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Microbial enhanced oil recovering method of moderate-high permeability reservoir

A medium-high permeability, functional microorganism technology, applied in biochemical equipment and methods, microbial determination/inspection, chemical instruments and methods, etc., can solve problems such as poor targeting, poor operability, and unfavorable microbial oil displacement , to achieve the effect of improving accuracy and practicability, strong pertinence and operability, and improving the effect of on-site implementation

Active Publication Date: 2015-03-25
CHINA PETROLEUM & CHEM CORP +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the disadvantages of this method are: (1) Due to the low permeability and porosity of the low-permeability reservoir itself, the use of microorganisms that produce larger particle sizes and are not easy to degrade biopolymers will easily cause the pores to be completely blocked and the reservoir permeability to be significantly reduced. (2) The fermented liquid of two types of functional bacteria is injected into the oil reservoir at a certain volume ratio at the same time. Since it takes a certain time for microbial metabolism to produce biopolymers, the metabolite biopolymers have not had time to In the case of effective plugging and adjustment of the reservoir, the microorganisms producing biosurfactant have already migrated to the deep part of the reservoir or have been produced together with the injected water, and the two types of functional bacteria have not achieved effective synergy, so in a certain (3) Since microbial growth and metabolism are limited by reservoir conditions such as reservoir temperature, pressure, and salinity, the application range of exogenous functional microbial flooding reservoirs adopted by this method is small; (4 ) does not inject different amounts or proportions of functional microorganisms according to the characteristics of the reservoir, so this method is not targeted, general and operable

Method used

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  • Microbial enhanced oil recovering method of moderate-high permeability reservoir
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  • Microbial enhanced oil recovering method of moderate-high permeability reservoir

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0047] A block M in Shengli Oilfield is a high-salinity, medium-to-high-viscosity unconsolidated sandstone reservoir, with a burial depth of 1173m-1230m, a reservoir temperature of 60°C, a reservoir pressure of 12MPa, a porosity of 31.0%, and a pore volume of 45×10 4 m 3 , the permeability is 950×10 -3 μm 2 , the formation water salinity is 12560mg / L. Implementing the concrete implementation steps of the present invention in this block is:

[0048] (1) On-site sampling of test reservoirs

[0049] Select one oil and water well in the test reservoir, use a sealable aseptic sampler with a volume of 2L, collect the output oil and water samples at the wellhead of the oil well, and collect the injected water and water samples at the wellhead of the water injection well, and separate the oil and water after the sampling Get a water sample.

[0050] (2) Analysis of functional microorganisms in oil reservoirs

[0051] Use fluorescent quantitative PCR to detect the number of polys...

Embodiment 2

[0090] A block N in Shengli Oilfield is a high-salinity, medium-to-high-viscosity unconsolidated sandstone reservoir, with a burial depth of 1565m-1590m, a reservoir temperature of 65°C, a reservoir pressure of 11.2MPa, a porosity of 33.20%, and a pore volume of 65×10 4 m 3 , the permeability is 1200×10 -3 μm 2 , the formation water salinity is 9600mg / L. Implementing the concrete implementation steps of the present invention in this block is:

[0091] (1) On-site sampling of test reservoirs

[0092] Select one oil and water well in the test reservoir, use a sealable aseptic sampler with a volume of 3L, collect the output oil and water samples at the wellhead of the oil well, collect the injected water and water samples at the wellhead of the water injection well, and separate the oil and water after the sampling Get a water sample.

[0093] (2) Analysis of functional microorganisms in oil reservoirs

[0094] Use fluorescent quantitative PCR to detect the number of polysa...

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Abstract

The invention discloses a microbial enhanced oil recovering method of a moderate-high permeability reservoir. The method particularly comprises the following steps of carrying out field sampling on a tested oil reservoir; analyzing function microorganisms in the oil reservoir and screening an endogenesis activator; screening exogenous function microorganisms; optimizing field injection process parameters; carrying out field implementation and effect tracking and evaluating. The microbial enhanced oil recovering method has the advantages of being wide in oil reservoir range and high in pertinence and operability. The endogenesis activator or the exogenous function microorganisms are selected according to the specific oil reservoir, field injection process parameters are optimized by utilizing physical simulation experiments, the field test effect is obvious, and the accuracy and practically of the process parameter optimizing result are improved by combination physical simulation and field tests, so that the field implementation effect of displacement of reservoir oil through the microorganisms is improved. Therefore, the microbial enhanced oil recovering method of the medium-high permeability oil reservoir can be widely applied to the field tests for enhancing the oil recovery of the medium-high permeability oil reservoir.

Description

technical field [0001] The invention belongs to the technical field of tertiary oil recovery, and in particular relates to a method for microbial oil recovery of medium and high permeability oil reservoirs. Background technique [0002] With the rapid development of my country's economy, the demand for oil is increasing day by day, and the shortage of oil is becoming more and more serious. At present, the recovery of crude oil in my country is less than 40%, and the remaining recoverable oil reserves are huge, especially in medium and high permeability oil reservoirs. According to statistics, medium and high permeability reservoir resources account for more than 60% of the total resources. After long-term water flooding development, medium and high permeability reservoirs have reached the middle and late stages of the high water cut period, and the production decline is serious, and it is difficult to stabilize production. Therefore, new improvements are urgently needed. Techn...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E21B43/22E21B49/08G01N21/64C12Q1/68C12Q1/06
CPCC09K8/582C12Q1/06E21B43/16E21B49/08
Inventor 曹功泽刘涛汪刚跃赵凤敏巴燕徐登霆吴晓玲袁长忠高光军张守献
Owner CHINA PETROLEUM & CHEM CORP
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