-
公开(公告)号:US20110242935A1
公开(公告)日:2011-10-06
申请号:US13078628
申请日:2011-04-01
申请人: Lasse Amundsen , Harald Westerdahl , Mark Thompson
发明人: Lasse Amundsen , Harald Westerdahl , Mark Thompson
IPC分类号: G01V1/38
摘要: A method of providing seismic data (such as marine seismic data). A seismic source is actuated at a plurality of source locations (S2, S4). For each source location, a multicomponent seismic measurement is performed at least one receiver location (S3). A reconstructing method is applied to each multicomponent measurement to obtain additional data corresponding to source locations additional to the source locations at which the source was actuated (S5). The additional data are output and/or used (S6).
摘要翻译: 提供地震数据(如海洋地震资料)的方法。 在多个源位置(S2,S4)处致动地震源。 对于每个源位置,至少一个接收器位置执行多组分地震测量(S3)。 将重建方法应用于每个多组分测量以获得对应于源被激活的源位置附加的源位置的附加数据(S5)。 输出和/或使用附加数据(S6)。
-
公开(公告)号:US06714153B1
公开(公告)日:2004-03-30
申请号:US09719638
申请日:2001-02-28
申请人: Fan-Nian Kong , Svein Ellingsrud , Vidar Sten-Halvorsen , Einar Stølen , Harald Westerdahl , Terje Eidesmo
发明人: Fan-Nian Kong , Svein Ellingsrud , Vidar Sten-Halvorsen , Einar Stølen , Harald Westerdahl , Terje Eidesmo
IPC分类号: G01S1388
CPC分类号: G01V3/30
摘要: The invention is a well radar for detecting, by electromagnetic wave reflection, resistivity horizons in production zones in oil wells. Transmitter and receiver antennas are combined in a tubing string antenna module. Two dipole transmitter antenna are positioned in a first position on either side of the tubing string antenna module. A first directionally sensitive group of four dipole receiver antennas is positioned in a second positioned so that the receiver antennas have even angular separation. Likewise, a second directionally sensitive group of four dipole receiver antennas is positioned in a third position opposite the first directionally sensitive group.
摘要翻译: 本发明是通过电磁波反射检测油井生产区的电阻率范围的良好雷达。 发射器和接收器天线组合在管柱天线模块中。 两个偶极发射器天线位于管柱天线模块两侧的第一位置。 第一定向灵敏组的四个偶极子接收器天线位于第二定位中,使得接收器天线具有均匀的角度间隔。 类似地,四个偶极子接收器天线的第二方向敏感组位于与第一定向敏感组相对的第三位置。
-
公开(公告)号:US20090278541A1
公开(公告)日:2009-11-12
申请号:US12223914
申请日:2007-02-12
IPC分类号: G01V3/00
CPC分类号: G01V3/12 , G01V3/083 , Y02A90/344
摘要: A method for analysing acquired electromagnetic measurements (R) made at or in a sea (4) over a seafloor (1) with rock formations (3) having relatively low resistivity (ρ3) for detecting a possibly underlying petroleum bearing reservoir formation (2) having relatively high resistivity (ρ2), wherein a low frequency electromagnetic transmitter (5) arranged in the sea (4) emits an electromagnetic field (P) propagating in the sea (4), in the rocks (3, 2) and in the air (0) above the sea; wherein electromagnetic sensors (6) are arranged with desired offsets (x) in the sea (4) for measuring the electromagnetic field (P(x)) while the field propagates, characterized in that one or more component of the electromagnetic field (P) is measured at least one large offset (xL) from the transmitter (5) where the field (P) essentially only has its origin from the field propagating as a field (P0) through the air (0); that the one or more components of the electromagnetic field (P) measured at the large offset (xL) is calculated back to a recalculated field (F0(x)) to one or more offsets (x) being shorter than the large offset (xL); that the recalculated field (P0(X)) is subtracted from the field (P(x)) for possibly highlighting a field which arising due to the possibly petroleum bearing reservoir formation (2) having relatively high resistivity (ρ2).
摘要翻译: 一种用于分析在具有相对较低电阻率(rho3)的岩层(3)的海底(1)上或在海上(4)制造的获取的电磁测量(R)的方法,用于检测可能的潜在石油轴承储层形成(2) 具有相对较高的电阻率(rho2),其中布置在海中的低频电磁发射器(5)发射在海中(4)中传播的电磁场(P),在岩石(3,2)和 海上空气(0) 其中电磁传感器(6)在场传播时在海(4)中以希望的偏移(x)布置以测量电磁场(P(x)),其特征在于,电磁场(P)的一个或多个分量 测量来自发射机(5)的至少一个大偏移(xL),其中场(P)基本上仅具有通过空气(0)作为场(P0)传播的场的起点; 在大偏移(xL)处测量的电磁场(P)的一个或多个分量被计算回到重新计算的场(F0(x))到一个或多个偏移量(x)短于大偏移(xL ); 重新计算的场(P0(X))从场(P(x))中减去,可能突出显示由于具有相对高的电阻率(rho2)的石油轴承储层形成(2)而引起的场。
-
公开(公告)号:US07456632B2
公开(公告)日:2008-11-25
申请号:US10549913
申请日:2004-03-22
CPC分类号: G01V3/30
摘要: A method for monitoring a high-resistivity reservoir rock formation (2) below one or more less resistive formations (3). The method includes transmitting an electromagnetic signal (S) propagating from near a seafloor or land surface (1) by means of an electromagnetic transmitter (5) powered by a voltage signal generator (G). The electromagnetic signal (S) propagates from the seafloor (1) and is guided along a conductive string (7) to the high-resistive formation (2), and propagates as a guided-wave electromagnetic signal (S2) at a relatively higher speed (V2) inside the high-resistivity formation (2) than a propagation speed (V3) in the less resistive formations (3). The guided-wave electromagnetic signal (S2) gives rise to an upward refracting electromagnetic signal (R3) having the relatively lower propagation speed (V3) in the less resistive formations (3) and having an exit angle nearer to the normal (N) to the interface between the high-resistivity formation (2) and the lower-resistivity formation (3), and gives rise to a steeply rising refraction wave front (F3). The refracted electromagnetic wave front (F3) includes refracted electromagnetic signals (R3) detected along an array of sensor antennas (6a, 6b, 6c, . . . , 6k, . . . , 6n) positioned along the seafloor. The array having a direction away from the transmitter (5).
摘要翻译: 一种用于监测低于一个或多个较小阻性结构(3)的高电阻率储层岩层(2)的方法。 该方法包括通过由电压信号发生器(G)供电的电磁发射器(5)传输从靠近海底或地面(1)传播的电磁信号(S)。 电磁信号(S)从海底(1)传播,并沿着导电线(7)引导到高电阻结构(2),并作为导波电磁信号(S 2)以相对较高的速度传播 高电阻率地层(2)内部的速度(V 2)大于传播速度(V 3)。 导波电磁信号(S 2)产生在较小阻抗构造(3)中具有相对较低传播速度(V 3)的向上折射电磁信号(R 3),并具有更接近正常的出射角( N)到高电阻率层(2)和下电阻率层(3)之间的界面,并产生急剧上升的折射波前(F 3)。 折射电磁波前(F 3)包括沿着沿着位置沿传感器天线阵列(6a,6b,6c,...,6k,...,6n)检测的折射电磁信号(R 3) 海底。 阵列具有远离发射器(5)的方向。
-
公开(公告)号:US07453265B2
公开(公告)日:2008-11-18
申请号:US10549172
申请日:2004-03-19
CPC分类号: E21B47/042 , G01F23/284 , G01V3/30 , Y02A90/344
摘要: A device for monitoring the position of an oil/water contact (OWC, 22) between an oil-continuous fluid (2o) overlying a water-continuous fluid (2w) inside a casing pipe (7). The device includes a transmitter (5) for a generating an electromagnetic signal (ST) and the transmitter (5) is provided with electrical energy (GT) from a voltage signal generator (G). The transmitter (5) is arranged inside the casing pipe (7) in the oil-continuous fluid (2o) and above the oil-water contact (22). The electromagnetic wave signal (ST) partly propagates downwards from the transmitter (5), is partly reflected from the oil-water contact (22), and is partly reflected by the end of the casing, giving rise to an upward propagating, reflected electro-magnetic signal (SR). The device also includes a sensor (6) for detecting the reflected electromagnetic signal (SR), and the sensor (6) is also arranged above the oil-water contact (22), providing a sensor signal (RR) to a receiver (60) for receiving the sensor signal (RR) and further to an analyzing device (61) for analyzing the sensor signal (RR), e.g. with respect to two-way propagation time or amplitude in order to calculate an elevation level for the oil-water contact.
摘要翻译: 一种用于监测覆盖在套管(7)内的水连续流体(2w)的油连续流体(2o)之间的油/水接触(OWC,22)的位置的装置。 该装置包括用于产生电磁信号(ST)的发射器(5),并且从电压信号发生器(G)向发射器(5)提供电能(G
T)。 发射器(5)布置在油连续流体(2o)内和油水接触件(22)上方的套管(7)内。 从发射器(5)向下部分地传播的电磁波信号(S SUB T T)部分地从油 - 水接触(22)反射,并且部分地被壳体的端部反射,给出 上升到向上传播的反射电磁信号(S SUB R S)。 该装置还包括用于检测反射电磁信号(S SUB R&S)的传感器(6),传感器(6)也布置在油 - 水接触(22)上方,提供传感器信号 (R SUB R)连接到用于接收传感器信号(R SUB R)的接收器(60),并且还包括分析装置(61),用于分析传感器信号(R' SUB> R>),例如 相对于双向传播时间或幅度,以计算油 - 水接触的高程水平。 -
公开(公告)号:US06525540B1
公开(公告)日:2003-02-25
申请号:US09719639
申请日:2001-02-13
IPC分类号: G01L330
CPC分类号: G01V3/30 , G01S7/003 , G01S7/03 , G01S13/885 , H01Q1/04
摘要: A method for detecting electrical properties in a geological formation in a well which has within it a tubing string comprising the steps of mounting a transmitter antenna outside of the tubing string in a fixed position with respect to the geological formation, mounting a receiving antenna outside of the tubing string in a fixed position with respect to the geological formation, generating a first series of electromagnetic waves at a first time, receiving a first series of reflected electromagnetic waves in the receiver antenna, transforming the first series of reflected electromagnetic waves to form a first registration, generating a second series of electromagnetic waves at a second time, receiving a second series of reflected electromagnetic waves in the receiver antenna, transforming the second series of reflected electromagnetic waves to form a second registration, and comparing the registrations. Also disclosed is a device for accomplishing the method.
摘要翻译: 一种用于检测井内地质构造中的电性能的方法,其中在其中具有管柱,其包括以下步骤:将发射器天线安置在相对于地质构造的固定位置的管柱之外,将接收天线安装在 所述油管柱相对于所述地质构造处于固定位置,在第一时间产生第一系列电磁波,在所述接收器天线中接收第一系列反射电磁波,将所述第一系列反射的电磁波变换为 第一次登记,在第二次产生第二系列电磁波,在接收机天线中接收第二系列的反射电磁波,变换第二系列的反射电磁波,形成第二次配准,并比较注册。 还公开了一种用于实现该方法的装置。
-
公开(公告)号:US20070040557A1
公开(公告)日:2007-02-22
申请号:US10549172
申请日:2004-03-19
申请人: Svein Johnstad , Fan-Nian Kong , Harald Westerdahl
发明人: Svein Johnstad , Fan-Nian Kong , Harald Westerdahl
IPC分类号: G01V3/18
CPC分类号: E21B47/042 , G01F23/284 , G01V3/30 , Y02A90/344
摘要: A device for monitoring the position of an oil/water contact (OWC, 22) between an oil-continuous fluid (2o) overlying a water-continuous fluid (2w) inside a casing pipe (7), comprising the following features: a transmitter (5) for a generating an electro-magnetic signal (ST), said transmitter (5) provided with electrical energy (GT) from a voltage signal generator (G); said transmitter (5) being arranged inside said oil-continuous fluid (2o) and being above said oil-water contact (22), and being inside said casing pipe (7); said electromagnetic wave signal (ST) for partly propagating downwards from said transmitter (5); said electromagnetic wave signal (ST) for being partly reflected from said oil-water contact (22), and partly reflected by the end of the casing, giving rise to an upward propagating, reflected electro-magnetic signal (SR); a sensor (6) for detecting said reflected electromagnetic signal (SR), said sensor (6) also arranged above said oil-water contact (22), providing a sensor signal (RR) to a receiver (60) for receiving said sensor signal (RR) and further to an analysing device (61) for analysing said sensor signal (RR), e.g. with respect to two-way propagation time or amplitude in order for calculating an elevation level for said oil-water contact (22).
摘要翻译: 一种用于监测覆盖在套管(7)内的水连续流体(2w)的油连续流体(2o)之间的油/水接触(OWC,22)的位置的装置,包括以下特征: 用于产生电磁信号(S SUB T)的发射器(5),所述发射器(5)从电压信号发生器(5)提供电能(G T T T) (G); 所述发射器(5)布置在所述油连续流体(2o)内并且位于所述油水接触件(22)的上方,并且位于所述套管(7)内; 用于从所述发射器(5)向下部分地传播的所述电磁波信号(S SUB T); 所述电磁波信号(S SUB T T)用于部分地从所述油 - 水接触(22)反射并部分地被所述壳体的端部反射,从而产生向上传播的反射电磁 信号(S SUB R); 用于检测所述反射电磁信号的传感器(6),所述传感器(6)还布置在所述油水接触件(22)的上方,提供传感器信号(R SUB R 用于接收所述传感器信号(R SUB R)的接收器(60),并且还用于分析装置(61),用于分析所述传感器信号(R SUB R< / SUB) >),例如 相对于双向传播时间或幅度,以便计算所述油 - 水接触(22)的高程水平。
-
8.发明授权公开(公告)号:US07145341B2
公开(公告)日:2006-12-05
申请号:US10919842
申请日:2004-08-17
CPC分类号: G01V3/12 , Y02A90/344
摘要: The present invention relates to a system and apparatus for detecting and recovering hydrocarbons located in a subterranean reservoir In some embodiments, an electromagnetic field is applied by a transmitter positioned on a seabed and detected by antenna also positioned on the seabed.
摘要翻译: 本发明涉及一种用于检测和回收位于地下储层中的烃的系统和装置。在一些实施例中,电磁场由位于海床上的发射器施加并且还通过也位于海床上的天线检测。
-
9.发明授权公开(公告)号:US06900639B2
公开(公告)日:2005-05-31
申请号:US10801045
申请日:2004-03-15
IPC分类号: G01V3/08
CPC分类号: G01V3/088
摘要: A system for investigating subterranean strata. An electromagnetic field is applied using a dipole antenna transmitter and this is detected using a dipole antenna receiver. Phase information is extracted from a refracted wave response and used to identify the presence and/or nature of a subterranean reservoir.
摘要翻译: 一个调查地下地层的系统。 使用偶极天线发射机施加电磁场,并且使用偶极天线接收器来检测电磁场。 从折射波响应中提取相位信息,并用于识别地下储层的存在和/或性质。
-
10.发明申请公开(公告)号:US20050017722A1
公开(公告)日:2005-01-27
申请号:US10919842
申请日:2004-08-17
CPC分类号: G01V3/12 , Y02A90/344
摘要: A system for detecting a subterranean reservoir or determining the nature of a subterranean reservoir 12 whose position and geometry is known from previous seismic surveys. An electromagnetic field 24, 25, 26, 27 is applied by a transmitter 18 on the seabed 14 and detected by antenna 21, 22, 23 also on the seabed 14. A refracted wave component is sought in the wave field response, to determine the nature of any reservoir present.
摘要翻译: 一种用于检测地下储层或确定地下储层12的性质的系统,其位置和几何形状从先前的地震勘测中已知。 电磁场24,25,26,27由发射器18施加在海底14上,并且也由天线21,22,23检测。在波场响应中寻求折射波分量,以确定 任何水库存在的性质。
-
-
-
-
-
-
-
-
-
搜索结果
23 条记录 (耗时 0.014 秒)
