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海洋可控源电磁勘探技术与装备 被引量:13

Marine controlled-source electromagnetic exploration techniques and instruments
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摘要 近年来在西方海洋油气勘探界已将海洋可控源电磁勘探技术列入正常的勘探程序,要求在深海目标钻探前有海洋可控源电磁资料的评价。而在每年的EAGE、SEG年会上,有关海洋可控源电磁法勘探技术的论文、报告及相关的公司展区,一直是参会代表们关注的热点。这种关注和变化主要源于新开发的海洋可控源电磁法可以提高海上钻探成功率,大大降低钻探风险。国外著名油公司ExxonMobil、Statoil、Shell等进行的海上油气田电磁法现场试验及应用工作,展示了海洋电磁法诱人的应用前景。Morgan Stanley、华尔街期刊等权威经济机构对海洋电磁法商业服务价值的评估,更是推波助澜,使海洋可控源电磁法倍受业界关注。本文在介绍海洋可控源电磁勘探方法、装备、原理、应用的基础上,提出了加快发展我国海洋可控源电磁勘探技术的建议与认识。 Recent years in the West marine oil and gas exploration, the marine controlled-source electromagnetic exploration techniques been included in the normal surveying procedures and required the deep target of marine controlled-source electromagnetic data evaluation pre-drilling in the deep target. In the annual EAGE and SEG annual meeting, papers,reports and related companies Pavilion relating to marine controlled-source electromagnetic exploration technology are always the focus of attention. This concern are mainly due to the following reasons: the newly developed marine controlled-source electromagnetic method can increase the offshore drilling success rate and significantly reduce the risk of drilling. The application in many famous foreign oil companies(such as ExxonMobil, Statoil and Shell) demonstrated the attractive prospect of marine electromagnetic methods attractive prospect. The marine electromagnetic methods avalue assessment in the commercial services from Morgan Stanley, Wall Street Journal and other authoritative economic institutions brougth more attention. This paper give us a comprehensive introduction about the marine controlled-source electromagnetic exploration and to table a proposal for accelerateing the development.
作者 孙卫斌 何展翔
机构地区 东方地球物理公司综合物化探事业部
出处 《物探装备》 2010年第1期51-56,共6页 Equipment for Geophysical Prospecting
关键词 可控源电磁法 海洋油气勘探 海洋电磁勘探 钻探风险 controlled-source electromagnetic exploration technique marine exploration marine electromagnetic exploration drilling risk
分类号 P631.325 [天文地球—地质矿产勘探]
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参考文献14

  • 1Schlumberger C, Schlumberger M and Leonardon E G Electrical exploration of water-covered areas. Transactions of the American Institute of Mining and Metallur gieal Engineers, 110, 122-134, 1934.
  • 2Cox C S, Filloux J H and Larsen J. Electromagnetic studies of ocean currents and electrical conductivity below the ocean floor, in: The Sea, vol. 4 Part Ⅰ, ed. Maxwell (ed.), Wiley, 637-693, 1971.
  • 3Constable S and Cox C S. Marine controlled source electromagnetic sounding 2. The PEGASUS experiment, J. Geophys. Res., 101, 5519-5530, 1996.
  • 4Constable S, Orange A, Hoversten G M and Morrison H F. 1998, Marine magnetotelluries for petroleum exploration 1. A seafloor instrument system, Geophysics, 63, 816-825.
  • 5Hoversten G H, Morrison H F and Constable S. 1998, Marine magnetotellurics for petroleum exploration 2. Numerical analysis of subsalt resolution, Geophysics, 63, 826-840.
  • 6Hoversten G H, Constable and S Morrison H F. Marine magnetotellurics for base salt mapping: Gulf of Mexico field test at the Gemini structure, Geophysics, 65, 1476-1488, 1999.
  • 7Heinson G, Constable S and White A. Episodic melt transport at a mid ocean ridge inferred from magnetotelluriesounding, Geophys. Res. Lett., 18, 1917-1920, 2000.
  • 8Tompkins M J, Greer A, Barker N, Weaver R and MacGregor L M. Effects of vertical anisotropy on marine active source electromagnetic data and inversions, 66^th EAGE Annual Meeting, Paris, France, 7- 10 June, 2004.
  • 9MacGregor L, Sinha M and Constable S. Electrical resistivity structure of the Valu Fa Ridge, Lau Basin, from marine controlled-source electromagnetic sounding, Geophys. J. Int. , 146, 2001.
  • 10Summerfield P J. Marine CSEM Acquisition challenges, 75^th SEG Houston, 2005.

二级参考文献29

  • 1[1]S.E.Johansen,H.E.F.Amundsen,S.Ellingsrud,T.Eidesmol.Subsurface hydrocarbons detected by electromagnetic sounding.First break volume 23,March,2005
  • 2[2]T.Eidesmo,S.Ellingsrud,L.M.Macgregor,etc.Remote detection of hydrocarbon filled layers using marine controlled source electromagnetic sounding.EAGE 64th Conference & Exhibition-Florence,Italy,27~30,May,2002
  • 3[3]T.Eidesmol,S.Ellingsrudl,etc.Sea Bed Logging (SBL),a new method for remote and direct identification of hydrocarbon filled layers in deepwater areas.First break volume 20.3,March,2002
  • 4[4]S.Ellingsrud,T.Eidesmo,S.Johansen,M.C.Sinha,L.M.Macgregor,S.Constable.Remote sensing of hydrocarbon layers by seabed logging (SBL):Results from a cruise offshore Angola.The leading edge october,2002
  • 5[5]B.Farrelly,C.Ringstad,S.E.Johnstad & S.Ellingsrud.Remote characterization of hydrocarbon filled reservoirs at the Troll Field by Sea Bed Logging.EAGE Fall Research Workshop Rhodes,Greece,19th~23rd September,2004
  • 6Cov C S et al. Electromagnetic studies of ocean currents and electrical conductivity below the ocean floor, The Sea,4(Part Ⅰ),1971,637-693.
  • 7Constable S and Cox C S, Marine controlled source electromagnetic sounding 2: The PEGASUS experiment. J Geophys Res,101,5519-5530.
  • 8Constable S et al. Marine magnetotellurics for petroleum exploration 1: A seafloor instrument system. Geophysics,1998,63,816-825.
  • 9Hoversten G H et al. Marine magnetotellurics for petroleum exploration 2, Numerical analysis of subsalt resolution, Geophysics,1998,63,826-840.
  • 10Hoversten G H et al. Marine magnetotellurics for base salt mapping : Gulf of Mexico field-test at the Gemini structure. Geophysics,1999,65,1476-1488.

共引文献55

同被引文献118

引证文献13

二级引证文献32

物探装备
2010年 第1期

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