FR2546765A1 - De-emulsifying agent and de-emulsifying composition, which are intended in particular for the treatment of water-in-oil emulsions with a high solid matter content, and corresponding process - Google Patents

Abstract

The said composition essentially comprises a mixture of a sulphonated compound and of a phenolic resin. This composition is particularly suitable for treating water-in-oil emulsions with a solid matter content exceeding the range from 0.5 to 1 %.

Description

Demulsifying agent and demulsifying composition, in particular for the treatment of water-in-oil emulsions with a high solids content, and corresponding method.

 The present invention relates to a demulsifying agent and to a demulsifying composition, intended in particular for the treatment of water in oil emulsions, with a high solids content, and it also relates to the corresponding process.

 The emulsions which fall within the scope of the invention comprise two or more of two nonmiscible liquids of any type. In the following description, particular reference will be made to water-in-oil emulsions, but in no way limiting.

 The composition according to the invention is practically effective for water-in-oil emulsions, where two immiscible liquid phases, of organic or inorganic type, are in the presence of solid materials dispersed in a proportion greater than -0.5 to- 1% by volume (measured according to the method of analysis known by the Anglo-Saxon name of "Basic Sediment" (offset and sediment)).

 Among the emulsions of this type, mention should be made of. > for example, the following: manufacturing rejects of whatever type (wastewater treatment process, ballast water, stored crude oils, etc.); oily water from refinery, tank and tanker washing processes (tanker residues); residual oils from motor vehicles, mechanical or metallochemical processes, electrical and thermal installations, oleo-dynamic installations, etc. ; oil emulsified sludge; crude oils with a high solids content; etc.

 The solid phase contained in these dispersions generally comprises particles of naturally occurring minerals, of siliceous compounds9 of sulphides, napytenes, resins, asphalt of organic mud, etc.

 It is known that the use of demulsifying agents constitutes a chemical means for separating the liquid phases, in the present case the oily and aqueous phases, the dispersed solid materials stratifying in the form of a mud. The demulsifier roughly acts to destabilize the emulsions, which increases the coalescence of the dispersed liquid droplets.

 In the chemical treatment of dispersions in general, and of emulsions in particular, a demulsifying agent (a few parts per million) is added to the dispersion. Next, the dispersion containing the demulsifying agent is treated by introducing it into a separator from which an oily phase separating containing the demulsifier, water, sludge and, optionally, a gaseous phase.

Examples of commercially available demulsifiers include those which contain: copolymers of ethylene oxide and propylene oxide, nonionic surfactants, phenols substituted with alkoxylated groups, aliphatic polyesters, alkoxylated resinous materials, sulfonates, epoxy resins, amine derivatives, etc.

 It is known that the solid particles dispersed in the water-in-oil system have a stabilizing effect for the emulsion, since they constitute a barrier against the coalescence of the dispersed liquid droplets. In this case, the demulsifying agents have the power to disintegrate the layer of solid matter which surrounds the liquid droplets of the dispersed phase, which allows the dispersed droplets to coalesce (in general, by heating and stirring the mixture).

 If the solids content of the dispersions exceeds a limit value, generally between 0.5 and 1% by volume of solids, the stability of the water-in-oil emulsion is notably increased. It is thus observed that the system does not dissociate spontaneously, and that conventional demulsifying agents can no longer break the barrier of solids and other emulsifiers. It is further observed that the increase in concentration of demulsifying agent is often insufficient to break this barrier and could, on the contrary help to stabilize the emulsion; in any case, when or using higher proportions of demulsifying agents, problems arise if the phase # e containing the demulsifier must be reused or disposed of. This also, of course, implies an increase in the cost of the separation process .

 For these reasons, emulsions with a high solid content are burnt or disposed of, which is very harmful for the environment and does not comply with the laws governing the treatment of industrial waste. Otherwise, these emulsions could be collected in large containers or artificial basins, which does not, of course, represent a solution to the problem of processing these emulsions. In addition to the above problems, it should be noted that conventional demulsifiers generally require long separation times (counting per day), even when used for emulsions without solids; when using these demulsifiers, the emulsions should be washed very often with water, and the system should be warmed up somewhat.

there is thus a need for a demulsifying composition which acts effectively, even on emulsions with a solids content greater than 0.5-1% by volume, reducing the separation times and possibly avoiding having to heat the emulsions. , or allowing, at least, to reduce this heating
The object of the present invention is to remedy the aforementioned limits and drawbacks of conventional demulsifying compositions and to satisfy the aforementioned requirements.

 These objectives are attained, as well as other objectives which will emerge from the following, thanks to the demulsifying agent according to the invention, characterized in that it consists of an alkylsulfonated compound.

 According to a particular characteristic of the invention, said compound is sodium dioctylsulfosuccinate.

 The invention also relates to a demulsifying composition comprising said alkyl sulfonated compound, in the presence of a solvent, and an alkoxylated phenyl oxy resin, the ratio in the mixture, alkyl sulfonated compound / oxy-alkylated phenolic resin being between 1/0 and 1/9 (parts by weight).

 Sodium dioctylsulfosuccinate, as used in the context of the present invention, is a compound marketed in different formulations used to give solid materials, for example those contained in drilling muds, a certain character. hydrophilic, so that they readily disperse in the aqueous phase.

Traditionally, this compound has been used in seeking to obtain more stable dispersions and more particularly emulsions. The invention thus has the merit of having found, surprisingly, that this compound has, separately or mixed with other constituents, an unexpected demulsifying effect, having regard to its conventional use,
This compound is found commercially in the form of a viscous liquid solution capable of being mixed with the compound according to the invention.

 The oxyalkylated phenolic resins according to the invention have already been used in a conventional manner, as demulsifiers, separately or in combination with other compounds. These resins, and combinations thereof, are in no way suitable for treating dispersions of the solids content to which the invention refers.

It has now been found that these resins can, in the formulation according to the invention, have a strong destabilizing effect, even vis-à-vis emulsions having a high solids content.

The preferred phenolic resins in the context of the invention are, in particular, butylphenolic resins modified with ethylene oxides and propylene oxides
These resins are found commercially, for example in the form of low melting solids, or rather viscous liquids.

 The solvent used in the context of the invention is practically a support for the other components.

As examples of suitable solvents within the scope of the invention, mention should be made of mixtures of aromatic and polyaromatic compounds, aromatic solvents such as benzene, toluene and xylene, alcohols such as alcohol isopropyl, etc.

The demulsifying agent according to the invention can be a pure compound (which can generally be dissolved in emulsions) or a mixture
The phenolic sulfonresin compound ratio of the composition according to the invention is between 1/0 and 1/9 parts by weight of ## preferably, said mixture comprises -72-t% by weight of the sulfonated compound and 6% by weight of the resins phenolic, the remainder being the solvent.

The composition is practically a clear liquid which can easily mix in the dispersion to be treated.

 In no way limiting, it seems that the demulsifying composition according to the invention, and in particular the active agent which it contains, acts as a powerful surfactant, capable of reducing the tensions at the interface between the liquid and solid phases. The treatment breaks the electrostatic chemical bonds between the solid matters and the liquid phases and the totality of the solid surfaces strongly repels liquids. The wettability, migration and / or dissolution of solid materials in the dispersed phase, or vice versa of the excess of reagents dispersed on the surfaces of solid materials, are thus increased.

The demulsifying composition according to the invention acts according to two modes of action
1. - The elimination of solid particles from the interface between the two phases of the emulsion is increased, and these particles precipitate inside the droplets of the dispersed phase; the barrier of emulsifiers preventing the dispersed phase from being coalescing is thus broken.

 2. - The barrier of surface-active agents enveloping the droplets of the dispersed phase is removed and the coalescence of the droplets is accelerated.

 This mechanism of action makes it possible to obtain the separation of the two phases, sometimes immediately, unlike conventional demulsifying agents which sometimes present very long separation times, or do not act entirely, when the emulsions have a high solids content.

 Alone or in a mixture, the demulsifying agent according to the invention acts at a dose of between 10 and 1,000 parts per million, preferably between 500 and 5,000 parts per million, relating to the total amount of the emulsion to be treated . The dosage is most of the time influenced by the stage of "washing" the emulsion with water, the heating and stirring of the emulsion, and by its stability.

 The treatment of the emulsions with the composition according to the invention makes it possible to obtain the following phases an oily phase with a water content of less than 0.1 to 3% by volume; this phase can be reused, for example to feed fractionation columns, or else burn it easily; an aqueous phase with a very low oil content (approximately 0.03% by volume), which can conventionally be treated as wastewater, or better reuse it in the upstream stages (washing products) of the process; and a muddy phase with a high concentration of solid matter (about 20 to 50% by volume), which can be removed or subjected to a subsequent mechanical treatment (for example, centrifuging).

 It is, of course, possible to apply the invention to all emulsions of water type. In oil containing any type of stabilizing agent in any proportion. Thus, emulsions containing immiscible compounds of any type in the liquid phase and in the presence of different types of stabilizing agents, or in the absence thereof, can be treated.

 We will now give a nonlimiting example of treatment of a water-in-oil type emulsion, with a high solids content, with a conventional demulsifying composition (composition A) and the composition according to the invention (composition B). .

 The comparison of the results of this example makes it possible to observe that the composition according to the invention separates the emulsified phases, unlike the conventional composition which does not exhibit separation under the same conditions.

 The emulsion to be treated comprises refinery rejects containing approximately 30% by volume of oily type hydrocarbons dispersed in 65% of an aqueous phase, in the presence of 5 t by volume of solid materials (essentially, iron compounds and aluminum, naphthenic resins, aphaltenes, surfactants, colloidal silica).

The eyelash is heated to 800C), washed with water and two samples of the emulsion are stirred; they are then added with a demulsifying composition A of known type and with composition B according to the invention, respectively, these compositions having the following formulations
- demulsifying compositions A
Alkoxylated resinous materials in the presence of ethylene oxide-propylene oxide copolymers.

- demulsifying composition B
72% by weight of sodium dioctylsulfosuccinate 6% by weight of oxyalkylated phenolic resin; 22% by weight of TBX solvent.

After processing the examples, the following results are obtained
Composition A Composition B
Dosage 4,000 ppm 4,000 ppm
Duration of emulsion permanence A few days A few hours
Water in oil separated (% by volume) No separation 1 t
tion (emulsion
stable)
Oil in water separated (% by volume) No separation - Some
tion (tens of
stable) ppm
By the duration of permanence of the emulsion is meant the minimum time necessary to obtain satisfactory phase separation.

Claims (18)

 1. demulsifying composition, intended in particular for treating water-in-oil emulsions with a high solids content, characterized in that it comprises a mixture of a sulfonated compound and a phenolic resin compound in the presence of a solvent.  2. Composition according to claim 1 characterized in that the sulfonated compound / phenolic resin ratio is between 1/0 and 1/9 parts by weight.  3. Composition according to claim 1, characterized in that the sulfonated compound is an alkaline dîoctylsufosuccinate.  4. Composition according to all of claims 1 and 3, characterized in that the sulfonated compound is sodium dioctylsulfosuccinate.  5. Composition according to claim 1> characterized in that the phenolic resin is an oxyalkylated phenolic resin.  6. Composition according to claim 1, characterized in that the solvent is chosen from aromatic and polyaromatic compounds such as benzene, toluene and Xylene, and alcohols such as isopropyl alcohol and analogous alcohols.  7. Composition according to claims 1 and 2, characterized in that it comprises a mixture containing 72 t by weight of sodium dioctylsulfosuccinate and 6% by weight of an oxyalkylated resin, in the presence of a solvent.  8. demulsifying agent, intended to enter into the composition according to claim 1, characterized in that said agent is an alkyl-sulfonated compound.  9. Agent according to claim 8, characterized in that it is dissolved in a solvent.  10. Agent according to claim 9, characterized in that the solvent is chosen from aromatic and polyaromatic compounds such as benzene, toluene and xylene, and alcohols such as isopropyl alcohol and analogous alcohols.  11. Agent according to claim 8, characterized in that it comprises an alkaline dioctylsufosuccinate.  12. Agent according to all of claims 8 and 11, characterized in that it is sodium dioctylsulfosuccinate.  13. A method of treating emulsions and dispersants with a high content of solid matter, characterized in that a demulsifying agent is added to the dispersion according to all of claims 8 to 12.  14. A method of treating emulsions and dispersants with a high solids content, characterized in that a demulsifying composition according to all of claims 1 to 7 is added to the dispersion.  -15. Treatment process according to Claim 13, characterized in that 10 to 10,000 ppm of the demulsifying agent are added, referring to the total amount of the emulsion to be treated.  16. Method according to claim 13, characterized in that 500 to 5,000 ppm of the demulsifying agent are added.  17. The method of claim 14, characterized in that quton adds 10 to 10,000 ppm of the - demulsifying composition.  18. Method according to claim 14, characterized in that 500 to 5,000 ppm of the demulsifying composition are added.