horizontal Well[J]. SPE Journal, 2022, 27(02): 971-985.
[14] Li MingHui, Zhou Fujian*, Wang Bo*, Hu Xiaodong*, Wang Daobing, Zhuang Xiaoying, Han Shaobo, Huang Guopeng. Numerical simulation on the multiple planar fracture propagation with perforation plugging in horizontal wells[J]. Petroleum Science, 2022.
[15] Wang, Y., Sun, B., Wang, T., Hao, Z., & Wang, B. (2023). Quantitative Investigation of Fracture Apertures during Temporary Plugging and Diverting Fracturing. Sustainability, 15(20), 14664.
[16] 呂雯靜, 孫正龍, 劉博文, 周航, 周福建, 王博*.吉木薩爾油頁巖限流壓裂孔眼摩阻優(yōu)化方法[J].西安石油大學(xué)學(xué)報(自然科學(xué)版),2022,37(03):49-57.
[17] 吳寶成, 周福建, 王明星, 周培堯, 呂雯靜, 王博*. 繩結(jié)式暫堵劑運移及封堵規(guī)律實驗研究[J]. 鉆采工藝, 2022, 45(4):6.
[18] 許江文, 張谷暢, 李建民, 王濤, 程家麒, 王博*. 暫堵劑形狀對裂縫封堵影響規(guī)律的實驗研究[J]. 斷塊油氣田, 2022, 29(6):6.
[19] 李麗哲,周福建*,王博*.水平井多級壓裂高維參數(shù)智能優(yōu)化方法研究[J].石油科學(xué)通報,2023,8(03):347-359.
[20] 滕衛(wèi)衛(wèi);王博*;張谷暢;吳寶成;李建民;葛洪魁; 段內(nèi)多簇暫堵壓裂中暫堵球直徑優(yōu)化研究 [J]. 鉆采工藝, 2023, 46 (05): 61-67.
[21] 項遠(yuǎn)鎧�����,張谷暢����,承寧,程壘明�,王博*,深層砂礫巖整體壓裂礦場試驗研究����,斷塊油氣田�����,錄用待刊
[22] 俞天喜;孫錫澤;陳強;陳江萍;徐克山;張敬春;周航; 王博*. 不同巖性儲層裂縫封堵規(guī)律實驗 [J]. 斷塊油氣田, 2024, 31 (02): 345-350
[23] 呂振虎, 呂蓓, 羅垚, 吳虎, 李麗哲, 王博*�?�;诠饫w監(jiān)測的段內(nèi)多簇暫堵方案優(yōu)化 [J]. 石油鉆探技術(shù), 2024, 52 (01): 114-121.
獎勵:
[4] 第三屆青年教師教學(xué)比賽院一等獎���,第三屆青年教師教學(xué)比賽校區(qū)二等獎��,第十四屆中國石油大學(xué)(北京)青教賽三等獎
[5] 致密油高效壓裂與增能一體化技術(shù)及應(yīng)用�,2021年度石油與自動化科技進步一等獎����。(省部級一等獎)6/15
[6] 深井高溫儲層壓裂暫堵轉(zhuǎn)向機理及調(diào)控技術(shù)與應(yīng)用,2023年度石油與自動化技術(shù)發(fā)明一等獎���,省部級���,8/15
[7] 2021年度中國石油科學(xué)十佳論文(全國共10篇)
[8] 2022年全國高校礦業(yè)石油與安全工程領(lǐng)域優(yōu)秀青年科技人才提名
專利:
[1] 王博,周福建,劉雄飛�����,尚笠�����,李麗哲等�����,水力裂縫內(nèi)暫堵體信息的一體化確定方法���、裝置��、設(shè)備,發(fā)明專利��,授權(quán). (ZL 202010862263.9)
[2] 王博, 周福建, 劉雄飛, 尚笠, 李麗哲, & 李奔等. 壓裂高維參數(shù)的自動搜索方法,裝置和設(shè)備. 授權(quán)
[3] 王博�,尚子琛,周福建�����,侯要要,譚林���,李光普��,趙景霖��,用于確定裂縫性儲層縫網(wǎng)的壓裂方案的方法及裝置���,授理. (CN202410442661.3)
[4] 王博,譚林����,周福建,侯要要���,尚子琛��,李光普��,趙景霖���,用于確定斷層影響下水力裂縫的擴展軌跡的方法及裝置,授理. (CN202410442663.2)
[5] 王博�����,侯要要,周福建�����,譚林��,尚子琛�����,李光普����,趙景霖,用于確定多井平臺的壓裂方案的方法���、裝置及處理器�����,授理. (CN202410442659.6)
[6] 王博,周福建���,左潔���,楊凱����,解子祺��,劉雄飛����,姚二冬,梁天博��,胡曉東�����,李奔���,曲鴻雁���,用于多井平臺布井的方法、裝置��、處理器及計算機設(shè)備,授理. (CN202311714924.3)
[7] 王博�����,周福建����,左潔,楊凱���,解子祺�,劉雄飛���,姚二冬����,梁天博�,胡曉東,李奔�,曲鴻雁,區(qū)塊空間應(yīng)力場重構(gòu)的方法�����、裝置�����、處理器和計算機設(shè)備��,授理. (CN202311713645.5)
[8] 王博�����,周福建�,左潔,楊凱����,解子祺,劉雄飛��,姚二冬���,梁天博���,胡曉東,李奔���,曲鴻雁����,射孔簇位置的優(yōu)化設(shè)計方法、處理器及機器可讀存儲介質(zhì)��,授理. (CN202311658008.2)
[9] 王博�����,周福建�,李麗哲,左潔�����,楊凱���,李秀輝�,一種油井的分段分簇方法��、裝置����、計算機設(shè)備及存儲介質(zhì)���,授理. (CN202211150682.5)
[10] 王博,周福建���,周航,左潔�,楊凱,李秀輝�,一種暫堵劑確定方法、裝置��、計算機設(shè)備及存儲介質(zhì)����,授理. (CN202211150294.7)
[11] 趙兵, 李楠, 楊玉琴, 周福健, 王博, & 袁立山等. 一種確定縫內(nèi)暫堵轉(zhuǎn)向所需封堵強度的方法,授權(quán). CN107313773A.
[12] 薛艷鵬���, 周福建����, 姚二冬��, 曲鴻雁����, 楊凱����, 左潔��, 秦小侖��, 王博. 三孔巖心釜���、超低滲儲層液體傷害評價實驗裝置及方法. 發(fā)明專利��,授權(quán). (CN201610003898.7)
[13] 王博�,周福建��,楊晨�,袁立山,王悅����,胡佳. 縫內(nèi)暫堵轉(zhuǎn)向形成多縫壓裂設(shè)計軟件V1.0,授權(quán) (2016SR314592)(軟著)
[14] 王博����,周福建�����,楊晨�,袁立山�,王悅,胡佳. 纖維-顆粒-粉末組合��、配比及用量優(yōu)化設(shè)計軟件V1.0�,授權(quán) (2016SR314505)(軟著)
[15] 王博���,周福建����,楊晨���,袁立山�����,王悅��,胡佳. 暫堵縫口縱向分層壓裂設(shè)計軟件V1.0�����, 授權(quán) (2016SR320611)(軟著)
聯(lián)系方式:
E-mail:wb_cup@163.com; wangbo@cupk.edu.cn
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