Lithologic Reservoirs ›› 2013, Vol. 25 ›› Issue (4): 106-110.doi: 10.3969/j.issn.1673-8926.2013.04.020

Previous Articles     Next Articles

Application of box-wave technology to investigation of interference wave in Qiangtang Basin

LEI Yang,WU Wenjing,LIANG Zhenghong,CHEN Bing,LIU Yuanzh   

  1. Southwest Company,Sinopec Geophysical Corporation,Deyang 618000,China
  • Online:2013-10-08 Published:2013-10-08

PDF (PC)

740

Abstract:

Multiple plateau uplift movement leads to fast lateral lithology variation, strong heterogeneity and development of underground fracture in Qiangtang Basin. The signal-to-noise ratio of seismic data acquired in earlier days is low, and the type of interference wave that often cover the effective wave is various in the single shot record. In order to suppress the interference wave in the process of seismic prospecting by seismic combination method, it is necessary to understand the propagation and attribute character of interference wave completely. Firstly, used the single shot record and radar chart technology to analyze the style, direction of propagation, velocity, frequency and wavelength characteristics of major interference wave in the prospect area, and then analyzed the effect of suppressing interference wave by sorting common-receiver-point gathers with different pattern length. The result shows that: when the detector array is just a single point, it is invalid to suppress the interference wave in the prospect area; as the pattern length increase, the effect of suppressing interference wave with high frequency, low velocity and short wavelength is better; when the pattern length reaches 160 meters (maximum pattern length), it has a good effect to suppress the interference wave with high frequency, low velocity and short wavelength and improve the quality of original data, but the maximum pattern length has a poor effect to suppress the interference wave with high velocity and long wavelength. In order to suppress the interference wave with high velocity and long wavelength well, larger pattern length or multi-channel mixing process is necessary. The box-wave technology is suitable for investigating the interference wave in low signal-to-noise ratio prospect area, and it is beneficial to suppress the interference wave in the process of seismic prospecting and multichannel mixing process, and then improve the signal-to-noise ratio of original data.

Key words: reservoir formation, controlling factor, enrichment law, Jurassic reservoir, Pengyang Oilfield

[1] 凌云,张汝杰,高军,等.方形排列干扰波调查方法研究[J].石油地球物理勘探,2000,35(2):175-184.
[2] 郭建,魏福吉,吴长祥.利用盒子波技术设计野外观测系统[J].石油物探,2005,44(5):474-478.
[3] 李代芳,杨雁清.干扰波调查技术在JS 地区的应用[J].石油物探,2003,42(3):402-405.
[4] 彭涛,成云,刘建,等.哈密坳陷方形排列干扰波调查方法研究[J].新疆石油地质,2010,31(3):263-265.
[5] 王文攀,段天友,高文博,等.盒子波在调查干扰波中的应用[J].石油天然气学报(江汉石油学院学报),2011,33(5):91-93.
[6] 雷扬,吴闻静,刘远志,等.羌塘盆地地震资料采集检波器组合方法研究[J].复杂油气藏,2012,5(2):36-40.
[7] 倪宁辉,鲍峥,薛曙,等.盒子波技术在下扬子地区油气勘探中的应用研究[J].中国石油勘探,2006,11(5):35-40.
[8] 王正军,卢文生,高建华.盒子波技术在干扰波调查中的应用研究[J].江汉石油学院学报,2002,24(2):36-37.
[9] 卫东,倪良建,田雨东.盒子波调查技术在塔中沙漠区的应用[J].新疆石油地质,2005,26(6):701-703.
[1] LUO Qun, ZHANG Zeyuan, YUAN Zhenzhu, XU Qian, QIN Wei. Connotation,evaluation and optimization of tight oil sweet spots: A case study of Cretaceous Xiagou Formation in Qingxi Sag,Jiuquan Basin [J]. Lithologic Reservoirs, 2022, 34(4): 1-12.
[2] GUO Meijie, SHI Baohong, DONG Xiongying, LI Haodong, HE Chuan. Hydrocarbon accumulation conditions and main controlling factors of Paleogene in Chenghai slope,Huanghua Depression [J]. Lithologic Reservoirs, 2022, 34(3): 82-92.
[3] MA Zhengwu, GUAN Dayong, WANG Qiming, LIU Yaojun, LI Xiaohui. Sedimentary characteristics and controlling factors of sublacustrine fans of the third member of Paleogene Dongying Formation in Liaozhong Sag [J]. Lithologic Reservoirs, 2022, 34(2): 131-140.
[4] ZHANG Menglin, LI Guoqin, HE Jia, HENG De. Main controlling factors of Ordovician Wufeng-Silurian Longmaxi shale gas enrichment in Tiangongtang structure, southwestern margin of Sichuan Basin [J]. Lithologic Reservoirs, 2022, 34(2): 141-151.
[5] XU Shiyu, LIN Yi, ZENG Yiyang, ZHAO Chunni, HE Kailai, YANG Jing, LI Yang, ZHU Yi. Gas-water distribution characteristics and main controlling factors of Lower Permian Qixia Formation in Shuangyushi area, NW Sichuan Basin [J]. Lithologic Reservoirs, 2022, 34(1): 63-72.
[6] XIONG Jiabei, HE Dengfa. Distribution characteristics and controlling factors of global giant carbonate stratigraphic-lithologic oil and gas fields [J]. Lithologic Reservoirs, 2022, 34(1): 187-200.
[7] SHAO Xiaozhou, WANG Miaomiao, QI Yalin, HE Tongtong, ZHANG Xiaolei, PANG Jinlian, GUO Yixuan. Characteristics and main controlling factors of Chang 8 reservoir in northern Pingliang area,Ordos Basin [J]. Lithologic Reservoirs, 2021, 33(6): 59-69.
[8] ZHAO Xiaomeng, GUO Feng, PENG Xiaoxia, ZHANG Cuiping, GUO Ling, SHI Yuxiang. Reservoir characteristics and main controlling factors of Yan 10 sandy braided fluvial facies in Anbian area,Ordos Basin [J]. Lithologic Reservoirs, 2021, 33(6): 124-134.
[9] YIN Xingping, JIANG Yuqiang, FU Yonghong, ZHANG Xuemei, LEI Zhian, CHEN Chao, ZHANG Haijie. Shale lithofacies and reservoir characteristics of Wufeng Formation-lower Long 1 submember of Longmaxi Formation in western Chongqing [J]. Lithologic Reservoirs, 2021, 33(4): 41-51.
[10] ZHANG Zhiheng, TIAN Jijun, HAN Changcheng, ZHANG Wenwen, DENG Shouwei, SUN Guoxiang. Reservoir characteristics and main controlling factors of Lucaogou Formation in Jimsar Sag,Jungger Basin [J]. Lithologic Reservoirs, 2021, 33(2): 116-126.
[11] GAO Jixian, SUN Wenju, WU Peng, DUAN Changjiang. Accumulation characteristics of Upper Paleozoic tight sandstone in Shenfu block,northeastern margin of Ordos Basin [J]. Lithologic Reservoirs, 2021, 33(1): 121-130.
[12] TIAN Qinghua, LIU Jun, ZHANG Chen, WANG Wensheng, HUANG Dan. Characteristics and controlling factors of Lower Paleozoic reservoir in Sulige Gas Field [J]. Lithologic Reservoirs, 2020, 32(2): 33-42.
[13] BIAN Xiaobing, HOU Lei, JIANG Tingxue, GAO Dongwei, ZHANG Chi. Influencing factors of fracture geometry in deep shale gas wells [J]. Lithologic Reservoirs, 2019, 31(6): 161-168.
[14] SU Penghui, XIA Zhaohui, LIU Lingli, DUAN Lijiang, WANG Jianjun, XIAO Wenjie. Main controlling factors of productivity and reasonable development methods of low-rank coalbed methane in block M of Australia [J]. Lithologic Reservoirs, 2019, 31(5): 121-128.
[15] DUAN Zhiyou, LI Xianqing, CHEN Chunfang, MA Liyuan, LUO Yuan. Gas and water distribution and its controlling factors of Xiashihezi Formation in J58 well area,Hangjinqi area [J]. Lithologic Reservoirs, 2019, 31(3): 45-54.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] DUAN Tianxiang,LIU Xiaomei,ZHANG Yajun,XIAO Shuqin. Discussion on geologic modeling with Petrel[J]. Lithologic Reservoirs, 2007, 19(2): 102 -107 .
[2] ZHANG Liqiu. Optimization of upward strata combination of second class oil layer in eastern south Ⅱ area of Daqing Oilfield[J]. Lithologic Reservoirs, 2007, 19(4): 116 -120 .
[3] ZHANG Di,HOU Zhongjian,WANG Yahui,WANG Ying,WANG Chunlian. Sedimentary characteristics of lacustrine carbonate rocks of the first member of Shahejie Formation in Banqiao-Beidagang area[J]. Lithologic Reservoirs, 2008, 20(4): 92 -97 .
[4] FAN Huaicai, LI Xiaoping, DOU Tiancai, WU Xinyuan. Study on stress sensitivity effect on flow dynamic features of gas wells[J]. Lithologic Reservoirs, 2010, 22(4): 130 -134 .
[5] TIAN Shufang,ZHANG Hongwen. Application of life cycle theory to predict increasing trend of proved oil reserves in Liaohe Oilfield[J]. Lithologic Reservoirs, 2010, 22(1): 98 -100 .
[6] YANG Kai,GUO Xiao. Numerical simulation study of three-dimensional two-phase black oil model in fractured low permeability reservoirs[J]. Lithologic Reservoirs, 2009, 21(3): 118 -121 .
[7] ZHAI Zhongxi, QINWeijun, GUO Jinrui. Quantitative relations between oil-gas filling degree and channel seepage flow capacity of the reservoir:Example of Shuanghe Oilfield in Biyang Depression[J]. Lithologic Reservoirs, 2009, 21(4): 92 -95 .
[8] QI Minghui,LU Zhengyuan,YUAN Shuai,LI Xinhua. The analysis on the sources of water body and characteristic of water breakthough at Block 12 in Tahe Oilfield[J]. Lithologic Reservoirs, 2009, 21(4): 115 -119 .
[9] LI Xiangbo,CHEN Qi,lin,LIU Huaqing,WAN Yanrong,MU Jingkui,LIAO Jianbo,WEI Lihua. Three types of sediment gravity flows and their petroliferous features of Yanchang Formation in Ordos Basin[J]. Lithologic Reservoirs, 2010, 22(3): 16 -21 .
[10] LIU Yun,LU Yuan,YI Xiangyi, ZHANG Junliang, ZHANG Jinliang,WANG Zhenxi. Gas hydrate forecasting model and its influencing factors[J]. Lithologic Reservoirs, 2010, 22(3): 124 -127 .
TRENDMD:

Copyright © 2018 Lithologic Reservoirs

Support by Beijing Magtech support@magtech.com.cn