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Eco-friendly calcium alginate microspheres enable enhanced profile control and oil displacement
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作者 Xiao-Han Zhang Chang-Jing Zhou +6 位作者 Yuan-Xiang Xiao Bo Hui Yong-Gang Xie Yu-Bin Su Xin-Ru Li Jie Huang Mao-Chang Liu 《Petroleum Science》 SCIE EI CAS CSCD 2024年第3期1928-1943,共16页
Polymer microspheres(PMs),such as polyacrylamide,have been widely applied for enhanced oil recovery(EOR),yet with environmental concerns.Here,we report a microfluid displacement technology containing a bio-based eco-f... Polymer microspheres(PMs),such as polyacrylamide,have been widely applied for enhanced oil recovery(EOR),yet with environmental concerns.Here,we report a microfluid displacement technology containing a bio-based eco-friendly material,i.e.,calcium alginate(CaAlg)microspheres for EOR.Two dominant mechanisms responsible for EOR over Ca Alg fluid have been verified,including the microscopic oil displacement efficacy augmented by regulating capillary force(determined by the joint action of interfacial tension and wettability between different phases)and macroscopic sweep volume increment through profile control and mobility ratio reduction.This comprehensive effectiveness can be further impacted when the CaAlg microsphere is embellished ulteriorly by using appropriate amount of sodium dodecyl sulfonate(SDS).The core flooding and nuclear magnetic resonance(NMR)tests demonstrate that CaAlg-SDS microsphere can balance the interphase property regulation(wettability alteration and IFT reduction)and rheology properties,enabling simultaneous profile control and oil displacement.Excessive introduction of SDS will have a negative impact on rheological properties,which is not favored for EOR.Our results show that the involvement of 4-m M SDS will provide the best behavior,with an EOR rate of 34.38%.This cost-effective and environmentally-friendly bio-microspherebased microfluidic displacement technology is expected to achieve“green”oil recovery in future oilfield exploitation. 展开更多
关键词 Calcium alginate microspheres WETTABILITY Interfacial tension RHEOLOGY VISCOELASTICITY enhanced oil recovery(eor)
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Study of steam heat transfer enhanced by CO_(2) and chemical agents: In heavy oil production 被引量:2
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作者 Ya-Li Liu Chao Zhang +1 位作者 Song-Yan Li Zhao-Min Li 《Petroleum Science》 SCIE EI CAS CSCD 2023年第2期1030-1043,共14页
Steam flooding with the assistance of carbon dioxide (CO_(2)) and chemicals is an effective approach for enhancing super heavy oil recovery. However, the promotion and application of CO_(2) and chemical agent-assisted... Steam flooding with the assistance of carbon dioxide (CO_(2)) and chemicals is an effective approach for enhancing super heavy oil recovery. However, the promotion and application of CO_(2) and chemical agent-assisted steam flooding technology have been restricted by the current lack of research on the synergistic effect of CO_(2) and chemical agents on enhanced steam flooding heat transfer. The novel experiments on CO_(2)–chemicals cooperate affected steam condensation and seepage were conducted by adding CO_(2) and two chemicals (sodium dodecyl sulfate (SDS) and the betaine temperature-salt resistant foaming agent ZK-05200).According to the experimental findings, a “film” formed on the heat-transfer medium surface following the co-injection of CO_(2) and the chemical to impede the steam heat transfer, reducing the heat transfer efficiency of steam, heat flux and condensation heat transfer coefficient. The steam seepage experiment revealed that the temperature at the back end of the sandpack model was dramatically raised by 3.5–12.8 °C by adding CO_(2) and chemical agents, achieving the goal of driving deep-formation heavy oil. The combined effect of CO_(2) and SDS was the most effective for improving steam heat transfer, the steam heat loss was reduced by 6.2%, the steam condensation cycle was prolonged by 1.3 times, the condensation heat transfer coefficient was decreased by 15.5%, and the heavy oil recovery was enhanced by 9.82%. Theoretical recommendations are offered in this study for improving the CO_(2)–chemical-assisted steam flooding technique. 展开更多
关键词 Steam flooding Heavy oil Carbon dioxide Chemical agent enhanced oil recovery(eor) Heat transfer
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Surfactant induced reservoir wettability alteration:Recent theoretical and experimental advances in enhanced oil recovery 被引量:14
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作者 Wang Yefei XU Huaimin +3 位作者 Yu Weizhao Bai Baojun Song Xinwang Zhang Jichao 《Petroleum Science》 SCIE CAS CSCD 2011年第4期463-476,共14页
Reservoir wettability plays an important role in various oil recovery processes.The origin and evolution of reservoir wettability were critically reviewed to better understand the complexity of wettability due to inte... Reservoir wettability plays an important role in various oil recovery processes.The origin and evolution of reservoir wettability were critically reviewed to better understand the complexity of wettability due to interactions in crude oil-brine-rock system,with introduction of different wetting states and their influence on fluid distribution in pore spaces.The effect of wettability on oil recovery of waterflooding was then summarized from past and recent research to emphasize the importance of wettability in oil displacement by brine.The mechanism of wettability alteration by different surfactants in both carbonate and sandstone reservoirs was analyzed,concerning their distinct surface chemistry,and different interaction patterns of surfactants with components on rock surface.Other concerns such as the combined effect of wettability alteration and interfacial tension (IFT) reduction on the imbibition process was also taken into account.Generally,surfactant induced wettability alteration for enhanced oil recovery is still in the stage of laboratory investigation.The successful application of this technique relies on a comprehensive survey of target reservoir conditions,and could be expected especially in low permeability fractured reservoirs and forced imbibition process. 展开更多
关键词 Wettability alteration RESERVOIR enhanced oil recovery (eor) SURFACTANT
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苏北油区CCUS-EOR项目全成本经济评价体系研究 被引量:1
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作者 徐强 《化工环保》 CAS CSCD 北大核心 2024年第2期265-270,共6页
将CO_(2)捕集、利用与封存(CCUS)技术与提高原油采收率(EOR)技术相结合,将捕集的CO_(2)注入地下驱油,在提高采收率的同时实现碳封存。CCUS-EOR项目的完整流程包括捕集压缩、运输、驱油、回注等多个环节。本文将CCUS-EOR全流程视为一个整... 将CO_(2)捕集、利用与封存(CCUS)技术与提高原油采收率(EOR)技术相结合,将捕集的CO_(2)注入地下驱油,在提高采收率的同时实现碳封存。CCUS-EOR项目的完整流程包括捕集压缩、运输、驱油、回注等多个环节。本文将CCUS-EOR全流程视为一个整体,通过剖析CO_(2)驱与常规水驱开发成本构成差异,建立适宜的CCUS-EOR项目全成本经济评价体系,确定捕集成本、运输成本、驱油成本的取值依据,推导出考虑碳减排收益的盈亏平衡模型,满足CCUS-EOR项目快速评价、辅助决策需求。 展开更多
关键词 碳捕集利用与封存(CCUS) 提高原油采收率(eor) 成本 碳减排量 盈亏平衡经济模型
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考虑驱油与碳减排双重效益的CCUS-EOR经济性及发展模式分析与探讨 被引量:6
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作者 谭新 罗大清 宋欣和 《油气地质与采收率》 CAS CSCD 北大核心 2024年第2期70-78,共9页
双碳战略目标下,石油石化行业转型的重点、难点在于探寻低成本转型发展路径,这就要求系统研究各项转型技术的发展基础和规模潜力,统筹各项转型技术发展应用时序,形成支撑最优转型路径的技术组合和综合方案。碳捕集、封存与利用(CCUS)的... 双碳战略目标下,石油石化行业转型的重点、难点在于探寻低成本转型发展路径,这就要求系统研究各项转型技术的发展基础和规模潜力,统筹各项转型技术发展应用时序,形成支撑最优转型路径的技术组合和综合方案。碳捕集、封存与利用(CCUS)的技术成熟度较高,与石油石化产业协同耦合性较好,是石油石化转型的关键技术之一,但成本过高仍是目前阻碍CCUS技术规模化发展的主要问题。分析CCUS的经济性及探讨其发展模式,对于确定未来CCUS产业的发展布局,以及研究CCUS对石油石化行业转型的支撑潜力、石油石化行业的转型路径具有重要作用。为深入分析研究未来CCUS技术的经济性及在石油石化行业转型中的潜力和定位,本研究重点聚焦碳捕集与驱油封存(CCUS-EOR),提出了一套全新的分析研判思路。首先,通过CCUS-EOR的全流程梳理,详细分析介绍了各个环节的成本,包括碳捕集、运输、驱油封存等环节,研判了未来各个环节的成本下降空间。其次,通过对未来油价和碳价的研判,分析了驱油及碳减排带来的经济收益,并进行了成本收益对比。基于CCUS-EOR各环节的成本收益分析结果,本研究进一步对中国未来不同模式下的CCUS-EOR项目进行了全面的经济性评估,涵盖了不同的碳捕集技术、运输方式以及封存策略,揭示了在不同场景下CCUS-EOR项目的盈利能力和可持续发展潜力。研究结果表明,CCUS-EOR的经济性深受碳价、油价、驱油效率等多重因素的影响,其中从中长期来看,碳价的变化对未来CCUS-EOR收益影响较大。在碳价和油价均处于较高水平的情况下,CCUS-EOR项目的盈利空间更大,更具吸引力,同时驱油效率的提升也能显著提高项目的经济收益。当前中国各个项目经济性差异较大,无法完全保证明显盈利,但未来的经济性有较大提升空间。针对未来中国CCUS-EOR的发展,需要突破碳捕集环节的技术瓶颈,重点开发运用燃烧前捕集技术,降低捕集成本,提升捕集效率。此外,还需要优化产业布局,形成源汇匹配的产业集群,实现产业链的协同效应。同时,需积极推动碳交易市场的发展成熟,通过市场机制引导碳减排行为,为CCUS-EOR技术在石油石化行业的推广和应用创造良好的外部环境。 展开更多
关键词 双碳目标 能源转型 碳捕集、封存与利用 CO_(2)驱油 CCUS-eor
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A review of fluid displacement mechanisms in surfactant-based chemical enhanced oil recovery processes:Analyses of key influencing factors 被引量:6
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作者 Ahmed Bashir Amin Sharifi Haddad Roozbeh Rafati 《Petroleum Science》 SCIE CAS CSCD 2022年第3期1211-1235,共25页
Surfactant-based oil recovery processes are employed to lower the interfacial tension in immiscible displacement processes,change the wettability of rock to a more water-wet system and emulsify the oil to displace it ... Surfactant-based oil recovery processes are employed to lower the interfacial tension in immiscible displacement processes,change the wettability of rock to a more water-wet system and emulsify the oil to displace it in subsurface porous media.Furthermore,these phenomena can reduce the capillary pressure and enhance spontaneous imbibition.The key factors affecting such immiscible displacement process are temperature,salinity and p H of the fluids,surfactant concentration and adsorption.Therefore,before any surfactant flooding process is applied,extensive studies of fluid-fluid and rock-fluid interactions are needed.The use of other chemicals along with surfactants in chemical enhanced oil recovery(c EOR)processes have been widely considered to exploit the synergy of individual chemicals and complement the weakness arises from each of them during immiscible displacement of fluids in porous media.Therefore,such combinations of chemicals lead to alkaline-surfactant(AS),surfactantpolymer(SP),alkaline-surfactant-polymer(ASP),and nanoparticle-surfactant(NS)flooding processes,among others.In this review study,we categorised the role and displacement mechanisms of surfactants and discussed the key factors to be considered for analysing the fluid displacement in porous media. 展开更多
关键词 Alkaline surfactant(AS)flooding Alkaline-surfactant-polymer(ASP)flooding enhanced oil recovery(eor) Interfacial tension(IFT) Nanoparticle-surfactant(NS)flooding Surfactant adsorption Surfactant-polymer(SP)flooding Wettability alteration
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Assessment of Nanoparticle-Enriched Solvents for Oil Recovery Enhancement
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作者 Muayad M.Hasan Firas K.Al-Zuhairi +1 位作者 Anfal H.Sadeq Rana A.Azeez 《Fluid Dynamics & Materials Processing》 EI 2023年第11期2827-2835,共9页
Solvents are generally used to reduce the viscosity of heavy crude oil and ultimately enhance oil recovery.Recently,a new method has been introduced where nanoparticles(NPs)are exploited to induce enhanced oil recover... Solvents are generally used to reduce the viscosity of heavy crude oil and ultimately enhance oil recovery.Recently,a new method has been introduced where nanoparticles(NPs)are exploited to induce enhanced oil recovery owing to their ability to improve the mobility ratio,dampen the interfacial tension,and alter rock wett-ability.This study investigated the integration of nano-alumina(Al_(2)O_(3))NPs with an n-hexane solvent.In parti-cular,a Brookfield viscometer has been used to measure the crude oil viscosity and it has been found that NPs can effectively lead to a significant decrease in the overall oil viscosity(70 cp using the solvent only,45 cp when NPs are added). 展开更多
关键词 NANOTECHNOLOGY viscosity reduction organic solvents degree of viscosity reduction(DVR) enhanced oil recovery(eor)
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CO_(2)-EOR井中低温对封隔器及密封圈性能影响
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作者 邓祥龙 刘少胡 张磊 《科学技术与工程》 北大核心 2024年第24期10244-10252,共9页
“双碳”背景下,碳捕集、利用与封存(carbon capture, utilization and storage, CCUS)技术将发挥关键作用,其中针对CO_(2)-EOR井中低温对封隔器及密封圈老化问题,首先建立CO_(2)在注入井中温度分布理论模型;然后通过有限元方法建立密... “双碳”背景下,碳捕集、利用与封存(carbon capture, utilization and storage, CCUS)技术将发挥关键作用,其中针对CO_(2)-EOR井中低温对封隔器及密封圈老化问题,首先建立CO_(2)在注入井中温度分布理论模型;然后通过有限元方法建立密封圈数值模拟模型,开展不同温度下橡胶密封圈的等效应力、接触压力和真实应变的研究,并分析低温对密封圈力学性能影响和低温老化的原因。结果表明:CO_(2)注入井中封隔器密封工作温度在其玻璃化转变温度T_g以上,正常工作不会产生低温老化;低温对注入管阀门密封圈的力学性能影响显著,较常温环境下的Mises应力和接触压力上升3~4倍。当环境温度低于T_(g)后,密封圈将会从高弹态转变为玻璃态,其硬度增加、弹性降低,老化程度逐渐加深,导致密封圈接触压力小于介质压力而失效。 展开更多
关键词 CO_(2)-eor技术 CO_(2)注入井 封隔器 橡胶密封圈 力学性能 低温老化
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Investigation of gravity influence on EOR and CO_(2) geological storage based on pore-scale simulation
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作者 Yong-Mao Hao Gui-Cheng Wu +6 位作者 Zong-Fa Li Zhong-Hui Wu Yong-Quan Sun Ran Liu Xing-Xing Li Bo-Xin Pang Nan Li 《Petroleum Science》 SCIE EI CAS CSCD 2024年第2期987-1001,共15页
Gravity assistance is a critical factor influencing CO_(2)-Oil mixing and miscible flow during EOR and CO_(2)geological storage.Based on the Navier-Stokes equation,component mass conservation equation,and fluid proper... Gravity assistance is a critical factor influencing CO_(2)-Oil mixing and miscible flow during EOR and CO_(2)geological storage.Based on the Navier-Stokes equation,component mass conservation equation,and fluid property-composition relationship,a mathematical model for pore-scale CO_(2) injection in oilsaturated porous media was developed in this study.The model can reflect the effects of gravity assistance,component diffusion,fluid density variation,and velocity change on EOR and CO_(2) storage.For nonhomogeneous porous media,the gravity influence and large density difference help to minimize the velocity difference between the main flow path and the surrounding area,thus improving the oil recovery and CO_(2) storage.Large CO_(2) injection angles and oil-CO_(2) density differences can increase the oil recovery by 22.6% and 4.2%,respectively,and increase CO_(2) storage by 37.9% and 4.7%,respectively.Component diffusion facilitates the transportation of the oil components from the low-velocity region to the main flow path,thereby reducing the oil/CO_(2) concentration difference within the porous media.Component diffusion can increase oil recovery and CO_(2) storage by 5.7% and 6.9%,respectively.In addition,combined with the component diffusion,a low CO_(2) injection rate creates a more uniform spatial distribution of the oil/CO_(2) component,resulting in increases of 9.5% oil recovery and 15.7% CO_(2) storage,respectively.This study provides theoretical support for improving the geological CO_(2) storage and EOR processes. 展开更多
关键词 GRAVITY Flow simulation CO_(2)-oil mixing enhanced oil recovery(eor) Geological storage
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Major S&T Issues in Enhanced Oil Recovery
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作者 Yu Jiayong(Technical Institute of Physics and Chemistry, CAS) 《Bulletin of the Chinese Academy of Sciences》 2001年第4期210-213,共4页
This article deals with the strategic significance of developing enhanced oil recovery technology, its current research situation, developing trend and the related important problems in science and technology.
关键词 eor OVER Major S&T Issues in enhanced oil Recovery
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Utilization mechanism of foam flooding and distribution situation of residual oil in fractured-vuggy carbonate reservoirs 被引量:2
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作者 Yu-Chen Wen Ji-Rui Hou +6 位作者 Xiao-Li Xiao Chang-Ming Li Ming Qu Ya-jie Zhao Wei-Xin Zhong Tuo Liang Wei-Peng Wu 《Petroleum Science》 SCIE EI CAS CSCD 2023年第3期1620-1639,共20页
The development of fractured-vuggy carbonate reservoirs is extremely difficult because of the complex fractured-vuggy structure and strong heterogeneity.Foam flooding is a potential enhanced oil recovery(EOR)technolog... The development of fractured-vuggy carbonate reservoirs is extremely difficult because of the complex fractured-vuggy structure and strong heterogeneity.Foam flooding is a potential enhanced oil recovery(EOR)technology in fractured-vuggy carbonate reservoirs.Based on the similarity criterion,three types of 2D visual physical models of the fractured-vuggy structure were made by laser ablation technique,and a 3D visual physical model of the fractured-vuggy reservoir was made by 3D printing technology.Then the physical analog experiments of foam flooding were carried out in these models.The experimental results show that foam can effectively improve the mobility ratio,control the flow velocity of the fluid in different directions,and sweep complex fracture networks.The effect of foam flooding in fractures can be improved by increasing foam strength and enhancing foam stability.The effect of foam flooding in vugs can be improved by reducing the density of the foam and the interfacial tension between foam and oil.Three types of microscopic residual oil and three types of macroscopic residual oil can be displaced by foam flooding.This study verifies the EOR of foam flooding in the fractured-vuggy reservoir and provides theoretical support for the application of foam flooding in fractured-vuggy reservoirs. 展开更多
关键词 Fractured-vuggy reservoirs Foam flooding Physical model Residual oil enhanced oil recovery(eor)
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二氧化碳在致密储层基质中的作用距离研究
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作者 牟建业 闫骁伦 +3 位作者 张士诚 石磊 黎东 马新仿 《新疆石油天然气》 CAS 2024年第3期64-71,共8页
致密油衰竭开采过程中压力、产量下降较快,补充地层能量是提高原油采收率的必要措施。CO_(2)是常用补能介质之一(CO_(2)吞吐、前置蓄能),CO_(2)增产效果与其在储层中的作用距离息息相关,针对该问题从实验和数值模拟两方面开展了CO_(2)... 致密油衰竭开采过程中压力、产量下降较快,补充地层能量是提高原油采收率的必要措施。CO_(2)是常用补能介质之一(CO_(2)吞吐、前置蓄能),CO_(2)增产效果与其在储层中的作用距离息息相关,针对该问题从实验和数值模拟两方面开展了CO_(2)在致密储层基质中的作用距离研究。CO_(2)传质包括对流和扩散两种方式,首先采用高温高压反应釜和致密储层岩心进行CO_(2)扩散实验,结合Fick径向扩散模型,测得了CO_(2)在致密岩心中的扩散系数;然后采用CMG软件进行CO_(2)对流、扩散建模,基于模型进行广泛的数值模拟,分析渗透率、扩散系数、驱替时间对CO_(2)作用距离的影响。研究表明,扩散系数与渗透率有关,在目标储层岩心渗透率级别下,扩散系数在10^(-10)~10^(-8)m^(2)/s范围;CO_(2)作用距离取决于对流和扩散作用,扩散作用对CO_(2)作用距离影响明显,渗透率越低,扩散作用影响越明显,渗透率越高,对流作用越主导;渗透率是CO_(2)在基质中作用距离的决定性因素;CO_(2)在致密储层基质中的作用距离较小,60d的作用距离不到10m。 展开更多
关键词 致密储层 CO_(2)驱油 作用距离 扩散系数 提高采收率 数值模拟
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压裂液辅助二氧化碳吞吐提高页岩油采收率核磁共振实验
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作者 肖文联 陈神根 +2 位作者 易勇刚 陈浩宇 任吉田 《新疆石油天然气》 CAS 2024年第3期83-90,共8页
为获取可实现连续补能的页岩油吞吐开发方式,以吉木萨尔页岩油储层为研究对象,借助低频核磁共振岩心分析仪和完成了压裂液辅助CO_(2)吞吐补能一体化模拟实验。分析岩样在多介质吞吐与驱替组合的开发过程中孔喉流体动用特征和采收率变化... 为获取可实现连续补能的页岩油吞吐开发方式,以吉木萨尔页岩油储层为研究对象,借助低频核磁共振岩心分析仪和完成了压裂液辅助CO_(2)吞吐补能一体化模拟实验。分析岩样在多介质吞吐与驱替组合的开发过程中孔喉流体动用特征和采收率变化特征,评价压裂液辅助CO_(2)吞吐提高采收率效果,提出页岩油补能吞吐开发新方式。实验结果表明,CO_(2)吞吐,岩样采收率随吞吐周期快速下降,仅动用中大孔中原油,产油量主要源于前2个周期,最终采收率在30%~40%之间;压裂液辅助CO_(2)吞吐并采用CO_(2)注入端生产,原油主要产自中大孔,且产油量源于前3个周期,最终采收率在30%~40%之间;压裂液辅助CO_(2)吞吐并采用压裂液注入端生产,全部孔隙中原油均得到动用,最终采收率在70%~80%之间,剩余油分布均匀,表现出最好的开发效果。研究可为矿场吞吐补能提高页岩油采收率实践提供一定的理论基础。 展开更多
关键词 页岩油 CO_(2)吞吐 压裂液 提高采收率 核磁共振
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多功能压裂-提高采收率材料性能及驱替效果评价
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作者 郭继香 张小军 +2 位作者 褚艳杰 赵坤 彭中樱 《新疆石油天然气》 CAS 2024年第3期72-82,共11页
吉木萨尔页岩油藏孔渗条件差,页岩油黏度大,水平井压裂开发过程中油藏-井筒流动保障风险较高,一次采收率低,存在滑溜水压裂液功能单一不适用的问题。以降黏-洗油-渗吸多功能压裂-提高采收率(EOR)材料SDY-1为基础研制了多功能滑溜水压裂... 吉木萨尔页岩油藏孔渗条件差,页岩油黏度大,水平井压裂开发过程中油藏-井筒流动保障风险较高,一次采收率低,存在滑溜水压裂液功能单一不适用的问题。以降黏-洗油-渗吸多功能压裂-提高采收率(EOR)材料SDY-1为基础研制了多功能滑溜水压裂液体系SDY-1+XC-4,通过室内实验评价其耐温耐剪切、降黏、洗油、渗吸性能,分析了其在储层温度、矿化度下的适用性,并在吉木萨尔现场应用。室内评价实验表明,SDY-1与现场滑溜水XC-4具有良好的配伍性,两者建立的多功能滑溜水压裂液体系在储层温度下具有良好的耐温耐剪切性能。30℃下SDY-1+XC-4降黏率93.68%,洗油效率66.7%,渗吸采收率33.24%。在储层温度、矿化度条件下,SDY-1+XC-4仍保持良好的性能。现场试验结果显示,试验井较对比井累增油2031.6 t。多功能压裂-EOR材料的研制应用可为吉木萨尔页岩油高效开发提供坚实的技术保障。 展开更多
关键词 页岩油 压裂 提高采收率 吉木萨尔 压裂提采一体化
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准噶尔盆地吉木萨尔凹陷页岩油藏注CO_(2)吞吐提高采收率机理 被引量:1
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作者 左名圣 陈浩 +8 位作者 赵杰文 刘希良 孟展 柏明星 杨江 武艺 刘海鹏 齐新雨 程威铭 《天然气工业》 EI CAS CSCD 北大核心 2024年第4期126-134,共9页
页岩油藏的成功开发在缓解我国能源紧缺的问题上发挥了重要作用,但衰竭式开发采收率较低,传统提高采收率的措施难以有效增产,因此明确页岩油藏注CO_(2)提高采收率的机理,对于探索页岩油的开发技术具有重要意义。为此,以准噶尔盆地吉木... 页岩油藏的成功开发在缓解我国能源紧缺的问题上发挥了重要作用,但衰竭式开发采收率较低,传统提高采收率的措施难以有效增产,因此明确页岩油藏注CO_(2)提高采收率的机理,对于探索页岩油的开发技术具有重要意义。为此,以准噶尔盆地吉木萨尔凹陷页岩油藏为例,开展了一系列注CO_(2)实验并结合流体注入能力和油气组分传质评价实验,揭示了注CO_(2)吞吐提高采收率的机理,并明确了注CO_(2)吞吐的埋存形式、埋存效率与其生产动态之间的耦合关系。研究结果表明:①CO_(2)的注入能力是水的7.77倍、N2的1.18倍;增加注入压力,促进CO_(2)与原油之间的相互作用,能有效提高CO_(2)的注入能力。②CO_(2)对原油物性的改善能力显著强于N2,在CO_(2)—原油组分传质的协同作用下,注CO_(2)吞吐的采收率比N2高6.84%。③原油膨胀和黏度降低是注CO_(2)吞吐前期提高采收率的主要机制,而后期主要通过CO_(2)对原油轻质烃类组分置换、萃取进一步实现了采收率的提高,混相压力(MMP)是注CO_(2)吞吐的阈值压力。④注CO_(2)吞吐过程中,埋存率从最初的77.77%持续降低到7.14%,不同形式CO_(2)的埋存比例具有动态变化的特征,但主要以游离态和溶解态埋存为主。结论认为,吉木萨尔凹陷页岩油藏注CO_(2)吞吐在提高采收率的同时实现了CO_(2)的埋存,实验结果为研究国内相似页岩油藏注CO_(2)吞吐提采—埋存效率提供理论支撑和经验借鉴。 展开更多
关键词 准噶尔盆地 吉木萨尔凹陷 页岩油 提高采收率 注CO_(2)吞吐 CO_(2)埋存 注入能力 CCUS
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考虑封存机理的低渗透油藏CO_(2)驱油与封存注采参数敏感性分析
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作者 李远铎 丁帅伟 +3 位作者 张蒙 许川 樊纹宇 屈传超 《新疆石油地质》 CAS CSCD 北大核心 2024年第6期711-718,共8页
低渗透油藏采用CO_(2)驱油,既可以提高油气采收率,又能实现CO_(2)地质封存。基于CO_(2)封存机理,采用数值模拟方法,建立了考虑CO_(2)构造封存、束缚封存和溶解封存的驱油与封存机理模型,研究在连续注气开发和水气交替注入开发下,不同注... 低渗透油藏采用CO_(2)驱油,既可以提高油气采收率,又能实现CO_(2)地质封存。基于CO_(2)封存机理,采用数值模拟方法,建立了考虑CO_(2)构造封存、束缚封存和溶解封存的驱油与封存机理模型,研究在连续注气开发和水气交替注入开发下,不同注采参数(注水年限、CO_(2)注入速度、注采比、生产井井底流压下限、注入井井底流压上限、循环次数和气水段塞比)对低渗透油藏CO_(2)驱油采收率与CO_(2)封存效率的敏感性。结果表明:CO_(2)封存机理会对CO_(2)驱油以及CO_(2)封存造成很大的影响。连续注气开发时,CO_(2)束缚封存有利于驱油,但对CO_(2)封存影响不大;CO_(2)溶解封存不利于CO_(2)驱油,但是有利于CO_(2)封存。水气交替注入开发时,CO_(2)封存机理不利于CO_(2)驱油,但是对CO_(2)封存有促进作用。研究结果可揭示不同CO_(2)注入方式下,封存机理对驱油与封存的影响规律。 展开更多
关键词 低渗透油藏 CO_(2)驱油 CO_(2)封存 封存机理 连续注气开发 水气交替注入开发 提高采收率 数值模拟
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Importance of conformance control in reinforcing synergy of CO_(2) EOR and sequestration 被引量:2
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作者 Yang Zhao Zhen-Hua Rui +7 位作者 Zheng Zhang Si-Wei Chen Ren-Feng Yang Kai Du Birol Dindoruk Tao Yang Erling H.Stenby Malcolm A.Wilson 《Petroleum Science》 SCIE CAS CSCD 2022年第6期3088-3106,共19页
Injecting CO2into hydrocarbon reservoirs can enhance the recovery of hydrocarbon resources,and simultaneously,CO2can be stored in the rese rvoirs,reducing considerable amount of carbon emissions in the atmosphere.Howe... Injecting CO2into hydrocarbon reservoirs can enhance the recovery of hydrocarbon resources,and simultaneously,CO2can be stored in the rese rvoirs,reducing considerable amount of carbon emissions in the atmosphere.However,injected CO_(2)tends to go through fractures,high-permeability channels and streaks present in reservoirs,resulting in inefficient hydrocarbon recovery coupled with low CO_(2)storage performance.Conformance treatments with CO_(2)-resistant crosslinked polymer gels were performed in this study to mitigate the CO_(2)channeling issue and promote the synergy between enhanced oil recovery(EOR) and subsurface sequestration of CO_(2).Based on a typical low-permeability CO_(2)-flooding reservoir in China,studies were performed to investigate the EOR and CO_(2)storage performance with and without conformance treatment.The effect of permeability contrast between the channels and rese rvoir matrices,treatment size,and plugging strength on the efficiency of oil recovery and CO_(2)storage was systematically investigated.The results indicated that after conformance treatments,the CO_(2)channeling problem was mitigated during CO_(2)flooding and storage.The injected CO_(2)was more effectively utilized to recover the hydrocarbons,and entered wider spectrum of pore spaces.Consequently,more CO_(2)was trapped underground.Pronounced factors on the synergy of EOR and CO_(2)storage were figured out.Compared with the treatment size,the CO_(2)storage efficiency was more sensitive to the plugging strength of the conformance treatment materials.This observation was important for conformance treatment design in CCUS-EOR projects.According to this study,the materials should reduce the channel permeability to make the channel/matrix permeability ratio below 30.The results demonstrate the importance of conformance treatment in maximizing the performance of CCUS-EOR process to achieve both oil recovery improvement and efficient carbon storage.This study provides guidelines for successful field applications of CO_(2)transport control in CO_(2)geo-utilization and storage. 展开更多
关键词 enhanced oil recovery(eor) CO_(2)geological sequestration Conformance control Gel treatment CCUS Low-permeability reservoir
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Enhancement of a foaming formulation with a zwitterionic surfactant for gas mobility control in harsh reservoir conditions 被引量:1
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作者 Miguel Angel Roncoroni Pedro Romero +5 位作者 Jesús Montes Guido Bascialla Rosario Rodríguez Ramón Rodríguez Pons-Esparver Luis Felipe Mazadiego María Flor García-Mayoral 《Petroleum Science》 SCIE CAS CSCD 2021年第5期1409-1426,共18页
This work presents the design of a robust foam formulation that tolerates harsh reservoir conditions(high salinity,high divalent ion concentration,high temperature,light oil,and hydrocarbon injection gas)in a sandston... This work presents the design of a robust foam formulation that tolerates harsh reservoir conditions(high salinity,high divalent ion concentration,high temperature,light oil,and hydrocarbon injection gas)in a sandstone reservoir.For this,we selected anionic Alpha Olefin Sulfonate(AOS)surfactants and studied their synergistic effects in mixtures with zwitterionic betaines to enhance foam performance.The laboratory workflow used to define the best formulation followed a de-risking approach in three consecutive phases.First,(phase 1)the main surfactant(AOS)was selected among a series of commercial candidates in static conditions.Then,(phase 2)the betaine booster to be combined with the previously selected AOS was chosen and their ratio optimized in static conditions.Subsequently,(phase 3)the surfactant/booster ratio was optimized under dynamic conditions in a porous medium in the absence and the presence of oil.As a result of this study,a mixture of an AOS C14-C16 and cocamidopropyl hydroxysultaine(CAPHS)was selected as the one having the best performance.The designed formulation was proven to be robust in a wide range of conditions.It generated a strong and stable foam at reservoir conditions,overcoming variations in salinity and foam quality,and tolerated the presence of oil. 展开更多
关键词 Gas mobility control Foam enhanced oil recovery(eor) Foam stability High temperature high salinity reservoir Surfactant formulation
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The role of CO2 and ion type in the dynamic interfacial tension of acidic crude oil/carbonated brine
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作者 Mostafa Lashkarbolooki Ali Zeinolabedini Hezave Shahab Ayatollahi 《Petroleum Science》 SCIE CAS CSCD 2019年第4期850-858,共9页
The e ects of CO2 and salt type on the interfacial tension(IFT) between crude oil and carbonated brine(CB) have not been fully understood. This study focuses on measuring the dynamic IFT between acidic crude oil with ... The e ects of CO2 and salt type on the interfacial tension(IFT) between crude oil and carbonated brine(CB) have not been fully understood. This study focuses on measuring the dynamic IFT between acidic crude oil with a total acid number of 1.5 mg KOH/g and fully CO2-saturated aqueous solutions consisting of 15,000 ppm of KCl, NaCl, CaCl2 and MgCl2 at 30 °C and a wide range of pressures(500–4000 psi). The results of IFT measurements showed that solvation of CO2 into all the studied aqueous solutions led to an increase in IFT of acidic crude oil(i.e., comparison of IFT of crude oil/CB and crude oil/brine), while no significant e ect was observed for pressure. In contrast, the obtained results of studied salts indicated a positive e ect on the IFT reduction of acidic crude oil/carbonated water(CW)(i.e., comparison of IFT of crude oil/CB and crude oil/CW). 展开更多
关键词 Carbonated BRINE Interfacial tension Crude oil enhanced oil recovery(eor) CO2 SEQUESTRATION
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Oil recovery tests with ionic liquids: A review and evaluation of 1-decyl-3-methylimidazolium triflate
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作者 Alba Somoza Alberto Arce Ana Soto 《Petroleum Science》 SCIE CAS CSCD 2022年第4期1877-1887,共11页
The main advantages of the use of ionic liquids in enhanced oil recovery are their tunability and stability in harsh environmental conditions. In this work, a comprehensive review of ionic liquids proposed to improve ... The main advantages of the use of ionic liquids in enhanced oil recovery are their tunability and stability in harsh environmental conditions. In this work, a comprehensive review of ionic liquids proposed to improve current chemical oil recovery methods has been presented, focusing on core flooding experiments. With an almost infinite number of possible ionic liquids, the amount of experiments carried out up to now has been very limited. However, results are promising, with additional recovery after secondary flooding of up to 32% of the original oil in place. Most formulations with ionic liquids have been proposed for sandstone reservoirs, the number of studies with carbonate cores being very scarce. The possibilities of a new room temperature surface active ionic liquid, 1-decyl-3-methylimidazolium triflate,for this application were analyzed. It was shown that it is able to drastically reduce the water/oil interfacial tension. An optimized formulation was proposed for carbonate reservoirs. After secondary flooding with brine, an additional recovery of 10.5% of original oil in place was achieved at room conditions. A combination of the proposed method followed by a polymer flooding step with polyacrylamide led to a lesser but still significant recovery, reducing the costs associated to the ionic liquid. 展开更多
关键词 enhanced oil recovery(eor) Ionic liquids Core flooding Interfacial tension 1-Decyl-3-methylimidazolium triflate
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