Method and device intended for permanent monitoring of an...

Details Method and device intended for permanent monitoring of an... Method and device intended for permanent monitoring of an...

1999-02-22

2001-01-30

McElheny, Jr., Donald E. (Department: 2862)

Data processing: measuring, calibrating, or testing

Measurement system in a specific environment

Earth science

Reexamination Certificate

active

06182012

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the invention
The present invention relates to a method and to a device intended for permanent seismic monitoring of an underground zone.
2. Description of the Prior Art
It is for example well-known to test the filling of an underground reservoir intended for natural gas storage at successive times, by means of a seismic system comprising a vibrator or an impulsive source for applying impact pulses to the ground surface and a reception device comprising alignments of elastic wave pickups positioned at the surface or in a well and coupled with the ground. As gas injection significantly alters the sound velocity, the density and therefore the reservoir formation, it is possible to determine the variation of the time interval on the seismic records between two reflectors, one being positioned above, the other below the reservoir. Filling evolution can also be followed by measuring the amplitude variation of the waves reflected near to the layers of the reservoir, at successive filling times.
U.S. Pat. Nos. 4,775,009, 4,986,350, 5,181,565 and 5,481,501 and notably, French Patent 2,688,896, describe systems comprising one or more service sets installed permanently in wells connected to the surface by means of one or more transmission channels. These service sets can be seismic receivers and possibly one or more seismic wave sources set in wells. The receivers or emitters can be placed outside casing pipes and coupled with the surrounding formations by the cement injected in the annulus around these pipes once set. The arrays of receivers can also be associated with a tubing lowered in a well and coupled with the formations surrounding the well if they are pressed against the wall of the well directly or by means of a casing pipe for example.
French Patents 2,703,457 and 2,703,470 and U.S. Pat. No. 5,243,562 describe seismic monitoring methods for underground reservoirs using arrays of receivers placed in wells or of seismic sources placed at the surface or possibly in these wells.
Seismic subsurface exploration is generally performed by coupling with the ground seismic sources or receivers according to various combinations where the sources and/or the receivers are positioned at the surface or in the neighborhood thereof, or in one or more wells through the explored formation.
A series of seismic emission-reception cycles are carried out by changing each time the location of the seismic source in relation to the axis of the well where the arrays of receivers are installed, according to a technique known as <<walk-away>>, and by recording the arrivals at receivers R
1
to Rn as a function of the propagation time t.
Monitoring of oil-bearing reservoirs or of gas storage reservoirs generally implies long-lasting operations because the variations to be observed are relatively slow.
U.S. Pat. No. 5,724,311 of the Assignee describes a permanent monitoring system that obtains a perfect reproducibility of the operating conditions in repetitive seismic monitoring operations in an underground zone crossed by at least one well or borehole, and notably an underground gas storage reservoir. This system comprises one or more arrays of seismic receivers (buried, at the surface or placed in one or more wells), several repetitive seismic sources (buried or at the surface), all permanently installed, and a permanent link network for selective power supply to these sources. A central station selectively remote-controls each of these sources and records the seismic signals coming from the underground zone in response to the seismic waves transmitted selectively in the ground by the sources.
This array of permanently installed sources, whose coupling with the surrounding formations remains stable, and this at least partly buried supply network, whose surface coverage area is reduced, allow to carry out a whole series of long-lasting seismic monitoring operations under stable operating conditions without risks of incompatibility with the activities of the production site.
SUMMARY OF THE INVENTION
The device according to the invention is suitable for various applications. It can notably be used for long-term seismic monitoring of an underground zone containing fluids: oil production zones, underground gas storage reservoirs, etc., and follow-up of the evolution thereof with time.
The method of permanent monitoring of an underground formation according to the invention simplifies further operations of permanent installation of at least one seismic emission-reception set comprising a seismic source and seismic receivers, while reducing the site coverage area thereof so as to not interfere with production.
The method comprises forming at least one well for a series of seismic receivers that are permanently coupled in the at least one well with the surrounding formation, and carrying out emission-reception cycles with emission of seismic waves in the formation and acquisition of the signals picked up by the seismic receivers, in response to the seismic waves reflected by the formation. The emission-reception cycles are carried out with at least one repetitive seismic source that is permanently coupled with the bottom of a cavity, each source being associated with at least one series of seismic receivers in a well in the immediate vicinity of the cavity.
Each cavity can be formed by widening of the section of a well in the upper part thereof, over a certain height. Several wells drilled for seismic receivers can be associated with a single cavity.
The method can be used within the scope of the development of an underground reservoir, with a series of seismic receivers coupled with the formation and a source positioned at the bottom of a cavity, in the vicinity of the wellhead or at the bottom of at least one other cavity associated with at least one other well.
The receivers are for example associated with a fluid transfer pipe lowered in the well, in order to connect an underground zone with a surface production equipment, and coupled with the formation surrounding the well.
The cavities are preferably deep enough for the source to be coupled with the formation below the weathered zone.
When a cavity is formed in the upper part of a well intended for receivers, the method can comprise interposing, if need be, a tube wave attenuator between the source and the cavity bottom.
Such wells and cavities can be drilled at the bottom of a water body for permanent installation of one or more seismic monitoring sets.
The permanent seismic monitoring device according to the invention comprises at least one array of seismic receivers (geophones and/or hydrophones) suited to be lowered in at least one well and coupled with the formation surrounding the well, at least one seismic source suited to be pressed against the bottom of a cavity close to the well, a control and recording station, and a connection of each array of seismic receivers and each seismic source to a control and recording station for signal transmission.
The device can comprise for example one or more vibrators, at least one array of seismic receivers positioned at intervals along a rigid pipe lowered in at least one well, associated with mobile coupler which couples the receivers with the formations surrounding the well and for decoupling them mechanically from each pipe, or associated with a casing pipe of at least one well. It can also comprise a tube wave dampener means associated with at least one source.
The device according to the invention is very advantageous because each seismic emission-reception set is permanently installed in a single well (or in two neighboring wells) whose site coverage area is relatively limited. Drilling of these wells, distinct or in two parts, can be readily achieved with conventional drilling or excavating equipments. The device can therefore be readily integrated in reservoir development or fluid storage sites. The sources are pressed against the bottom or the walls of cavities preferably deep enough to reach the formations below the weathered zone, their coupling w

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