收稿日期: 2010-03-19
修回日期: 2010-05-16
网络出版日期: 2011-03-16
基金资助
国家 “863” 计划重大项目(2006AA09A202,2009AA09A201)
Study of source in 3-D seismic and OBS exploration for marine gas hydrate
Received date: 2010-03-19
Revised date: 2010-05-16
Online published: 2011-03-16
Supported by
国家 “863” 计划重大项目(2006AA09A202,2009AA09A201)
伍忠良 . 海洋天然气水合物三维地震与海底地震勘探中的震源技术研究[J]. 热带海洋学报, 2011 , 30(1) : 49 -60 . DOI: 10.11978/j.issn.1009-5470.2011.01.049
Application of 3-D seismic and OBS exploration has been ever-increasing in the marine survey on natural gas hy-drate. The seismic source is one of determining factors in the acquisition, which is related to the quality of seismic data(P-wave and converted S-wave) acquired. The high quality data help to reveal the feature of velocity anomaly of strata bearing gas hydrate. By taking firing bandwidth, output and bubble effect into integrated consideration, a new type of GI gun point source was designed and then applied in the investigation on gas hydrate. Tests were conducted in northern of the South China Sea repeatedly over time from 2006 to 2009. The results indicated the application of new point source can enhance the penetrating capability of seismic P-wave and can improve the quality of P-wave and converted S-wave that OBS acquired.
Key words: natural gas hydrate; ocean bottom seismometer; GI gun; point source
[1] HORNBACH J M, HOLBROOK W S, GORMAN R A, et al. Direct seismic detection of methane hydrate on the
[4] KHLYSTOV O, VAN P R, DE M-BATIST, et al. Sublacustrine mud volcanoes and methane seeps caused by dissociation of gas hydrates in
[5] VANNESTE M, POORTA J, BATIST M D, et al. A typical heat-flow near gas hydrate irregularities and cold seeps in the Baikal rift zone[J]. Marine and Petroleum Geology, 2003, 19(2003): 1257-1274.
[6] HAACKE R R, WESTBROOK K G, PEACOCK S, et al. Seismic anisotropy from a marine gas hydrate system west of Svalbard[C]//Proceedings of the Fifth International Conference on Gas Hydrates.Trondheim, Norway: Norway-ICGH5-Organising-Committee,2005.http://www.gas-hydrate.org.cn/symposium/symp_21_1.pdf.
[7] ROSSI G, MADRUSSANI G, GEI D, et al. Velocity and attenuation 3d tomography for gas hydrates studies: the NW offshore Svalbard case[C]//Proceedings of the Fifth International Conference on Gas Hydrates. Trondheim, Norway: Norway -ICGH5-Organising-Committee, 2005. http://www. nioz.nl/public/symposia_workshops/arctic/poster/madrussani. pdf
[8] WESTBROOK1 K G, BUENZ S, Camerlenghi A, et al. Measurement of P- and S-wave velocity, and the estimation of hydrate concentration at sites in the continental margin of Svalbard and the storegga region of
[9] INAMORI T, HATO M, SAEKI T. Delineation of gas hy-
drate-bearing sediments by multi seismic attributes using 3d
seismic survey,offshore Tokai[C]//Proceedings of the Fifth
International Conference on Gas Hydrates, Trondheim, Nor-
way:Norway-ICGH5-Organising-Committee,2005.http://ww
w.gas-hydrate.org.cn/symposium/symp_21_1.pdf.
[10] ASAKAWA E, WARD P, VANNESTE M, et al. Ocean bottom seismometer wide-angle reflection study of gas hydrate accumulations in Nankai trough,offshore Tokai[C]//Proceedings of the Fifth International Conference on Gas Hydrates.Trondheim, Norway: Norway ICGH5 Organising-Committee, 2005. http://www.gas-hydrate.org. cn/symposium/symp_21_1.pdf.
[11] 张光学, 黄有样, 陈邦彦.海域天然气水合物地震学[M].北京: 海洋出版社, 2003: 27-56.
[12] NOUZÉ H, LAFOY Y, GÉLI L, et al. First results of a high resolution seismic study of a bottom simulating reflector in the fairway basin, offshore
[13] TINIVELLA U, ACCAINO F, et al. Gas hydrates and active mud volcanism on the South Shetland continental margin, Antarctic Peninsula[J]. Geo-Marine Letters,2007,28(2): 97-106.
[14] 张明, 伍忠良.天然气水合物BSR的识别与地震勘探频率[J].海洋学报, 2004, 26(4): 80-88.
[15] ZÜHLSDORFF L, SPIEß V.Pockmarks in the Northern Congo Fan area,
[17] 何汉漪.海洋高分辨率地震技术及其应用[M].北京: 地质出版社, 2001: 60-62.
[18] 陆敬安, 伍忠良, 曾宪军. 海洋地震勘探中地震波, 鬼波综合效应分析与应用[J].海洋技术, 2006, 25(4): 76-78, 98.
[19] 伍忠良, 曾宪军, 王立明.海洋天然气水合物调查地震采集技术-调查初始阶段研究[J].海洋技术, 2006, 4(25): 79-87.
[20] 伍忠良, 曾宪军, 王伟巍.海洋天然气水合物调查地震采集技术-调查深入阶段[J].海洋技术, 2007, 26(4): 110-114.
[21] 张明, 彭朝旭, 沙志彬.天然气水合物准三维地震调查导航定位技术[J]. 海洋地质与第四纪地质, 2008, 28(6):
101-106.
[22] 赵庆献, 韩立国, 伍忠良, 等. 天然气水合物准三维地震勘探电缆动态定位精度研究[J].吉林大学学报: 地球科学
版, 2009, 39(5): 936-941.
/
〈 |
|
〉 |