RU2017146989A - Method for seismic monitoring of shallow deposits of extra-viscous oil - Google Patents

Claims (1)

The method of seismic monitoring of development of shallow deposits of extra-viscous oil, which consists in choosing locations of wells, drilling test wells with a bottomhole depth several meters below the target reservoir, form a downhole observation system to perform a well seismic survey, consisting of control wells. measuring wells with the placement of seismic receivers located below the bottom of the reservoir, place a low-channel near-well surface part The seismic receivers, which are a combined observation system, on which an eight-channel active placement is placed that is not movable in space, while its fourth channel in the order of order is connected to a submersible seismic receiver, four excitation points are established, two of which are flank and two remote, form a system observations to perform seismic surveys on linear profiles, select at least three profiles and at least one profile for each group of unidirectional SAGD wells while linear profiles orient perpendicular to the direction of the horizontal part of the trunks passing through the dome region of the super-viscous oil trap, perform high-precision topographical binding of all receiving points with an accuracy of ± 0.1 m, perform basic borehole seismic imaging, perform the impact on the surface of the daytime with mobile non-explosive pulse source of longitudinal waves, for each well four seismograms are recorded, on which the wave fields of the surface arrangement of seven channels and a submersible borehole seismic receiver moved sequentially in positions at all planned points of seismic wave excitation, while the combined observation system is worked out from the flanking points of initiation of elastic oscillations and remote points of excitation that are removed from the first and eighth points of reception at distances that are multiples of the near-well position , then perform basic seismic surveys along linear profiles passing through test wells using the method e multiple overlaps, measurements performed by initiating a seismic field, the distance between adjacent points of excitation is chosen equal to the distance between receiving points equal to 4 ÷ 6 m, each point of excitation is worked out with the accumulation of source effects, followed by computer processing of materials of basic seismic survey along linear profiles on the graph characteristic for the method of the general depth point with its adaptation for shallow seismic exploration with preservation of the relative level Lituds, with the release of useful waves - direct, head and reflected, then a time section and a model of interval velocities are built on the reflected waves, the surface network of reception points is restored to the coordinates with an accuracy of ± 0.1 m to conduct a monitoring survey, then a downhole seismic survey is performed with a frequency of at least two per year, then a monitoring seismic survey is performed along linear profiles, then a computer processing is performed, then the monitoring well materials are adjusted Seismic survey for the influence of seasonal variations in the elastic properties of the upper part of the section by comparing them with the initial survey data, further reveals the remaining travel time remaining after subtracting the run variation time of the direct passing wave in the upper layers and using it (the remaining time) to calculate the radial velocity monitoring surveys, then perform computer processing of monitoring seismic survey materials on linear profiles, the obtained results of calculations - radial velocities, basic and monitoring new surveys, interval velocity models for linear profiles are loaded into a computer interpretation system, joint analysis of all materials obtained is performed on a single cartographic basis, spatial distribution of velocities is formed in the thickness covering the reservoir reservoir, difference maps are calculated between basic and repeated surveys, further by estimating the difference parameters between the baseline and monitoring surveys, radial velocity variations are obtained over a period of time between Azov and subsequent surveys, then compare the maps of the differential parameters with the accumulated volume of steam injected into the reservoir over the entire period of production of extra-viscous oil and for the time intervals between surveys, analyze the results of previous calculations, make conclusions about the direction of the formation warming up in the zones between the horizontal wells injectors.