CN109456744A - A kind of nanometer wetting agent and its preparation method and application based on nonionic surfactant modification - Google Patents

Abstract

The invention discloses a kind of nanometer wetting agents and its preparation method and application based on nonionic surfactant modification.This nanometer of wetting agent is the nano silica aggregate for being grafted with nonionic surfactant, and the nano silica aggregate is coupling agent modified nano silica aggregate.The described method includes: preparing coupling agent modified nanometer aggregate；Link surfactant；Separating-purifying.Nanometer wetting agent of the invention is the link by surfactant in the nanometer aggregate surface of coupling modifier, make its dilute aqueous solution that there is the ability for improving reservoir wettability, can make the performance of the improvement reservoir wettability of the aqueous solution of surface finish nano wetting agent of the invention adjustable by using different surfactant and concentration.Nanometer wetting agent of the invention can be configured to surfactant displacement liquid, be used for waterflooding reservoir, and provided wetting agent can be effectively improved reservoir wettability, to play the effect for improving recovery ratio.

Description

A kind of nanometer wetting agent and preparation method thereof based on nonionic surfactant modification And application

Technical field

The invention belongs to field of oil development, more particularly, to a kind of receiving based on nonionic surfactant modification Rice wetting agent and its preparation method and application.

Background technique

The medium to high permeable rate old filed of China's major part waterflooding extraction has entered High water cut, " the double height " of high recovery percent of reserves is opened The hair stage.Under China's background increasing to oil demand, increasing is particularly important the exploitation of remaining oil.It is general next It says, remaining oil can be divided into two kinds of fundamental types: macroscopical and microcosmic.Macroscopical remaining oil, which refers to, not to be arrived by water-driven still Reserves, and the reserves in zone of stagnation and lithologic lens.Microscopic remaining oil refers to be arrived by water-driven, but Analysis of Water-drive Energy is still It is not enough to be produced, is in remanent state, in adsorption-like and fetter shape such as the petroleum of filminess, and on pore surface Petroleum, such as the residual oil that capillary force fetters, it, which remains in, injects the area that fluid passes through, and the quilt completely in tiny hole Capillary force constraint etc..This kind of oil distribution is microcosmic, and mostly discontinuous.

Microscopic remaining oil occupies larger proportion in current petroleum reserves, how to improve its recovery percent of reserves, becomes pendulum in oil Major issue in face of the developer of field.

Reservoir wettability is a key factor for controlling formation fluid regional location, distribution and flow behavior.Storage The wetability of layer pore surface is to capillary pressure, remaining oil-containing or water saturation, relative permeability, electrical property feature and water filling Development features have the influence of essence.Studies have shown that water-wet stratum is changed to generally make oleic permeability after oil wet formation 15~85% are reduced, averagely reduces by 40%, the percentage of permeability reduction is bigger in tight rock.Therefore reservoir wettability Variation it is in close relations related to oil recovery factor.Therefore, by changing reservoir wettability, adopting for the type crude oil can be improved Degree out.

For reservoir wettability, researcher is adjusted by changing injection fluid pH value, surfactant and phase permeability The means such as agent realize the change to reservoir wettability, to improve crude oil recovery percent of reserves.

Nano particle is due to unique small-size effect itself and skin effect, in the exploration and development process of petroleum industry In more and more paid attention to.As report by wettability modification improves recovery ratio, water injection well increasing injection, prevents stratum Injure and prevent scale deposition etc..

104449631 B of Chinese patent CN (strong gas wetability nano silica Xie Shui lock agent, preparation method and rock The method of stone moistened surface reversion) a kind of gas wetting nano silica Xie Shui lock agent is reported, the system is by modified Nano two Silica, emulsifier op-10, lauryl sodium sulfate, ethyl alcohol and water compound to be formed, and show good super-hydrophobic oleophobic property Energy.

Document (Jin Jiafeng air humidity Nano-meter SiO_2₂Particle to rock core wettability reversal and solution water lock machine reason [J] drilling fluid with Completion fluid, 2015,32 (6): 5-11), use ethyl orthosilicate and ammonium hydroxide to prepare nano silica for raw material, and by from The absorption of subtype fluorocarbon surfactant is modified, and the nano particle wetting agent for having air humidity reverse function is prepared.

It is prepared in conclusion the nano silica wetting agent of report is modified using directly compounding or absorption, to oil It hides in injection process, similar products inevitably will lead to chromatographic isolation or unstable quality phenomenon occurs, in addition, report Nanometer wetting agent technology is directed to gas reservoir solution liquid lock, there is no for the nanometer wetting agent technology for changing reservoir wettability.Therefore, existing Some nanometer wetting agents still have biggish improvement to promote leeway in technology and performance.And the nanometer wetting agent of function admirable is ground Hair all undoubtedly can generate positive effect, and the economy and environmental benefit that finally show to existing waterflooding reservoir, all It will have an important influence on.

Reservoir wettability is a key factor for controlling formation fluid regional location, distribution and flow behavior, special Oil recovery factor is not improved by changing reservoir wettability there are in the case where a large amount of remaining oils in current waterflooding reservoir, It is of great significance.

Summary of the invention

Existing nanometer wetting agent there are aiming at the problem that, it is living based on non-ionic surface that the purpose of the present invention is to provide one kind Property agent modification nanometer wetting agent and its preparation method and application, by grafting phase after nano-silica surface coupling modifier Surface active groups are answered, the nanometer wetting agent of stable structure is prepared, can effectively improve reservoir wettability, finally play and mention The effect of high recovery rate.

To achieve the goals above, the first aspect of the present invention provides a kind of receiving based on nonionic surfactant modification Rice wetting agent, this nanometer of wetting agent is the nano silica aggregate for being grafted with nonionic surfactant, the nano-silica SiClx aggregate is coupling agent modified nano silica aggregate.

A preferred embodiment according to the present invention, the particle size of the nano silica aggregate are 10- 10000nm, preferably 10-100nm.

A preferred embodiment according to the present invention, the coupling agent are amino silicane coupling agent, preferably include γ-ammonia Propyl-triethoxysilicane, γ-aminopropyltrimethoxysilane, N- β-aminoethyl-γ-aminopropyltriethoxy dimethoxysilane, N- β-aminoethyl-γ-aminopropyltrimethoxysilane, γ-aminopropyltriethoxy diethoxy silane and γ-divinyl triammonium propyl At least one of methyl dimethoxysilane.

A preferred embodiment according to the present invention, the nonionic surfactant include polyoxyethylene-type nonionic Surfactant and/or polyol-based non-ionic surfactant；

The polyoxyethylene non-ionic surfactant is preferably alkyl phenol polyoxyethylene ether, high-carbon fatty alcohol polyoxy second At least one of alkene ether, polyoxyethylene carboxylate, fatty acid methyl ester ethoxylate；

The polyol-based non-ionic surfactant is preferably anhydrous sorbitol ester type non-ionic surfactant and/or alkyl Alkylolamides type non-ionic surfactant.

The molar ratio of a preferred embodiment according to the present invention, anionic surfactant and coupling agent is 1:0.6- 2；The molar ratio of nanometer aggregate and coupling agent is 1:3-5.

The second aspect of the present invention provides the preparation method of above-mentioned nanometer wetting agent, method includes the following steps:

Step 1: preparing coupling agent modified nanometer aggregate

Under conditions of inert gas shielding and stirring, by washing to neutral nanometer aggregate, coupling agent and organic solvent Aqueous solution contact and react, obtain coupling agent modified nanometer aggregate solution；

Step 2: link surfactant

Under conditions of inert gas shielding and stirring, by the coupling agent modified nanometer aggregate solution and nonionic table Face active agent simultaneously reacts, and obtains the nanometer wetting agent mixed liquor of surface modification；

Step 3: separating-purifying

The nanometer wetting agent mixed liquor of the surface modification is centrifuged, the nanometer wetting of surface modification is obtained Agent.

A preferred embodiment according to the present invention, the weight of the aqueous solution of nanometer aggregate and organic solvent in step 1 Than for 1:10-30；The organic solvent includes ethyl alcohol and/or isopropanol.When the organic solvent include more than above two it is molten When agent, it can be mixed with arbitrary proportion.The aqueous solution of the organic solvent is preferably organic solvent and deionized water according to volume The solution being formulated than the ratio for 1:1.

In the present invention, the reaction condition of step 1 includes: that temperature is 50-80 DEG C, time 1-2h；The reaction condition of step 2 Include: temperature be 50-80 DEG C, time 2-4h.

Heretofore described method further include: after mixing nanometer aggregate with the aqueous solution of organic solvent, stir 20- 30min, then ultrasonic vibration 20-30min, is uniformly mixed the two.Wherein, it is highly preferred that the revolving speed of stirring is 400-500 Turn/min.

In the preparation process in accordance with the present invention, the cleaning solution and washing times washed to lower part nano material can be by this Skilled person carries out conventional selection and regulation.Preferably, successively surface is repaired with dehydrated alcohol and deionized water Lower part nano material after decorations magnetic Nano material mixed liquor is centrifuged respectively is washed three times, be then dried in vacuo (such as 80 DEG C), obtain the surface finish nano wetting agent.

The third aspect of the present invention provides the wetting of nanometer made from the nanometer wetting agent and/or the preparation method Agent is improving the application in oil recovery rate.

Beneficial effects of the present invention:

1, nanometer wetting agent of the invention is to be made by surfactant in the link of the nanometer aggregate surface of coupling modifier Its dilute aqueous solution has the ability for improving reservoir wettability, can make the present invention by using different surfactant and concentration Surface finish nano wetting agent aqueous solution improvement reservoir wettability performance it is adjustable.

2, nanometer wetting agent of the invention can be configured to surfactant displacement liquid.The displacing fluid is of the invention receives The aqueous solution of rice wetting agent can be nanometer wetting agent-aqueous dispersion of mass concentration 0.2-1%, be used for filling the water Oil reservoir is developed, provided wetting agent can be effectively improved reservoir wettability, to play the effect for improving recovery ratio.

Other features and advantages of the present invention will then part of the detailed description can be specified.

Specific embodiment

The preferred embodiment of the present invention is described in more detail below.Although the following describe preferred implementations of the invention Mode, however, it is to be appreciated that may be realized in various forms the present invention without that should be limited by the embodiments set forth herein.Phase Instead, these embodiments are provided so that the present invention is more thorough and complete, and can be by the scope of the present invention completely It is communicated to those skilled in the art.

Embodiment 1:

(1) the earth silicon material 5g of 50nm is taken, deionized water is spare after washing to neutrality.

(2) 100mL ethanol water (volume ratio of ethyl alcohol and deionized water is 1:1) is packed into beaker, it then will be quasi- The silica got ready is put into ultrasonator in being added to beaker, sonic oscillation 30min.It is transferred into three necks again It in flask, is put on the magnetic stirring apparatus with water bath with thermostatic control, leads to nitrogen protection, add under the conditions of being stirred at room temperature into three-necked bottle Enter the gamma-aminopropyl-triethoxy-silane of 18.25g, is warming up to 70 DEG C and isothermal reaction 2h under continuous stirring, obtains surface chain Connect the nano silica mixed liquor of coupling agent.

(3) then at 70 DEG C and under conditions of stirring to the magnetic Nano titanium dioxide for holding the surface and linking coupling agent The NP-10 (nonylphenol polyoxyethylene ether averagely contains 10 polyethoxy chains) of 11.65g is added in the three-necked bottle of silicon mixed liquor, Lower isothermal reaction 4h is stirred, the nano silica mixed liquor of surface modification is obtained.

(4) the surface finish nano wetting agent mixed liquor is transferred in centrifugal bottle and is centrifuged, it is clear to discard top Liquid, after lower part nano material is successively respectively washed three times with dehydrated alcohol and deionized water, then 80 DEG C of vacuum drying, obtain institute State surface finish nano wetting agent NWND-1.

Embodiment 2:

(1) the earth silicon material 10g of 80nm is taken, deionized water is spare after washing to neutrality.

(2) 300mL ethanol water (ethyl alcohol is 1:1 with water volume ratio) is packed into beaker, then by ready two Silica is put into ultrasonator in being added to beaker, sonic oscillation 30min.It is transferred into three-neck flask, puts again Onto the magnetic stirring apparatus with water bath with thermostatic control, leads to nitrogen protection, 26.75g is added under the conditions of being stirred at room temperature into three-necked bottle γ-aminopropyltrimethoxysilane, be warming up to 70 DEG C and isothermal reaction 2h under continuous stirring, obtain surface link coupling agent Nano silica mixed liquor.

(3) to the nano silica mixed liquor for holding the surface link coupling agent at 70 DEG C and under conditions of stirring Three-necked bottle in be added 12.50g paregal O (alkyl polyoxyethylene ether), isothermal reaction 4h, obtains surface modification under stiring Nano silica mixed liquor.

(4) the surface finish nano wetting agent mixed liquor is transferred in centrifugal bottle and is centrifuged, it is clear to discard top Liquid, after lower part nano material is successively respectively washed three times with dehydrated alcohol and deionized water, then 80 DEG C of vacuum drying, obtain institute State surface finish nano wetting agent NWND-2.

Embodiment 3:

(1) the earth silicon material 5g of 50nm is taken, deionized water is spare after washing to neutrality.

(2) 300mL ethanol water (ethyl alcohol is 1:1 with water volume ratio) is packed into beaker, then by ready two Silica is put into ultrasonator in being added to beaker, sonic oscillation 30min.It is transferred into three-neck flask, puts again Onto the magnetic stirring apparatus with water bath with thermostatic control, leads to nitrogen protection, 17.25g is added under the conditions of being stirred at room temperature into three-necked bottle γ-aminopropyltriethoxy diethoxy silane, be warming up to 70 DEG C and isothermal reaction 2h under continuous stirring, it is even to obtain surface link Join the nano silica mixed liquor of agent.

(3) to the nano silica mixed liquor for holding the surface link coupling agent at 70 DEG C and under conditions of stirring Three-necked bottle in the TX-10 (octyl phenol polyoxyethylene ether, averagely contain 10 polyethoxy chains) of 20.25g is added, it is permanent under stiring Temperature reaction 4h, obtains surface finish nano silica mixed solution.

(4) the surface finish nano wetting agent mixed liquor is transferred in centrifugal bottle and is centrifuged, it is clear to discard top Liquid, after lower part nano material is successively respectively washed three times with dehydrated alcohol and deionized water, then 80 DEG C of vacuum drying, obtain institute State the nanometer wetting agent NWSD-3 of surface modification.

Test case 1:

The nanometer wetting agent-of mass concentration 0.5% is respectively configured using nanometer wetting agent sample obtained by embodiment 1-3 Then aqueous dispersion carries out surface tension test to it.

Nanometer displacement agent-aqueous dispersion preparation method of the mass concentration 0.3% is the following steps are included: sample is claimed It takes required amount in beaker, the desired amount of water is then added, be put into magnetic stir bar stirring (200 revs/min of revolving speed) 30min Afterwards, beaker is moved into ultrasonator, sonic oscillation 30min obtains this nanometer of wetting agent-aqueous dispersion.

Using the K100 type surface and interface tension measuring device of German KRUSS company carry out to above-mentioned NWND-1, NWND-2, Nanometer wetting agent-aqueous dispersion of the mass concentration 0.3% of NWND-3 configuration carries out surface tension performance test, the results are shown in Table 1 (room temperature condition).

The surface tension (room temperature condition) of 1 nanometer displacement agent of table

As can be seen from Table 1, nanometer wetting agent made from embodiment 1-3 has lower surface tension.

Various embodiments of the present invention are described above, above description is exemplary, and non-exclusive, and It is not limited to disclosed each embodiment.Without departing from the scope and spirit of illustrated each embodiment, for this skill Many modifications and changes are obvious for the those of ordinary skill in art field.

Claims (10)

1. a kind of nanometer wetting agent based on nonionic surfactant modification, which is characterized in that this nanometer of wetting agent is grafting There is the nano silica aggregate of nonionic surfactant, the nano silica aggregate is coupling agent modified nanometer two Silica aggregate.

2. according to claim 1 nanometer of wetting agent, wherein the particle size of the nano silica aggregate is 10- 10000nm, preferably 10-100nm.

3. according to claim 1 nanometer of wetting agent, wherein the coupling agent is amino silicane coupling agent, is preferably included Gamma-aminopropyl-triethoxy-silane, γ-aminopropyltrimethoxysilane, N- β-aminoethyl-γ-aminopropyltriethoxy dimethoxy Silane, N- β-aminoethyl-γ-aminopropyltrimethoxysilane, γ-aminopropyltriethoxy diethoxy silane and γ-divinyl three At least one of aminopropyltriethoxy dimethoxysilane.

4. according to claim 1 nanometer of wetting agent, wherein the nonionic surfactant includes that polyoxyethylene-type is non- Ionic surface active agent and/or polyol-based non-ionic surfactant；

The polyoxyethylene non-ionic surfactant is preferably alkyl phenol polyoxyethylene ether, high-carbon fatty alcohol polyoxyethylene At least one of ether, polyoxyethylene carboxylate, fatty acid methyl ester ethoxylate；

The polyol-based non-ionic surfactant is preferably anhydrous sorbitol ester type non-ionic surfactant and/or alkylol acyl Amine type non-ionic surfactant.

5. according to claim 1 nanometer of wetting agent, wherein the molar ratio of nonionic surfactant and coupling agent is 1: 0.6-2；The molar ratio of nanometer aggregate and coupling agent is 1:3-5.

6. the preparation method of nanometer wetting agent described in any one of claim 1-5, which is characterized in that this method include with Lower step:

Step 1: preparing coupling agent modified nanometer aggregate

Under conditions of inert gas shielding and stirring, by washing to neutral nanometer aggregate, the water of coupling agent and organic solvent Solution is contacted and is reacted, and obtains coupling agent modified nanometer aggregate solution；

Step 2: link surfactant

It is under conditions of inert gas shielding and stirring, the coupling agent modified nanometer aggregate solution and non-ionic surface is living Property agent is contacted and is reacted, and obtains the nanometer wetting agent mixed liquor of surface modification；

Step 3: separating-purifying

The nanometer wetting agent mixed liquor of the surface modification is centrifuged, the nanometer wetting agent of surface modification is obtained.

7. preparation method according to claim 6, wherein the weight of the aqueous solution of nanometer aggregate and organic solvent in step 1 Amount is than being 1:10-30；The organic solvent includes ethyl alcohol and/or isopropanol.

8. preparation method according to claim 6, wherein the reaction condition of step 1 includes: that temperature is 50-80 DEG C, the time For 1-2h；The reaction condition of step 2 includes: that temperature is 50-80 DEG C, time 2-4h.

9. preparation method according to claim 6, wherein this method further include: by the water of nanometer aggregate and organic solvent After solution mixing, 20-30min is stirred, then ultrasonic vibration 20-30min, is uniformly mixed the two.

10. described in any one of nanometer wetting agent and/or claim 6-9 described in any one of claim 1-5 Nanometer wetting agent made from preparation method is improving the application in oil recovery rate.