RU2455484C1 - Method of control of highly compartmentalised formations development - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: method involves seismic exploration works, geophysical investigations of wells, laboratory investigations of cores, detection of interdependence of reservoir properties of formation and log sheets on the strength of all the evidence of laboratory investigations of cores and geophysical investigations of wells, detection of formation structure on the strength of all the evidence of seismic exploration works and geophysical investigations of wells, determination of reservoir properties of formation and mutual arrangement of formation parts on the basis of accepted log sheets in interwell space of unexplored formation parts and detected interdependance of reservoir properties of formation and log sheets. At that geophysical investigations of wells are performed in wells without any additional restrictions for value of angle of well displacement from vertical line, which possibly open not the whole formation and not necessarily on the whole interval of formation, reservoir properties of formation and mutual arrangement of formation parts are determined by means of wavelet analysis of change of log sheets in interwell space.

EFFECT: reliable determination of reservoir properties of formation and reliable determination of mutual arrangement of formation parts.

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Description

The invention relates to the oil industry, namely, to study the structure of the reservoirs to control the development and to optimize the location of production wells in the studied field, in particular to methods for assessing the filtration flows formed during the development of oil fields with highly dissected reservoirs.

A known method of monitoring the development of reservoirs, in particular, to place wells according to the results of studies of the reservoir structure (prototype [1]), based on the inter-well distribution of log curves, including seismic surveys, geophysical surveys in the entire interval of the reservoir perpendicular to the formation of wells, laboratory studies cores, identification of the core data of laboratory studies of cores and geophysical studies of wells of the interdependence of filtration and capacity characteristics tic reservoir and well logs, and reservoir building structure, on the basis of the above data. Determine the reservoir properties of the reservoir and the relative position of the parts making up the reservoir based on the well logs common in the interwell space and the revealed interdependence of the reservoir properties of the reservoir and the logs. Well logs are distributed into the interwell space by analyzing the change in the shape of the log diagram over the entire interval of the formation along strike, taking into account the geological variation of the formation along strike. Control over the development and, in particular, recommendations for the location of the wells are carried out according to the obtained reservoir properties of the reservoir, through hydrodynamic modeling. The effectiveness of the prototype is confirmed by the consistency of the predicted and actual well logs.

The disadvantage of the prototype is that the obtained reservoir characteristics of the reservoir do not allow reliable identification of locally developed sand bodies and effective prediction of their wedging out due to the use of log diagrams of geophysical surveys perpendicular to the formation of wells in the entire interval of the reservoir and the inability to take into account local heterogeneity of the reservoir in depth. At the same time, careful correlation of well sections is the key to subsequent success both in determining the sediment genesis and paleogeographic reconstructions, and in monitoring the development and placement of wells.

The problem to be solved is to increase the reliability of control over the development of highly stratified formations, in particular, to increase the reliability of the justification for the location of production wells.

The technical result is reliably determined reservoir characteristics of the reservoir and a reliably defined relative position of the parts making up the reservoir, which, in turn, increases the reliability of control over the development of fields with a high layering of reservoirs and, accordingly, increases the efficiency of drilling operations, reducing the risks of incorrect assessment of technological indicators in the construction of geological and hydrodynamic models. Moreover, the determination of the reservoir capacity characteristics of the formation is carried out on the basis of geophysical studies of wells conducted in wells without additional restrictions on the angle of departure of the well from the vertical, possibly revealing not all of the formation in depth, and not necessarily throughout the interval of the formation.

The problem is solved in that the proposed method for monitoring the development of reservoirs, including seismic surveys, geophysical surveys of wells, laboratory studies of core samples, identifying, based on the totality of data from laboratory studies of core samples and geophysical surveys of wells, the interdependence of reservoir and reservoir characteristics and logging diagrams, identifying the totality of data seismic surveys and geophysical studies of wells of the reservoir structure, determination of filtration-reservoir The characteristics of the reservoir and the relative position of the parts of the reservoir based on common logs in the interwell space of unexplored sections of the reservoir and the revealed interdependence of the reservoir properties of the reservoir and logs are different in that the geophysical studies of the wells are carried out in wells without additional restrictions on the value of the well deviation from verticals, possibly revealing not the entire formation, and not necessarily on the entire interval of the formation, but filtration-capacitive characteristics akteristiki formation and positioning of portions of the formation is determined by a wavelet analysis of the change logs in crosshole space.

The proposed invention is implemented by the following sequence of operations.

1. Conduct seismic surveys.

2. Geophysical surveys of wells (GIS) are carried out to obtain well logs; moreover, geophysical surveys do not necessarily perpendicular to the formation of wells, which may have opened the formation to an incomplete depth, and not drilled in the entire interval of the formation.

3. Conduct laboratory tests of cores.

4. By the totality of the data of laboratory research of cores and geophysical research of wells, the interdependence of the filtration-reservoir characteristics of the formation and the shape of the logs is revealed.

5. Construct a reservoir structure based on data from seismic surveys and geophysical surveys of wells.

6. The characteristic shape of the log diagram characterizing the physical field at each investigated well of the formation is revealed by determining the coefficients a ^k _{i, j of the} decomposition of the log diagram f _k (h) based on the wavelet basis ψ _{i, j} (h) on the reduced to [-1 , 1] formation with depth h

, i,j∈Z - глубинная и частотная составляющая вейвлет разложения, h∈[-1,1] - приведенная к отрезку [-1,1] глубина пласта.where Δ _k (h) is some residue,

, i, j∈Z is the depth and frequency component of the wavelet decomposition, h∈ [-1,1] is the reservoir depth reduced to the segment [-1,1].

Presentation of the curves of the logs in the form (1) allows a reasonable analysis of the logs in the wells, not necessarily perpendicular to the formation. Moreover, geophysical surveys of wells may not be carried out in the entire interval of the formation, while taking into account local heterogeneity of the depth in the reservoir under conditions of high stratification and geological variability of the formation, which, in turn, leads to a significant improvement in the quality of control over the development and increased reliability of the planned to drilling production wells.

The obtained volume of information on the frequency-depth characteristics of the logs in the form of coefficients of decomposition of the logs on the basis of wavelets makes it possible to fairly characterize highly dissected formations.

7. A log diagram characterizing the physical field at each well studied is distributed into the interwell space along the strike of the formation by reproducing the decomposition coefficients of the log diagram on the basis of wavelets in the absence of data.

8. Accordingly, the reservoir characteristics of the reservoir and the relative position of the parts making up the reservoir are determined based on the well logs that are common in the interwell space and the interdependence of the reservoir and reservoir characteristics and reservoir diagrams revealed in paragraph 4 of the sequence of operations.

9. According to the obtained filtration and reservoir characteristics of the reservoir, by means of hydrodynamic modeling, in particular, they justify the placement of production wells and generally reliably control the development.

The advantage of the present invention over the prototype is that in addition to taking into account the geological variation of the formation along strike, the local heterogeneity of the formation in depth is effectively taken into account, the reservoir-filter characteristics of the formation are more reliably determined by the frequency-depth analysis of the change in the shape of the log diagrams in wells, not necessarily perpendicular to the formation, In this case, the data of geophysical studies of wells are not required to be known throughout the interval of the reservoir.

This makes it possible to increase the efficiency of monitoring and, accordingly, managing the development of fields with high stratified formations, increase the efficiency of drilling operations, and reduce the risks of an incorrect assessment of technological indicators when constructing geological and hydrodynamic models.

An example of a specific implementation of the method.

For one of the sections of the Priobskoye field, it is clearly shown that the proposed method significantly improves the quality of control over the development and placement of production wells planned for drilling.

At the same time, when assessing the geological structure of the formation, geological studies were conducted on wells that were not drilled to the bottom of the formation and were rejected in the prototype.

In addition, since the inventive method, unlike the prototype, does not impose additional restrictions on the value of the angle of departure of the well from the vertical, geological studies were carried out not only vertical but also deviated, as well as horizontal wells, which undoubtedly expanded the scope of the method relative to the type of wells being studied .

Speaking about the considered area of the Priobskoye field, it should be noted that it is a deep-water depositional environment with a predominance of gravitational forces, namely, complex complexes of a large number of sand bodies cut into each other, randomly organized masses of landslide-landslide origin, a fan-shaped network of feeding channels. The morphology of sand bodies is wandering, that is, with general macrocyclicity, there is an active appearance / interruption of reservoirs, the field of geological characteristics is unsteady, resulting in extremely low predictability of the distribution of body geometry and filtration-capacitive properties. Under such conditions, one of the goals of geological modeling is to realize in the model vertical variability, connectivity, and taking into account the trends in the distribution of filtration-capacitive characteristics / filtration-capacitive properties (FES) inside the bodies.

When implementing the proposed method, structures were built up according to seismic and geophysical studies of the above wells, the interdependence of reservoir and reservoir characteristics of the formation and well logs was substantiated based on the aggregate of laboratory data from core surveys and geophysical well surveys, and through wavelet analysis, the shape of the log diagram in the interwell space was restored geological structure of the reservoir, including reservoir properties.

Next, hydrodynamic modeling was carried out, the reserves of the considered area were localized and the location of wells for drilling was justified.

As a result of using the proposed method, the input number of the studied wells increased by 22% compared with the prototype.

The application of the prototype method leads to large errors in the control of the development of highly dissected formations. This is explained by the impossibility of the prototype method to clearly establish the pattern of spatial distribution of locally developed sand bodies. At the same time, the application of the proposed method in the selected area significantly increased the reliability of the placement of production wells, as evidenced by the increase in the coincidence of the model (obtained by the present method) and the actual well logs to 80%, which is 25% more compared to the prototype. At the same time, the economic efficiency of the method for additionally extracted oil at the Priobskoye field is estimated at 73 million rubles / year.

The figure shows a comparison of the logs obtained in different ways, as well as the actual log chart in the drilled well: the left column is the prototype, the proposed method is in the center, and the actual log is on the right. It can be seen that the proposed method with higher reliability predicts the behavior of the logs and, accordingly, the structure of the reservoir, including the reservoir properties of the reservoir, in the undrilled region.

Thus, the proposed method allows a more reliable prototype to determine the reservoir properties of the reservoir and the relative position of the parts making up the reservoir in the interwell space of unexplored sections of the reservoir, it is more reliable to monitor the development, and, in particular, it is more reliable to place production wells.

Information sources

1. Baykov V.A., Bakirov N.K., Yakovlev A.A. New approaches to the issues of geological and hydrodynamic modeling. Oil industry, 2010, No. 9, p. 56-58.

Claims (1)

A method for monitoring reservoir development, including seismic surveys, geophysical well surveys, laboratory core studies, revealing the interdependence of reservoir and reservoir characteristics of the reservoir and well logs from a combination of laboratory research data, identifying the structure of seismic surveying and geophysical studies of wells formation, determination of reservoir properties and relative position parts of the reservoir based on common logs in the inter-well space of unexplored sections of the reservoir and the revealed interdependence of the reservoir and reservoir characteristics of the reservoir and logs, characterized in that the geophysical studies of wells are carried out in wells without additional restrictions on the magnitude of the well’s deviation from the vertical, possibly revealing the entire formation, and not necessarily over the entire interval of the formation, but the reservoir properties of the formation and the relative position of th layer is determined by a wavelet analysis of the change logs in crosshole space.

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