RU2591284C1 - Drilling mud for drilling in clay deposits - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to water-based drilling fluids and can be used when drilling oil and gas wells, mainly in drilling unstable swelling of clays and mudstone. Drilling mud contains, wt%: clay powder 5-8; polyelectrolyte “VPK-402” 3-5; amine emulsion “Rosfloc PV” 0.5-2; water is rest.

EFFECT: reduced consumption of polyelectrolyte “VPK-402” and improved structure of rheological and filtration properties of solution.

1 cl, 1 tbl

Description

The invention relates to water-based drilling fluids and can find application in the drilling of oil and gas wells, mainly in the drilling of unstable swelling plastic clays and mudstones.

Inhibiting drilling fluid comprising water, clay powder is known in the art. As a water-soluble polymer, the solution contains a 99M Rosflock cationic coagulant, 6-15 high-colloidal bent powder is used as a clay powder in the solution, Rosflok 2-6 cationic coagulant is a water-soluble polymer, water is the rest (RF patent for the invention No. 2468057 C2, class C09K 8 / 24, 11/27/2012). Known solution has a high filtration rate.

The closest technical solution to the proposed solution is a cationic-inhibiting drilling fluid, including water, clay powder, stabilizer - filter reducing agent, clay inhibitor VPK-402 (RF patent for the invention No. 2492208 C2, class C09K 8/24, 09/10/2013).

The disadvantages of the known composition include the high consumption of VPK-402, unsatisfactory structural and rheological properties, high values of plastic viscosity and filtration rate.

The objective of the invention is to obtain a drilling fluid devoid of these disadvantages.

The technical result, the achievement of which the present invention is directed, is to reduce the consumption of VPK-402 and improve the structural-rheological and filtration parameters of the solution.

The specified technical result is achieved due to the fact that in the composition of the drilling fluid, including water, clay powder and polyelectrolyte VPK-402, the solution contains anionic emulsion Rosflock PV in the following ratio of components, wt. %:

Clay powder 5-8 Polyelectrolyte VPK-402 3-5 Anionic emulsion Rosflock PV 0.5-2 Water rest

If necessary, the drilling fluid is weighted with barite concentrate in an amount of from 5 to 150 parts by weight. per 100 parts by weight solution.

In the proposed drilling fluid can be used bentonite clay powder grades PBMA, PBMB, PBMV, PBMG and PKGN, which is produced, for example, in accordance with TU 2164-004-0013836-2006 "Clay powder". When conducting research on the properties of the solution of the proposed composition, PBMB grade clay powder was used.

The Rosflock PV anionic emulsion provides wellbore stability, drilling fluid stability, maintaining fluid loss at a low level, and allows to control drilling fluid rheology. Rosflock PV minimizes the penetration of the filtrate into potentially productive horizons, and allows you to adjust the rheology of the solution. Rosflock PV is introduced directly into the bentonite dispersion or in the form of an aqueous solution.

The use of VPK-402 as a polyelectrolyte in the solution does not limit the use of other grades of cationic type polymers produced commercially both in Russia and abroad. The content of VPK-402 is given in terms of a commercial product, which is produced in the form of a 25-35% concentration of an aqueous solution, which in terms of dry matter is 0.8-1.7%.

The proposed drilling fluid can be prepared as follows. First, water and clay powder are mixed until it is dissolved, then VPK-402 polyelectrolyte, or Polydadmach of another brand, and Rosflock PV anionic emulsion, and, if necessary, barite weighting agent, are added to the clay suspension.

The invention is illustrated using the table. The table shows the results of studies on the effect of the Rosflock PV anionic emulsion on the technological parameters of drilling fluids. The following notation and abbreviations are adopted in the table: PF — filtration rate (cm ³ ), η _PL — plastic viscosity (MPa · s); τ ₀ - dynamic shear stress (Pa), GR - clay solution.

From the Table it follows that when the content of the VPK-402 polyelectrolyte and Rosflock PV are below 3% and 0.5%, respectively, the filtration rate increases, and the structural-rheological indicators have unacceptably low values (table, p. 3). An increase in the content of VPK-402 polyelectrolyte and Rosflock PV anionic emulsion of more than 5% and 2%, respectively, is ineffective (table, p. 7), since it leads to excessive consumption of VPK-402 polyelectrolyte and Rosflock PV anionic emulsion without decreasing the filtration rate.

Thus, it follows from the Table that the use of Rosflock PV anionic emulsion in combination with VPK-402 polyelectrolyte can significantly reduce the consumption of VPK-402, provides an improvement in the filtration rate and structural-rheological properties (decrease in the viscosity value).

An increase in the density of the drilling fluid is made by the addition of barite in an amount of from 5 to 150 parts by weight. per 100 parts by weight solution.

Clay drilling mud

Claims (2)

1. Drilling fluid, including water, clay powder and VPK-402 polyelectrolyte, characterized in that the solution contains anionic emulsion Rosflock PV in the following ratio of components, wt.%:
Clay powder 5-8 Polyelectrolyte VPK-402 3-5 Anionic emulsion Rosflock PV 0.5-2 Water rest 2. The solution according to p. 1, characterized in that it further comprises a barite concentrate in an amount of from 5 to 150 wt. hours per 100 wt. including solution.