浏览全部资源
扫码关注微信
Published:2022
移动端阅览
CO
2
驱最小混相压力(MMP)是衡量能否达到混相驱的重要参数
因此
为提高混相驱的应用率
迫切需要降低CO
2
与原油间的最小混相压力
而油藏中加入助混剂是降低最小混相压力的有效手段。目前助混剂按照所含元素可分为碳氟、硅氧烷、碳氢(含氧)三大类。为了降低成本
提高助混效果
应在碳氟类助混剂加入碳氢类结构
向混合型的方向发展
而碳氢类助混剂具有良好的助混效果
并且有提升的空间
关键是找到合适的亲CO
2
结构
计算机模拟是研究微观机理
辅助结构设计的重要手段。相比于碳氟类和硅氧烷类
碳氢类助混剂的成本较低
从成本的角度看最有应用潜力。目前影响助混剂规模化应用的主要因素是成本上的限制
未来推广应用需要石油与化工从业者的密切配合
重点介绍助混剂降低MMP的机理
总结了目前已有助混剂的结构以及助混效果
分析了助混效果的影响因素
展望了助混剂设计的发展方向。
The minimum miscible pressure (MMP) of CO
2
flooding is a crucial parameter to judge whether miscible flooding is attainable. In order to reduce the application threshold of miscible flooding
the MMP between CO
2
and crude oil needs to be reduced urgently. Adding miscible flooding assistants to oil reservoir is an effective means for minimum miscible pressure reduction. At present
according to the elements contained
the miscible flooding assistants can be divided into three categories including fluorocarbon
siloxane
and hydrocarbon (oxygen
ated). In order to reduce the cost and improve the MMP reduction performance
the hydrocarbon structure should be added to the fluorocarbon assistants to make the assistants develop in the direction of mixing type. The hydrocarbon assistants have sound MMP reduction performances and room for improvement. The key is to find a suitable CO
2
-phlic structure. Computer simulation is also a vital means to study micro mechanism and assist structure designing. Compared with fluorocarbon and siloxane
the cost of hydrocarbon (oxygenated) is lower
and it has the most application potential from the prospective of cost. At present
the main factor affecting the large-scale application of miscible assistants is the limitation of cost. The promotion and application in the future needs the close cooperation of petroleum and chemical practitioners. In this paper
the mechanisms of CO
2
miscible flooding assistants reducing MMP are introduced. The structures of existing miscible flooding assistants
MMP reduction effectiveness are summarized
and the influencing factors on MMP reduction efficiency are analyzed. The developing directions CO
2
miscible flooding assistants designing are prospected.
史清照.增强油-scCO_2相互作用的界面活性剂的研究[D].大连理工大学,2017(01).
Hill L. Bruce,Li XiaoChun,Wei Ning.CO2-EOR in China: A comparative review[J].International Journal of Greenhouse Gas Control,2020.
Key Laboratory of Unconventional Oil & Gas Development (China University of Petroleum (East China)), Ministry of Education, Qingdao 266580, People's Republic of China,School of Petroleum Engineering, China University of Petroleum (East China), Qingdao 266580, People's Republic of China,Key Laboratory of Unconventional Oil & Gas Development (China University of Petroleum (East China)), Ministry of Education, Qingdao 266580, People's Republic of China,School of Petroleum Engineering, China University of Petroleum (East China), Qingdao 266580, People's Republic of China,Department of Chemical Engineering, Illinois Institute of Technology, Chicago, Illinois 60616, United States,Key Laboratory of Unconventional Oil & Gas Development (China University of Petroleum (East China)), Ministry of Education, Qingdao 266580, People's Republic of China,School of Petroleum Engineering, China University of Petroleum (East China), Qingdao 266580, People's Republic of China.A novel system for reducing CO 2 -crude oil minimum miscibility pressure with CO 2 -soluble surfactants[J].Fuel,2020.
Zihao Yang,Taiheng Yin,Fengfan Zhang,Wei Wu,Meiqin Lin,Zhaoxia Dong,Juan Zhang.Investigation on dispersion properties of CO2 and ester solvent mixtures using in situ FTIR spectroscopy[J].RSC Advances,2020.
Edgar Yáñez,Andrea Ramírez,Vanessa Núñez-López,Edgar Castillo,André Faaij.Exploring the potential of carbon capture and storage-enhanced oil recovery as a mitigation strategy in the Colombian oil industry[J].International Journal of Greenhouse Gas Control,2020.
Houjian Gong,Xuejie Qin,Shengxiang Shang,Chaofan Zhu,Long Xu,Qian San,Yajun Li,Mingzhe Dong.Enhanced Shale Oil Recovery by the Huff and Puff Method Using CO2 and Cosolvent Mixed Fluids[J].Energy & Fuels,2019.
Amjed Hassan,Salaheldin Elkatatny,Abdulazeez Abdulraheem.Intelligent Prediction of Minimum Miscibility Pressure (MMP) During CO2 Flooding Using Artificial Intelligence Techniques[J].Sustainability,2019.
Mingchen Ding,Yefei Wang,Wei Wang,Hailong Zhao,Dexin Liu,Miao Gao.Potential to enhance CO 2 flooding in low permeability reservoirs by alcohol and surfactant as co-solvents[J].Journal of Petroleum Science and Engineering,2019.
Zihao Yang,Wei Wu,Zhaoxia Dong,Meiqin Lin,Shuwei Zhang,Juan Zhang.Reducing the minimum miscibility pressure of CO 2 and crude oil using alcohols[J].Colloids and Surfaces A: Physicochemical and Engineering Aspects,2019.
Junrong Liu,Lu Sun,Zunzhao Li,Xingru Wu.Experimental Study on Reducing CO2–Oil Minimum Miscibility Pressure with Hydrocarbon Agents[J].Energies,2019.
Department of Frontier Materials Chemistry, Graduate School of Science and Technology , Hirosaki University , 3 Bunkyo-cho , Hirosaki , Aomori 036-8561 , Japan.,Department of Frontier Materials Chemistry, Graduate School of Science and Technology , Hirosaki University , 3 Bunkyo-cho , Hirosaki , Aomori 036-8561 , Japan.,Department of Frontier Materials Chemistry, Graduate School of Science and Technology , Hirosaki University , 3 Bunkyo-cho , Hirosaki , Aomori 036-8561 , Japan.,ISIS-CCLRC, Rutherford Appleton Laboratory , Chilton OX11 0QX , Oxon , U.K.,Univ. Cote d'Azur, NICE-Lab , 61-63 av. S. Viel , 06200 Nice , France.,School of Chemistry , University of Bristol , Cantock's Close , Bristol BS8 1TS , U.K.,School of Chemistry , University of Bristol , Cantock's Close , Bristol BS8 1TS , U.K.,School of Chemistry and Chemical Engineering , Queen's University Belfast , University Road , Belfast BT7 1NN , U.K..Water-in-CO2 Microemulsions Stabilized by Fluorinated Cation-Anion Surfactant Pairs.[J].Langmuir : the ACS journal of surfaces and colloids,2019.
Qingzhao Shi,Jiecheng Cheng,Yong Liu,Chenyu Liu,Weihong Qiao.Effects of non-ionic surfactants on the material exchange between crude oil and scCO 2[J].Journal of Molecular Liquids,2018.
Department of Frontier Materials Chemistry, Graduate School of Science and Technology, Hirosaki University, 3 Bunkyo-cho, Hirosaki, Aomori 036-8561, Japan,Department of Frontier Materials Chemistry, Graduate School of Science and Technology, Hirosaki University, 3 Bunkyo-cho, Hirosaki, Aomori 036-8561, Japan,Department of Frontier Materials Chemistry, Graduate School of Science and Technology, Hirosaki University, 3 Bunkyo-cho, Hirosaki, Aomori 036-8561, Japan,Department of Frontier Materials Chemistry, Graduate School of Science and Technology, Hirosaki University, 3 Bunkyo-cho, Hirosaki, Aomori 036-8561, Japan,Department of Chemistry, Faculty of Science and Mathematics, Universiti Pendidikan Sultan Idris, 35900 Tanjong Malim, Perak, Malaysia,Nanotechnology Research Centre, Faculty of Science and Mathematics, Universiti Pendidikan Sultan Idris, 35900 Tanjong Malim, Perak, Malaysia,Univ. Cote d’Azur, NICE-Lab,61-63 av. S. Viel, 06200 Nice, France,Department of Chemical and Petroleum Engineering, University of Pittsburgh, 940 Benedum Hall, 3700 O’Hara Street, Pittsburgh, PA 15261, United States,ISIS-CCLRC, Rutherford Appleton Laboratory, Chilton, Oxon OX11 0QX, UK,School of Chemistry, University of Bristol, Cantock’s Close, Bristol BS8 1TS, UK,School of Chemistry, University of Bristol, Cantock’s Close, Bristol BS8 1TS, UK,School of Chemistry, University of Bristol, Cantock’s Close, Bristol BS8 1TS, UK.Anisotropic reversed micelles with fluorocarbon-hydrocarbon hybrid surfactants in supercritical CO 2[J].Colloids and Surfaces B: Biointerfaces,2018.
Luo Hui,Zhang Yongchuang,Fan Weiyu,Nan Guozhi,Li Zhaomin.Effects of the Non-ionic Surfactant (CiPOj) on the Interfacial Tension Behavior between CO2 and Crude Oil[J].Energy & Fuels,2018.
Zhang Chao,Li Zhaomin,Li Songyan,Lv Qichao,Wang Peng,Liu Jiquan,Liu Jianlin.Enhancing Sodium Bis(2-ethylhexyl) Sulfosuccinate Injectivity for CO2 Foam Formation in Low-Permeability Cores: Dissolving in CO2 with Ethanol[J].Energy & Fuels,2018.
Al Hinai Nasser M.,Saeedi Ali,Wood Colin D.,Myers Matthew,Valdez Raul,Sooud Abdul Kareem,Sari Ahmed.Experimental Evaluations of Polymeric Solubility and Thickeners for Supercritical CO2at High Temperatures for Enhanced Oil Recovery[J].Energy & Fuels,2018.
Czajka Adam,Hill Christopher,Peach Jocelyn,Pegg Jonathan C,Grillo Isabelle,Guittard Frédéric,Rogers Sarah E,Sagisaka Masanobu,Eastoe Julian.Trimethylsilyl hedgehogs - a novel class of super-efficient hydrocarbon surfactants.[J].Physical chemistry chemical physics : PCCP,2017.
Bing Wei,Hao Gao,Wanfen Pu,Fanqi Zhao,Yibo Li,Fayang Jin,Lin Sun,Kexing Li.Interactions and phase behaviors between oleic phase and CO2 from swelling to miscibility in CO2-based enhanced oil recovery (EOR) process: A comprehensive visualization study[J].Journal of Molecular Liquids,2017.
F. Salari Sardari,M.R. Khorsand Movaghar.A simulation approach to achieve the best miscible enrichment in gas flooding and chemical injection process for enhanced oil recovery[J].Asia‐Pacific Journal of Chemical Engineering,2017.
Ping Guo,Yisheng Hu,Jishun Qin,Shi Li,Songjie Jiao,Fu Chen,Jie He.Use of oil-soluble surfactant to reduce minimum miscibility pressure[J].Petroleum Science and Technology,2017.
Zhang Yongfei,Zhu Zewen,Bai Zhenguo,Jiang Wei,Liu Fengqi,Tang Jun.Incorporating a silicon unit into a polyether backbone—an effective approach to enhance polyether solubility in CO2[J].RSC Advances,2017.
Azmi Mohamed,Tretya Ardyani,Suriani Abu Bakar,Masanobu Sagisaka,Shinji Ono,Tsuyoshi Narumi,Makoto Kubota,Paul Brown,Julian Eastoe.Effect of surfactant headgroup on low-fluorine-content CO 2 -philic hybrid surfactants[J].The Journal of Supercritical Fluids,2016.
Jinhyung Cho,Kun Sang Lee.Effects of hydrocarbon solvents on simultaneous improvement in displacement and sweep efficiencies during CO2-enhanced oil recovery[J].Petroleum Science and Technology,2016.
Azmi Mohamed,Tretya Ardyani,Masanobu Sagisaka,Shinji Ono,Tsuyoshi Narumi,Makoto Kubota,Paul Brown,Craig James,Julian Eastoe,Azlan Kamari,Norhayati Hashim,Illyas Md Isa,Suriani Abu Bakar.Economical and Efficient Hybrid Surfactant with Low Fluorine Content for the Stabilisation of Water-in-CO 2 Microemulsions[J].The Journal of Supercritical Fluids,2015.
Honghong Chang,Congcong Yang,Xing Li,Wenlong Wei,Xianyong Pang,Yan Qiao.Ab initio analysis on the interaction of CO2 binding to peracetated D-glucopyranose.[J].Journal of molecular modeling,2014.
Alexander Shirin,Smith Gregory N,James Craig,Rogers Sarah E,Guittard Frédéric,Sagisaka Masanobu,Eastoe Julian.Low-surface energy surfactants with branched hydrocarbon architectures.[J].Langmuir : the ACS journal of surfaces and colloids,2014.
Abdolhossein Hernmati-Sarapardeh,Shahab Ayatollahi,Mohammad-Hossein Ghazanfari.Experimental Determination of Interfacial Tension and Miscibility of the CO2-Crude Oil System; Temperature, Pressure, and Composition Effects[J].Journal of Chemical and Engineering Data: the ACS Journal for Data,2014.
Ehsan Mahdavi,Fatemeh Sadat Zebarjad,Vahid Taghikhani.Effects of Paraffinic Group on Interfacial Tension Behavior of CO2-Asphaltenic Crude Oil Systems[J].Journal of Chemical and Engineering Data: the ACS Journal for Data,2014.
Dramé Abdoulaye,Taffin de Givenchy Elisabeth,Dieng Samba Yandé,Amigoni Sonia,Oumar Mamadou,Diouf Alioune,Darmanin Thierry,Guittard Frédéric.One F-octyl versus two F-butyl chains in surfactant aggregation behavior.[J].Langmuir : the ACS journal of surfaces and colloids,2013.
Julian Eastoe,Ci Yan,Azmi Mohamed.Microemulsions with CO 2 as a solvent[J].Current Opinion in Colloid & Interface Science,2012.
Ivan Stoychev,Felix Peters,Matthias Kleiner,Sébastien Clerc,François Ganachaud,Mathieu Chirat,Bruno Fournel,Gabriele Sadowski,Patrick Lacroix-Desmazes.Phase behavior of poly(dimethylsiloxane)–poly(ethylene oxide) amphiphilic block and graft copolymers in compressed carbon dioxide[J].The Journal of Supercritical Fluids,2012.
Mohamed Azmi,Sagisaka Masanobu,Guittard Frederic,Cummings Stephen,Paul Alison,Rogers Sarah E,Heenan Richard K,Dyer Robert,Eastoe Julian.Low fluorine content CO2-philic surfactants.[J].Langmuir : the ACS journal of surfaces and colloids,2011.
Kilic S,Michalik S,Wang Y,Johnson JK,Enick RM,Beckman EJ.Phase behavior of oxygen-containing polymers in CO2[J].Macromolecules,2007.
Kilic S.,Michalik S.,Wang Y.,Johnson J. K.,Enick R. M.,Beckman E. J..Effect of Grafted Lewis Base Groups on the Phase Behavior of Model Poly(dimethyl siloxanes) in CO2[J].Industrial & Engineering Chemistry Research,2003.
Raveendran Poovathinthodiyil,Wallen Scott L.Cooperative C-H...O hydrogen bonding in CO(2)-Lewis base complexes: implications for solvation in supercritical CO(2).[J].Journal of the American Chemical Society,2002.
Raveendran Poovathinthodiyil,Wallen Scott L.Sugar acetates as novel, renewable CO(2)-philes.[J].Journal of the American Chemical Society,2002.
grid.21925.3d, 0000 0004 1936 9000, Chemical Engineering Department, University of Pittsburgh, 15261, Pittsburgh, Pennsylvania, USA,grid.21925.3d, 0000 0004 1936 9000, Chemical Engineering Department, University of Pittsburgh, 15261, Pittsburgh, Pennsylvania, USA,grid.21925.3d, 0000 0004 1936 9000, Chemical Engineering Department, University of Pittsburgh, 15261, Pittsburgh, Pennsylvania, USA.Non-fluorous polymers with very high solubility in supercritical CO2 down to low pressures[J].Nature: International weekly journal of science,2000.
王占艳.亲CO_2表面活性剂的合成及其萃取性能研究[D].大连理工大学,2018(02).
贾储源.二氧化碳驱表面活性剂的设计与合成[D].吉林大学,2014(09).
徐凌霄.新型亲CO_2化合物的设计合成及其在超临界CO_2中的溶解行为研究[D].中南民族大学,2013(05).
刘泽宇,廖培龙,马骋,刘卡尔顿,杨思玉,吕文峰,杨永智,黄建滨.一种便捷、可视化的CO_2驱助混剂评价方法——高度上升法及其在油田化学中的应用[J].油田化学,2020(03).
秦积舜,李永亮,吴德斌,翁慧,王高峰.CCUS全球进展与中国对策建议[J].油气地质与采收率,2020(01).
廖培龙,刘泽宇,刘卡尔顿,马骋,朱志扬,杨思玉,吕文峰,杨永智,黄建滨.基于多酯头基的“油-二氧化碳两亲分子”设计及其助混规律[J].物理化学学报,2020(10).
Abouzar Choubineh,Abbas Helalizadeh,David A.Wood.The impacts of gas impurities on the minimum miscibility pressure of injected CO_2-rich gas–crude oil systems and enhanced oil recovery potential[J].Petroleum Science,2019(01).
赵跃军,宋考平,范广娟,皮彦夫,刘丽.酯类化合物降低原油与二氧化碳体系最小混相压力实验[J].石油学报,2017(09).
王芳,罗辉,范维玉,梁明,钱成多,南国枝.非离子表面活性剂分子结构对CO_2驱混相压力的影响[J].油田化学,2017(02).
李阳,吴胜和,侯加根,刘建民.油气藏开发地质研究进展与展望[J].石油勘探与开发,2017(04).
王芳,罗辉,任玉飞,范维玉,梁明,南国枝.脂肪醇聚氧丙烯醚对CO_2驱最小混相压力的影响[J].大庆石油地质与开发,2016(05).
何金美,王英雄,秦张峰,乔岩,侯相林.取代基对糖类衍生物亲二氧化碳性的影响[J].化工新型材料,2016(02).
杨思玉,廉黎明,杨永智,李实,汤钧,姬泽敏,张永飞.用于CO_2驱的助混剂分子优选及评价[J].新疆石油地质,2015(05).
吴莎,何佳,李遵照,林伟民,王青涛,吴发英,赵斌,张俊瑾.降低CO_2驱最小混相压力的调节剂研究[J].中国科技论文,2015(18).
胡滨,胡文瑞,李秀生,鲍敬伟.老油田二次开发与CO_2驱油技术研究[J].新疆石油地质,2013(04).
Dong Zhaoxia,Li Yi,Lin Meiqin,Li Mingyuan.A study of the mechanism of enhancing oil recovery using supercritical carbon dioxide microemulsions[J].Petroleum Science,2013(01).
董朝霞,崔波,李翼,林梅钦,李明远.超临界CO_2微乳液与烷烃的最小混相压力研究[J].石油化工高等学校学报,2013(01).
郭平,焦松杰,陈馥,贺杰,李英强,曾辉.非离子低分子表面活性剂优选及驱油效率研究[J].石油钻采工艺,2012(02).
相关作者
相关机构
AI问答
苏公网安备32010502011276号