UA23947U - Section torpedo for blast treatment of bed - Google Patents

Abstract

Section torpedo for blas? treatment of bed consists of connected to each other sections in bodies of which charges of cylindrical blocks of retarded explosive substance are placed. In the bodies of sections continuous charges of non-retarded explosive substance are placed.

Description

Description of the invention

The useful model refers to means of processing the formation and is intended for the excitation of production wells. 2 The closest technical solution to the claimed device is a sectional torpedo for explosive treatment of a reservoir, consisting of interconnected sections, in the housings of which are placed charges from cylindrical checkers of phlegmatized explosive |1). The disadvantage of such a sectional torpedo is that, during the explosion, the parameters of the explosive pulse do not match with the parameters characterizing the rock of the treated formation. 70 The task to be solved by the useful model is the creation of a sectional torpedo for the explosive treatment of a formation with the provision of matching the parameters of the explosive pulse with the parameters characterizing the rock of the treated formation.

The technical result expected from the application of the useful model is the expansion of the area of artificial fracturing in the rock near the outcrop zone of the productive reservoir. 12 In order to achieve a technical result from the use of a useful model, solid charges of non-phlegmatized explosives are placed in the hulls of sections of a sectional torpedo.

A useful model is illustrated by the drawing - Fig.

A sectional torpedo for explosive treatment of the formation consists of sections connected to each other by connecting tubes 9, in which sections of the detonating cord are placed to transfer the detonation from one charge to the next. In non-hermetic thin-walled aluminum casings of 5 sections, continuous charges of non-phlegmatized explosive substance b (for example, hexane, octogen) are placed, and in the first section, a hermetic explosive cartridge 7 is placed. The density of non-phlegmatized explosive substance is chosen to ensure the most complete transfer of the energy of the explosive load to the rock of the productive layer , which requires matching the parameters of the explosive pulse with the parameters characterizing the rock of the productive reservoir. It is known |2) that the agreement of the parameters of the explosive impulse and the processed rock with is achieved when the condition is met

RvvO-rpUp, M) cha de rvv and roa - the density of the non-phlegmatized explosive substance and the rock of the productive layer, respectively; Yu « and Ma are the detonation speed of a non-phlegmatized explosive substance and the speed of longitudinal waves in the rock of the productive layer, respectively. The advantage of the sectional torpedo, in the hulls of which are placed solid charges of Me non-phlegmatized explosive substance over the sectional torpedo, in the hulls of which are placed charges composed of s checkers of phlegmatized explosive substance, is that the use of the first torpedo makes it possible to choose

From one or another density of non-phlegmatized explosive substance (for example, for hexane from 1100 to 1600 kg/m 3) to match the parameters of the explosive impulse with the parameters of the rock of the productive layer. The use of a torpedo, which uses pellets of a phlegmatized explosive substance, does not make it possible to match the impulse load parameters with the parameters of the rock of the productive layer, since the pellets of phlegmatized explosive substance have a constant density of 160Okg/m (11. - the Implementation of a useful model is achieved as follows. The required density c of the non-phlegmatized explosive according to the given condition (1). Later, in the well 1 on the "z" geophysical cable 2, a sectional torpedo is lowered into the fluid Z, in the housings 5 sections of which solid charges of the non-phlegmatized explosive 6 with the calculated density are placed, and located in in the first section, the explosive cartridge 7, for the explosive treatment of the productive layer 4. After placing the sectional torpedo in the bottom of the well in the interval of the processed layer using the explosive cartridge 7 and the detonating cord 8, the charges are detonated and the explosive treatment of the layer is carried out. (95) Achievement of the technical result that from the application of a useful model is ensured by matching the parameters of the impulse load with the rock parameters of the treated formation, as a result of which the area of artificial fracture in the near-outbreak zone of the formation, as shown by the results of experimental studies, t" 20 increases by 20...2596, which increases the effectiveness of the explosive layer processing. -h The drawing (Fig.) shows the layout of the sectional torpedo in the well. The following are marked on the drawing: 1 - well; 2 - geophysical cable; C - liquid; 4 - productive layer; 5 - leaky thin-walled aluminum case; 6 - solid charge of non-phlegmatized explosive substance; 7 - hermetic explosive cartridge; 8 - detonating cord; 9 - connecting tube. 59 This application for a declaratory patent of Ukraine for a utility model was partially prepared within the framework of the project Мо3138 of the Science and Technology Center in Ukraine (STCU).

Sources of information: 1. New technology of intensification of oil and natural gas production using explosion energy / A.V.

Mykhalyuk, Y.I. Voytenko, V.M. Ligotskyi et al. - Oil and gas industry, 1977, Mo4, pp. 24-26. 60 2. Mosynets V.N. Crushing and seismic action of an explosion in rocks.-M.: Nedra, 1976, p. 38-39.

Claims (1)

The formula of the invention is a Sectional torpedo for explosive processing of a reservoir, consisting of interconnected sections, in the housings of which are placed charges from cylindrical checkers of phlegmatized explosive substance, which is distinguished by the fact that solid charges of non-phlegmatized explosive substance are placed in the housings of the sections. z o cha « (o) (ze) s - with I.Y and? ime) (95) se) iz 50 what s 60 b5