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OALib Journal期刊
ISSN: 2333-9721
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非均质气藏可动水评价及提高采收率新思路
Keywords: 气藏,可动水,驱替压差,非均质性,综合治理,提高采收率
Abstract:
?气藏衰竭式开采过程中,因高含水停喷甚至大面积水淹造成气井关井是很难治理的问题,准确评价气藏可动水对于高含水气藏治理及提高采收率有重要意义。以塔里木盆地塔河非均质底水气藏为例,测试了不同物性储层、不同驱替压差条件下的岩心含水饱和度、可动水饱和度和束缚水饱和度,结合渗透率、孔隙度等主要影响因素进行对比分析,研究发现同一岩心的可动水饱和度和含水饱和度随驱替压差的变化趋势一致,而且岩心的渗透率越大,相同驱替压差下可动水饱和度和含水饱和度越高;在含水饱和度和可动水饱和度较高时,两者随驱替压差增加而快速下降,而在含水饱和度和可动水饱和度较低时,两者随驱替压差增加下降缓慢;气藏不同区块的岩心含水饱和度和可动水饱和度随驱替压差变化的范围不同。在可动水评价基础上,结合精细地质建模及数值模拟技术,根据气藏剩余气及含水饱和度分布状态,设计了综合部署“采气井、阻水井、排水井”的治理增产方案,通过加强井网控制程度、封堵优势渗流通道、排泄地层水体能量进而提高气藏采收率。
| [1] | gaodapeng,liudehua,laoshenghua,etal.bottomwaterenergyevaluationofthecondensategasreservoirinat1blocktahe
|
| [2] | yeliyou,gaoshusheng,xiongwei.demonstrationofmobilewatersaturationasevaluationparameteroflowpermeabilitysandstonegasreservoir[j].journalofoilandgastechnology,2011,33(1):57-59.[叶礼友,高树生,熊伟.可动水饱和度作为低渗砂岩气藏储层评价参数的论证[j].石油天然气学报,2011,33(1):57-59.]
|
| [3] | huangsijing,zhangmeng,zhushiquan,etal.controloforiginofporesoverrelationshipofporositytopermeabilityinsandstonereservoir:acasestudyfromyanchangsandstoneoftriassicofeasterngansu,ordosbasin[j].journalofchengduuniversityoftechnology:science&technologyedition,2004,31(6):648-650.[黄思静,张萌,朱世全,等.砂岩孔隙成因对孔隙度/渗透率关系的控制作用——以鄂尔多斯盆地陇东地区三叠系延长组为例[j].成都理工大学学报:自然科学版,2004,31(6):648-650.]
|
| [4] | guoping,huangweigang,jiangyiwei,etal.researchontheirreducibleandmovablewateroftightsandstonegasreservoir[j].naturalgasindustry,2006,26(10):99-101.[郭平,黄伟岗,姜贻伟,等.致密气藏束缚与可动水研究[j].天然气工业,2006,26(10):99-101.]
|
| [5] | zhoudezhi.studyoftherelationbetweenimmobilewatersaturationandcriticalwatersaturation[j].petroleumgeologyandrecoveryefficiency,2006,13(6):81-83.[周德志.束缚水饱和度与临界水饱和度关系的研究[j].油气地质与采收率,2006,13(6):81-83.]
|
| [6] | xuwenping,wuchaodong,guanping,etal.predictionoffreewaterintheunconsolidatedsandstonereservoirinthequaternarygasfield,qaidambasin[j].naturalgasgeoscience,2012,23(5):953-954.[许文平,吴朝东,关平,等.柴达木盆地第四系疏松砂岩天然气储层可动水预测方法研究[j].天然气地球科学,2012,23(5):953-954.]
|
| [7] | yangmanping,liyun,pengcaizhen.analysisofstresssensitivityforirreduciblewaterofgasreservoir[j].naturalgasgeoscience,2004,15(4):391-393.[杨满平,李允,彭彩珍.气藏储层含束缚水的应力敏感性分析[j].天然气地球科学,2004,15(4):391-393.]
|
| [8] | wangweiying,zhanggongshe.theinfluenceofirreduciblewaterandrockpropertytoself-absorption[j].actapetroleisinica,2000,21(3):66-68.[汪伟英,张公社.束缚水饱和度、岩石性质对自吸的影响[j].石油学报,2000,21(3):66-68.]
|
| [9] | wangliying,yanghongzhi,yeliyou,etal.usingmobilewatersaturationtoforecastthecharacteristicsofwaterproductionofxujiaheformationinthecenterofsichuan[j].naturalgasindustry,2012,32(11):47-50.[王丽影,杨洪志,叶礼友,等.利用可动水饱和度预测川中地区须家河组气井产水特征[j].天然气工业,2012.32(11):47-50.]
|
| [10] | yangbo,tanghai,lüdongliang,etal.bottomwaterreservoirdrainagegasrecoveryinadvance[j].journalofoilandgastechnology,2010,32(1):351-353.[杨波,唐海,吕栋梁,等.底水气藏超前排水采气[j].石油天然气学报,2010,32(1):351-353.]
|
| [11] |
|
| [12] | huyongle,luokai,lixiangfang,etal.condensatephasebehaviorandpercolationmechanismoflowpermeabilitygasreservoirfluid[m].beijing:sciencepress,2010.[胡永乐,罗凯,李相方,等.凝析、低渗气藏流体相态与渗流机理[m].北京:科学出版社,2010.]
|
| [13] | oilfield[j].journalofyangtzeuniversity:naturalscienceedition,2012,9(8):94-96.[高大鹏,刘德华,劳胜华,等.塔河油田at1区块凝析气藏底水能量评价[j].长江大学学报:自然科学版,2012,9(8):94-96.]
|
| [14] | shaoweizhi,xiejingyu,chixiurong,etal.ontherelationofporosityandpermeabilityinlowporosityandlowpermeabilityrock[j].wellloggingtechnology,2013,37(2):149-152.[邵维志,解经宇,迟秀荣,等.低孔隙度低渗透率岩石孔隙度与渗透率关系研究[j].测井技术,2013,37(2):149-152.]
|
| [15] | heshumei,xiongyu,sunliping,etal.fluidphasestatereconstructionforcomplexblockgascondensatereservoirwithoilring[j].naturalgasgeoscience,2012,23(1):186-187.[何书梅,熊钰,孙丽萍,等.复杂断块带油环凝析气藏流体相态重构[j].天然气地球科学,2012,23(1):186-187.]
|
| [16] | boualemmarir,sonatrachinc,djebbartiab.performanceofhorizontalwellsingascondensatereservoirs:hassir′melfieldalgeria[r].sperussianoilandgastechnicalconferenceandexhibition,3-6october,moscow,russia.spe100753,2006.
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