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OALib Journal期刊
ISSN: 2333-9721
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基于油藏实际的稠油层内水热催化裂解机理研究
, PP. 1206-1211
Keywords: 稠油,水热催化裂解,催化剂,降黏,现场实验
Abstract:
?开展了稠油层内水热催化裂解技术在胜利油田的先导实验,五口井平均周期单井增油653t,稠油初期降黏率达79.8%,措施14周后降黏率仍大于62%。利用brookfielddv-ⅲ黏度计、elementarvarioeliii元素分析仪、knauerk-700蒸气压渗透仪、agilent6890n气相色谱仪和equinox55傅里叶变换红外光谱仪等,对措施前后稠油的物化性质进行分析。结果表明,层内水热催化裂解后稠油黏度及平均分子量减小、轻烃含量增加、重质组分含量减少、氢碳原子比增加、杂原子含量减小。稠油层内裂解反应受催化剂体系、高温水及储层矿物因素控制,催化剂是促进稠油裂解的主要因素,供氢剂及分散剂等助剂有助于提高裂解效果,高温水的酸碱性质及储层矿物对稠油具有催化裂解作用。多因素协同作用下使稠油发生脱侧链、分子链异构、断链、加氢、开环、成环、脱硫等系列反应,使得稠油大分子分解成小分子物质,降低了稠油黏度,改善了稠油品质,证实该技术在现场应用中具有可行性。
| [1] | 许洪星,蒲春生.超声波辅助稠油层内催化水热裂解实验研究[j].燃料化学学报,2011,39(8):606-610.(xuhong-xing,puchun-sheng.experimentalstudyofheavyoilundergroundaquathermolysisusingcatalystandultrasonic[j].journaloffuelchemistryandtechnology,2011,39(8):606-610.
|
| [2] | hynejb,greidanusjw,tyrerjd.aquathermolysisofheavyoil[c]//proceedingsofthe2ndinternationalconferenceonheavycrudeandtarsands.caracas,venezuela:1982:25-30.
|
| [3] | richardpd,williamcm,murrayrg.thermalcrackingofathabascabitumen:influenceofsteamonreactionchemistry[j].energyfuels,2000,14(2):671-676.
|
| [4] | rivasor,camposre,borgeslg.experimentalevaluationoftransitionmetalssaltsolutionsasadditivesinsteamrecoveryprocesses[j].spe18076,1988.
|
| [5] | clarkpd,hynejb,tyrerjd.chemistryoforganosulfurcompoundtypeoccurringinheavyoilsands:3reactionofthiopheneandtetrahydro-thiophenewithvanadylandnickelsalts[j].fuel,1984,63(7):1649-1655.
|
| [6] | clarkpd,clarkera,hynejb.studiesontheeffectofmetalspeciesonoilsandsundergoingsteamtreatments[j].aostrajres,1990,6(1):53-64.
|
| [7] | brucepp,alfredgc.iron-basedionicliquidcatalystsforhydro-processingcarbonaceousfeeds:up,6139723.2000-10-31.
|
| [8] | 刘永建,钟立国,范洪富,刘喜林.稠油的水热裂解反应及其降黏机理[j].大庆石油学院学报,2002,26(3):95-99.(liuyong-jian,zhongli-guo,fanhong-fu,liuxi-lin.studyontheaquathermolysisandviscosityreducedmechanismofheavyoil[j].journalofdaqingpetroleuminstitute,2002,26(3):95-99.)
|
| [9] | cheny,wangy,wuc.laboratoryexperimentsandfieldtestsofanamphiphilicmetallicchelateforcatalyticaquathermolysisofheavyoil[j].energyfuels,2008,22(3):1501-1508.
|
| [10] | cheny,wangy,luj,wuc.theviscosityreductionofnano-keggin-k3pmo12o40incatalyticaquathermolysisofheavyoil[j].fuel,2009,88(8):1426-1434.
|
| [11] | 樊泽霞,赵福麟,王杰祥,巩永刚.超稠油供氢水热裂解改质降黏研究[j].燃料化学学报,2006,34(3):315-318.(fanze-xia,zhaofu-lin,wangjie-xiang,gongyong-gang.upgradingandviscosityreductionofsuperheavyoilbyaquathermolysiswithhydrogendonor[j].journaloffuelchemistryandtechnology,2006,34(3):315-318.)
|
| [12] | 宋向华,蒲春生,刘洋.井下乳化/水热催化裂解复合降黏开采稠油技术研究[j].油田化学,2006,23(2):153-157.(songxiang-hua,puchun-sheng,liuyang.astudyonheavyoilrecoverybyin-situemulsification/catalyticaquathermolysis[j].oilfieldchemistry,2006,23(2):153-157.)
|
| [13] | 范洪富,刘永建,赵晓非,钟立国.国内首例井下水热裂解催化降黏开采稠油现场试验[j].石油钻采工艺,2001,23(3):42-45.(fanhong-fu,liuyong-jian,zhaoxiao-fei,zhongli-guo.firstfieldexperimentalofrecoveryheavyoilusingdown-holecatalyticmethodinchina[j].oildrilling&productiontechnology,2001,23(3):42-45.)
|
| [14] | 吴川,雷光伦,姚传进,盖平原.双亲催化剂作用超稠油水热裂解降黏机理研究[j].燃料化学学报,2010,38(6):684-690.(wuchuan,leiguang-lun,yaochuan-jin,gaiping-yuan.mechanismforreducingtheviscosityofextra-heavyoilbyaquathermolysiswithanamphiphiliccatalyst[j].journaloffuelchemistryandtechnology,2010,38(6):684-690.)
|
| [15] | clarkpd,hynejb,tyrerjd.chemistryoforganosulfurcompoundtypeoccurringinheavyoilsands:1hightemperaturehydrolysisandthermolysisoftetrahydrothiopheneinrelationtosteamstimulationprocesses[j].fuel,1983,62(5):959-962.
|
| [16] | vanolphenh.anintroductiontoclaycolloidchemistryforclaytechnologist,geologistandsoilscientist[m].newyork:awiley-intersciencepublication,1977:57-64.
|
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