莺歌海盆地高温超压区“甜点”储层地球物理预测方法
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摘要
莺歌海盆地近期的勘探主要面向深层高温超压储层,该区钻遇到的波峰强亮点储层获得了重大的油气发现,但该类型储层普遍为低孔低渗储层,如何寻找"甜点"储层是该区研究的重点。因此,首先,研究该区"甜点"储层的地震响应特征,确定该区"甜点"储层表现为暗点特征,以Ⅱ类AVO异常特征为重要标志;然后,构建NFP属性识别和预测具有Ⅱ类AVO异常的"甜点"储层;最后,以L12区实际地震资料进行"甜点"储层识别和雕刻,并应用叠前反演方法对雕刻出来的"甜点"储层进行含气性检测。结果显示,该区"甜点"储层集中发育并具有明显的低纵横波速度比特征。该方法为莺歌海盆地深层"甜点"储层的搜寻提供了有效途径,并为该区下一步勘探布井提供了方向。
The high temperature and overpressure district is the main district in recent exploration of Yinggehai Basin, where important gas-reservoirs are discovered. However, the low-porosity and low-permeability reservoir in the study area constrains the "dessert" reservior discovery.In this research, we study the rock physical features and the seismic response features of "desserts", and identify the weak amplitude of the "dessert" and Ⅱ AVO features. Then, we develop a new reservoir identification and prediction technology to engrave effectively the Ⅱ AVO. Finally, we apply the real seismic data to identify and predict the "dessert". The study shows that the "dessert" has the low v_p/v_s feature by prestack inversion, which is the response of gas-reservoir. This study provides an effective way to find the "dessert" in Ledong high temperature and overpressure district, and also the direction for the following exploration of Yinggehai Basin.
The high temperature and overpressure district is the main district in recent exploration of Yinggehai Basin, where important gas-reservoirs are discovered. However, the low-porosity and low-permeability reservoir in the study area constrains the "dessert" reservior discovery.In this research, we study the rock physical features and the seismic response features of "desserts", and identify the weak amplitude of the "dessert" and Ⅱ AVO features. Then, we develop a new reservoir identification and prediction technology to engrave effectively the Ⅱ AVO. Finally, we apply the real seismic data to identify and predict the "dessert". The study shows that the "dessert" has the low v_p/v_s feature by prestack inversion, which is the response of gas-reservoir. This study provides an effective way to find the "dessert" in Ledong high temperature and overpressure district, and also the direction for the following exploration of Yinggehai Basin.
引文
[1]谢玉洪,范彩伟.莺歌海盆地东方区黄流组储层成因新认识[J].中国海上油气,2010,22(6):355-359.
[2]裴健翔,于俊峰,王立峰,等.莺歌海盆地中深层天然气勘探的关键问题及对策[J].石油学报,2011,32(4):573-579.
[3]潘光超,韩光明,宋瑞有,等.莺歌海盆地水道地震相新模式及其含气性预测[J].石油地球物理勘探,2012,47(6):984-989.
[4]周家雄,刘薇薇,马光克,等.高温高压储层的精细地震属性预测技术:以莺歌海盆地为例[J].地质勘探,2013,33(2):7-11.
[5]周家雄,李芳,马光克,等.利用密度差值识别和预测莺歌海盆地高温高压气藏[J].石油物探,2014,53(5):609-616.
[6]马光克,李芳,周家雄,等.高温高压欠压实地层烃类检测方法研究[J].地质科技情报,2015,34(6):221-226.
[7]李芳,邓勇,刘仕友,等.欠压实低速泥岩对地震反射及AVO的影响[J].地质科技情报,2017,36(5):244-248.
[8]印兴耀,曹丹平,王保丽,等.基于叠前地震反演的流体识别方法研究进展[J].石油地球物理勘探,2014,49(1):22-34.
[9]Zhijing Wang.Y2Ktutorial fundamentals of seismic rockphysics[J].Geophysics,2001,66(2):398-412
[10]殷八斤,曾灏,杨在岩.AVO技术的理论与实践[M].北京:石油工业出版社,1995.
[11]姜仁,曾庆才,黄家强,等.基于岩石物理分析的致密砂岩流体检测方法研究[J].科学技术与工程,2015,24(2):177-189.
[12]Hill R.Elastic properties of reinforced solids:Some theoretical principles[J].Mech.Phys.Solids,1963,11(1):357-372.
[13]Raymer L L,Hunt E R,Gardner J S.An improved sonic transit time-to-porosity transform[C]∥Anon.21st Annual meeting of the society of professional well log analysis.[S.l.]:[s.n.],1980:55-59.
[14]Gassmann F.Uber die elastizitat poroser medien[J].Vier Natur Gesellschaft.1951,96(1):1-23.
[2]裴健翔,于俊峰,王立峰,等.莺歌海盆地中深层天然气勘探的关键问题及对策[J].石油学报,2011,32(4):573-579.
[3]潘光超,韩光明,宋瑞有,等.莺歌海盆地水道地震相新模式及其含气性预测[J].石油地球物理勘探,2012,47(6):984-989.
[4]周家雄,刘薇薇,马光克,等.高温高压储层的精细地震属性预测技术:以莺歌海盆地为例[J].地质勘探,2013,33(2):7-11.
[5]周家雄,李芳,马光克,等.利用密度差值识别和预测莺歌海盆地高温高压气藏[J].石油物探,2014,53(5):609-616.
[6]马光克,李芳,周家雄,等.高温高压欠压实地层烃类检测方法研究[J].地质科技情报,2015,34(6):221-226.
[7]李芳,邓勇,刘仕友,等.欠压实低速泥岩对地震反射及AVO的影响[J].地质科技情报,2017,36(5):244-248.
[8]印兴耀,曹丹平,王保丽,等.基于叠前地震反演的流体识别方法研究进展[J].石油地球物理勘探,2014,49(1):22-34.
[9]Zhijing Wang.Y2Ktutorial fundamentals of seismic rockphysics[J].Geophysics,2001,66(2):398-412
[10]殷八斤,曾灏,杨在岩.AVO技术的理论与实践[M].北京:石油工业出版社,1995.
[11]姜仁,曾庆才,黄家强,等.基于岩石物理分析的致密砂岩流体检测方法研究[J].科学技术与工程,2015,24(2):177-189.
[12]Hill R.Elastic properties of reinforced solids:Some theoretical principles[J].Mech.Phys.Solids,1963,11(1):357-372.
[13]Raymer L L,Hunt E R,Gardner J S.An improved sonic transit time-to-porosity transform[C]∥Anon.21st Annual meeting of the society of professional well log analysis.[S.l.]:[s.n.],1980:55-59.
[14]Gassmann F.Uber die elastizitat poroser medien[J].Vier Natur Gesellschaft.1951,96(1):1-23.
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