CN105566541B - A kind of polymer and its application - Google Patents

A kind of polymer and its application Download PDF

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CN105566541B
CN105566541B CN201410541708.8A CN201410541708A CN105566541B CN 105566541 B CN105566541 B CN 105566541B CN 201410541708 A CN201410541708 A CN 201410541708A CN 105566541 B CN105566541 B CN 105566541B
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initiator
polymer
azo
polymer according
hydrochloride
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CN105566541A (en
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祝纶宇
刘希
方昭
伊卓
林蔚然
张文龙
杜超
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Sinopec Beijing Research Institute of Chemical Industry
China Petroleum and Chemical Corp
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Sinopec Beijing Research Institute of Chemical Industry
China Petroleum and Chemical Corp
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Abstract

The invention discloses a kind of polymer and its application, the polymer is prepared by the following method:In the presence of solvent, in the presence of initiator, the monomer containing acrylamide is subjected to polymerisation, the initiator contains the first initiator and the second initiator, and first initiator is azo-initiator, shown in second initiator such as formula (1), wherein, R1For H or C1‑C5Straight or branched alkyl, n be 26 integer.Compared with using only the polyacrylamide of azo-initiator and/or redox initiator, polymer of the invention not only has higher molecular weight, and has higher apparent viscosity and Heat Aging Viscosity retention rate, has higher stability as oil displacement agent.

Description

A kind of polymer and its application
Technical field
The present invention relates to a kind of polymer, and application of the polymer as oil displacement agent.
Background technology
Polymer flooding is mainly the polymer solution by injecting certain scale, increases displacement fluid viscosity, reduces oil-reservoir water Phase permeability come reduce mobility ratio, adjustment intake profile, with reach improve displacement phase volume purpose, and then improve recovery ratio.
Polyacrylamide (PAM) is the wide variety of chemical agent for intensified oil production in oil field.It is presently used for acrylamide polymerization Conventional initiator mainly has azo-initiator, such as azo-bis-isobutyrate hydrochloride (being abbreviated as AIBA, alias V50), azo Two isobutyl imidazoline hydrochlorides (being abbreviated as AIBI, alias VA-044);And redox initiation system, such as ammonium persulfate- Sodium hydrogen sulfite system etc..When these initiator amounts are smaller, the reaction speed of monomer polymerization is slow, simultaneously because polymerization is not filled Point, partial monosomy residual can be made in the polymer;When initiator amount is higher, excessive initiator easily remains in polymer In solution, it will influence the stability (such as heatproof, resistance to ag(e)ing) of polymer oil-displacing agent.
The molecular weight of polymer is the important factor in order of oil displacement efficiency, and the molecular weight of general polymerization thing is more high more easily to be obtained Obtain higher oil displacement efficiency.Above-mentioned initiator is single functionality initiator, compared with the initiator of bifunctionality, its polymerization efficiency It is low, it is not easy to prepare the polymer of HMW.
JP2002086603A discloses a kind of bifunctionality Redox Initiator body for polymerization of aqueous solution of acrylamide System, but the oxidant of the initiation system is insoluble in water, and trigger activity not high.Reducing agent corresponding to it is Fe2+, it is raw after initiation Into Fe3+Inhibition can be produced to polymerization system, so as to which the product degree of polymerization in PAM polymerization later stages and the stabilization of product can be influenceed Property.
With the raising that oil field is required oil displacement agent cost performance, PAM molecular weight how is further improved and its as drive The stability of finish turns into the study hotspot of industry.
The content of the invention
It is an object of the invention to solve the drawbacks described above of prior art, so as to provide a kind of polymer, and the polymerization Application of the thing as oil displacement agent.
The invention provides a kind of polymer, the polymer is prepared by the following method:
In the presence of solvent, in the presence of initiator, the monomer containing acrylamide is subjected to polymerisation, the initiation Agent contains the first initiator and the second initiator, and first initiator is azo-initiator, the second initiator such as formula (1) shown in:
Formula (1),
Wherein, two R1It is identical or different, it is each independently H or C1-C5Straight or branched alkyl, n be 2-6 it is whole Number.
Present invention also offers application of the above-mentioned polymer as oil displacement agent.
The polymer of the present invention is drawn jointly by the bifunctional initiator with specific structure and azo-initiator Send out made of the monomer containing acrylamide, with the polyacrylamide using only azo-initiator and/or redox initiator Amine is compared, and polymer of the invention not only has higher molecular weight, and is protected with higher apparent viscosity and Heat Aging Viscosity Rate is stayed, there is higher stability as oil displacement agent.
Other features and advantages of the present invention will be described in detail in subsequent specific embodiment part.
Embodiment
The embodiment of the present invention is described in detail below.It is it should be appreciated that described herein specific Embodiment is merely to illustrate and explain the present invention, and is not intended to limit the invention.
The invention provides a kind of polymer, the polymer is prepared by the following method:
In the presence of solvent, in the presence of initiator, the monomer containing acrylamide is subjected to polymerisation, wherein, institute State initiator and contain the first initiator and the second initiator, first initiator is azo-initiator, and described second triggers Shown in agent such as formula (1):
Wherein, two R1It is identical or different, it is each independently H or C1-C5Straight or branched alkyl, n be 2-6 it is whole Number.
In the present invention, the C1-C5The example of straight or branched alkyl include but is not limited to:Methyl, ethyl, n-propyl, Isopropyl, normal-butyl, sec-butyl, isobutyl group, the tert-butyl group, n-pentyl, isopentyl, tertiary pentyl and neopentyl.
In formula (1), the group R on phenyl ring1The ortho positions of carbonyl group-containing groups can be connected to, in meta or para position.It is excellent Select group R1It is connected in the contraposition of carbonyl group-containing groups, i.e. shown in second initiator such as formula (2):
Preferably, in second initiator, two R1 are H.
In the present invention, second initiator can be by preparing.Specifically, the side of second initiator is prepared Method can include:In the presence of an inert solvent, at least one compound A and compound B is made to carry out condensation reaction to remove HX;Its In, shown in the compound A such as formulas (3), shown in the compound B such as formulas (4),
Wherein, R1' it is H or C1-C5Straight or branched alkyl, X is halogen, and such as chlorine, bromine or iodine, n ' is 2-6 integer. The C1-C5Straight or branched alkyl it is same as described above, will not be repeated here.
In formula (3), the group R on phenyl ring1' ortho positions of carbonyl group-containing groups can be connected to, in meta or para position.From raising The angle of the second initiator yield is set out, preferred group R1' be connected in the contraposition of carbonyl group-containing groups, i.e. the chemical combination Shown in thing A such as formulas (5):
It is highly preferred that in formula (5), R1' it is H, X is bromine, i.e. the compound A is alpha-brominated acetophenone.
The instantiation of the compound B includes but is not limited to:Triethylene tetramine, pentaethylene hexamine, the amine of six ethene seven.
According to the preparation method of second initiator, the compound A and compound B dosage can be condensation reaction Middle conventional selection, usually, the compound A and the mol ratio of compound B dosages can be 1.5-3:1.
According to the preparation method of second initiator, the atent solvent can be conventional use of each in condensation reaction Kind solvent.The atent solvent is as reaction medium, there is provided reacting environment, as long as therefore the compound A and change can be dissolved Compound B, such as can be at least one of ethanol, acetone, benzene,toluene,xylene, chloroform and hexamethylene.It is described lazy Property solvent dosage can be selected according to the dosage of reactant (compound A and compound B), the usual atent solvent with The mass ratio of the total dosage of reactant can be 0.5-5:1.
In the preparation process of second initiator, preferably described reaction is carried out in the presence of base catalyst.The alkali Catalyst can be selected from sodium hydroxide, sodium carbonate, potassium carbonate, barium hydroxide, calcium hydroxide, sodium alkoxide and aluminium alcoholates.Usually, it is described Base catalyst and the mol ratio of the compound A dosages can be 0.5-0.8:1.
Preferably, compound A is added drop-wise in compound B and reacted, so that the compound A and compound B Fully reaction.The reaction is carried out under agitation, and the temperature of the reaction can be 0-20 DEG C, and the time of the reaction can be 1-5 hours.Wherein, when compound A is added drop-wise to reacted in compound B when, time of the reaction refer to compound A from Start to be added drop-wise to the time at the end of reacting.
According to the preparation method of second initiator, in order to improve the purity of second initiator, preferably described side Method also includes:The reacted reaction systems of compound A and compound B are purified.The detailed process of the purification is ability The conventional selection in domain, will not be repeated here.
The conventional selection that the azo-initiator used in the polymer of the present invention can be this area is prepared, typically Azodiisobutyronitrile, 2,2 '-azo group-bis- (2- amidine propanes) (ABAP), azo-bis-isobutyrate hydrochloride (V50) can be selected from At least one of with the isobutyl imidazoline hydrochloride (VA-044) of azo two.
Contain hydrophilic radical amino in the structure of second initiator, be the photoinitiator of water-soluble bifunctionality. In order to further improve the molecular weight of the polymer, preferably described polymerisation is carried out under the conditions of ultraviolet radioactive, described molten Agent is water.The temperature of the polymerisation can be 0-30 DEG C.
Under above-mentioned preferable case, more preferably described first initiator is azo-bis-isobutyrate hydrochloride and/or azo two Isobutyl imidazoline hydrochloride.
According to the polymer of the present invention, the mass ratio of first initiator and second initiator amount can be 1: 1-20, preferably 1:3-15.
In the present invention, the dosage of the initiator can be selected according to the dosage of monomer, usually, the initiator Mass ratio with the monomer dosage containing acrylamide can be 1:100-1.0×105, preferably 1:1.0×103-1.0 ×105
In the present invention, the wavelength of the ultraviolet light of preferably described ultraviolet radiation is 300-400nm, so can further be carried Stability of the high polymer as oil displacement agent.In the case of excellent herein, the time of the polymerisation can be 1-5 hours.
According to the polymer of the present invention, it is not particularly limited for the amount of the water as solvent, can is the normal of this area Advise dosage.Under preferable case, on the basis of the acrylamide of 100 parts by weight, the amount of water is 100-2000 parts by weight.In the amount of water When within above range, hot-spot can be further avoided, so as to be easier to prevent polymerization system heating too fast.It is more excellent Selection of land, on the basis of 100 parts by weight propylene acid amides, the amount of water is 200-1000 parts by weight.
The polymerisation can be carried out in the presence of an inert gas.The inert gas is not occur with raw material and product The gas of reaction, such as can be at least one in group 0 element gas in this area conventional nitrogen or the periodic table of elements Kind, preferably nitrogen.
The polymerisation can also be carried out in the presence of chelating agent, so that the polymer of the present invention is made.The chelating agent Preferably disodium ethylene diamine tetraacetate (EDTA-2Na), triethylenediamine pentaacetic acid, citric acid, citrate and poly- hydroxy acrylic acid At least one of, more preferably EDTA-2Na and/or citrate, the citrate for example can be citric acid Potassium, sodium citrate, calcium citrate and ammonium citrate etc..It is described on the basis of the integral molar quantity containing acrylamide monomer The dosage of chelating agent can be 0-1 moles of %, preferably 0.001-0.05 moles of %.
In the present invention, according to the use condition of the polymer, the polymer can pass through the equal of acrylamide monomer It is poly- to be made, it can also be made by acrylamide and the combined polymerization of other monomers (such as acrylic acid).It is preferred that the polymer passes through The homopolymerization of acryloyl monomer is made, i.e. the monomer containing acrylamide is acrylamide, so can further improve institute State stability of the polymer as oil displacement agent.
In order to which the polymer as oil displacement agent is made, the preparation process of the polymer can also include will be described poly- Close the polyacrylamide that reaction obtains to be granulated, be then hydrolyzed and dry.
In the present invention, the condition of the hydrolysis is not particularly limited, and the condition of the hydrolysis can include:Temperature is 50-110 DEG C, preferably 70-90 DEG C;Time is 0.5-4 hours, preferably 1-2 hours;The hydrolysis causes institute after polymerisation The degree of hydrolysis for obtaining polyacrylamide can be 10-30%, so as to which the polymer of the present invention be made.
Those skilled in the art could be aware that the process of hydrolysis includes contacting hydrolytic reagent with polyacrylamide. By hydrolysis, some acrylamide construction unit is transformed into acrylates construction unit.
In the present invention, the degree of hydrolysis refers in polyacrylamide, and the molal quantity of acrylates construction unit accounts for this The percentage of the construction unit total mole number of the polyacrylamide of invention.The degree of hydrolysis by hydrolytic reagent of the present invention dosage It is determined that.
In the present invention, the hydrolytic reagent is the various inorganic alkaline chemical combination that can realize above-mentioned purpose commonly used in the art Thing, can be selected from the one or more in sodium hydroxide, potassium hydroxide and sodium carbonate.The dosage of the hydrolytic reagent can be according to poly- The hydrolysis degree of acrylamide carries out appropriate selection, so that the hydrolysis degree of polyacrylamide meets that requirement is defined, i.e. Inorganic alkaline compound dosage make it that the degree of hydrolysis of polyacrylamide is 10-30%.
In the present invention, the molal quantity of the inorganic alkaline compound dosage is equal to mole of acrylates construction unit Number.
Present invention also offers application of the above-mentioned polymer as oil displacement agent.The polymer of the present invention can be used as oil displacement agent Use, with it is traditional with polyacrylamide made from azo and/or redox system compared with, with the present invention polymer make There is higher molecular weight and Heat Aging Viscosity retention rate for oil displacement agent.
The present invention will be described in detail by way of examples below.
In following preparation example and embodiment, alpha-brominated acetophenone is purchased from aldrich chemical Reagent Company, acrylamide monomer Purchased from Shandong Polymer Bio-Chemicals Co., Ltd..
The performance test of product is carried out using following methods:
1st, the method according to specified in the People's Republic of China (PRC) oil and gas industry standard SY/T5862-2008 determines Solid content, dissolution time, filtration ratio, AM residual monomer contents and the intrinsic viscosity of polymer.
2nd, polymer viscosity average molecular weigh method according to specified in SY/T5862-2008, using formula M=([η]/ 0.000373)1.515To calculate, wherein, M is viscosity average molecular weigh, and [η] is intrinsic viscosity.
3rd, the apparent viscosity of polymer solution is that polymer is made into 1500mg/L's with salinity 32000mg/L salt solution Solution, with Brookfield viscosimeters at 85 DEG C, 7.34s-1Under the conditions of determine before aging and 60 days post-consumer polymer solution of aging Apparent viscosity.
The apparent of the apparent viscosity of polymer solution after apparent viscosity retention rate=aging/aging prepolymer solution is glued Degree × 100%.
Preparation example 1
This preparation example is used to illustrate second initiator of the present invention and preparation method thereof.
11.9 grams of (0.06 mole) alpha-brominated acetophenones are dissolved in 100mL absolute ethyl alcohols, ice-water bath stirring is lower to add 5 grams Potassium carbonate, 7 grams of (0.03 mole) pentaethylene hexamines (being purchased from aldrich chemical Reagent Company) are added dropwise, are added dropwise within 10 minutes, then Stirring reaction 2 hours, filter out bromide precipitation.Filtrate is removed into ethanol with rotary evaporator at 25 DEG C, and recrystallizes three Time, obtain the bifunctional initiator shown in 10.2 grams of formulas (6):
Preparation example 2
This preparation example is used to illustrate second initiator of the present invention and preparation method thereof.
11.9 grams of (0.06 mole) alpha-brominated acetophenones are dissolved in 100mL absolute ethyl alcohols, ice-water bath stirring is lower to add 5 grams Potassium carbonate, 4.38 grams of (0.03 mole) triethylene tetramines (being purchased from aldrich chemical Reagent Company) are added dropwise, drip within 10 minutes Finish, be stirred for reaction 2 hours, filter out bromide precipitation.Filtrate at 25 DEG C is removed into ethanol with rotary evaporator, knot of laying equal stress on It is brilliant three times, obtain the bifunctional initiator shown in formula (7):
Preparation example 3
This preparation example is used to illustrate second initiator of the present invention and preparation method thereof.
11.9 grams of (0.06 mole) alpha-brominated acetophenones are dissolved in 100mL absolute ethyl alcohols, ice-water bath stirring is lower to add 5 grams Potassium carbonate, 8.25 grams of amine of (0.03 mole) six ethene seven (being purchased from aldrich chemical Reagent Company) are added dropwise, drip within 15 minutes Finish, be stirred for reaction 2 hours, filter out bromide precipitation.Filtrate at 25 DEG C is removed into ethanol with rotary evaporator, knot of laying equal stress on It is brilliant three times, obtain the bifunctional initiator shown in formula (8):
Embodiment 1
The present embodiment is used to illustrate polymer of the present invention and preparation method thereof.
800 grams of deionized waters are added in 2000mL beakers, 200 grams of acrylamide monomers of addition under stirring, 0.1 gram EDTA-2Na salt, the bifunctional initiator and 0.02 gram of azo-initiator V50 of 0.1 gram of preparation example 1, logical nitrogen removes at 10 DEG C Oxygen 30 minutes, flask is then moved into ultraviolet irradiation case and irradiated 2 hours, a length of 350nm of ultraviolet light wave, reaction temperature is 10 DEG C. Obtained polyacrylamide blob of viscose is granulated, then by degree of hydrolysis 20%, by obtained polyacrylamide gel particles and respective amount Sodium hydroxide grain alkali mediates contact, is hydrolyzed 0.5 hour at 90 DEG C of temperature, after secondary granulation, is dried, passes through grinding screen Get 20-80 purpose polymers P1.P1 property is as shown in table 1.
Embodiment 2
The present embodiment is used to illustrate polymer of the present invention and preparation method thereof.
800 grams of deionized waters are added in 2000mL beakers, 200 grams of acrylamide monomers of addition under stirring, 0.1 gram EDTA-2Na salt, the bifunctional initiator and 0.01 gram of azo-initiator VA-044 of 0.15 gram of preparation example 2, lead at 25 DEG C Nitrogen deoxygenation 30 minutes, flask is then moved into ultraviolet irradiation case and irradiated 4 hours, a length of 320nm's of ultraviolet light wave, reaction temperature is 25℃.Obtained polyacrylamide blob of viscose is granulated, then by degree of hydrolysis 20%, by obtained polyacrylamide gel particles and accordingly The sodium hydroxide grain alkali of amount mediates contact, is hydrolyzed 0.5 hour at 90 DEG C of temperature, after secondary granulation, is dried, passes through powder Broken screening obtains 20-80 purpose polymers P2.P2 property is as shown in table 1.
Embodiment 3
The present embodiment is used to illustrate polymer of the present invention and preparation method thereof.
750 grams of deionized waters are added in 2000mL beakers, 250 grams of acrylamide monomers of addition under stirring, 0.05 gram EDTA-2Na salt, the bifunctional initiator and 0.01 gram of azo-initiator VA-044 of 0.12 gram of preparation example 3, lead at 0 DEG C Nitrogen deoxygenation 30 minutes, flask is then moved into ultraviolet irradiation case and irradiated 3 hours, a length of 380nm of ultraviolet light wave, reaction temperature 0 ℃.Obtained polyacrylamide blob of viscose is granulated, then by degree of hydrolysis 20%, by obtained polyacrylamide gel particles and respective amount Sodium hydroxide grain alkali mediate contact, hydrolyzed 0.5 hour at 90 DEG C of temperature, after secondary granulation, be dried, pass through crushing Screening obtains 20-80 purpose polymers P3.P3 property is as shown in table 1.
Embodiment 4
The present embodiment is used to illustrate polymer of the present invention and preparation method thereof.
Polymer is prepared using method same as Example 1, except that, triggered using the azo of phase homogenous quantities Agent 2,2 '-azo group-bis- (2- amidine propanes) (ABAP) replace the V50 in embodiment 1, so as to which polymer P 4 be made.P4 property Matter is as shown in table 1.
Embodiment 5
The present embodiment is used to illustrate polymer of the present invention and preparation method thereof.
Polymer is prepared using method same as Example 1, except that, by azo-initiator V50 dosage 0.1 gram is brought up to, so as to which polymer P 5 be made.P5 property is as shown in table 1.
Embodiment 6
The present embodiment is used to illustrate polymer of the present invention and preparation method thereof.
Polymer is prepared using method same as Example 1, except that, by azo-initiator V50 dosage 0.006 gram is reduced to, so as to which polymer P 6 be made.P6 property is as shown in table 1.
Comparative example 1
Polymer is prepared using method same as Example 1, except that, the bifunctionality of preparation example 1 is triggered Agent is replaced with the azo-initiator V50 of phase homogenous quantities, i.e. V50 is used only in initiator, so as to which polymer DP1 be made.DP1's Property is as shown in table 1.
Comparative example 2
Polymer is prepared using method same as Example 1, except that, by the azo-initiator of preparation example 1 V50 is replaced with the bifunctional initiator of the preparation example 1 of phase homogenous quantities, i.e. the bifunctionality that preparation example 1 is used only in initiator is drawn Agent is sent out, so as to which polymer DP2 be made.DP2 property is as shown in table 1.
Comparative example 3
750 grams of deionized waters are added in 2000mL beakers, 250 grams of acrylamide monomers of addition under stirring, 0.1 gram EDTA-2Na salt.Monomer solution is transferred in polymerization bottle, letting nitrogen in and deoxidizing 30 minutes at 25 DEG C, adds 0.1 gram of bisulfite Sodium and 0.1 gram of ammonium persulfate, continue logical nitrogen until thermocouple starts to warm up in polymerization bottle, 4 hours reaction time.Colloid is taken Go out, be granulated.It is hydrolyzed, after secondary granulation, is dried, by crushing and screening using method same as Example 1 To 20-80 purpose polymers DP3.DP3 property is as shown in table 1.
Comparative example 4
800 grams of deionized waters are added in 2000mL beakers, 200 grams of acrylamide monomers of addition under stirring, 0.05 gram EDTA-2Na salt.Monomer solution is transferred in polymerization bottle, adds 0.01 gram of azo-initiator V50, nitrogen is led at 25 DEG C and is removed Oxygen 30 minutes, 0.15 gram of sodium hydrogensulfite and 0.1 gram of ammonium persulfate are added, continue logical nitrogen until thermocouple starts in polymerization bottle Heating, 3 hours reaction time.Colloid is taken out, is granulated.It is hydrolyzed using method same as Example 1, through secondary granulation Afterwards, it is dried, by crushing and screening to obtain 20-80 purpose polymers DP4.DP4 property is as shown in table 1.
Table 1
Understand that compared with comparative example 1-4, embodiment 1-6 polymer has higher viscous equal molecule with reference to the data of table 1 Amount, apparent viscosity and apparent viscosity retention rate.Illustrate to trigger acrylamide jointly by bifunctional initiator and azo-initiator Obtained polymer of the invention is used with molecular weight and the characteristics of high stability as oil displacement agent.
The preferred embodiment of the present invention described in detail above, still, the present invention are not limited in above-mentioned embodiment Detail, in the range of the technology design of the present invention, a variety of simple variants can be carried out to technical scheme, this A little simple variants belong to protection scope of the present invention.
It is further to note that each particular technique feature described in above-mentioned embodiment, in not lance In the case of shield, can be combined by any suitable means, in order to avoid unnecessary repetition, the present invention to it is various can The combination of energy no longer separately illustrates.
In addition, various embodiments of the present invention can be combined randomly, as long as it is without prejudice to originally The thought of invention, it should equally be considered as content disclosed in this invention.

Claims (21)

1. a kind of polymer, the polymer is prepared by the following method:
In the presence of solvent, in the presence of initiator, the monomer containing acrylamide is subjected to polymerisation, it is characterised in that The initiator contains the first initiator and the second initiator, and first initiator is azo-initiator, and described second draws Send out shown in agent such as formula (1):
Wherein, two R1It is identical or different, it is each independently H or C1-C5Straight or branched alkyl, n be 2-6 integer.
2. polymer according to claim 1, wherein, shown in second initiator such as formula (2):
3. polymer according to claim 1 or 2, wherein, two R1It is H.
4. polymer according to claim 1, wherein, the polymerisation is carried out under the conditions of ultraviolet radiation, described Solvent is water.
5. polymer according to claim 4, wherein, the wavelength of the ultraviolet light of the ultraviolet radiation is 300-400nm, The time of the polymerisation is 1-5 hours.
6. according to the polymer described in any one in claim 1,2,4 and 5, wherein, first initiator and described the The mass ratio of two initiator amounts is 1:1-20.
7. polymer according to claim 3, wherein, the quality of first initiator and second initiator amount Than for 1:1-20.
8. polymer according to claim 6, wherein, the quality of first initiator and second initiator amount Than for 1:3-15.
9. polymer according to claim 7, wherein, the quality of first initiator and second initiator amount Than for 1:3-15.
10. according to the polymer described in any one in claim 1,2,4 and 5, wherein, the initiator contains third with described The mass ratio of the monomer dosage of acrylamide is 1:100-1.0×105
11. polymer according to claim 3, wherein, the initiator and the monomer dosage containing acrylamide Mass ratio be 1:100-1.0×105
12. polymer according to claim 6, wherein, the initiator and the monomer dosage containing acrylamide Mass ratio be 1:100-1.0×105
13. polymer according to claim 7, wherein, the initiator and the monomer dosage containing acrylamide Mass ratio be 1:100-1.0×105
14. according to the polymer described in any one in claim 1,2,4 and 5, wherein, first initiator is azo two NSC 18620 hydrochloride and/or the isobutyl imidazoline hydrochloride of azo two.
15. polymer according to claim 3, wherein, first initiator be azo-bis-isobutyrate hydrochloride and/or The isobutyl imidazoline hydrochloride of azo two.
16. polymer according to claim 6, wherein, first initiator be azo-bis-isobutyrate hydrochloride and/or The isobutyl imidazoline hydrochloride of azo two.
17. polymer according to claim 7, wherein, first initiator be azo-bis-isobutyrate hydrochloride and/or The isobutyl imidazoline hydrochloride of azo two.
18. polymer according to claim 1, wherein, methods described also includes, poly- third that the polymerisation is obtained Acrylamide is hydrolyzed and dried.
19. polymer according to claim 18, wherein, the condition of the hydrolysis includes:Temperature is 50-110 DEG C, the time Make it that the degree of hydrolysis of the polyacrylamide is 10-30% for the condition of 0.5-4 hours, and the hydrolysis.
20. polymer according to claim 18, wherein, the condition of the hydrolysis includes:Temperature is 70-90 DEG C, the time For 1-2 hours.
21. application of the polymer as oil displacement agent in claim 1-20 described in any one.
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