RU2153065C1 - Method for thermochemical treatment of productive formation and combustive and oxidative composition for implementation of the method - Google Patents

Abstract

FIELD: oil and gas production. SUBSTANCE: invention relates to thermochemical intensification of inflow of hydrocarbons from productive formation consisting in injection of combustive and oxidative composition into combustion initiator treatment zone, said composition being based on alkali metal borohydride and methanol or diethyl ether, 5-95%; or alkali, 5-25%; and/or solid isopropylcarborane, 5-40%. Composition for instance contains, wt.%: complex compound of oxalic diamide with nitric acid, 18-36; acetyl salicylate, 4-5; potassium permanganate, 0.01-0.05; isopropylcarborane, 5-15; water, 9-18; and ammonium nitrate, the balance. EFFECT: enhanced treatment efficiency. 8 cl, 1 tbl

Description

 The invention relates to the oil industry, in particular to methods of thermochemical intensification of the influx of hydrocarbons from the reservoir during the production of oil, gas and gas condensate.

 A known method of thermochemical processing of a productive formation, comprising injecting a combustible oxidizing composition (GOS) into the treatment zone containing an aqueous solution of ammonium nitrate (ammonium nitrate), ammonium chloride and / or ammonium hydrogen phosphate, introducing a combustion initiator into the GOS location, as use a powder charge of explosives (BB) (RU 2064576, E 21 B 43/263, 1996). A sufficiently long processing time, the use of explosives and the rather complicated organization of the method limits the possibilities of its use.

 Closest to the proposed one is a method of thermochemical treatment of a productive formation, including the injection of a combustible-oxidative composition into the treatment zone and delivery of a combustion initiator to the treatment zone, which is used as a mixture of aluminum metal and chromium oxide IV (RU 2126084, E 21 B 43/24 02/10/99).

 To implement the known method, a combustible oxidizing composition is used containing a complex compound of urea with nitric acid, a compound containing an acetate group (acetic acid), potassium permanganate, isopropylcarborane, water and ammonium nitrate (ibid.).

 The technical result of the proposed group of inventions is to increase processing efficiency due to the rapid formation of a large amount of hydrogen with high permeability, and by increasing the energy efficiency of the process.

 The technical result is achieved by the fact that in the method of thermochemical treatment of the reservoir, including the injection of a fuel-oxidative composition into the treatment zone and delivery of the combustion initiator to the treatment zone, a composition based on alkali metal borohydride and methanol or diethyl ether in an amount of 5 is used as a combustion initiator 95 wt.%, Or alkali in an amount of 5 to 25 wt.% And / or solid isopropylcarborane in an amount of 5 to 40 wt.%.

 In addition, the delivery of the combustion initiator can be carried out by lowering the sealed container with the combustion initiator into the tubing string by means of a fishing winch and subsequent destruction of the container by exploding a cord torpedo installed along the entire length of the container when the contacts of the cord winch and the power source come into contact when the container is lowered installed in the shoe of the tubing string.

 In addition, the delivery of a combustion initiator composition based on alkali metal borohydride and methanol and / or diethyl ether to the treatment zone can be carried out by injection.

 In this case, the lower part of the tubing string can be preliminarily lowered into the formation treatment zone and the combustible-oxidizing composition, dehydrated hydrocarbon fluid, combustion initiator, and squeezing liquid are pumped into it sequentially, and then the combustible-oxidizing composition is pumped into the treatment zone by forcing it from the specified column and raising the column to the upper level of the fuel-oxidizing composition, dehydrated hydrocarbon fluid is pumped out of it, the specified column is lowered to the middle of the treatment zone atyvaemogo reservoir, then performed download combustion initiator by pumping it out of the column directly to the fuel and the oxidizing composition.

 In addition, when the depth of the formation is less than 1200 m, the treatment zone is isolated by installing packers at a distance of 45-55 m above the perforation zone of the casing.

The technical result is also achieved by the fact that the combustible oxidizing composition for thermochemical treatment of the reservoir containing a complex compound containing nitric acid, a compound containing an acetate group, potassium permanganate, isopropylcarborane, water and ammonium nitrate, as a complex compound containing nitric acid, it contains a complex compound of oxalic acid diamide and nitric acid, and as a compound containing an acetate group, it contains salicylic acid acetic ester slots, in the following ratio of components, wt.%:
The complex compound of oxalic acid diamide and nitric acid - 18-36
Salicylic acid acetic ester - 4 - 5
Potassium Permanganate - 0.01-0.05
Isopropylcarborane - 5-15
Water - 9-18
Ammonium Nitrate - Else
In addition, it may additionally contain, as a moderator, calcium salicylate in an amount of from 0.05 to 1.5 wt.%, And as a stabilizer of combustion, potassium chloride in an amount of from 0.001 to 0.005 wt.%, Sucrose or glucose in an amount from 0.05 to 3 wt.%.

 The use of alkali metal borohydrides in the composition of the combustion initiator leads to the fact that upon contact with water, which is part of the GOS, a large amount of hydrogen is released immediately, which has high penetrating power, which penetrates into the pores and cracks of the well at a high speed, cleans them due to cracking and pyrolysis of asphalt-resinous paraffin-hydrate compounds, promotes the growth of cracks and the creation of new ones. Upon subsequent penetration of the oxidizing gas into these pores, a combustion process is carried out in them. Thus, the release of the main amount of energy occurs precisely in the pores and fractures of the formation, and not in the well itself, which many times increases the efficiency of thermochemical treatment.

 The use of a complex compound of oxalic acid diamide and nitric acid in the composition of GOS, on the one hand, allows to increase the energy output of GOC by replacing urea (urea) with oxamide (oxalic diamide), and on the other hand, ensures the safety of the robot, since the latter binds nitric acid into a stronger complex compound during cooking.

 The use of acetic ester of salicylic acid instead of acetic acid can more effectively eliminate detonation processes during combustion.

 The addition of isopropylcarborane, which is a solid product in the GOS composition, ensures uniformity of the composition that initiates combustion and, accordingly, uniformity of energy release directly in the treated reservoir, and also significantly increases the energy potential of the initiating composition, including the fraction of energy spent on cracking hydrocarbons.

 The proposed method and composition provide for the replacement of explosions in the well with rapid burning (several seconds) without detonation. This time is enough for the formation of cracks in the reservoir, but it is too short to cause damage to the equipment of the well.

 The fuel-oxidative composition is prepared on the surface by mixing the components in the following sequence: water, oxalic acid diamide and concentrated nitric acid (54-68%). In this case, oxalic acid diamide and nitric acid form a complex compound, and nitric acid loses its corrosive properties and does not interact with the material of oil-producing equipment. Then potassium permanganate, isopropylcarborane and ammonium nitrate are added.

 Potassium permanganate passivates the surface of the equipment used, and also increases the heat content of the composition. Isopropylcarborane increases the energy potential of the combustible-oxidative composition, enhances its combustibility and promotes chain combustion processes and stable interaction of components.

 Acetic ester of salicylic acid stabilizes the components of the composition.

 Then, calcium salicylate is introduced into the mixture as a moderator of the combustion reaction, and potassium chloride and sucrose and / or glucose are introduced as a combustion stabilizer.

 The table shows the GOS formulations.

 The method of thermochemical treatment of the reservoir is as follows.

They are pumped into the GOS treatment zone through a tubing string. Then the combustion initiator is delivered to the treatment zone of the formation. A solid or liquid (suspension) composition based on salt hydrides of the type of alkali metal borohydrides (LiBH ₄ , NaBH ₄ , KBH ₄ and others), which can be either in solid or in suspension, is used as a combustion initiator.

In the latter case, suspension compositions based on alkali metal borohydrides and organic solvents are used - diethyl ether (C ₄ H ₁₀ O) or methanol (CH ₃ OH) with a content of borohydride and solvent in a mixture of 5 to 95 wt.% Each.

In the solid composition, alkali metal borohydrides (75-95 wt.%) Are mixed with alkalis NaOH or KOH or others) (5-25 wt.%), Which at the preparatory stage stabilize borohydrides in a humid environment, and in the working process due to exothermic hydrolysis reactions increase the total thermal effect, ensuring the transfer of borohydride in thermal dissociation mode (at 400 ^o C).

 A mixture of alkali metal borohydrides with solid isopropylcarborane (5-40 wt.%), As well as with alkali and solid isopropylcarborane can also be used as a solid combustion initiator.

 The delivery mechanism of the combustion initiator is selected so as not to use an expensive well-logging cable, which is prone to rupture when the container with the combustion initiator is destroyed, and, falling to the bottom of the well, causes an emergency. Both solid and liquid combustion initiators can be delivered in a sealed container using a fishing winch. The destruction of the container with the initiator of combustion is carried out by the explosion of a cord torpedo mounted along the entire length of the container. The explosion is initiated by the contact occurrence during the descent of the container between the contacts of the cord torpedo and the source of electricity (battery) installed in the tubing shoe.

 Liquid combustion initiator can be delivered to the treatment zone by injection. In order to prevent possible deformation of the tubing, the lower part of the tubing string is equipped with aluminum pipes - a shank, the length of which should exceed the perforation interval of the treated formation. The tubing is lowered to the bottom of the perforation interval and sequentially pumped into them in the calculated volumes: GOS, dehydrated hydrocarbon fluid (oil), a combustion initiator and squeezing liquid (for example, produced water). Then the GOS is pumped out of the tubing, and the latter rise to the upper level of the GOS, which is established in the well after pumping from the tubing. After that, dehydrated hydrocarbon fluid is pumped out of the tubing, and the tubing is lowered to the middle of the treated formation, and the combustion initiator is pumped out of them into the GOS medium, after which the rapid combustion reaction begins.

 In contact with water, borohydrides decompose with the release of hydrogen and a large amount of heat. At the first stage of the combustion process, strong heating and pressure increase occur with the formation of an intermediate combustible gas - hydrogen, which penetrates the pores and cracks of the formation and, acting on the formation fluids, contributes to crack formation.

 The second stage begins with the penetration of an oxidizing gas, which penetrates into the pores and cracks with the creation of a combustible pair. Secondary local microexplosions in new fractures, forming cracking centers in the well, bonds form between the fractures and they turn into main ones, increasing the permeability of the formation.

 When processing a productive formation, there is a sharp wave rise (and at a depth of less than 1200-1500 m, an ejection) of a column of fluid filling the well, which is associated with significant energy costs not associated with the treatment of the formation. Due to the possible discharge, the known method is not suitable for productive formations with depths less than 1200 m. To prevent this and a corresponding reduction in the impact directly on the treated formation, the treatment zone is preliminarily isolated by installing a packer at a distance of 45-55 m above the perforation zone, which channels the overwhelming part released energy to the treated formation and removes restrictions on the depth of the treatment zone.

Claims (7)

 1. The method of thermochemical treatment of the reservoir, including the injection into the processing zone of a fuel-oxidative composition and delivery to the processing zone of a combustion initiator, characterized in that as a combustion initiator, a composition based on alkali metal borohydride and methanol or diethyl ether in an amount of 5 - 95 wt.%, or alkali in an amount of 5 to 25 wt.%, and / or solid isopropylcarborane in an amount of 5 to 40 wt.%.  2. The method according to claim 1, characterized in that the delivery of the combustion initiator is carried out by lowering the sealed container with the combustion initiator into the tubing string by means of a fishing winch and subsequent destruction of the container by exploding a cord torpedo installed along the entire length of the container when in contact with the descent of the container of contacts of the cord winch and the source of electricity installed in the shoe of the tubing string string.  3. The method according to claim 1, characterized in that the delivery of the composition of the combustion initiator based on alkali metal borohydride and methanol and / or diethyl ether to the treatment zone is carried out by injection.  4. The method according to claim 3, characterized in that the lower part of the tubing string is preliminarily lowered into the formation treatment zone and the fuel-oxidant composition, dehydrated hydrocarbon fluid, the combustion initiator and the squeezing liquid are pumped into it sequentially, then the fuel is pumped oxidizing composition into the treatment zone by pushing it from the specified column and raising the column to the upper level of the fuel-oxidative composition, dehydrated hydrocarbon fluid is pumped out of it, the specified column is lowered to the middle zone and the treated layer is carried out by injection of combustion initiator pumping it out of the column directly to the fuel and the oxidizing composition.  5. The method according to any one of claims 1 to 4, characterized in that when the depth of the formation is less than 1200 m, the treatment zone is isolated by installing packers at a distance of 45 - 55 m above the perforation zone. 6. Combustion-oxidizing composition for thermochemical treatment of the reservoir containing a complex compound containing nitric acid, a compound containing an acetate group, potassium permanganate, isopropylcarborane, water and ammonium nitrate, characterized in that it is a complex compound containing nitric acid contains a complex compound of oxalic acid diamide and nitric acid, and as a compound containing acetate acid, it contains salicylic acid acetic ester in the following relation shenii, wt.%:
Complex compound of oxalic acid diamide and nitric acid - 18 - 36
Salicylic acid acetic ester - 4 - 5
Potassium Permanganate - 0.01 - 0.05
Isopropylcarborane - 5 - 15
Water - 9 - 18
Ammonium Nitrate - Else
7. The composition according to claim 6, characterized in that it additionally contains calcium salicylate in the amount of 0.05 - 1.5 wt.% As a moderator.  . The composition according to claim 6 or 7, characterized in that it additionally contains as a stabilizer of combustion of potassium chloride in an amount of 0.001 to 0.005 wt. %, sucrose or glucose in an amount of 0.05 to 3 wt.%.  8. The composition according to claim 6 or 7, characterized in that it further comprises, as a combustion stabilizer, potassium chloride in an amount of 0.001 to 0.005 wt.%, Sucrose or glucose in an amount of 0.05 to 3 wt.%

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