RU2285795C1 - Oil deposit development method - Google Patents

Abstract

FIELD: oil production industry, particularly specific pattern of wells, optimizing the spacing of wells and may be used to develop underexplored underanalyzed deposits penetrated with small number of wells.

SUBSTANCE: method involves making structural productive formation plan; planning producing and injection wells for each production facility; drilling and surveying wells; producing oil via producing wells and injecting displacing agent through injection wells. To plan producing and injection well location structural plan of day surface is additionally plotted. The additional plan contains river and ravine-gulley zones. The plan is superposed with structural productive formation plan and caved, elevated zones, as well as elevation-area formation entries are refined. Dip values in vertical direction are calculated in zones of maximal elevation-area marks inclination in refined plan, wherein above marks correspond to river and ravine-gulley zones. Then effective or total oil-bearing thickness of productive formation is determined. Wells are located in flat zone of day surface, namely under river watersheds, along rivers and under ravine-gulley zone. Wells are drilled along with periodic well bore path correction.

EFFECT: increased technological and economical development efficiency of oil deposit confined to elevation roof parts.

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Description

The proposal relates to the oil and gas industry and can be used in the development of oil, gas and bitumen deposits, confined to the arched parts of the elevations, which correspond to the watersheds of the rivers, ravine-gully zone along the relief of the day surface, and can also be used to develop poorly drilled, under explored deposits with insufficient geological exploration (the presence of 2D ... 3D seismic surveys or their complete absence).

A remote method for searching and exploring oil and gas deposits and tectonic bodies by cosmotectonics is known (application of the Russian Federation No. 2002121222, G 01 V 9/00, dated 05.08.2002), which includes determining the purpose of tectonic bodies and the depth of the tectonic stress source according to the analysis of the structural plan of the reservoir , space-aerial photographs and a structural map of the day surface containing elements of a river and ravine-beam network, well drilling. The disadvantage of this method is the low efficiency and high material costs.

A known method for the search and exploration of multilayer oil deposits confined to folds, characterized by the displacement of the arches of the lower and upper exploration floors, including, based on seismic data, drilling a prospecting well laid in the local elevation arch prepared along the upper exploration floor to the base horizon, and based on statistical analysis of geological and geophysical materials by the ratio of the contours and arches of the lower and upper floors, as well as the tectonic structure of the territory the lower floor of the exploration by conducting an exploratory well, which is drilled by the uprising of layers in the profile with the exploratory well at a distance of 0.7-1.5 km from it. The search for the lower floor of the exploration is carried out by selective deepening of production wells from the approved technological scheme for the development of deposits on the upper floor of the exploration (RF patent No. 2159944, G 01 V 1/00, publ. 27.11.2000). The method is not effective enough.

The closest in technical essence to the proposed one is a method of developing an oil reservoir, including constructing a structural plan of the reservoir and placing production and injection wells for each production facility, drilling and researching wells, oil production from production wells and pumping the displacing agent into injection wells (Muravyev I .M. Et al. Development and operation of oil and gas fields. - M.: Nedra, 1970, p.103).

At the design stage, when compiling the main project document in the form of a structural plan of the reservoir, when the issue of determining the rational distribution of production and injection wells for each production facility is solved, there is a shortage of initial information, since this information was obtained from a rare grid of exploratory wells. Therefore, it is possible that the predicted hypsometric mark of the entry point into the reservoir may be erroneous due to insufficient accuracy in determining the rise that controls the reservoir, the thickness of the reservoir that composes the reservoir, and the placement and drilling of production and injection wells based on the received documents reduces the development efficiency and increases material costs.

The technical task of the proposed method is to increase the technological and economic efficiency of the development of oil deposits confined to the arched parts of the elevations, which correspond to the watersheds of the rivers, river and ravine-beam zones by the relief of the day surface by increasing the accuracy of determining the predicted hypsometric marks of the roof of the operational object, confirming the predicted thickness vertically, reducing unprofitable well drilling, optimizing well placement and selecting a trajectory with ox of the most effective portion extending anhydrous period of operation time and service wells.

To achieve the named technical result in the known development method, a structural plan of the producing formation is built and production and injection wells are placed for each production facility, wells are drilled and studied, oil is extracted from production wells and the displacing agent is injected into injection wells.

New is that for placing wells, a structural plan of the day surface is additionally built with a river and ravine-girder zone applied; when this plan is superimposed on the structural plan of the reservoir, the zones of deflections, elevations and hypsometric marks of the entrance to the reservoir in zones of maximum dip of hypsometric marks are specified on the refined structural plan, corresponding to the location of the elements of the river and gully-beam zone, calculate the values of the fall in absolute marks vertically and elyayut effective oil saturation or overall thickness of the producing formation, boreholes are placed in the part of the surface relief relaxing - a watershed along river zones and for the ravine zone, wherein during drilling is carried out periodic adjustment borehole trajectory.

An analysis of field studies and the results of well drilling showed that the highest values of the oil-bearing floors in the deposits are confined to the vaulted parts of the elevations, which correspond to the watersheds of the rivers and the tops of the ravines of the ravine-beam zone along the relief of the day surface. And the zones of maximum drop in the hypsometric marks of the top of the reservoir and the zone of distribution of Visean incisions coincide in terms of the day surface with the location of the elements of the river and ravine-girder zones. In these zones, the oil-saturated thickness of the reservoir decreases and the likelihood of opening claying zones increases. To place the wells, a structural plan of the day surface is additionally constructed with the application of the river and gully-beam zones. When this plan is superimposed on the structural plan of the reservoir, the zones of deflections, elevations and hypsometric marks of entry into the reservoir are specified. In the areas of maximum drop in hypsometric marks on the updated structural plan, corresponding to the location of the elements of the river and gully-beam zones, the values of the fall in absolute marks in the vertical direction are calculated and the effective or total oil-saturated thickness of the reservoir is determined. Wells are placed in a part of the calm relief of the day surface - under the watersheds of the rivers, along the river zone and under the ravine-beam zone, while during the drilling process, the wellbore trajectory is periodically adjusted.

Figure 1, 2 shows the layout of the design vertical, directional and horizontal wells on deposits in carbonate reservoirs without taking into account (wells 1b, 2a) and taking into account (wells 1b, 26, 2c) the surface topography.

The inventive method is carried out in the following sequence.

The layout is presented on the profile (figure 1) structural plan (figure 2) of the operational facility. Drill a deposit with a rare grid of design wells. Produce the construction of a structural plan (figure 2) of the reservoir according to the results of deep drilling and seismic studies on the developed deposits. Design directional production (4) and injection (3) wells are located. Additionally build a structural plan of the day surface with the application of the river and ravine-beam zone. Impose the specified plan on the structural plan for the roof of the reservoir. Identify areas of coincidence of predicted hypsometric marks with river and ravine-girder zones (1a).

For this section of the deposit, the structural plan of the deposit is specified taking into account the structural plan of the relief of the day surface in order to determine the specified deflection zones (5) and elevations (6) and the hypsometric marks of the entry point into the reservoir. The zones of maximum drops of hypsometric marks (H) on the refined structural plan of the day surface correspond to the location of the elements of the river (7) and gully-ravine zone. In areas of maximum drop in hypsometric marks, directional and horizontal wells are placed on the updated structural plan (3, 4) according to the updated geological structures. Calculate the value of the fall in absolute elevations vertically and adjust the structural plan for the reservoir, which is assigned to drill the well. In this case, the effective oil-saturated or total (carbonate) oil-saturated formation thickness is calculated taking into account the calculated vertical drop value and the feasibility of drilling the design grid of wells is determined. Wells are placed in a part of the calm relief of the day surface - under the watersheds of the rivers, along the river zone and under the ravine-beam zone, while during the drilling process, the wellbore trajectory is periodically adjusted. Wells are drilled (1b, 2b, 2c) taking into account the increase in hypsometric marks along the river and ravine-beam zones and the presence of a sufficient thickness of the reservoir (1b, 2b and / or 2c) according to the placement. The proposed method allows to increase the accuracy of determining the predicted hypsometric marks of the roof of the production facility, the confirmation of the predicted vertical thickness, optimizing well placement, reducing unprofitable drilling of wells and choosing the well path for the most effective part, extending the anhydrous period of operation and well service time.

The preliminary patent research on the patent fund and the scientific and technical library TatNIPIneft showed the absence of identical or equivalent technical solutions in comparison with the claimed method of developing an oil deposit taking into account the relief of the day surface, performing a similar task, which allows us to conclude that its criterion of "novelty "And" inventive step ".

An example of a specific implementation.

The implementation of this method will be considered on the example of a site characteristic of deposits of the Bobrikovsky horizon. Build a structural plan of the reservoir. The site is drilled on a design grid of 400 × 400 m by producing and injection vertical and directional wells, and they are being equipped. Drilling of branched horizontal wells was planned in the domed part of the deposit. Additionally build a structural plan of the day surface with the application of the river and ravine-beam zone. When comparing the structural plan of the deposits of the Bobrikov horizon with the structural plan of the relief of the day surface, it is established that the western part of the reservoir dome, built on the fact of deep drilling, is located according to the plan of the relief of the day surface within the river zone, which indicates a decrease in the absolute marks of the roof of the reservoir. Clarify the structural plan for the roof of the reservoir, taking into account the plan of the relief of the surface by applying them. Calculate the values of the fall in absolute elevations vertically and determine the effective or total oil-saturated thickness of the reservoir. Clarify the absolute marks of the entrance to the reservoir and the bottom of the wellbores. Wells are placed along the river zone in part of a calm relief. Drilling is carried out with periodic adjustment of the trajectory of the trunks. After the development of the wells, oil is extracted from the producing wells and the displacing agent is pumped into the injection wells. As a result, they increase the efficiency of the method by optimizing the placement of wells. They also reduce drilling time, energy consumption and capital investment, prevent a decrease in oil production due to loss of productive formation thickness.

During the year, additional oil production will amount to 14.7 thousand tons and the economic effect is 16.3 million rubles.

The proposed method improves the technological and economic efficiency of the development of oil deposits confined to the arched parts of the rise, which correspond to the watersheds of the rivers along the topography of the surface by optimizing the placement of wells, increasing the accuracy of determining the predicted hypsometric marks of the roof of each production facility, confirming the predicted thickness vertically, extending the anhydrous the period of operation and the service life of the wells.

Claims (1)

A method of developing an oil deposit, including constructing a structural plan of a productive formation and placing production and injection wells for each production facility, drilling and researching wells, oil production from production wells and pumping a displacing agent into injection wells, characterized in that a structural structure is additionally built to accommodate wells the plan of the day surface with the application of the river and gully-beam zones, when applying the specified plan to the structural plan of the reservoir, specify Deflections, elevations and hypsometric marks of entry into the reservoir, in the areas of maximum dip of hypsometric marks on the updated structural plan, corresponding to the location of the elements of the river and ravine-girder zones, calculate the vertical dip values of absolute marks and determine the effective or total oil-saturated thickness of the reservoir, the wells are placed in a part of the calm relief of the day surface - under the watersheds of the rivers, along the river zone and under the ravine-beam zone, while in the process Uren perform periodic adjustment of the trajectory of the wellbore.

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