DE3418590C2 - Process for the preparation of an aqueous viscous polymer solution - Google Patents

Abstract

The invention relates to the production of aqueous viscous polymer solutions by reversing the phase of a water-in-oil emulsion into an oil-in-water emulsion with the aid of water-soluble hydrophilic wetting agents, a combination of at least 2 wetting agents in the form of a water-soluble alkyl glucoside and at least one Compound from the group of the addition products of ethylene oxide with alkyl aromatics, fatty acids and / or fatty alcohols or alkylene oligoglycol takes place. Due to their adjustable viscosity, these polymer solutions are suitable for polymer flooding in tertiary oil production as well as for water and wastewater treatment, the paper industry and for coal or ore processing.

Description

A) 0.01 to 2% by weight of water-soluble alkyl glucoside and

B) 15 to 30% by weight of one or more wetting agents ^) from the group

a) alkylaryl ethoxylate (s)

b) Addition product (s) of ethylene oxide and fatty acid or fatty alcohol and

c) alkylene oligoglycol

contains.

2. The method according to claim 1, characterized in that that you add so much lye that the Netzmitteüösung contain 1 to 6 wt .-% NaOH are.

3. The method according to claim 1 or 2, characterized in that the wetting agent is alkyl glucoside and alkyl phenol ethoxylate (s) are used.

4. The method according to claim 3, characterized in that the alkylphenol ethoxylate (s) (a) those with 6 to 14 ethoxy units are used.

5. The method according to claim 4, characterized in that octyl and / or nonylphenyl ethoxylate (s) with 8 to 10 ethoxy groups used.

It is known that high molecular weight polyacrylamides and their copolymers with (meth) acrylic acid are involved tertiary oil production to adapt the viscosity of the flood waters to the higher viscosity of the oil suitable. From DE-PS 21 54 081 and the corresponding US-PS 36 24 019 the production of aqueous Solutions of polyacrylamides and their copolymers and of allyl or diallylamines and dimethylaminoethyl methacrylate as well as polyacrylic acids or polystyrene sulfonates known, which are known as stabilizers suitable for boron sludge and for oil production by water floods. These aqueous polymer solutions are made by reversing the phase of a stable water-in-oil emulsion obtained, soft gel-like polymer particles with a molecular weight in excess of 1 million and a size of 5 nm to 5 μΐη in the disperse water phase contains and made from water-soluble monomers by emulsion polymerization with the help of a free radical forming catalyst in the presence of a water-in-oil emulsifier has been made. According to this prior art, this is a stable water-in-oil emulsion poured into water in the presence of a hydrophilic wetting agent in such a way that after the phase inversion the polymer particles dissolve rapidly in the continuous water phase.

From US-PS 32 84 393 water-in-oil emulsions of polymers are known which have been prepared by emulsifying an aqueous monomeric phase in an oil phase to form a water-in-oil emulsion in the presence an emulsifier with a low HLB value. According to this prior art, the latex obtained in the polymerization, the polymer particles are precipitated, filtered off and washed and can then put to their use.

From US-PS 3122 203 drilling fluids are known, in which an intimate mixture of fine hydrolyzed polyacrylamide, a surfactant dispersant and a free flowing anhydrous organic liquid, in which can optionally also be an inert solid support is included. Used as a dispersant Alkylphenol ethoxylates mentioned.

Also the stable water-in-oil emulsion of polymers and copolymers produced according to DE-AS 25 37 586 Ethylenically unsaturated monomers can in principle be used for such purposes. In the case of tertiary oil production by flooding with an aqueous polymer-containing liquid, it was found that that three requirements must be met, namely

a) the phase inversion from the water-in-oil emulsion to the oil-in-water emulsion should be as quick as possible take place, expediently within a maximum of 2 minutes,

b) the system obtained by the phase inversion should reach its maximum viscosity in the shortest possible time reach and

c) the flowable mass thus obtained, used for flooding, should be easy in the oil-bearing formation be injectable.

It was found, however, that the conventional methods for preparing polymer solutions by reversing the phase of a polymer latex with the aid of a hydrophilic wetting agent under standard conditions did not give satisfactory results.
The object of the invention is a process for the production of an aqueous viscous polymer solution by reversing the phase of a water-in-oil emulsion into an oil-in-water emulsion, this phase reversal being supposed to take place faster than according to the known processes, and the polymer moving very quickly thickened to the viscosity appropriate for the intended use and should prove to be easily injectable in the context of use in tertiary oil production.

The method according to the invention with its preferred embodiments is set out in the above claims characterized.

The viscous polymer solution obtained according to the invention is suitable wherever it is known Process produced polymer latices and solutions are used. Is particularly interesting use in water and wastewater treatment as well as in the paper industry and in coal and Ore processing. However, the polymer solutions prepared according to the invention are of particular importance already obtained when flooding formations for tertiary oil production, as - as above indicated - the phase reversal takes place in about 1 minute, equivalent to an extraordinary rapid dissolution in the aqueous phase. After the phase reversal, the in particular with regard to the petroleum to be extracted, optimum viscosity is achieved. It's closed note that the polymer solutions prepared according to the invention due to their particularly easy injectability

have advantages over the known products.

The polymer solution according to the invention is produced as follows:

A polymer-containing water-in-oil emulsion is assumed, in which the polymer is present as colloidal gel particles in the aqueous phase. These Emulsion can be produced by one of the known processes, in particular according to DE-PS 21 54 081 and US Pat. No. 3,624,019.

A water-in-oil emulsion is particularly suitable as the starting product for the process according to the invention, obtained in an alkyl environment by copolymerization of acrylamide and acrylic acid derivatives is. White oils, in particular, are usually used as the organic phase for this emulsion polymerization higher molecular weight paraffins, such as Ce-Cn isoparaffins. As a polymerization catalyst the usual free radical catalysts are used. For the production of this water-in-oil emulsion or this polymer latex is, as usual, a dispersant, such as sorbitan monooleate, used

This polymer-containing water-in-oil emulsion is then according to the invention for phase inversion and dissolution of the polymer in a prepared alkaline solution several wetting agents, which should be non-ionic, stirred in. The phase reversal takes place in a very short time and the polymer particles instantly dissolve in the continuous aqueous phase and this polymer solution thickens to the desired viscosity in a very short time.

The phase inversion to be carried out according to the invention from the water-in-oil emulsion to an oil-in-water emulsion is - in contrast to the prior art - made with an alkaline solution, which at least contains two different, in particular non-ionic, wetting agents. With those to be used according to the invention Wetting agents are, on the one hand, a commercially available water-soluble alkyl glucoside and on the other hand, an addition product of ethylene oxide with an alkyl aromatic and / or with fatty acids and / or fatty alcohols or an alkylene oligoglycol or mixtures thereof. Of the alkyl aryl ethoxylates the alkylphenol ethoxylates are preferred, and of these in particular the octyl and nonylphenol ethoxylates. The number of ethoxy groups in the addition products is generally between 6 and 14, preferably by about 8 or by about 10.

Alkylene oligoglycols are understood here to mean diols such as ethylene glycol, propanediols, butanediols, and others Diethylene glycol, triethylene glycol and like lower polyethers.

In the aqueous solution to be used for the phase inversion according to the process according to the invention can include the above addition products and / or alkylene oligoglycols preferably 18-25% by weight, while the alkyl glucoside is much less Amount is required, preferably up to 0.1 wt. O / o.

The alkali content of the wetting agent solution to be used according to the invention is 1 to 6, preferably 1.5 up to 5% by weight and in particular 2-2.5% by weight of NaOH. In practice it is generally used for The preparation of the wetting agent solution used an approximately 45% sodium hydroxide solution. It are suitable instead of caustic soda, of course, also potassium hydroxide, ammonium hydroxide, soda solution and the like.

example 1

The starting product was a water-in-oil emulsion produced by emulsion polymerization of 24.20% by weight acrylamide, 2.70% by weight Acrylic acid and 45.90% by weight of water and 24% by weight of Ce-Ci4-isoparaffins, 0.09% by weight of azobis-isobutyronitrile as a polymerization catalyst and finally 1.63% by weight of sorbitan monooleate as an emulsifier and 1.50

ίο wt .-% NaOH.

In this emulsion the polymer had an average molecular weight of about 20 million.

The emulsion obtained in this way was now on the one hand according to the prior art with the help of a single wetting agent, namely nonylphenol ethoxylate with 8 ethoxy groups, and on the other hand according to the invention Process converted into an aqueous polymer solution, and the two solutions with regard to their suitability tested as polymer-containing flood water for the »pre-flood process« in tertiary oil production.

The wetting agent solution according to the invention contained 20% by weight of nonylphenol ethoxylates with about 8 ethoxy groups and 0.08% by weight with about 10 ethoxy groups, 0.08% by weight of addition products of ethylene oxide and

Oleic acid, 0.1% by weight alkyl glucoside, water-soluble, 4.82% by weight sodium hydroxide solution (45%), the remainder water, while for comparison, an aqueous solution of 20% by weight of nonylphenol ethoxylates with about 8 ethoxy groups were used.

Based on 1 m ^{3 of} water, 22 kg of the above water-in-oil emulsion are poured into 1.7 kg of the above wetting agent solution. The pH of the polymer solution obtained according to the invention was in the strongly alkaline range. The time for the phase inversion and the achievement of the final viscosity of the polymer solutions is summarized in the following table:

comparison

according to the invention

Phase reversal
viscosity

~ 2 min
4.7 mPas

1 min

5.1 mPas

The table shows that an oil-in-water emulsion which is reversed with the aid of only one conventional wetting agent not satisfactorily the requirements as they are for polymer-containing flood waters for the pre-flooding procedure for tertiary oil production must be met. Also is the injection behavior the polymer solution produced according to the invention is much cheaper than the comparative product, such as results from the usual sand baking test.

Example 2

The starting point is a polymer latex produced in accordance with Example 1.

The phase reversal took place with a solution containing 18 wt .-% octylphenol ethoxylate with about 10 ethoxy groups, 0.1% by weight of diethylene triglycol, 0.1% by weight of the addition product of ethylene oxide and ethyl alcohol, 0.02% by weight alkyl glucoside, 3.8% by weight sodium hydroxide solution (45%), the remainder water.

The wetting agent solution used could also be used with this Invert polymer-containing water-in-oil emulsion into oil-in-water emulsion in about one minute, while at the same time the polymer went into solution in the aqueous phase.

Claims (1)

Patent claims: 1. Process for the preparation of an aqueous viscous polymer solution .jurch phase reversal of a Water-in-oil emulsion to oil-in-water emulsion with the aid of a water-soluble hydrophilic wetting agent, the polymer having a molecular weight Owns> 1 million, characterized by that the polymer-containing water-in-oil emulsion in an alkaline solution of at least 2 wetting agents stirred in, the