水淹层测井解释方法综述
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摘要
水淹层测井解释利用测井资料对水驱油藏水淹所发生的变化进行评价,弄清水淹部位和水淹程度,为进行二次乃至三次采油提高采收率提供依据。基于测井解释研究水淹层特性,是油田开发调整工作的重要组成部分。油层水淹后,其产层的油水饱和度分布、孔隙度与渗透率、岩石润湿性、地层水矿化度和阳离子交换能力等许多物理性质会发生较大变化。通常,可利用自然电位与电阻率曲线相结合、自然电位测井和交会图版等方法识别水淹层。进而可根据油、水等定量参数来判断储层的水淹级别。此外,动态电阻率下降法和模式识别法近来也被广泛应用于水淹等级的划分。我国在水淹层水淹机理和解释方面取得了很大的进展。但在实际中,仅仅建立在单井测井资料的水淹层测井解释仍存在一定的局限性。若以测井为纽带,将地质、地震资料有机结合起来,将在一定程度上促进测井资料解释综合应用的发展
The log interpretation of water-flooded layer gives an evaluation for the oil field flooded by the driving water on the basis of the log data,and then confirms the position of the water-flooded layer and how the oil field is flooded,and provides the evidence for improving oil recovery for the 2nd or 3rd time.Studying on the water-flooded layers by log interpretation methods,is important work for adjusting the exploitation of the oil-field.If the oil-field was flooded,the character would be changed.Usually the water-flooded layer could be identified by the log interpretation methods such as GR and SP,i.e.and then evaluate how the oil-field was flooded by the amount of oil and water,i.e.China has had made great progress in the interpretation for water-flooded layer.But it is not enough that the interpretation is only based on one well in industry.It can be considered that the log interpretation of the water-flooded layer should be combined with the geologic and seismic data besides log data in the future.
The log interpretation of water-flooded layer gives an evaluation for the oil field flooded by the driving water on the basis of the log data,and then confirms the position of the water-flooded layer and how the oil field is flooded,and provides the evidence for improving oil recovery for the 2nd or 3rd time.Studying on the water-flooded layers by log interpretation methods,is important work for adjusting the exploitation of the oil-field.If the oil-field was flooded,the character would be changed.Usually the water-flooded layer could be identified by the log interpretation methods such as GR and SP,i.e.and then evaluate how the oil-field was flooded by the amount of oil and water,i.e.China has had made great progress in the interpretation for water-flooded layer.But it is not enough that the interpretation is only based on one well in industry.It can be considered that the log interpretation of the water-flooded layer should be combined with the geologic and seismic data besides log data in the future.
引文
[1]慈建发,何世明,李振英,等.水淹层测井发展现状与未来[J],天然气工业,2005,25(7):44—46.
[2]张审琴.水淹层测井解释技术状况与发展趋势[J].青海石油,2000,18(2):29—33.
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[5]雍世和,张超谟.测井数据处理与综合解释[M].东营:石油大学出版社,1996.350—366.
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[8]黄宏才.高矿化度地层水地区水淹层识别的几种实用方法[J].断块油气田,2002,9(3):54—56.
[9]王向公,周艳敏,黄文新,等,模糊综合判别定性划分水淹层[J].测井技术,1999,23(1):46—49.
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[15]罗安银,刘西婵,齐宝艳,等.淡水侵入油藏饱和度解释模型和水淹级别的识别[J].测井技术,2002,26(2):142-147.
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[19]陈华,曹鹏飞,刘华,等.水淹层解释方法在马厂油田的应用[J].断块油气田[J].2001,8(3):39—43.
[20]王庚阳,刘明新.利用测井资料确定油水相渗透率的方法[J].石油学报,1992(12):36—39.
[21]范锡彦,周元岐,王桂成.胡状集油田水淹层测井综合解释及应用[J].内蒙古石油化工,2001,27(5):165—169.
[22]骆淼,潘和平,黄东山.地球物理测井在水文地质勘察中的应用综述[J].工程地球物理学报,2004(2).
[23]范月荣,刘正峰,高彩红,等.一种新型薄层电阻率测井(TBRt)的评价方法及应用[J].工程地球物理学报,2004(2).
[24]黄坚,张红杰,赵卫平,等.测井资料质量控制与评价[J].工程地球物理学报,2005(2).
[2]张审琴.水淹层测井解释技术状况与发展趋势[J].青海石油,2000,18(2):29—33.
[3]潘兴国.中国水驱油田开发测井[C].水驱油田开发测井′96国际学术讨论会论文集[M].北京:石油工业出版社,1996.153—163.
[4]慈建发,何世明,李振英.水淹层变化特征分析研究[J],断块油气田,2005.12(2):31—34.
[5]雍世和,张超谟.测井数据处理与综合解释[M].东营:石油大学出版社,1996.350—366.
[6]高楚桥.复杂储层测井评价方法[M],北京:石油工业出版社,2003.118—140.
[7]韩志明,王宪成,李胜军.高含水期水淹层解释方法研究[J].测井技术,2000,24(5):333—336.
[8]黄宏才.高矿化度地层水地区水淹层识别的几种实用方法[J].断块油气田,2002,9(3):54—56.
[9]王向公,周艳敏,黄文新,等,模糊综合判别定性划分水淹层[J].测井技术,1999,23(1):46—49.
[10]宋子奇.灰色系统与神经网络技术在水淹层测井评价中的应用[J].石油勘探与开发,1999,26(3):90—92.
[11]梅红.神经网络技术在测井相分析及水淹层判别中的应用[J].石油大学学报,1997,21(3):26—31.
[12]李振英.水淹层测井解释方法研究[D].西南石油学院,2004.19—41.
[13]侯连华,王京红,刘泽容.水淹层测井评价方法[J].石油学报,1999(5):49—55.
[14]李安琪.水淹层测井解释及剩余油分布研究[D].西南石油学院,2004.31—48.
[15]罗安银,刘西婵,齐宝艳,等.淡水侵入油藏饱和度解释模型和水淹级别的识别[J].测井技术,2002,26(2):142-147.
[16]闫伟林.大庆油田萨中地区薄差层水淹层测井解释方法研究[D].吉林大学,2004.55—66.
[17]胡杰.水淹层解释模型研究[C].水驱油田开发测井′96国际学术讨论会论文集[M].北京:石油工业出版社,1996.110—115.
[18]高印军,李才雄,王大兴,等.水淹层测井解释技术研究与应用[J].石油勘探与开发,28(5):42—35.
[19]陈华,曹鹏飞,刘华,等.水淹层解释方法在马厂油田的应用[J].断块油气田[J].2001,8(3):39—43.
[20]王庚阳,刘明新.利用测井资料确定油水相渗透率的方法[J].石油学报,1992(12):36—39.
[21]范锡彦,周元岐,王桂成.胡状集油田水淹层测井综合解释及应用[J].内蒙古石油化工,2001,27(5):165—169.
[22]骆淼,潘和平,黄东山.地球物理测井在水文地质勘察中的应用综述[J].工程地球物理学报,2004(2).
[23]范月荣,刘正峰,高彩红,等.一种新型薄层电阻率测井(TBRt)的评价方法及应用[J].工程地球物理学报,2004(2).
[24]黄坚,张红杰,赵卫平,等.测井资料质量控制与评价[J].工程地球物理学报,2005(2).
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