SU1657628A1 - Method of thermal and chemical treatment of seam face - Google Patents

Abstract

The invention relates to the oil industry, in particular to methods of thermochemical treatment of the bottomhole formation zone. The purpose of the invention is to increase the degree of heating of the bottomhole formation zone. A metallic magnet and metallic aluminum are pumped into the bottomhole zone at a 2-3 mg aluminum to magnesium ratio. Then hydrochloric acid is pumped through them together with ammonium nitrate, taken in a stoichiometric ratio with the products of the interaction of aluminum with hydrochloric acid. When aluminum reacts with acid, it releases 1.5 times more hydrogen, the decomposition of ammonium nitrate is accompanied by the release of nitric acid and free nitric oxide, which is combined with an equal volume of hydrogen. Since the reaction with aluminum releases more hydrogen, it is also possible to generate more heat. The method allows to increase the increase in oil production by 2-6 times. 1 tab.

Description

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The invention relates to the oil industry, in particular, to methods for the thermochemical treatment of the bottomhole formation zone.

The purpose of the invention is to increase the degree of heating of the bottomhole formation zone.

The method is carried out as follows.

Metallic magnesium and metallic aluminum are pumped into the bottomhole zone at a magnesium to aluminum ratio of 2 to 3. Then hydrochloric acid is pumped through them together with ammonium nitrate, taken in a stoichiometric ratio with the products of the interaction of aluminum with hydrochloric acid.

The reaction proceeds as follows:

Mg + HCUMgCI2 + H2

Al + 3HCI- + AICI3 + 1V2H2

When aluminum reacts with acid, it releases 1.5 times more hydrogen, the decomposition of ammonium nitrate is accompanied by the release of nitric acid and free nitric oxide, which is combined with an equal volume of hydrogen.

12NH4N03 9N2 + 4HN03 + 2NO + H20

2NO + 2H2 N2 + 2H20 + 159 kcal.

Since more H2 is liberated in the reaction with aluminum, it is also possible to generate more heat.

For example, p. 6m hydrochloric acid is prepared at an initial temperature of -293 K (20 ° С) and final -393 K (120 ° С).

The required amount of magnesium and aluminum is calculated by the formulas:

PM VK x fT AI - T "): 6.03

(TK-TH) x100Qx VK x CAI - OmhRm

ate

V4 o

GO

with

where PM, P Ai is the weight of magnesium and aluminum, kg;

TiD.T d | - accordingly, the initial temperature, the target temperature and the onset of the reaction of AI with acid, K;

VK is the volume of acid, m;

Om.O.A - heat released when 1 kg of magnesium and aluminum is dissolved in kcal;

With - heat capacity of acid, cal / gr.grad:

RM - 39.8 kg; .

PAI - 72.3 kg.

If in a given amount of acid to dissolve 500 kg of ammonium nitrate, that final temperature is

 +

YuOOh bh Wed

, 7 ° C.

The calculated amount of metallic magnesium and aluminum is pumped into the bottom zone (or loaded into a container and lowered into the perforation interval), then a hydroacid solution with ammonium nitrate previously dissolved in it is pumped into the formation.

OmhRm + QAIXPAI + QCxPc

0

five

0

The results of the proposed method and the known method tested in wells are summarized in table

The test results showed that the proposed method allows an increase in oil production from wells by 2-6 times as compared with the known method.

Claims (1)

The method of thermochemical treatment of the bottomhole formation zone, which consists in placing metallic magnesium in the bottomhole formation zone with subsequent pumping of hydrochloric acid solution through it, which, in order to increase the degree of preheating of the bottomhole formation zone, together with metallic magnesium Metallic aluminum is placed at a 2: 3 ratio of magnesium to aluminum, and hydrochloric acid is pumped together with ammonium nitrate, taken in a stoichiometric ratio with the products of aluminum with hydrochloric acid. 25