RU2071551C1 - Liquid for damping wells - Google Patents

Abstract

FIELD: oil industry. SUBSTANCE: as a liquid for damping, intermediate emulsion layer is used. It is formed at oil development and has the following parameters: density, not lower than 950 kg/cu.m; viscosity, 210-250 cSt at 20 C with content of dispersed phase 40-45%, and disperse medium 50-55%, admixtures up to 1%. EFFECT: higher efficiency. 1 tbl

Description

 Known hydrophobic emulsion for killing wells containing water, oil, emulsion and oxidized petrolatum (see A.S. USSR N 570626, class C 09 K 7/20, 1971).

 The disadvantage of this hydrophobic emulsion is the complexity of its preparation and high cost. In addition, the well-known emulsion is highly carbonated, which in reservoir conditions leads to a sharp decrease in its density and subsequent flowing of the well.

 Closest to the proposed technical solution for the technical nature and purpose is a liquid for killing wells containing oil, water, emulsifier (see A.S. USSR N 234285, class C 09 K 7/06, 1967).

However, this known liquid has the following disadvantages:
high cost due to multicomponent;
difficulty in cooking (requires special settings for cooking);
emulsifiers used in the composition have a sharp, unpleasant odor, which creates difficulties for staff;
the need to use weighting materials for killing wells with high reservoir pressure;
the use of a weighting agent in the killing fluid leads to its gradual accumulation at the bottom.

 The present invention solves the problem of simplifying and cheapening the technology of preparing fluid for killing wells and reduce costs.

 An additional objective of the invention is the disposal of the waste from the oil refining process and the prevention of environmental pollution.

 The problem is achieved in that as a fluid for killing wells, an intermediate emulsion layer is used, which is formed in the process of oil preparation.

 An intermediate emulsion layer (hereinafter referred to as the “industrial layer”) is formed in oil treatment plants. The interlayer is a reverse emulsion (water in oil), is very stable and difficult to break.

The industrial layer can have, for example, the following parameters:
Density 985 mg / m ³
The volume of the dispersed phase (waste water from a thermochemical installation) 40-45%
The volume of the dispersed medium is 50-55%
Impurities 0.25 wt.

Viscosity 210-250 cSt at 20 ^o C
The industrial layer formed at the oil treatment plants has a negative effect on the entire oil preparation process, therefore it is removed from the unit and dumped into barns, which leads to environmental pollution.

 Neither from the patent nor from the scientific and technical literature do we know the use of the industrial layer as a liquid for killing wells, which allows us to conclude that the proposed technical solution has novelty and inventive step.

All known killing fluids can be divided into three groups:
1. Pure solutions of mineral salts.

 2. Suspensions (solutions of mineral salts + weighting agent + polymer additive + special. Additive).

 3. Emulsions (oil + solutions of mineral salts additives).

 Killing fluids of the first and second groups during underground repair of wells lead to a significant decrease in permeability of the bottom-hole formation zone and, as a result, to a decrease in well production. The well flow rate after underground repair using such a fluid is restored to its original level over a long period of time, and sometimes does not reach it.

 Killing fluids of the third group are difficult to prepare, they consist of expensive components that are not always optimally adapted to the specific physicochemical characteristics of the rocks of the bottom-hole zone of the reservoir and produced fluids.

 The industrial layer consists of the production components of a particular field and natural emulsifiers, therefore it is ideally adapted to the productive formations of this field. As it turned out unexpectedly, the industrial layer containing, along with other substances and mechanical impurities, not only does not worsen the reservoir properties of the formation, but also allows in some cases to reduce the water cut of the products produced from the well, while drastically reducing the well development time.

 Under production conditions, during underground repair work, the industrial layer is injected into the perforated part of the wellbore with partial blowing into the bottomhole formation zone.

 Then the upper part of the wellbore is filled with a solution of mineral salts of appropriate density.

 The industrial layer proposed as a liquid for killing wells was tested under field conditions at six wells of the Chernushkaneft NGDU. The technological parameters of the wells, for the repair of which the industrial layer was used as a killing fluid and the known killing fluid of a solution of mineral salts, are given in the table below.

Based on the test results of the industrial layer as a liquid for killing wells, we can conclude:
well development time after repair is reduced by 45-70%
in two wells with significant water cut, even an increase in oil production was noted, and this phenomenon continued for a long time of 73-81 days.

 In addition, due to the use of killing the industrial layer as a liquid, the costs of preparing such a liquid are eliminated, and therefore reduce the cost of repair work. Also, the problem of the disposal of oil refinery waste is solved and the environment is protected from its harmful effects.

Claims (1)

The use of an intermediate emulsion layer formed during field preparation of oil and having the following parameters: density not lower than 950 kg / m ³ , viscosity 210 250 cst at 20 ^o With a content of a dispersed phase of 40 45% and a dispersion medium of 50 55% of impurities up to 1% in quality of fluid for killing a well.

Images