A polymer for oil recovery in high-temperature and high-salt reservoirs, its preparation method and application

A high-temperature, high-salt, polymer technology, applied in the direction of drilling compositions, chemical instruments and methods, etc., can solve the problems of weakened oil displacement effect, increase of chemical pump injection pressure, loss of oil displacement ability, etc.

Active Publication Date: 2022-04-01
华鼎鸿基采油技术服务(北京)有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, there are some insurmountable shortcomings in actual production and application: under high temperature conditions, the polymer will undergo obvious thermal degradation, lose its original stability, and the oil displacement effect will be greatly weakened; the high-salt environment is not conducive to the dissolution of the polymer and water With the prolongation of the aging time, the degree of hydrolysis of the polymer increases, and it is easy to precipitate under the action of high-valent metal ions such as calcium and magnesium, and loses the ability to displace oil. The field test research shows that the apparent viscosity of the polymer before and after being injected into the pump The decline rate of the chemical agent reaches about 15% to 35%. In addition, the polymer will be adsorbed and retained in the near-wellbore area, which will greatly increase the pumping pressure of the subsequent agent and increase the production cost.
[0004] In view of the limitations of the performance of existing industrialized polymers, which cannot meet the requirements of enhanced oil recovery in oil fields, it is urgent to modify existing polymers and introduce various functional monomers with different structures into the polymer main chain through copolymerization. Change the intra-molecular and intermolecular interactions, and develop a new type of polymer for oil recovery in high-temperature and high-salt reservoirs that has good viscosity-increasing performance, excellent temperature and salt resistance, and can be widely used in the field of oil production

Method used

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  • A polymer for oil recovery in high-temperature and high-salt reservoirs, its preparation method and application
  • A polymer for oil recovery in high-temperature and high-salt reservoirs, its preparation method and application
  • A polymer for oil recovery in high-temperature and high-salt reservoirs, its preparation method and application

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preparation example Construction

[0059] The present invention also provides a method for preparing the above-mentioned polymer for oil recovery in high-temperature and high-salt reservoirs, comprising: S1) substituting organic carboxylic acid monomers containing acrylimide groups, acrylamide monomers, and N-alkyl groups Acrylamide sulfonic acid monomer and polyol monomer containing vinylaniline group, stabilizer, chain transfer agent and co-solvent are mixed in water, and after oxygen removal treatment, an initiator is added to carry out polymerization reaction to obtain a rubber block; S2 ) hydrolyzing the rubber blocks to obtain polymers for oil recovery in high-temperature and high-salt oil reservoirs.

[0060] The polymer provided by the invention has low initial viscosity, good pumping performance, excellent temperature resistance and salt resistance, good compatibility with surfactants, and the interfacial tension of the formed poly-surface binary composite system can still reach an ultra-low interface a...

Embodiment 1

[0087] 1.1 Use 210 parts of concentrations of 2.35% sodium lauryl sulfate aqueous solution to solubilize 15 parts of N-alkyl substituted acrylamide sulfonic acid monomer (alkyl carbon number is 12) shown in formula (2), stir to make It dispersed uniformly to obtain solution A.

[0088] 1.2 Add 67 parts of acrylamide and the organic carboxylic acid monomer containing acrylimide group shown in formula (1) (m=2) to the polymerization bottle equipped with stirring, thermometer, condenser and nitrogen pipe successively for 20 14 parts, 14 parts of vinylaniline-containing polyol (n=3) monomers shown in formula (3), 440 parts of deionized water, stirred until completely dissolved, and the container was placed in ice water to obtain solution B.

[0089] 1.3 After adjusting the pH value of solution B to 6.8 with aqueous sodium hydroxide solution, add the solution A obtained in 1.1, 0.07 parts of disodium edetate, 0.005 parts of sodium formate, and sodium methacrylsulfonate to the polym...

Embodiment 2

[0094] 2.1 11 parts of N-alkyl substituted acrylamide sulfonic acid monomer (alkyl carbon number is 12) shown in 2.15% sodium lauryl sulfate aqueous solubilization formula (2) with the concentration of 195 parts, stirred Make it uniformly dispersed to obtain solution A.

[0095] 2.2 Add 75 parts of acrylamide and the organic carboxylic acid monomer (m=4) represented by the formula (1) to the polymerization bottle equipped with stirring, thermometer, condenser and nitrogen pipe successively 18 16 parts, 16 parts of vinylaniline-containing polyol (n=2) monomers shown in formula (3), 510 parts of deionized water, stirred until completely dissolved, and the container was placed in ice water to obtain solution B.

[0096] 2.3 After adjusting the pH value of solution B to 7.7 with aqueous sodium hydroxide solution, add the solution A obtained in 2.1, 0.07 parts of disodium edetate, 0.005 parts of sodium formate, and sodium methacrylsulfonate to the polymerization bottle in sequence....

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Abstract

The invention provides a polymer for oil recovery of high-temperature and high-salt oil reservoirs, a preparation method and application thereof. The polymer for oil recovery of high-temperature and high-salt reservoirs includes the following raw material components: organic carboxylic acid monomers containing acrylimide groups, acrylamide monomers, N-alkyl substituted acrylamide sulfonic acid monomers, ethylene-containing Aniline-based polyol monomers. The polymer provided by the invention has low initial viscosity, good pumping performance, excellent temperature resistance and salt resistance, good compatibility with surfactants, and the interfacial tension of the formed poly-surface binary composite system can still reach an ultra-low interface after 3 months Tension 10 ‑3 mN / m; act on high temperature (86~120℃) or high salt (>40000mg L ‑1 , Ca 2+ , Mg 2+ >2000mg·L ‑1 ) reservoirs, the effective stability period is long and the oil displacement effect is good, which can significantly improve the development status of oilfields and provide an effective solution for further improving the recovery of high-temperature and high-salt reservoirs.

Description

technical field [0001] The invention belongs to the technical field of oil exploitation, and in particular relates to a polymer for oil recovery in high-temperature and high-salt oil reservoirs, a preparation method and application thereof. Background technique [0002] With the in-depth exploration and development of major domestic oil fields, the difficulty of mining has gradually increased, and most of them have entered the stage of high water-cut mining. In order to tap the residual oil and residual oil in the reservoir more efficiently, the polymer flooding tertiary oil recovery technology came into being. Field tests and industrial promotion and application have been carried out in Daqing, Dagang, Henan, Shengli, Xinjiang and other oilfields successively. Significant economic benefits have been achieved. [0003] Polymer flooding mainly increases the viscosity of the injected formation fluid, changes the oil-water mobility ratio, forces the subsequent liquid flow to c...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C08F220/56C08F220/52C08F212/14C08F220/58C09K8/588
CPCC08F220/56C09K8/588C08F220/52C08F212/28C08F220/585
Inventor 张宁杨雪郭晓光卢琼刘阳隋新光赵新贾世华徐典平王屹岭
Owner 华鼎鸿基采油技术服务(北京)有限公司
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