SU1162947A1 - Composition for removing resin-asphaltene and paraffin deposits - Google Patents

Abstract

1. COMPOSITION FOR REMOVAL OF RESISTANT-ASPHALTIC AND PARAFFIN SEDIMENTS, including a hydrocarbon solvent, a surfactant, so that, in order to increase the efficiency of sediment removal, it also contains the quality of the hydrocarbon solvent is a stable condensate in the following ratio of components, wt.%: C-C-Thiospirits 0.8-3.0 (in terms of mercaptan sulfur) Surface active substance 0.1-0.5 Stable condensate Remaining 2. Composition Claim 1, characterized in that it uses lower C -C-alkyl alcohols or their mixtures as surfactants.

Description

ABOUT)

; About 4 h

The invention relates to oil and gas industry and can be used to remove tar-asphaltene and paraffin deposits in production systems, transportation, gas storage and processing, stable hydrocarbon condensate and oil, in particular for cleaning equipment for amine gas cleaning systems.

A known composition for the removal of resinous asphaltene-paraffin deposits containing a hydrocarbon solvent, in particular, isobutylenes dimers and trimers, and surfactants of the type OP-7, OP-10 SP.

The disadvantage of this reagent is its low efficiency, 5 only 40% of deposits are removed, mostly only paraffin deposits and only slightly tar and asphaltenes.

The closest to the proposed technical essence and the achieved result is the composition of the reagent for removing asphaltene-resin-paraffin deposits, containing hydrocarbon solvent - gas gasoline and surfactant G2 j.

A disadvantage of the known composition is that it does not provide sufficient removal efficiency of asphaltene-resin-paraffin deposits, the degree of dissolution of which with this reagent is 61-63%. In addition, gasoline, which is a scarce product, has a high volatility, which complicates its application technology.

The purpose of the invention is to increase the removal efficiency of tar-asphalten and paraffin deposits.

The goal is achieved by the fact that C-Cj-thiospirits are additionally introduced into the composition to remove resinous-asphaltene and paraffin deposits, including hydrocarbon solvent, surface-active substance, and stable condensate is used as hydrocarbon solvent in the following ratio, wt. %:

With - With - Tirospirty

(in terms of

mercaptan

sulfur) 0.8-3.0

Surfactant 0.1-0.5 Stable condensate Else Preferably, lower alkyl alcohols or mixtures thereof are used as surfactants.

The stable hydrocarbon condensate has a boiling point in the range of 40-225 ° C and the following composition, wt.%:

Aromatic

hydrocarbons 15-20 Naphthenic

5 hydrocarbons 32-40. Paraffin

hydrocarbons Remaining Hydrocarbon composition of the condensate, as determined on the chromatograph Tsvet0 100m, is as follows, wt%:

Cz 17,0-20,0 C 4,0-5,0 Cj 18,0-20,0 C, 2 1,5-2,1 C 16,0-19,0, 5-0,8 Cg 19 , 0-20.0 Ci4 0.3-0.4 Se10.0-10.6, 23-0.27, 0-8.0, 1-0.2 Introduction of Cr-C -tipospirtov in the amount of 0.8 -3.0 wt.% (In terms of mercaptan sulfur) contributes to an increase in the dissolving ability of the composition due to the fact that molecules, thiospirds envelop the sediment particles and prevent their coarsening and reverse sedimentation.

5 These alcohols are separated from gas condensates, for example, Orenburg or other fields.

Higher thiols do not have a similar effect, in addition, they are scarce because they are obtained synthetically. Methylthiol (C) is highly volatile, and therefore cannot be used in this composition either.

The presence of aromatic hydrocarbons, along with thiospirits and lower alkyl alcohols or their mixtures, contributes significantly to the dissolving capacity of the composition, especially with regard to resins and asphaltenes.

The use of lower alkyl alcohols as surfactants in this case is due not only to their influence on the increasing dissolving capacity of the composition, but also because they are easily removed from the equipment after washing and do not cause harmful

influences on the operation of equipment, as well as on the fact that they are available, cheap and widely used, such as methanol, in the oil and gas industry in oil and gas production.

The physicochemical properties of the hydrocarbon stable condensate are as follows:

Density, g / cm 0.69-0.725

Pressure of vapor, mm Hg 300-500

Molecular weight 98-100

Surface

nat female, din / cm 26-28

Start temperature

boiling, from 40-45

End temperature

boiling, C 200-225

Viscosity at

SP0.65-0.8

The effectiveness of the composition for removing resinous asphaltene and paraffin deposits is determined in the laboratory by the method of rods, for which the steel rod is dipped into resinous-asphaltene-paraffin deposits melted in the crucible, the composition of which is as follows, in wt.%:

Resinous compounds 39, 4-40.2 Asphaltenes 11.9-12.3 Paraffins Else The rod with sediment is weighed and dissolved with the last circulating solvent, fixing the decrease in weight of the rod with sediment after 30 minutes. After completion of the washing process, after 1 h, the rod is forced out, the residual deposits are dissolved on it, and the content of asphaltenes, resins and paraffins in them is determined.

As a composition for dissolving asphalt, resinous and paraffin deposits, use is made of the formulas given in Table 1. and Nt in p 478 out and paraffin deposits provide the compositions 4,6,8,9, 11-14 with the following ratio of components: SZ-S-TYOSPIRTI (in terms of jrta mercaptan epu); 0.8-3.0PAV0, 1-0.5 Stable condensate Else With the introduction of thiospires in an amount less than 0.8 (compositions 2.5), and surfactants less than 0.1 (compositions 1-3), the effectiveness of the composition decreases. As can be seen from table 2, compounds 4, 6, 8, 9, 11-14 provide the most complete removal of tar-asphaltene and paraffin deposits. Composition 7, giving the same effect as composition 6, requires an increased consumption of lower alkyl alcohols. From a comparison of compositions 8 and 10 it follows that a further increase in co, -. The holding of sulfur compounds (composition 10) gives a very slight increase in the solution to the overall capacity of the composition. The use of OP-7 and OP-Yu as a surfactant (compounds 15 and 16) when flushing gas and condensate processing equipment from tar-asphaltene and paraffin deposits does not give that positive effect, as in the case of using alcohols. Besides, after pstryvka they are difficult to remove remain on the equipment walls and in stagnant zones, which, in turn, can lead to undesirable effects during equipment operation, for example, foaming of aqueous solutions of alkanolamines in the amine gas cleaning system of natural gas onentov. The use of the invention allows, in comparison with limestone, to increase the removal efficiency of tar asphaltene and paraffin deposits from the internal surface of the equipment up to 89%, which will reduce energy consumption with improved conditions for the operation of mass and heat exchange equipment. In addition, the used washing composition after sludge is recycled with stable condensate.

9116294710

The economic effect of using the process to stabilize with a decrease in the proposed invention by only foaming the amine solution during the flushing of a single turn of the system and the performance of the amine gas cleaning unit of new gas will be more than 300 thousand rubles.

Claims (2)

1. COMPOSITION FOR THE REMOVAL OF RESIN-ASPHALTEN AND PARAFFIN DEPOSITS, including a hydrocarbon solvent, a surfactant, and the like, in order to increase the removal efficiency of deposits, it additionally contains Cj-C ^ thioalcohols and, as a hydrocarbon solvent, a stable condensate in the following ratio of components, wt.%: C ₂ -C _& Thiols-alcohols 0.8-3.0 (in terms of mercaptan sulfur) Surfactant Stable Condensate 0.1-0.5 Rest 2. The composition according to claim 1, characterized in that it uses lower C ^ -Cg-alkyl alcohols or mixtures thereof as a surfactant. ... SU,., 1162947