Well section method for viscous oil edge and bottom water reservoir multi-turn CO2 huff and puff based on water content

A technology of edge and bottom water reservoir and water cut, which is applied in the field of multiple rounds of CO2 huff and puff in heavy oil edge and bottom water reservoirs. And other issues

Active Publication Date: 2017-07-04
CHINA UNIV OF PETROLEUM (BEIJING)
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Problems solved by technology

On the one hand, relying on subjective experience to establish a judgment matrix is ​​greatly affected by human factors; on the other hand, the prerequisite for the use of conventional analysis methods is that there should not be too many influencing factors participating in the analysis, usually no more than 9
For heavy oil reservoirs with edge and bottom water, multiple rounds of CO 2 Due to the large number of influencing factors, the conventional analysis method is no longer applicable; and there are many continuous variables in the influen

Method used

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  • Well section method for viscous oil edge and bottom water reservoir multi-turn CO2 huff and puff based on water content
  • Well section method for viscous oil edge and bottom water reservoir multi-turn CO2 huff and puff based on water content
  • Well section method for viscous oil edge and bottom water reservoir multi-turn CO2 huff and puff based on water content

Examples

Experimental program
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Embodiment 1

[0124] This example provides a multi-round CO 2 Throughput well selection methods, such as figure 1 As shown, the method includes:

[0125] Step S11, calculating and correcting the weight of each factor based on the evaluation index of the water cut after the well opening;

[0126] Step S12, using the factor single ranking method provided to calculate the single ranking matrix;

[0127] Step S13, calculating the total ranking according to the weight of each factor and the factor single ranking matrix;

[0128] In step S14, the well selection basis is obtained according to the overall sorting result and the field reality.

[0129] This example provides a multi-round CO 2 Throughput well selection method. In this method, the evaluation index of water cut after huff and puff is used, and the weight correction of incomplete data is realized through the numerical split method; with the help of reservoir numerical simulation technology, the mathematical function of the continuo...

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Abstract

The invention provides a well section method for multi-turn CO2 huff and puff of a viscous oil edge and bottom water reservoir based on water content. The well selection method includes the following steps: computing and correcting respective factor weight with well opening water content after huff-puff as an evaluation index; using a single-factor sequencing method to acquire a single-sequence matrix; on the basis of respective corrected factor weight and the single-sequence matrix, acquiring an overall sequence; on the basis of the result of the overall sequence and in combination with the on-site reality, obtaining the evidence for well selection. According to the invention, the method herein can overcome man-made interference brought by incomprehensive on-site material and uncertainty of the result from the well selection caused by difficulty of representing continuation-type variant factors, has actual significance for well selection for multi-turn CO2 huff and puff of a viscous oil edge and bottom water reservoir, and is efficient, reasonable and scientific.

Description

technical field [0001] The present invention relates to a well selection method, in particular to a multi-cycle CO 2 The well selection method of huff and puff belongs to the technical field of petroleum exploitation. Background technique [0002] In the development process of heavy oil reservoirs with edge and bottom water, the water cut rises rapidly, and the degree of crude oil recovery is low. by CO 2 Huff and puff measures can reduce the viscosity of crude oil, inhibit the rise of water cut, and improve the ultimate recovery of oil reservoirs. Through production practice and numerical simulation research, it is found that the water cut of the well after huffing and puffing not only directly reflects the CO 2 The degree of water control after throughput has a greater impact on the final increase in throughput. Therefore, compared with the increase in oil production by huff and puff, the evaluation index of water cut after huff and puff can comprehensively reflect the...

Claims

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Application Information

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IPC IPC(8): G06Q10/06G06Q50/02
CPCG06Q10/0637G06Q50/02
Inventor 第五鹏祥周建刘同敬侯吉瑞刘睿王佳成杰侯刚刚杜山山
Owner CHINA UNIV OF PETROLEUM (BEIJING)
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