NL195066C - Method and device for seismic surveys in wells that allow filtering of guided waves. - Google Patents

Description

1 195066

Method and device for seismic surveys in wells that allow filtering of guided waves.

The present invention relates to a method according to the preamble of claim 1 and a device according to the preamble of claim 6.

The research method according to the invention is, for example, of the VSO type (vertical seismic soil investigation) or of the OVSO type (inversely vertical seismic soil investigation). In the first case, this can be achieved by means of a transceiver assembly, comprising seismic sensors (geophones or hydrophones), which are placed in a well, and an impact source, which is placed on the surface. In the second case, the assembly comprises a source that is placed in a well and seismic sensors that are placed either on the surface or in another source. The method according to the invention can also be realized in a source by means of sound diaphragm probes.

The method and the device can for instance also be used for performing seismic work, wherein the sound emitted by a drill head operating at the bottom of a well (recording of drilling sounds) is recorded.

Wave conversions are known to occur in the upper part of a well that extends through the "weathered layer" zone. The "groundroll" waves generated by a surface source are converted to waves referred to as tubular waves, which are guided along the well to deeper detectors when a VSO type method is performed.

The same applies to the reverse configuration (OVSO), in which the waves generated by a source placed in a well are guided along the well to the weathered layer and converted into surface waves that are the signals transmitted by the sensors placed at the surface. received.

From EP 281 946 a method is known for performing seismic survey work, wherein for damping tube waves use is made of air bubbles which are continuously brought into a top part of the well during a survey depth by an air through an air pipe into the liquid in the well.

The method for examining an underground formation according to the preamble of claim 1 comprises according to the invention, while the well is being drilled by a drill bit associated with a drill string, into a drilling fluid circulation that feeds the drill bit, injecting the gas into has little or no solubility in the liquid, and by performing research work with elastic waves.

The elastic waves can be transmitted by the drilling tool operating at the bottom of the well or by a source for waves other than the drilling tool, which source is operated, for example, after the drilling tool has been removed.

It is the injected gas that rises through the annular space between the well and the drill string that in this case absorbs the tube waves

The time the gases in emulsion in the drilling fluid need to reach the surface is often very long, in any case much longer than the time required to pull the drill string in its entirety out of the well.

It is therefore possible, for example, to perform the following operations in succession: Performing drilling operations with gas injection in the drilling fluid as described above; fully retracting the drill and clearing the well, lowering seismic means into the cleared hole; and performing seismic survey work, utilizing the absorption effect of the tube waves by the gases previously dispersed in the drilling fluid and still rising up in the well. The seismic work can be carried out with transmitting and receiving means, which are accommodated in at least one well probe.

The device according to the invention comprises means for injecting pressurized gas into a drilling fluid circulation created during the drilling of a well with a drilling tool, and a source which may be the drilling tool itself or may consist of another source which is, for example, operated to generate elastic waves after the drilling tool has been removed.

The method according to the invention has proven to be very effective. It has been established that in seismic recordings the damping factor obtained by this gas dispersion of disturbances caused by the conversion of the guided waves is between 8 and 20, for example.

Claims (10)

195066 2 Other features and advantages of the method and of the device according to the invention appear from the following description of embodiments given by way of non-limiting examples, with reference to the accompanying drawing, in which: Fig. 1 schematically shows a seismic assembly shows that is suitable for a VSO type method; Fig. 2 schematically shows an assembly for performing an OVSO-type method; Fig. 3 schematically shows a seismic installation for performing drilling sound listening operations, provided with a gas injection assembly; A seismic assembly for carrying out a VSO-type method comprises, for example (Fig. 1) a source S for impact, which is coupled to the ground surface, such as a vibrator, an explosive charge or a pulse source, for example of the impact type, and seismic sensors, which are placed in a well 1, which extends through the underground formation to be investigated. The sensors R are, for example, placed in a tool 2, which is lowered into the well at the end of an electric carrier cable 3, which is unwound by an operating device 4 placed on the surface. The well tool 2 comprises at least one probe, which can be anchored in the well by opening anchor arms, to couple one or more seismic sensors (for example three axial geophones). The well tool may also include a main probe 5 and one or more satellite probes disposed in a strand below the main probe, each of which includes one or more seismic sensors. A well tool that is suitable for this VSO type method is known per se. It can be recognized that the "ground roll" generated by the source S in the surface layers is broken at the height of the well and converted into waves referred to as tubular waves that will propagate along the well and cause disturbances of the usable incoming waves propagating to the sensors R in the formation. In order to realize a method referred to as a reverse VSO method (Fig. 2), a source of impacts, such as an explosive charge, a vibrator or an impulse source placed in the well and anchored in the walls by anchor arms or an expandable anchor element such as a packer Well sources suitable for this application are known per se In this case the seismic sensors are either on the surface or in another well The above refractive phenomenon also occurs in the case that the waves caused by the source are conducted along the well to the surface. layers where they are converted to the "groundroll" and are received by surface-mounted sensors R. The damping of the guided waves can be achieved in the context of listening operations during drilling, whereby the impacts generated by the drilling tool 9 are received by means of sensors R which are placed on the surface or in another pit, such as on is known. For this purpose, a tank 7 containing pressurized gas, or a conventional compressor, is connected to the circuits of the pumping installation 10, which is intended for injecting the drilling mud into the drill string 11. The gases contained in the annular space between the strand 11 and the pit 1 rising upwards to the upper part thereof also contribute to damping the tube waves. The time the gases in emulsion in the drilling fluid need to reach the surface is often very long, in any case much longer than the time required to pull the drill string completely out of the well. It is therefore possible to carry out successively: - drilling operations with gas injection into the drilling fluid as described above; - complete withdrawal of the drilling tool and evacuation of the well; - lowering seismic means into the cleared hole: well source or seismic sensors that are suitable for the type of method used (VSO or OVSO) or a sound diaphragm in which both transmitting means and receiving means are accommodated; and seismic survey operations by utilizing the absorption effect of the tube waves by the gases previously dispersed in the drilling fluid and still rising up in the well. 50 A method for investigating an underground formation through which a well extends which contains a liquid, which method makes it possible to dampen the waves which are referred to as 55 tube waves and which propagate along the well and are responsible for parasitic signals which are received by seismic sensors coupled to the formation in response to elastic waves fed to the formation, the method comprising spreading a gas sufficiently compressible in the well «at least a portion of absorb the energy transmitted through the tube waves to the seismic sensors, characterized by injecting, while the well is drilled by a drill bit associated with a drill string, into a drilling fluid circulation that feeds the drill bit or is not soluble in the liquid, and by performing research work with elastic g olven. Method according to claim 1, characterized in that the investigation work is carried out with elastic waves emitted by the drilling tool operating at the bottom of a well, the absorption of tube waves being effected by the injected gas rising upwards in the annular space between the well and the drill string. Method according to claim 1, characterized in that it successively comprises - spreading the gas in a drilling fluid which is pumped into the string of the drill bit, and - performing investigative work by using a source of seismic waves , which is separate from the drilling tool. 4. Method according to claim 3, characterized in that the source is operated after the drill bit has been removed. 5. Method according to Claim 3, characterized by performing seismic survey work by using emission and receiving means which are accommodated in at least one well probe. 6. Device for performing an investigation of an underground formation through which a well (1) 20 extends, comprising a liquid, comprising a drilling tool associated with a drill string, and seismic sensors (R), which are coupled to the formation wherein the device comprises a source (S) for generating seismic waves, characterized in that the device further comprises means for injecting a pressurized gas into the drilling fluid, said gas being substantially insoluble in the fluid of the well and has relatively high compressibility to dampen the waves that are referred to as tubular waves and that propagate along the well and are responsible for parasitic signals received by the seismic sensors. Device according to the preceding claim, characterized in that the source for seismic waves consists of the drilling tool. . 8. Device as claimed in claim 6, characterized in that the source of seismic waves is placed in the well. Device according to claim 8, characterized in that the source and the seismic sensors are accommodated in at least one probe, which is lowered into the well. 10. Device as claimed in one or more of the claims 6-9, characterized in that the means comprise a tank with a pressurized gas or a compressor which is connected to a pumping installation intended for injecting the drilling mud into the drill string. Hereby 2 sheets of drawing