開(kai)年(nian)首(shou)講(jiang)
時(shi)間:3月(yue)19日(周(zhou)六) 晚(wan)上 具體時(shi)間待(dai)定
主題(ti):低(di)場(chang)核磁(ci)共振(zhen)在(zai)致密(頁巖)油(you)藏(zang)提(ti)高采(cai)收(shou)率理論與(yu)技術(shu)中的研(yan)究(jiu)進(jin)展(zhan)
作(zuo)為2022年春(chun)年開(kai)工(gong)後的首(shou)講(jiang),紐邁(mai)重(zhong)磅(bang)為大(da)家(jia)準備(bei)了這(zhe)期講(jiang)座(zuo)——邀請(qing)西(xi)南石油(you)大(da)學魏(wei)兵(bing)教授,線上(shang)雲(yun)課(ke)堂(tang)為(wei)大(da)家(jia)做(zuo)關於基(ji)於低(di)場(chang)核磁(ci)共振(zhen)技(ji)術的致密(頁巖)油(you)藏(zang)提(ti)高采(cai)收(shou)率技術研(yan)究(jiu)進(jin)展(zhan)的(de)講(jiang)座(zuo),歡(huan)迎(ying)大(da)家(jia)報名(ming)參(can)加(jia)。
掃碼(ma)報名(ming),報名(ming)後自動(dong)彈(dan)出(chu)會議鏈(lian)接,請(qing)妥(tuo)善(shan)保存(cun)
3月(yue)19日 晚上(shang)
魏(wei)兵(bing)教授 在線(xian)講(jiang)座(zuo)
提高(gao)采(cai)收(shou)率 學術交流(liu)
我(wo)國的致(zhi)密油(you)儲(chu)量巨(ju)大(da),分布(bu)廣泛(fan),是我(wo)國最現(xian)實的(de)石油(you)接替(ti)資(zi)源(yuan)。當下,要(yao)提高(gao)致密資(zi)源(yuan)的(de)開(kai)發(fa)效(xiao)益,必(bi)須依(yi)靠提高(gao)采(cai)收(shou)率(EOR)技術。傳(chuan)統(tong)的(de)致密油(you)提(ti)高采(cai)收(shou)率室(shi)內(nei)研(yan)究(jiu)方(fang)法(fa)由於受(shou)巖心(xin)物(wu)性(xing)的制約存(cun)在(zai)較(jiao)大(da)局(ju)限(xian)性(xing)。核磁(ci)共振(zhen)(NMR)作(zuo)為壹種(zhong)無損傷、快(kuai)速、準(zhun)確的測(ce)試(shi)分析(xi)技(ji)術(shu),為(wei)致密油(you)提(ti)高采(cai)收(shou)率理論研(yan)究(jiu)提(ti)供(gong)了壹條全(quan)新(xin)的途徑(jing)。本次邀請(qing)的(de)嘉賓——西南石油(you)大(da)學魏(wei)兵(bing)教授,作為(wei)油(you)氣(qi)藏(zang)地質與(yu)開(kai)發(fa)工(gong)程(cheng)國家(jia)重(zhong)點實(shi)驗室(shi)、復(fu)雜油(you)藏(zang)三次采(cai)油(you)研(yan)究(jiu)中心(xin)執(zhi)行(xing)主任(ren)以及(ji)復雜油(you)氣(qi)藏(zang)提(ti)高采(cai)收(shou)率青年(nian)科技創(chuang)新團(tuan)隊(dui)帶(dai)頭(tou)人,在(zai)油(you)氣(qi)藏(zang)提(ti)高采(cai)收(shou)率方(fang)面(mian)有(you)非(fei)常(chang)多(duo)的(de)學術成果(guo)。
魏(wei)兵(bing) 教授
西南石油(you)大(da)學、油(you)氣(qi)藏(zang)地質與(yu)開(kai)發(fa)工(gong)程(cheng)國家(jia)重(zhong)dian實驗室(shi)
魏(wei)兵(bing),教授、博士(shi)生(sheng)導(dao)師,西南石油(you)大(da)學油(you)氣(qi)藏(zang)地質與(yu)開(kai)發(fa)工(gong)程(cheng)國家(jia)重(zhong)dian實驗室(shi)、復(fu)雜油(you)藏(zang)三次采(cai)油(you)研(yan)究(jiu)中心(xin)執(zhi)行(xing)主任(ren)、復雜油(you)氣(qi)藏(zang)提(ti)高采(cai)收(shou)率青年(nian)科技創(chuang)新團(tuan)隊(dui)帶(dai)頭(tou)人。博(bo)士(shi)畢(bi)業(ye)於加(jia)拿(na)大(da)新布(bu)倫瑞克(ke)大(da)學,主要(yao)從事非常(chang)規(gui)油(you)藏(zang)開(kai)發(fa)理論與(yu)技術(shu)方(fang)向的(de)教(jiao)學和科研(yan)工(gong)作(zuo)。主講(jiang)石油(you)工(gong)程(cheng)專(zhuan)業本科生(sheng)《油(you)層(ceng)物(wu)理》和留(liu)學(xue)生(sheng)英(ying)文課(ke)程(cheng)《Enhanced Oil Recovery》。基(ji)於多(duo)尺(chi)度實驗模(mo)擬技(ji)術及氣(qi)液(ye)固(gu)界面(mian)原位捕捉技(ji)術(shu),系(xi)統(tong)構(gou)建了致(zhi)密(頁巖)儲(chu)層納(na)米限(xian)域效(xiao)應(ying)、裂(lie)縫屬性反(fan)演(yan)、基質(zhi)/裂縫耦合滲流(liu)、深度(du)學習(xi)輔助(zhu)油(you)藏(zang)模(mo)擬等(deng)研(yan)究(jiu)方(fang)法(fa),並(bing)在(zai)鄂(e)爾(er)多(duo)斯(si)、塔裏(li)木、準(zhun)格爾(er)等(deng)大(da)型(xing)油(you)氣(qi)盆(pen)地取(qu)得應用成效(xiao)。主持(chi)完成國jia極(ji)、省部(bu)級基金項目7項,企(qi)業(ye)攻(gong)關項目21項,在SPE J、石油(you)學(xue)報、Energy等(deng)期刊(kan)發(fa)表(biao)學(xue)術(shu)論(lun)文(wen)125篇,獲(huo)省部(bu)級以上(shang)科技獎勵(li)7項。
內(nei)容(rong)摘要(yao):低場(chang)核磁(ci)共振(zhen)在(zai)致密(頁巖)油(you)藏(zang)提(ti)高采(cai)收(shou)率理論與(yu)技術(shu)中的研(yan)究(jiu)進(jin)展(zhan)國內(nei)外頁巖油(you)提(ti)高采(cai)收(shou)率領域研(yan)究(jiu)進(jin)展(zhan)
低(di)場核磁(ci)共振(zhen)在(zai)EOR的研(yan)究(jiu)概述(shu)
壹維(wei)核磁(ci)共振(zhen)在(zai)驅(qu)替(ti)、滲吸的應用案例
D-T2、 T1–T2等二(er)維(wei)核磁(ci)技術(shu)原理及應(ying)用案例
2021年魏(wei)教(jiao)授團(tuan)隊(dui)在(zai)能源(yuan)領(ling)域權wei期(qi)刊(kan)《Energy》上(shang),發(fa)表(biao)壹篇關於核磁(ci)共振(zhen)技(ji)術在致密油(you)提(ti)高采(cai)收(shou)率領域研(yan)究(jiu)進(jin)展(zhan)的(de)綜(zong)述(shu),點擊(ji)圖片(pian)查(zha)看(kan)文獻(xian)詳情。▲點擊(ji)圖片(pian)查(zha)看(kan)文獻(xian)詳情
低(di)場核磁(ci)共振(zhen)技(ji)術應用
壹、魏(wei)教(jiao)授科研(yan)團(tuan)隊(dui)學(xue)術(shu)成果(guo)(部(bu)分)期(qi)刊(kan)文(wen)章(zhang):第(di)壹作(zuo)者/通訊(xun)作(zuo)者(zhe)(總(zong)被(bei)引793次(ci))Characterizing Pore-level Oil Mobilization Processes in Unconventional Reservoirs assisted by State-of-the-Art Nuclear Magnetic Resonance Technique.Energy 2021.(SCI,EI/IF:7.147)
Visualization of CO2 Foam Generation, Propagation and Sweep in a Complex 2D Heterogeneous Fracture Network[J]. Fuel 2021.(SCI,EI/IF:6.609)
Design and Fabrication of Anionic/Cationic Surfactant Foams Stabilized by Liginin-Cellulose Nanofibrils (LCNFs) for Enhanced Oil Recovery[J]. Energy & Fuels.2021.(SCI,EI/IF:3.605)
Effectiveness and sensitivity analysis of solution gas re-injection in Baikouquan tight formation, Mahu sag for enhanced oil recovery.Petroleum, 2020.(SCI,EI/IF:4.090)
Nuclear Magnetic Resonance (NMR) Monitoring of Mass Exchange in a Low Permeability Matrix-Fracture Model during CO2 Cyclic Injection: A Mechanistic Study. SPE Journal,2019.(SCI,EI/IF:3.478)
Nuclear Magnetic Resonance (NMR) Mapping of Remaining Oil Distribution in Sequential Rate Waterflooding Processes for Improving Oil Recovery. Journal of Petroleum Science and Engineering,2020.(SCI,EI/IF:4.346)
Colind Wood. Pore-scale Monitoring of CO2 and N2 Flooding Processes in a Tight Formation under Reservoir Conditions using Nuclear Magnetic Resonance (NMR): A Case Study. Fuel, 2019.(SCI,EI/IF:6.609)
Recent advances of surfactant-stabilized N2/CO2 foams in enhanced oil recovery. Fuel,2019.(SCI,EI/IF:6.609)
二(er)、 同(tong)行(xing)對(dui)論文(wen)及研(yan)究(jiu)成(cheng)果(guo)評(ping)價西(xi)南石油(you)大(da)學魏(wei)兵(bing)教授團(tuan)隊(dui)1.David Sinton(加(jia)拿(na)大(da)能源(yuan)首(shou)xi科學家(jia),加拿大(da)工(gong)程(cheng)院院士(shi),多(duo)倫多(duo)大(da)學教授)“Wei等人(ren)提(ti)供(gong)了利用高溫高壓(ya)相(xiang)態(tai)儀定量表(biao)征(zheng)CO2-原油(you)溶(rong)解、擴散、膨脹和抽提多(duo)重(zhong)作用的標準(zhun)方(fang)法(fa)。"(Analytical Chemistry, 2018, 90: 2461-2467. 壹區(qu)top,IF=6.35)圖:David Sinton對(dui)魏(wei)教(jiao)授成果(guo)評(ping)價
2.Roberto Aguilera(SPE Journal執(zhi)行(xing)主編(bian),加(jia)拿大(da)卡爾(er)加(jia)裏(li)大(da)學教授,康(kang)菲石(shi)油(you)公(gong)司非(fei)常(chang)規(gui)油(you)氣(qi)藏(zang)工(gong)程(cheng)首(shou)xi科學家(jia))審稿意(yi)見(jian):本篇文章(zhang)對(dui)本領域科學研(yan)究(jiu)以(yi)及(ji)石(shi)油(you)界更(geng)深入(better understand)的理解CO2提(ti)高致密油(you)藏(zang)采(cai)收(shou)率機理具有(you)重(zhong)要(yao)意(yi)義(yi)。(SPE Journal, 2019, 25, 440-450. 石(shi)油(you)領(ling)域內(nei)權(quan)wei期刊(kan))I believe this paper can contribute to the current knowledge in the field and help the petroleum industry to better understand the CO2 injection for enhanced oil recovery.
3.Clement Sanchez(歐(ou)洲(zhou)科學院(yuan)院(yuan)士(shi),法(fa)國巴黎第(di)六(liu)大(da)學教授,獲(huo)法(fa)國材(cai)料(liao)和冶(ye)金協(xie)會最高(gao)獎)
“Wei等人通過改變(bian)納(na)米纖(xian)維(wei)素的表(biao)面(mian)性(xing)質(zhi),成(cheng)為(wei)壹種(zhong)非常(chang)難(nan)得的泡(pao)沫(mo)穩(wen)定材(cai)料(liao)。"(Chemical Reviews, 2018, 118(24): 11575-11625. 頂(ding)級期刊(kan),IF=60.6)圖:Clement Sanchez對(dui)魏(wei)教(jiao)授成果(guo)評(ping)價
4.Hiroyuki Yano(日本京都(dou)大(da)學教授,國際木(mu)材(cai)科學院(yuan)院(yuan)士(shi))“Wei等(deng)人(ren)利用納(na)米纖(xian)維(wei)素和表(biao)面(mian)活(huo)性(xing)劑相(xiang)互(hu)作用,使泡沫(mo)具有(you)強傳(chuan)輸(shu)能力,是(shi)提(ti)高采(cai)收(shou)率級佳(jia)的選擇。"(Advanced Materials,2020,2002264. 頂(ding)級期刊(kan),IF=30.8)圖:Hiroyuki Yano對(dui)魏(wei)教(jiao)授成果(guo)評(ping)價
5.Qinglin Wu(美國路易(yi)斯(si)安那州立大(da)學教授,歐洲(zhou)科學院(yuan)院(yuan)士(shi));Martin Hubbe(美國北卡羅(luo)來(lai)納(na)州立大(da)學教授,纖維(wei)材(cai)料(liao)知ming專(zhuan)家(jia));Michael Bortner(美國弗吉(ji)尼亞理工(gong)大(da)學教授,流(liu)變(bian)學知(zhi)ming專(zhuan)家(jia))在論文(wen)提(ti)高(gao)采(cai)收(shou)率部(bu)分:共引(yin)評(ping)10篇論文(wen),本人論(lun)文7篇:“充分證(zheng)明(ming)在裂縫調(tiao)控(kong)方(fang)向研(yan)究(jiu)的(de)深度(du)和連(lian)續(xu)性。"(Advanced Materials, 2021, 33: 2006052. 頂(ding)級期刊(kan),IF=30.8)圖:Qinglin Wu對(dui)魏(wei)教(jiao)授成果(guo)評(ping)價
6.Brij Maini(加(jia)拿大(da)卡爾(er)加(jia)裏(li)大(da)學教授,CNOOC北美技(ji)術(shu)首(shou)xi)“Wei等(deng)人的納(na)米纖(xian)維(wei)素有望(wang)突破聚(ju)丙(bing)烯(xi)酰(xian)胺在(zai)挑戰(zhan)性(xing)油(you)藏(zang)或苛刻條件下有效(xiao)驅(qu)油(you)的(de)應用局(ju)限(xian)。"“研(yan)發(fa)的(de)基(ji)於納(na)米纖(xian)維(wei)材(cai)料(liao)體系(xi)有望(wang)突破HPAM在復(fu)雜油(you)藏(zang)的(de)應用瓶頸(jing)。(limitations)"(Advances in colloid and interface science, 2019, 272: 102018. 壹區(qu)top,IF=9.9)
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