SU1710705A1 - Method for fluid removal from gas well bottomhole - Google Patents

Abstract

The invention relates to the gas and water industry and is intended to remove liquid from gas and gas condensate wells. The purpose of the invention is to simplify the delivery technology of the blowing agent to the bottom and to increase the efficiency of fluid removal. For this purpose, the removed liquid is foamed with a solid foaming agent and carried to the surface by a gas flow. Moreover, the foaming of the liquid to be removed is carried out with a solid foaming composition. The latter consists of a powdered surfactant base and a plasticizing (stabilizing) additive. The ratios of components are as follows, wt%: powdered base 20-80; surfactant additive 10-70; plasticizing (stabilizing) additive 1-15. At the same time, solid surfactants are used as a powder base (for example, KSSB, sulfonol or their mixtures), liquid non-ionic or ionic surfactants and their mixtures are used as surfactants, and CMC, polyvinyl alcohol, polyglycols are used as plasticizing (stabilizing) additives. the density of the composition is higher than the density of the condensate, but lower than the density of water. The composition is administered in amounts. gwe 3-5 kg per 1 m of accumulated liquid. Table 3. (LSIs acquisition refers to oil and gas refining industry. The invention aims to simplify the delivery of a frother to the bottom and increase the efficiency of liquid removal. The method of removing liquid from the bottom of the well includes introducing solid foam-forming surfactant with a density higher than the condensate density , but lower than the density of water in the amount of 3-5 kg / m ^ accumulated on the well side of the liquid.At the same time, a mixture of nonionic and ionic surfactants is used as a solid foaming agent, containing th soluble in the condensate in the form of an additive-ethnic polimerorga- lightweight material such as foam is effected polistirola.Sposob sleduyuschimyub- razom.'Na downhole where formation fluid accumulation has occurred, but by pump- tubing derivatives tOSSP

Description

delivery of solid frother (ON). Since solid software has a density less than the density of water, but greater than the density of the condensate, and water and condensate are immiscible liquids, the solid software will be located at the interface between these liquids and come in contact with both the condensate and water. In this case, the water-soluble surfactants contained in the software will dissolve into the aqueous phase, and the polymer-organic additive will be transferred to the gas condensate.

When gas is bubbled through the aqueous and hydrocarbon phases, they are vigorously stirred, and due to the presence of a surfactant in the mixture, emulsification of the condensate in water and foaming of the emulsion formed. At the same time, the organopolymer material dissolved in the gas condensate, by increasing the viscosity of the liquid in the foam films, contributes to an increase in the stability of the foams and, consequently, to a more efficient removal of it to the surface.

The compositions of the foaming compositions and their technological characteristics in comparison with the known are given in table. 1-3.

Studies of the multiplicity of foams and the efficiency of removal of foamed liquid were carried out according to known methods in a glass column with a porous filter. 50 ml of the test liquid of various mineralization and gas condensate content through which air was bubbled was poured into the glass column. The multiplicity of the foam was estimated by the ratio of the volume of the formed foam to the volume of the foaming liquid after bubbling through the last of a certain amount of air.

The removal efficiency of the liquid was estimated by the amount of VB delivered from the column of liquid for a certain period of time with a constant flow of air to the original volume of the liquid of the column in percent

 Vb

100%.

Uh

Vx

As can be seen from Table 1, the foaming capacity of the liquid to be removed by this method is on average 2.5-3.0 times higher than that known, and the amount of liquid to be removed is 80-90%. while by a known method, the removal of liquid occurs only in low-mineralized liquid that does not contain gas condensate.

Thus, it follows from the results obtained that the use of this method provides effective foaming and removal of liquid from a gas well with a condensate content of up to 50% and mineralization of more than 200 meq / l.

From table 2 it can be seen that even minor additives of foamed polystyrene (0.3-0.7%) reduce the density of the solid foaming agent to the required value (0.87-0.98 g / cm), which is greater than the density of the condensate (0, 75 g / cm), but less than the density of water (1.0 g / cm. At the same time, small additions of it to the formation water (0.3-0.5 g / cm) or 3-5 kg per 1 m of foaming liquid lead to practically

5 its complete removal using this solid surfactant.

The technology for preparing rods from such surfactants is as follows.

In a paddle stirrer load a specified amount of a powdered base (CSAC, sulfonic acid) and the calculated amount of liquid (in the form of a solution or paste) surface-active additives (OP-7, OP-10), as well as plasticizers (CMC, PVA) and tight (OP a) supplements. When the mixture is stirred due to the wetting of the powders with liquid surfactants, the powdered base is watered to the consistency of the pellets and a homogeneous loose

0 mass. The latter is loaded into a mold, formed in the form of rods, which are then dried in a drying cabinet or in air for 8-24 m, after which they are ready for use.

5 As can be seen from the above data, the solid foams produced in this way can be used to effectively foam both fresh and saline water in the presence of an increased content of hydrocarbon condensate.

Thus, the use of this method due to the simplification of the technology of foaming downhole fluids with solid surfactants of a given composition and density ensures, due to effective removal of fluid from the well, high productivity of gas wells and their normal operation.

Claims (1)

Shadow Formula A method of removing liquid from the bottom of a gas well, including the introduction of a solid foaming surfactant at the bottom, characterized by that. what. In order to simplify the delivery technology of the frother to the bottomhole and increase the efficiency of liquid removal, a solid foaming agent is introduced with a density higher than the density of the condensate, but lower than water density in the amount of 3-5 kg per 1 m of accumulated liquid, and the composition of the foaming agent is used as solid foaming agent. , including powdered base, surface-active substances on the basis of myoalkylphenol ether of polyethylene glycol on the basis of polymeric distillate, plasticizing additive and. facilitating the additive in the following co-relation of ingredients, wt.%; Powdered basis20-80 Surfactant based on monoalkylphenol ether of polyethylene glycol based on polymers 10-70 tilta Plasticizing 1-18 additive 0 Lightweight additive 0.3-0.7. Table 1 Comony composition and tviolop “cardiovie characteristics of the foam foaming Juvenile Stew: Loroyuk Technical 75%; OP-1 & 60%: KMTS%; 9OAA in% TB Electric 2 Complications of the hardened foothills and their technological characteristics Table 3