UA90639U - Section torpedo for explosive treatment of productive bed - Google Patents

Abstract

A section torpedo for blast treatment of productive bed comprises sections connected to each other, in the bodies of those continuous charges of non-retarded explosive are placed. Blast firing one with respect to another takes place with delay in time.

Description

The useful model belongs to the reservoir processing tools and is intended for the excitation of production wells.

The closest technical solution to the claimed device is a sectional torpedo for explosive treatment of a formation, consisting of interconnected sections, in the housings of which solid charges of non-phlegmatized explosive substance are placed |1). The disadvantage of such a sectional torpedo is that in the process of explosion, the creation of a stressed state of high unevenness in the reservoir rock is not ensured, which reduces the efficiency of using the torpedo to increase the flow rate of treated wells.

The problem to be solved by a useful model is the development of a torpedo for the explosive treatment of a productive reservoir, in the process of detonation of which ensures the creation of a highly uneven stress state in the reservoir rock, which is accompanied by the densification of the reservoir rock.

The technical result expected from the application of the useful model is an increase in the efficiency of blasting of production wells, which is accompanied by an increase in their throughput.

To achieve a technical result from the application of a useful model, solid charges of non-phlegmatized explosives are placed in the casings of the sections of the sectional torpedo, the detonation of which occurs one relative to the other with a time delay, which is implemented by a segment of the detonation cord, the length of which should ensure the creation of a high-uniformity stress state in the rock of the productive layer in the process of detonating a sectional torpedo.

A useful model is illustrated by a drawing.

A sectional torpedo for explosive processing of a productive layer consists of sections, in the housings 7 of which are placed solid charges of non-phlegmatized explosive substance C (for example, hexane, octogen) and a segment of the detonating cord 6 for transferring detonation from one charge to another. In the first section, a hermetic explosive cartridge 2 is placed.

The uneven nature of the load in the rock of the productive layer can be created by detonating the sectional torpedo charges one relative to the other with a time delay.

With such an interaction of charges, there is a superposition of explosive waves with creation

From an uneven stress state, which is accompanied by loosening of the rock of the productive layer.

The load unevenness indicator c is determined by the expression |21 57 obego (1) where Se | Ug - the smallest and largest principal stresses, respectively.

Achieving a high unevenness of the stress state in the range of 0.05-0.26 (for each type of reservoir rock, its own unevenness is optimal) is created by detonating the sectional torpedo charges one relative to the other with a time delay of (0.25...0, 53Й, where и is the time of excess pressure during the explosion of one charge |З, and is provided by a section of the detonating cord of a certain length.

For example, for a sectional torpedo that has two continuous charges of non-phlegmatized hexane with a delay in the detonation time of one charge relative to the other by 0.351, the length of the segment Y of the detonating cord is

Iii -93 "M (where M is the detonation speed of the detonating cord.

The time of excess pressure during the explosion of one charge in solid rocks is calculated according to Vau and where U is the mass of one charge.

The implementation of a useful model is achieved as follows.

According to formula (3), the time of excess pressure during the explosion of one charge is determined.

For example, with a weight of one charge of 3.0 kg k-330/2000-725-103 s

According to formula (2), the required length of the detonating cord segment is determined. At the detonation speed of the detonating cord M - 6500 m/s |41

BB I -0.35.725.107.6500-165 in,

In the future, a sectional torpedo is lowered into the well on the geophysical cable 9, in which solid charges of non-phlegmatized explosive substance C, a detonating cartridge 2 and a section of the detonating cord 6 of a certain length are placed. After placing the sectional torpedo in the well in the interval of the productive layer using a detonating cartridge 2 and a detonating cord 6 of length I, the charges are detonated with a time delay relative to each other and blasting is carried out with the creation of an uneven stress state of high unevenness in the layer rock.

Achieving the technical result from the application of a useful model is ensured by the loosening of the massif, which is accompanied by the improvement of the filtration characteristics of the rock in the near-outlet zone of the formation, as a result of which the efficiency of explosive treatment of the formation increases and, as the results of industrial tests show, the output of production wells increases for oil up to 2 times , by gas - up to 2-10 times (51.

The drawing (Fig.) shows the diagram of a sectional torpedo. The drawing shows: 1 - head; 2 - explosive cartridge; C - solid charge of non-phlegmatized explosive substance; 4 - connection of sections; 5 - rod; 6 - detonating cord; 7 - body; 8 - hole; 9 - geophysical cable.

Sources of information: 1. Pat. on utility model 23947 Ukraine, IPC (2007) E21B 43/00. Sectional torpedo for explosive formation formation / V.A. Danylenko, V.P. Nagornyi, L.O. Volgin, M.G. Denisenko. - Application 14.02.07. - Publ. 11.06.07. Bul. Mo 8, - From the village 2. Mykhalyuk A.V. Rock formations under uneven dynamic loads. - Kyiv: Nauk, dumka, 1980. - pp. 23, 97. 3. Mykhalyuk A.V. Torpedoing and impulse hydraulic fracturing of formations. - Kyiv: Nauk. Dumka, 1986. - P. 125. 4. Kutuzov B.N. Explode things. - M.: Nedra, 1980. - P. 178. 5. V.P. Nagornyi, I.I. Denysyuk. Technologies of intensification of hydrocarbon production. - K.: Esse, 2013. - b. 250.

Claims (2)

USEFUL MODEL FORMULA 1. A sectional torpedo for the explosive treatment of a productive layer, consisting of interconnected sections, in the housings of which are placed solid charges of non-phlegmatized explosive substance, which is distinguished by the fact that the detonation of the charges relative to each other occurs with a 30-minute delay. 2. Sectional torpedo according to claim 1, which differs in that the delay in the time of detonation of one charge relative to another is realized by a segment of the detonating cord, the length of which should ensure the creation of a high-uniformity state of tension in the rock of the productive layer during the detonation of the sectional torpedo.