SU1073274A1 - Hydrocarbon-base drilling mud - Google Patents

Abstract

HYDROCARBON BORING SOLUTION containing diesel fuel, quicklime, sodium alkyl benzene sulfonate, highly oxidized bitumen and oxidized petrolatum. characterized in that, in order to reduce the viscosity and structural and mechanical properties of the solution while increasing its resistance to hydrogen sulfide, the solution additionally contains clay, a condensation product of tall oil and triethanolamine (emult and highly dispersed iron or manganese oxides in the following ratio of components, May, %: Highly oxidized bitumen 5.0-14.0 Lime extinguish lime 8,, 0 Alkyl benzene sulphonate sodium 0.5-1.0 Oxidized petrolatum P, 5-1.0 (L Clay 3.5-7.0 Talp oil condensation product and triethanolamine (emultal) 0.05 -0,15 Finely dispersed iron or manganese oxides 5,0-15,0 Diesel, fuel Else with tc 4

Description

The invention of gas turbulence to oil and gas production, the drilling of unstable rocks, the opening of productive horizons, including the washing of wells under conditions of hydrogen sulfide aggression.

It is known to use invert emulsions when drilling hydrogen sulfide-containing horizons Cl.

The disadvantages of inverse emulsion drilling fluids are the likelihood of the chemical interaction of hydrogen sulphide with an emulsifier and a change in the solubility of the emulsifier (hydrogen sulphide lowers the pH), which leads to the possibility of a perceptible deterioration of the rheological properties of the emulsions until the phases are reversed.

Closest to the invention is a limestone-bitumen solution C2 hydrocarbon-based (IBR), containing, in May.%:

Highly oxidized

bitumen15-25

Nehashhena lime 20-35

Sodium alkylbenzenesulfonate 0.5-1.0

Oxidized petrolatum0, 5-1.0

Diesel Fuel Else When Needed, drilling mud can be thinned with barite to a density of 2000-2300 kg / m.

The disadvantages of IBR are the high consumption of bitumen and lime, which determines the increased rheological properties of the system, as well as strong structuring over time. The strength of the IBR structure in 24 hours can reach 100 Pa. In addition, hydrogen sulfide entering the IBR leads to a certain increase in the rheological properties (structural-mechanical and viscosity characteristics), their regulation requires additional consumption of reagents and leads to an increase in volume, i.e. As far as drilling mud production is concerned, IBR, although it possesses a significant capacity with respect to hydrogen sulfide, but this forms easily hydrolyzed calcium sulfides, which can themselves be a source of hydrogen sulfide.

The aim of the invention is to reduce the viscosity and structural and mechanical properties of the solution while increasing its resistance to the action of hydrogen sulfide.

The goal is achieved in that a hydrocarbon-based drilling fluid containing diesel fuel, quicklime, sodium alkyl benzene sulfonate, highly oxidized bitumen and oxidized petrolatum, additionally contains clay, a condensation product of tall oil and triethanolamine (emult) and highly dispersed iron oxides

or manganese in the following ratio of components, wt.%:

Highly oxidized

bitumen 5,0-14,0

Negashhena lime 8.0-16.0

Sodium llkylbenzenesulfonate 0.5-1.0

Oxidized petrolatum0, 5-1.0

Clay3.5-7.0

Condensation product

tall oil

and triethanolamine

(emultal; 0.05-0.15

High dispersion

iron oxides or

manganese5.0-15.0

Diesel Fuel Else

The following neutralizing agents can be used as highly dispersed iron or manganese oxides.

HLS is a waste from the production of aminotoluenes by reducing nitrotoluenes in the presence of iron shavings in an acidic medium (seed 30% HCl) followed by neutralization with alkali (Nudn, Ca (OH) 2) and removing the target product aminotoluene with an acute pair. Waste production after filtration and drying has the following composition, wt.%:

Oxide of iron oxide 95-96

Condensed

aromatic

amines (resin)

Up to 4.0

2-Aminotolurl Not more than 0.25

Impurity Traces

same-7 - waste metallurgical production contains up to 95% Fe-O (TU 212321.001 /.,

LIC - natural magnetite, subjected to additional grinding

VNIITB-1 contains MpOg, KON. Reagent neutralizers are fine powders with a particle size of 1.2-100 µm and a specific surface area of 300-600.

The condensation product of tall oil and triethanolamine is the esters of oleic, linolenic, linolenic, resin acids and triethanolamine, the trade name is emult, TU No. 6-14-1035-79 Clay is a bentonite. New unmodified clay powder (TU-39-043-74). If necessary, the drilling fluid may be reduced by barite. Up to a density of 2000-2300 kg / m

The preparation of the drilling fluid is carried out in the following order.

At 2/3 of the prescription volume of diesel fuel, with stirring, bitumen, lime and water are successively introduced (estimated amount of lime slaking). As a result of the lime slaking reaction, the mixture is heated

 causes deep dispersion of bitumen, saponification of acid components of hydrocarbon components and hydrophobization of calcium hydroxide and clay particles by asphalt-tar substances. At the end of the lime slaking reaction (complete binding of water to the system, a bentonite powder is injected and treated with sodium alkyl sulfonate (sulfonic acid) and oxidized petrolatum, the required amounts of reagent-neutralizer and barite are added to the required density, and emultal is dispersed in the remaining quantity of neutralizer and barite to the required density, and emultal is dispersed in the remaining amount of neutralizer and barite to the required density, as well as emultal dispersed in the remaining quantity of neutralizing agent and barite The fuel mixture is thoroughly mixed and brought to a uniform state.

Example. 10 ml of highly oxidized bitumen, 11.7 g of calcium oxide are injected into diesel fuel. and 4.3 ml of water and stirred until the lime is completely slaked. Then, 7.0 g of clay is introduced into the system and, after thorough mixing, it is treated with 1.0 g of sulfonol and 1.0 g of oxidized petrolatum. Next, 10.0 g of the HLS reagent-neutralizer and

0.1 g of emultal dispersed in 65.0 ml of diesel fuel, after which the solution is stirred for at least 1 hour, and it is ready for use.

In tab. 1 shows the different formulations of the proposed and known drilling fluids.

Indicators of the properties of various compositions are given in Table 2, where

p -1 is the density, F is filtration, gpl viscosity, o the limiting dynamic shear stress,

0 is the ultimate static shear stress.

From tab. 1 and 2 it can be seen that going beyond the indicated concentrations of clay, emultal and hydrogen sulfide neutralizing agent reagent leads to deterioration of the rheological properties - and

sedimentation stability of the solution. The proposed drilling fluid (No. 8-11) has lower viscosity and structural and mechanical properties and a relatively low maximum structure strength () compared to the prototype (6-7).

  T „d 5-jp, iLUja-J

A decrease in the concentration of bitumen and lime without the introduction of other structurant leads to a loss of sedimentation stability of the solution (compounds 14 and 15),

To preserve the sedimentation stability of drilling mud with smaller amounts than lime and bitumen contained in IBR with improved rheology, bentonite clay is additionally introduced, which is well dispersed under the action of the asphalt resin composition of the highly oxidized bitumen and was dispersed by the X-ray diffraction analysis, and it was dispersed and dispersed in a thin layer of high-oxidized bitumen. c1рр 6-12 / и.), fulfilled the role of an active filler.

The role of the emultal is to further modify (hydrophobization J of these components.

In addition, the hydrogen sulfide neutralizing agent also fulfills its direct purpose, compensating for the reduction in the hydrogen sulfide binding capacity of the drilling fluid and for reducing the concentration of bitumen and lime.

Thus, it is a composition containing clay, a reagent-neutralizer and an emult that is introduced into lime-bitumen systems, which makes it possible to obtain a drilling fluid with improved rheological characteristics, increased binding ability and resistance to the action of hydrogen sulfide.

Table 3 shows the results showing the effect of hydrogen sulfide on the properties of the proposed solution and the prototype.

From tab. 1-3, the present drilling fluid, compared with the IBR, has lower viscosity and structural-mechanical properties with high resistance to hydrogen sulfide and significantly lower concentrations of bitumen and lime.

Corrosion tests with drilling fluids No. 8-11 show that they prevent steel formations (steel L, when loaded with fire O, 8-0, 9 (erasr and constant transmission of sulfide cracking through hydrogen sulphide solution).

In this drilling mud, the rheological and filtration properties are governed not only by the ratio of aromatic and paraffin hydrocarbons in the dispersion medium and the change in the degree of solvation of colloidal-dispersed particles of asphaltenes, but also due to the presence of finely dispersed fillers - clays and neutralizing reagents, as well as surfactant emultal

T a

l and c. a

1 G1-, 1

13,930

8.5

14 1702

12.0 15 1700 10.0

When ut desired barite falls.

 Due to the high viscosity of the drilling fluid, it was not possible to determine its parameters on ven-3M and CHC-2 instruments.

Continuation of table 2

3-4

15.0

(prototype) 1695

35

28

430

8 strong smell hjjs

Claims (2)

A HYDROCARBON DRILLING DRILL containing diesel fuel, quicklime, sodium alkylbenzenesulfonate, highly oxidized bitumen and oxidized petrolatum, 5.0-14.0 8.0-16.0 0.5-1.0 0.5-1.0 3,5-7,0 characterized in that, in order to reduce the viscosity and structural-mechanical properties of the solution while increasing its resistance to hydrogen sulfide, the solution additionally contains clay, a condensation product of tall oil and triethanolamine (emulsion) and highly dispersed oxides of iron or manganese in the following ratio of components, May.%: Highly Oxidized Bitumen Quicklime Sodium Alkylbenzenesulfonate. Oxidized Clay Petrolatum Condensation product of tall oil and triethanolamine (emulsion) Fine iron or manganese oxides Diesel, fuel SU, .., 1073274 0.05-0.15 5.0-15.0 Rest 15-25 .20-35 0.5-1.0 0.5-1.0 The rest of the drill