基于波动方程的AVO 模型数值模拟方法研究

doi:10.3969/j.issn.1673-8926.2011.06.019

Lithologic Reservoirs ›› 2011, Vol. 23 ›› Issue (6): 102-105.doi: 10.3969/j.issn.1673-8926.2011.06.019

Previous Articles Next Articles

Study on AVO model numerical simulation based on wave equation

LV Shanshan^1，2， XIONG Xiaojun^1，2， HE Zhenhua^1，2

1. State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation， Chengdu University of Technology， Chengdu 610059， China； 2. College of Geophysics， Chengdu University of Technology， Chengdu 610059， China

Online:2011-12-20 Published:2011-12-20

Abstract

Abstract:

The conventional AVO model numerical simulation based on convolution has some problems about wavelet settings, such as the selection of wavelet, wavelet frequency and wavelet continuity and so on. In order to overcome these disadvantages, this paper proposed a newAVOmodel numerical simulation method which is based on wave equation from the aspect of seismic numerical simulation. Based on sonic and density log data, this method uses Zoeppritz equation or approximate equation to calculate reflection coefficient of a corresponding incident angle firstly （being consistent with the conventional method）. Secondly, extend the reflectance to two-dimensional horizontal layered velocity model and reflection model, and then use the frequency-wave field offset method to calculate numerical simulation of earthquake wave field. Thirdly, extract the seismic trace as AVOnumerical simulation of a corresponding incident angle. This method has heavy computation, but it uses advantages ofwave equation numerical simulation effectively, and can obtain the same simulation records with the field observation records, so it has practical value.

Key words: fracture-cavity reservoir, carbonte rock, forward modeling, reservoir prediction

LV Shanshan，XIONG Xiaojun，HE Zhenhua. Study on AVO model numerical simulation based on wave equation[J].Lithologic Reservoirs, 2011, 23(6): 102-105.

References

［1］ Ostrander W J. Plane-wave reflection coefficients for gas sands atnonnormal angles of incidence［J］. Geophysics，1984，49（10）：1 637-1 648.
［2］王大兴，于波，张盟勃，等.地震叠前分析技术在子洲气田的研究与应用［J］.岩性油气藏，2008，20（1）：95-100.
［3］李艳玲. AVO 叠前反演技术研究［J］.大庆石油地质与开发，2006，25（5）：103-106.
［4］梁劲，梁金强，王宏斌，等. AVO 属性分析在天然气水合物地震解释中的应用［J］.物探化探计算技术，2008，30（1）：22-27.
［5］ Zoeppritz K，Erdbebenwellen VIIIB. On the reflection and propagation of seismic waves［J］. Gottinger Nachrichten，1919，1：66-84.
［6］ Richards P G，Frasier C W. Scattering of elastic waves from depth dependent inhomogeneities［J］. Geohysics，1976，41（3）：441-458.
［7］ Shuey R T. A simplification of the Zoeppritz equations［J］. Geophysics，1985，50（4）：609-614.
［8］ Gray D，Goodway B，Chen Taiwen. B ridging the gap：using AVO to detect changes in fundamental elastic constants［J］. SEG Expanded Abstracts，1999，18：852-855.
［9］杨绍国，周熙襄. Zoeppritz 方程的级数表达式及近似［J］.石油地球物理勘探，1994，29（4）：399-412.
［10］刘定进，印兴耀，陆树勤，等.波动方程保幅叠前深度偏移与AVO响应［J］.中国石油大学学报：自然科学版，2009，33（4）：45-51.
［11］边立恩，贺振华，黄德济.饱含流体介质的地震波场特征及频率分布［J］.岩性油气藏，2008，20（3）：74-78.
［12］贺振华.反射地震资料偏移处理与反演方法［M］.重庆：重庆大学出版社，1989：56-57.
［13］王浩，罗兵，李霆.弹性阻抗对比分析［J］.岩性油气藏，2010，22（3）：110-113.

Related Articles 15

[1]	ZHOU Ziqiang, ZHU Zhengping, PAN Renfang, DONG Yu, JIN Jineng. Simulation and prediction of tight sandstone reservoirs based on waveform facies-controlled inversion：A case study from the second member of Paleogene Kongdian Formation in southern Cangdong sag， Huanghua Depression [J]. Lithologic Reservoirs, 2024, 36(5): 77-86.
[2]	SU Hao, GUO Yandong, CAO Liying, YU Chen, CUI Shuyue, LU Ting, ZHANG Yun, LI Junchao. Natural depletion characteristics and pressure maintenance strategies of faultcontrolled fracture-cavity condensate gas reservoirs in Shunbei Oilfield [J]. Lithologic Reservoirs, 2024, 36(5): 178-188.
[3]	HE Wenyuan, CHEN Keyang. Prediction method for lithologic reservoirs in Doshan slope zone of South Turgai Basin，Kazakhstan [J]. Lithologic Reservoirs, 2024, 36(4): 1-11.
[4]	WANG Tongchuan, CHEN Haoru, WEN Longbin, QIAN Yugui, LI Yuzhuo, WEN Huaguo. Identification and reservoir significance of Carboniferous karst paleogeomorphology in Wubaiti area，eastern Sichuan Basin [J]. Lithologic Reservoirs, 2024, 36(4): 109-121.
[5]	LI Bisong, SU Jianlong, PU Yong, MIAO Zhiwei, ZHANG Wenjun, XIAO Wei, ZHANG Lei, JIANG Yu. Facies-controlled karst characterization and effective reservoir prediction of Permian Maokou Formation in Yuanba area，Sichuan Basin [J]. Lithologic Reservoirs, 2024, 36(1): 69-77.
[6]	LONG Shengfang, HOU Yunchao, YANG Chao, GUO Yixuan, ZHANG Jie, ZENG Yali, GAO Nan, LI Shanghong. Sequence stratigraphy and evolution of Triassic Chang 7 to Chang 3 mebers in Qingcheng area，southwestern Ordos Basin [J]. Lithologic Reservoirs, 2024, 36(1): 145-156.
[7]	FAN Rui, LIU Hui, YANG Peiguang, SUN Xing, MA Hui, HAO Fei, ZHANG Shanshan. Identification of carbonate dissolution valleys filled with mudstones of Cretaceous in block A,Oman Basin [J]. Lithologic Reservoirs, 2023, 35(6): 72-81.
[8]	TANG Yuzhe, CHAI Hui, WANG Hongjun, ZHANG Liangjie, CHEN Pengyu, ZHANG Wenqi, JIANG Lingzhi, PAN Xingming. Characteristics and new prediction methods of Jurassic subsalt carbonate reservoirs in the eastern right bank of Amu Darya,Central Asia [J]. Lithologic Reservoirs, 2023, 35(6): 147-158.
[9]	ZHANG Changmin, ZHANG Xianghui, ZHU Rui, FENG Wenjie, YIN Taiju, YIN Yanshu, Adrian J. HARTLEY. Research progress and application prospect of distributive fluvial system [J]. Lithologic Reservoirs, 2023, 35(5): 11-25.
[10]	LI Shengjun, GAO Jianhu, ZHANG Fanchang, HE Dongyang, GUI Jinyong. A strong seismic energy reduction method under compressed sensing [J]. Lithologic Reservoirs, 2023, 35(4): 70-78.
[11]	ZHANG Wenting, LONG Liwen, XIAO Wenhua, WEI Haoyuan, LI Tiefeng, DONG Zhenyu. Sedimentary characteristics and reservoir prediction of Xiagou Formation in Kulongshan structural belt,Qingxi Sag,Jiuquan Basin [J]. Lithologic Reservoirs, 2021, 33(1): 186-197.
[12]	SUN Xiping, ZHANG Xin, LI Xuan, HAN Yongke, WANG Chunming, WEI Jun, HU Ying, XU Guangcheng, ZHANG Ming, DAI Xiaofeng. Reservoir prediction for weathering and leaching zone of bedrock buried hill based on seismic pre-stack depth migration [J]. Lithologic Reservoirs, 2021, 33(1): 220-228.
[13]	CAO Sijia, SUN Zengjiu, DANG Huqiang, CAO Shuai, LIU Dongmin, HU Shaohua. Prediction technology of tight oil thin sand reservoir and its application effect: a case study of Lower Cretaceous Quantou Formation in Aonan block,Songliao Basin [J]. Lithologic Reservoirs, 2021, 33(1): 239-247.
[14]	ZHANG Yan, GAO Shichen, MENG Wanying, CHENG Yuhong, JIANG Sisi. Uncertainty analysis in AVO forward modeling for tight sandstone reservoirs [J]. Lithologic Reservoirs, 2020, 32(6): 120-128.
[15]	WU Qingpeng, LYU Ximin, CHEN Juan, ZHOU Zaihua, YUAN Cheng. Sedimentary characteristics and exploration potentials of Lower Cretaceous Xiagou Formation in Ying'er Sag,Jiuquan Basin [J]. Lithologic Reservoirs, 2020, 32(5): 54-62.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 10

[1]	. [J]. Lithologic Reservoirs, 2022, 34(2): 0 .
[2]	LI Zaiguang,LI Lin. Automatic mapping based on well data[J]. Lithologic Reservoirs, 2007, 19(2): 84 -89 .
[3]	CHENG Yuhong,GUO Yanru,ZHENG Ximing,FANG Naizhen,MA Yuhu. The interpretation method and application effect determined by multiple seismic and logging factors[J]. Lithologic Reservoirs, 2007, 19(2): 97 -101 .
[4]	LIU Juntian,JIN Zhenjia,LI Zaiguang,TAN Xinping,GUO Lin,WANG Bo,LIU Yuxiang. Controlling factors for lithologic hydrocarbon reservoirs and petroleum prospecting target in Xiaocaohu area , Taibei Sag[J]. Lithologic Reservoirs, 2007, 19(3): 44 -47 .
[5]	SHANG Changliang, FU Shouxian. Application of 3D seismic survey in loess tableland[J]. Lithologic Reservoirs, 2007, 19(3): 106 -110 .
[6]	WANG Changyong, ZHENG Rongcai, WANG Jianguo, CAO Shaofang, Xiao Mingguo. Sedimentary characteristics and evolution of Badaowan Formation of Lower Jurassic in northwest margin of Junggar Basin[J]. Lithologic Reservoirs, 2008, 20(2): 37 -42 .
[7]	WANG Ke1 LIU Xianyang, ZHAO Weiwei, SONG Jianghai, SHI Zhenfeng, XIANG Hui. Char acter istics and geological significance of seismites of Paleogene in Yangxin Subsag of J iyang Depr ession[J]. Lithologic Reservoirs, 2008, 20(2): 54 -59 .
[8]	SUN Hongbin, ZHANG Fenglian. Structural-sedimentary evolution char acter istics of Paleogene in Liaohe Depr ession[J]. Lithologic Reservoirs, 2008, 20(2): 60 -65 .
[9]	LI Chuanliang. Can uplift r esult in abnormal high pr essur e in formation?[J]. Lithologic Reservoirs, 2008, 20(2): 124 -126 .
[10]	WEI Qinlian，ZHENG Rongcai，XIAO Ling，MA Guofu，DOU Shijie，TIAN Baozhong. Study on horizontal heterogeneity in Serie Inferiere of Triassic in 438b block , Algeria[J]. Lithologic Reservoirs, 2009, 21(2): 24 -28 .

TRENDMD: