Main > POLYMERS > Poly(Succinimide) > Co.: DE. L (Producer/Patents) > Uses > Oil (Petroleum) Production > Patent > Assignee, Claims, No. Etc

Product DE. B

PATENT NUMBER This data is not available for free
PATENT GRANT DATE March 1, 2005
PATENT TITLE Thixotropic dispersions of polysuccinimide and their use

PATENT ABSTRACT The present invention relates to stable thixotropic polysuccinimide (PSI) dispersions, known as slurries, and to their use as additives for improving the flow properties of concrete, in oil wells, in acidic gel cleaners, and in drainage systems of tunnel constructions
PATENT INVENTORS This data is not available for free
PATENT ASSIGNEE This data is not available for free
PATENT FILE DATE May 21, 2002
PATENT FOREIGN APPLICATION PRIORITY DATA This data is not available for free
PATENT REFERENCES CITED Mosig et al, "Kinetic and Thermal Characterization of the Hydrolysis of Polysuccinimide", Ind. Eng. Chem. Res. 36, pp. 2163-2170, 1997 (no month given).*
Ind. Eng. Chem. Res. 36, (month unavailable) 1997, pp. 2163-2170, Jorg Mosig, C.H. Gooding, and A.P. Wheeler, "Kinetic and Thermal Characterization of the Hydrolysis of Polysuccinimide".
Investigation by Bayer AG, brochure "PASP Na-Salz", Edition 3.99, Order No.:CH 201201, pp. 3-29 Polyasparaginsaure Natriumsalz (Polyaspartat Natriumsalz), not translated
PATENT CLAIMS What is claimed is:

1. A composition comprising a stable thixotropic dispersion containing polysuccinimide in a protic solvent, a hydrocoiloid. and an anionic or non:onic surfactant.

2. The dispersion according to claim 1, wherein the protic solvent is water.

3. The dispersion according to claim 1, wherein the surfactant is a fatty alcohol ethoxylate.

4. The dispersion according to claim 1, wherein the dispersion contains from about 10 to about 90% by weight of polysuccinimide and from about 0.01 to about 20% by weight of a surfactant.

5. The dispersion according to claim 1, wherein the dispersion further comprises biodegradable thickeners.

6. A process for preparing a thixotropic polysuccinimide dispersion comprising:

(a) Introducing polysuccinimide and/or its copolymers to a vessel,

(b) adding a protic solvent and surfactant to the vessel and mixing, thereby forming a mixture,

(c) thoroughly mixing the mixture, thereby forming a homogeneous dispersion, and

(d) solidifying the homogeneous dispersion.

7. A cement composition or a concrete composition comprising a flow-property-improving fraction of a thixotropic polysuccinimide dispersion, wherein the disoersion compises a stable thixotropic dispersion containing polysuccinimide in a protic solvent, a hydrocoiloid. and an anionic or nonionic surfactant.

8. An acidic gel cleaner composition comprising a flow-property-improving fraction of a thixotropic polysuccinimide dispersion, wherein the dispersion comprises a stabie thixotropic dispersion containing polysuccinimide in a protic solvent, a hydrocoiloid, and an anionic or nonionic surfactant.
--------------------------------------------------------------------------------

PATENT DESCRIPTION BACKGROUND

The present invention relates to stable thixotropic polysuccinimide (PSI) dispersions, known as slurries, and to their use as additives for improving the flow properties of concrete, in oil wells, in acidic gel cleaners, and in drainage systems of tunnel constructions. Stable in the sense of the present invention means stable against separation of liquid and solid compounds.

Polyaspartic acids and their salts have in recent years attracted increased interest as biodegradable alternatives to polyacrylic acids.

The preparation of polyaspartic acids by a variety of processes has been investigated in depth. For example, the condensation of aspartic acid or ammonium maleate and/or the dehydration products thereof leads to the intermediate polysuccinimide (PSI), which by hydrolysis under alkaline conditions forms salts of polyaspartic acid. If polysuccinimide is exposed to water under initially neutral conditions, then slowly polyaspartic acid is formed, and a pH of 2.5-3 is established. Under acidic conditions at room temperature, the hydrolysis comes to a standstill (Mosig, Gooding, Wheeler, Ind. Eng. Chem. Res. 1997, 36, 2163-2170).

In the course of the investigations on the hydrolysis of PSI as part of the present invention, the influence of particle size and hence also of the water/PSI phase boundary on the hydrolysis rate of PSI itself became clear. The investigations showed that the hydrolysis rate is directly proportional to the particle surface area. Reaction of polysuccinimide and water under increased pressure and elevated temperature produces a mixture of aspartic acid and its oligomers.

Because of their acidic properties, polyaspartic acids are highly effective in the breakup or reformation of deposits, such as those of calcium carbonate. The effect is founded firstly on the pH in the immediate vicinity of the opening succinimides in the PSI, secondly, following neutralization of the polyaspartic acid, on the dispersing action of the polyaspartate anion.

The use of polyaspartic acid in an acidic environment is hindered, however, by its instability under these conditions. Polyaspartic acid is subject to acidic hydrolysis to monomeric aspartic acid, especially under a thermal load (investigations by Bayer A G, brochure "PASP Na-Salz"--polyaspartic acid sodium salt; a new, biodegradable dispersant, Edition 3.99, Order No.: CH 201201). It was possible to show that a 1% strength polyaspartic acid undergoes 61% hydrolysis after 24 h at a pH of 4,77% hydrolysis at a pH of 2, which particularly in the case of oil wells is disadvantageous.

Cleaners very often contain viscosity-increasing substances. Examples of cleaners are given in U.S. Pat. No. 6,083,890 with xanthan as thickener, in U.S. Pat. No. 6,004,916 with ammonium EDTA as complexing agent and a solvent, and also nonionic surfactants as dispersion media, and in U.S. Pat. No. 5,554,320 with phosphoric acid and paraffinsulfonate, fatty alcohol-EP/PO copolymer as surfactant.

With the direct use of polyaspartic acid in oil wells, a problem which is found is that the polyaspartic acid becomes diluted as a result of diffusion following its introduction into the bore hole. As a result, the concentration may fall below optimum ranges.

JP-A 8 169 741 describes the use of powderous polysuccinimide for improving the flow behavior of mortar mixtures with Portland cement. Incorporation in powder form, however, is typical, since uniform distribution within the cement mortar is achieved only by prolonged mixing. Uniform distribution is absolutely necessary, since inhomogeneities lead to problems with the ultimate hardness of the cement. It would be advantageous to provide PSI as a paste or dispersion in water, in which the wetting of the polysuccinimide by water had already taken place and which would therefore prevent the lumping that occurs in the course of stirred incorporation.

The object was therefore to find thixotropic formulations of PSI with water which meet all of these requirements as regards stability and liquefiability.

Stable in the sense of the present invention has been already discussed above but also refers to the feature that the thixotropic dispersions of the invention maintain their useful form or useful chemical/physical nature for a reasonable storage period.

Surprisingly, thixotropic dispersions of PSI with water according to the present invention exhibit all of these properties.

SUMMARY

The invention relates to a stable thixotropic dispersion comprising polysuccinimide in a protic solvent.

The invention also relates to a process for preparing a thixotropic polysuccinimide dispersion comprising: (a) introducing polysuccinimide and/or its copolymers to a vessel, (b) adding a protic solvent and surfactant to the vessel and mixing, thereby forming a mixture, (c) thoroughly mixing the mixture, thereby forming a homogeneous dispersion, and (d) solidifying the homogeneous dispersion.

These and other features, aspects, and advantages of the present invention will become better understood with reference to the following description and appended claims.

DESCRIPTION

The present invention accordingly provides thixotropic dispersions of polysuccinimide and protic solvents, preferably with water, with particular preference deionized water, which further comprise a hydrocolloid, preferably a surfactant, with particular preference an anionic or nonionic surfactant.

PSI in the fine-particled state required for the thixotropic dispersions of the invention may be prepared in accordance with the processes of DE-A 19 706 901 or EP-A 0 786 487, incorporated herein by reference in their entirety.

The thixotropic PSI dispersions of the invention contain from about 10 to about 90% by weight of PSI, preferably from about 30 to about 70% by weight of PSI, with particular preference from about 40 to about 60% by weight of PSI.

The thixotropic PSI dispersions of the invention are prepared by intensively stirring a finely particulate polysuccinimide having a typical particle size in the maximum of a few hundred .mu.m. Ideally, a PSI having a particle diameter of from about 10 to about 250 .mu.m, preferably from about 10 to about 150 .mu.m, with particular preference from about 10 to about 100 .mu.m, and, with very particular preference, of from about 10 to about 70 .mu.m in the maximum of the distribution is used. The large surface area is advantageous for the rapid establishment of equilibrium.

The thixotropic PSI dispersions of the invention contain from about 0.01 to about 20% by weight of surfactants, preferably from about 1 to about 10% by weight of surfactants, with particular preference from about 1 to about 5% by weight of surfactants.

The function of the surfactant is to disperse the PSI as finely as possible. In this context, both nonionic and anionic surfactants are suitable in principle; owing to the positive charge, cationic surfactants may lead to instances of flocculation of electroneutral aggregates with the polyaspartate anion.

Preferred surfactants in the context of the present invention are nonionic surfactants, with particular preference fatty alcohol ethoxylates, with very particular preference C.sub.14-C.sub.16 fatty alcohols having a degree of ethoxylation of 20-40.

Besides surfactants the thixotropic PSI dispersions of the invention may comprise thickeners, with particular preference biodegradable thickeners.

In one preferred embodiment, biodegradable thickeners are added to the thixotropic PSI dispersions. In the context of the present invention, preferred thickeners used are cellulose ethers. In the context of the present invention, a particularly preferred thickener used is methylcellulose.

The PSI dispersions of the invention are obtainable by dispersing the PSI in a protic solvent, preferably water, especially deionized water. The dispersions of the invention are prepared by first introducing PSI and/or its copolymers, adding the water and homogenizing the water thoroughly using an Ultra-turrax--or a similar stirring apparatus suitable for the present purpose. Thereafter, the surfactant is added and thorough mixing with the Ultra-turrax is repeated. Finally, a homogeneous dispersion is obtained which soon solidifies after the stirring operation.

PSI represents an alternative to polyaspartic acid because it can be converted into a fine, stable dispersion which does not sediment and which, through an increase in viscosity, substantially suppresses diffusion and thus hydrolysis in water.

Furthermore, by means of the PSI dispersions of the invention it is possible to achieve a higher storage stability of polyaspartic acid. In application, an inventive PSI dispersion is able to be liquefied by means of shear forces, so making available polyaspartic acid in the manner of a sustained release effect. The amount of polyaspartic acid present in equilibrium with polysuccinimide under these conditions is available in order, for example, to break up calcium carbonate encrustations. The polyaspartic acid then removed from the system by neutralization can be reformed by hydrolysis, so that there is always sufficient (although low) concentrations of free polyaspartic acid available.

Fine stable PSI dispersions of the invention, known as thixotropic PSI dispersions, are also suitable for use as acidic gel cleaners, such as, for instance, in the sanitary segment for dissolving lime deposits. Ideally, a gel cleaner flows along the surface to be cleaned, but thickens when there are no shear forces and so remains adhering to the surface. The contact time, especially in the case of vertical surfaces, remains greatly increased, as does, consequently, the cleaning effect when thixotropic PSI dispersions according to the present invention are used.

In the use in oil wells it is advantageous to have the thixotropic PSI dispersion which solidifies after being pumped in oil wells and which releases polyaspartic acid only gradually.

In tunnel drainage systems it is possible under certain circumstances for instances of sintering to occur, leading to blockage of the piping system. Often, these sites are inaccessible. There again, it is advantageous to have the thixotropic PSI dispersion according to the present invention which solidifies at the blockage points after being pumped into the piping system and which releases active substance (polyaspartic acid) at the site over a prolonged period, and which leads to concentration gradients with local maxima.

The thixotropic PSI dispersions of the invention exhibit the desired viscosity behavior, the stability needed for the above-mentioned applications, and also liquefiability. Generally the dispersions are stable at least 300 days at a temperature that is less than about 20.degree. C., or from at least 200 days at a temperature that is less than about 25.degree. C., or from at least 150 days to about 200 days at a temperature ranging from about 25.degree. C. to about 30.degree. C.

They are therefore suitable for use in cement or concrete for improving its flow properties, in drainage systems of tunnel constructions, in oil wells, and in acidic gel cleaners.

In acidic gel cleaners, the thixotropic PSI dispersions of the present invention permit the cleaning of sanitary installations or of scratch-sensitive surfaces such as, for example, plastics, bronze, brass, silver, lead crystal or glass ceramic hobs.

The present invention therefore also relates to cements or concretes and also gel cleaners which comprise a flow-property-improving fraction of thixotropic PSI dispersions.

PATENT EXAMPLES available on request
PATENT PHOTOCOPY available on request

Want more information ?
Interested in the hidden information ?
Click here and do your request.


back