RU2162201C1 - Method of charging inclined and horizontal wells (versions) - Google Patents

Abstract

FIELD: opencast mining of minerals. SUBSTANCE: method of charging inclined and horizontal wells sealed by film hoses includes pouring explosion-proof components forming explosive agent. Hose is brought home in well under action of flexible cable, rod or band forced into well together with hose or converting the hose into flexible band by folding it in heated state longitudinal and compressing the folds, thus obtaining multi-layer band forced home in well without any additional devices. After pouring the explosive components in horizontal well forming explosive charge over entire length of well, disk provided with rods over its edges if forced into well till complete filling of hose with liquid explosive over entire section of well and space thus formed is filled with stemming. EFFECT: enhanced safety of charging process. 5 cl, 1 dwg

Description

 The invention relates to the mining industry and is intended for loading deviated and horizontal wells with liquid explosives (BB) in open pit mining.

 The prototype of the invention is the loading of vertical wells containing a polyethylene sleeve by pouring the liquid components of explosives, dosed separately [1].

 The disadvantages of the prototype: when loading wells by pouring diazotetraoxide and liquid petroleum products forming the solution, which is superior to nitroglycerin in terms of sensitivity to mechanical stresses, loading vertical wells will not be feasible, since a liquid jet impact from a height of 15-20 m on the surface of such an explosive may cause an explosion; the description of the prototype does not contain safety measures necessary when handling components emitting toxic gases and vapors.

 A sleeve of elastic film material with a load at its end can only be lowered into a vertical well. To load deviated and horizontal wells, the sleeve must be sent in other ways.

 The known dispatching of a sleeve into a well by a charging hose placed inside a sleeve assembled into corrugations [2] is not applicable for liquid explosives based on toxic components - the auxiliary body used to perform the operation should be placed outside the sleeve.

 When charging contour blasting holes with charges in the form of a garland of cartridges tied to a detonating cord, wooden battens are used, connecting them together with a nail without a hat driven into the end of the next battens [3]. The laboriousness of the method, which cannot be mechanized, is obvious, since the auxiliary body for feeding the sleeve into the well must be flexible and at the same time flexible so that it can be wound on a reel in the form of a coil and wound off from it when the sleeve is sent.

 An object of the invention is to develop a safe technology for loading toxic components of explosives of deviated and horizontal wells.

 The technical result is achieved by the fact that when loading deviated and horizontal wells, a sleeve of film material is sent to the well under the influence of an elastic cable or tape, which is advanced into the well with the sleeve, or a multiple-folded sleeve is used that is converted into an elastic tape sent to the well without auxiliary devices . When components of explosives are poured into the sleeve, an isolated exhaust of toxic gases is carried out, directing them to a variable-capacity tank or to a neutralization apparatus.

 The scheme of the method is presented in figures 1-7, where in FIG. 1 is a diagram of the end of a sleeve with a tape and a cowl; FIG. 2 - a sleeve folded in half, FIG. 3 is a diagram of a four fold folded sleeve; FIG. 4 is a diagram of the supply of the sleeve, wound from the driven coil, and sending the sleeve into the well under the influence of an elastic body, wound from the leading coil; FIG. 5 is a diagram of loading a well with the liquid components of explosives and an isolated exhaust gas, FIG. 6 is a diagram of a charged well; FIG. 7 is a diagram of loading a horizontal well.

 The following notation is used in the drawing: 1 - sleeve, 2 - elastic tape, 3 - cowling mounted on the end of sleeve 1 and ribbons 2, 4 - reel with sleeve 1, 5 - coil with elastic tape 2, 6 - well, 7 - detachable a casing of non-stretching transparent material, fastened into a cylinder, passing into a cone, with a strip of sticky layer; 8 - pipe with a tap for feeding diazotetraoxide, 9 - pipe with a tap for supplying liquid petroleum, 10 - pipe for insulated gas removal, 11 - liquid explosive, 12 - filling from casing material, 13 - water casing in a sleeve of film material, 14 - the ends of the detonating cords or waveguide initiation of the Nonel system.

 With a well diameter of 200 mm, its circumference is 628 mm. With an excess of 5%, the circumference of the sleeve made of polyethylene will be 660 mm, and the width of the tape from twice the folded sleeve (Fig. 2) - 330 mm, the width of the four-fold sleeve (Fig. 3) - 160 mm. If the sleeve is made of a polyamide film, its diameter may be equal to the diameter of the well and may even be slightly smaller, since the polyamide film is easily expanded and under pressure of a liquid explosive will be pressed to the surface of the well.

 The ribbon sleeve in FIG. 2 is formed during its hot formation by extrusion of a polymer melt from an annular die. After exiting the die, the film surface is cooled by supplying cold air, which prevents the film from sticking together, and a sleeve in the form of a flat ribbon is wound on a reel. The still-cooled film with a cooled surface is folded again before winding onto the reel - and a four-fold film will be obtained (Fig. 3), and this form will be preserved by the thermoplastic material. The foregoing is for a sleeve made of a polyethylene film 200 microns thick. With a polyamide film thickness of 80-120 microns, it can once again be complicated to obtain a tape with a width of 80 mm - in this example.

 Repeatedly (in 4-8 layers) a folded sleeve with the formation of an elastic tape can be made at a plastic processing plant. In the absence of such sleeves at the mining enterprise, a sleeve in the form of a double-folded tape can be obtained at the place of its use - by fastening the edges of a double-folded tape with short segments of adhesive tape with sticky layers on a paper basis - so that when filling the sleeve with components of a liquid explosive, these weak fastenings destroyed. The sleeve in the intervals between the fastenings of its edges, located at a distance of about 300 mm, due to the elasticity of the fastened tape will take the form of gutters, but at the same time it will acquire the ability to resist longitudinal bending, sufficient for sending into the well without the use of auxiliary elastic elements.

 The following can be used as auxiliary elastic elements for sending the sleeves into the borehole in the initial (without multiple bends) state: elastic rods of circular cross section, for example, a sewer cable made of metal wires of increased length, an elastic rod of circular cross section made of plastic or rubber, and a cable with rubber or plastic isolation. All of these elements are used for deviated wells, after charging which the elements are removed for repeated reuse. An elastic element in the form of a flat tape, for example, 0.8 mm thick polypropylene packaging tape and 15 mm wide TU 2245-028-05766623-95 (breaking load of at least 170 kgf), due to low cost, may not be removed from the well and destroyed by explosion - it is intended for loading horizontal wells. The tape can also be used to charge deviated wells with the possibility of extracting them from them for further use.

 The prototype does not indicate the compositions of explosives obtained from two liquid components. Known solutions of liquid combustible oil products (nitrobenzene, nitromethane) in liquid oxidizing agents - nitric acid, diazotetraoxide, tetranitromethane. In the following, the components of explosives are referred to as "fuel" and "oxidizing agent".

 Examples of the application of the method. Charging deviated wells.

 The end of the sleeve 1, wound on a reel 4, is sealed (knotted), duplicated with an elastic rod or tape 2 on the reel 5, a fairing 3 is put on the end of the assembly - a cap made of polymer, securing it with a cord or ring rubber, placing the mount above the assembly on the sleeve (Fig. 1).

 An elastic element of circular cross section (cable, cable, rod made of rubber or plastic), removed from the well after it is loaded, abuts with its end against the assembly fastening by strapping with a cord or ring rubber, and the elastic tape that cannot be removed after loading is abutted with the end into the sleeve assembly 1 and higher cord (Fig. 1). The fairing 3, rounding the end face of the sleeve 1, facilitates its advancement in the well and serves as a mounting location for the assembly.

 By rotating the coil 5, an elastic element 2 is wound from it and lowered into the well 6 together with a sleeve 1, wound from the driven coil 4. After reaching the bottom of the well, determined by the sharp longitudinal bending of the elastic element, the rotation of the coil 5 is stopped, and the rotation of the coil 4 is stopped, sleeve 1 cut off from the bay on the coil 4, leaving the free end of the sleeve located in the well, protruding from its mouth 1-1.5 m above the wellhead.

 The end of the sleeve 1 is placed in a detachable casing 7 (Fig. 5), made of non-expandable transparent material in the form of a cylinder with an external diameter close to the diameter of the well, at the other end turning into a cone. The detachable casing is equipped with a strip of sticky layer or a system of hooks and loops that form a zipper when applied.

 To supply liquid components to a sleeve in the form of a tape with tight-fitting walls, in particular to a multiple-folded sleeve, when it is sent to the well without the use of auxiliary elastic elements, it is necessary to create a fluid head and fill the sleeve under its pressure. The casing 7 also serves as the necessary protection for the free end of the sleeve, allowing the flow of fluid without fear of rupture. The walls of the well perform the same function - for the rest and most of the sleeve.

When the valve is closed on the pipe 8 through the pipe 9 in the sleeve serves fuel. In this case, the elastic element 2 continues to press the end of the sleeve to the bottom of the well. In a flooded well, a sleeve with fuel, for example kerosene with a density of 0.8 g / cm ³ , will float. After the supply of fuel, the valve on the pipe 9 is closed and an oxidizing agent is fed into the sleeve through the pipe 8.

 After supplying the oxidizing agent to obtain 2/3 of the volume of the borehole charge by reverse movement of the coil 5, the elastic element 2 is removed from the borehole and the blasting device is manually added into the borehole in the form of a sheet explosive charge as an intermediate detonator with two detonators with waveguides of the Hookel initiation system or with two detonating cords. The blasting means is sent to the well with the help of an elastic element to a depth exceeding the level of the completely flooded well charge by at least 2 m, after which the elastic element promoting the blasting means is removed from the well. An explosive is placed between the sleeve 1 and the wall of the well 6 to prevent contact of the explosive intermediate detonator and the detonating cord with the aggressive environment of the liquid oxidizer. After installation in the well, the blasting means continue to supply the oxidizing agent to the full volume of the downhole charge.

The formulation of a liquid explosive of 83% of the oxidizing agent — diazotetraoxide with a density of 1.45 g / cm ³ and 17% of hot — kerosene with a density of 0.8 g / cm ³ ; density of explosives 1.34 g / cm ³ . First, hot and then oxidizer feed into the well is safer than simultaneous feed. In this case, the oxidizing agent, when supplied to the previously filled fuel, will drop to the bottom of the well, penetrating the entire volume of fuel and dissolving in it.

With a well diameter of 200 mm, a depth of 25 m and a stem length of 6 m, the charge length will be 19 m with a volume of 0.6 m ³ and a mass of 0.8 tons.

After loading, the valve on the oxidizer feed pipe 8 is closed, the end of the sleeve 1 is released from the casing 7, the pipe 8, without loosening it from the sleeve 1, is turned 180 ^° , turning the pipe end up, and through the pipe 9, opening the valve on it ( Fig. 5), fuel is supplied by filling it with a pipe 9 from a closed valve to a cut of the pipe. The pipe 8 along with the end of the sleeve is rotated 180 ^° in the opposite direction, turning down and pouring fuel with traces of the oxidizing agent dissolved during washing into the borehole charge. The washing operation with the hot oxidizer feed pipe is repeated twice. The oxygen balance of the explosive should be zero or slightly negative - to completely eliminate nitrogen oxides in the explosion products.

 A small part of the stemming unit 12 is poured into the well, the upper part of the sleeve is shifted to the side, the second sleeve is lowered into the well and filled with water to the wellhead. When pouring water stagnation, the empty part of the sleeve 1 with the water stagnation in the second sleeve is shifted to the side, pressed against the wall of the well, transforming the sleeve into a tape. In this case, the gas contained in the upper part of the sleeve 1 is completely displaced.

 The edge of the sleeve 1, protruding above the wellhead, is freed from the pipes for pouring the components of the explosives and from the gas pipe, the sleeve is rolled up at the wellhead between the wall of the well and the sleeve with a water clog. The ends of the detonating cords or waveguides Nonel brought out for mounting a common explosive network (Fig. 6).

 An isolated gas outlet from the sleeve is carried out to the oxidizer transporting tanker through a breathing valve that compensates for the decrease in gas pressure above the liquid surface in the tank when the oxidant is poured into the well. When the pressure is compensated in the tanker, the gas is fed into a tank of variable volume, in a vacuum container with moving or elastic walls, followed by neutralization under stationary conditions with an aqueous solution of alkali in contact nozzles.

 The loading of horizontal wells (Fig. 7) is basically similar to the described methods for loading deviated wells with the following changes: to send the sleeve 1 to the well, only an elastic flat tape is used, leaving it in the well, or a folded sleeve is used repeatedly (4-8 layers). The oxidizing agent and fuel are fed into the well at the same time, from the beginning and end of the loading forming a liquid explosive.

 After supplying accurately measured volumetric dosing components of the explosives and performing the washing operations of the pipe supplying the oxidizing agent described above, they begin to form a stemming complicated by the horizontal position of the well.

 After pouring the components, the liquid explosive spreads over the entire length of the well, but does not fill it over the entire cross section. The sleeve protruding from the wellhead is freed from the casing 7, disconnected from the supply pipes of the components of the explosives and exhaust gases, placed in a vertical position, freed from the liquid explosives, the end of the sleeve is crushed and manually pushed into the wellhead, the piston is placed there in the form of a disk, but without a central rod, instead of it are three rods pressed against the edges of the disk by the ends, but not fastened to it. The disk is smoothly, without sharp jerks, inserted into the well and advanced to the length of the stemming unit. In this case, a liquid explosive fills the well over almost the entire cross section. The achievement of the maximum filling of the well volume is determined by the cessation of the piston advancement into the well.

 Continuing to keep the liquid explosive in a compressed state, the stemming material is poured into the borehole, leaving the disk in the borehole and removing the rods for reuse - the disk holds the blockage. To preserve it, the rods are removed one at a time.

 Liquid explosives are an unused reserve of the mining industry. The high volumetric energy of explosives makes it possible to effectively destroy iron ores and rock of high strength.

Diazot tetraoxide is a multi-tonnage product used to produce nitric acid and as an oxidizer of liquid rocket fuel. Its use for industrial explosions will make it possible to use the available reserves of the component of rocket fuel, as well as equipment for its storage, pumping and transportation in tankers using the experience of safe handling of toxic liquid. High freezing point - minus 11.2 ^o C can be lowered by additives of nitric acid.

 A likely limitation of the method is the exclusion of multi-row blasting, which is due to the categorical need to completely eliminate the failure of detonation of borehole charges due to the difficulty and danger of neutralizing the spilled liquid explosive composition in the field.

Sources of information
1. Auth. St. USSR N 267408, C 06 C, F 42 D 1/00, application N 1129010 / 22-03 from 01.26.1967. BI N 12, 1970.

 2. RU, US Pat. N 2130584, 2 - F 42 D 1/08, application N 98104366/03 of 06.03.98, BI N 14, 1999.

 3. Kutuzov B.N., Galadzhiy F.M., Davydov S.A. et al. Safety of blasting in industry.- M .: Nedra, 1977, p.120.

Claims (5)

 1. The method of loading deviated wells, sealed with a sleeve of film materials, pouring explosion-proof components that form an explosive, characterized in that the sleeve is sent to the well under the action of an elastic wire rod or tape placed on the outer surface of the sleeve and advanced into the well with it, and the components of the explosive are poured with an isolated exhaust gas.  2. The method of loading deviated wells, sealed with a sleeve of film material, pouring explosion-proof components that form an explosive, characterized in that the sleeve is converted into an elastic tape and sent to the well, and the components of the explosive are poured with an isolated exhaust gas.  3. The method according to claim 2, characterized in that the sleeve is transformed into an elastic tape by longitudinal bends, which are fixed by pieces of adhesive tape with an adhesive layer or by compressing the longitudinal folds of the sleeve in a heated state.  4. The method of loading horizontal wells, sealed with a sleeve of film material, pouring explosion-proof components that form an explosive substance, characterized in that the sleeve is sent to the well under the influence of an elastic tape or rod, which is placed on the outer surface of the sleeve and is advanced into the well with it, or they transform the sleeve itself into an elastic tape with longitudinal bends, which are fixed with pieces of adhesive tape with an adhesive layer, or by compressing the longitudinal folds of the sleeve in a heated state, components explosive is poured with an isolated exhaust gas discharge, while the liquid explosive charge spreads along the entire length of the horizontal well, the jamming space is freed from the explosive by pressing a disk with rods at its edges into the well, smoothly pushing the disk without pushing until the sleeve is completely filled explosive for the entire section of the well, which is determined by the cessation of movement of the disk, the resulting space is filled with clogging, after which the rods are followed one by one removed from the well.  5. The method according to claim 4, characterized in that the free end of the sleeve protruding from the wellhead is placed in a detachable casing made of inextensible material in the form of a truncated cone, passing into the cylinder, which is inserted into the wellhead, at the end of the sleeve in a conical parts of the casing are inserted into the tubes for supplying liquid components of the explosive and evacuating gases, the edge of the sleeve is fixed by crimping the detachable casing, equipped with a strip of sticky layer or a system of hooks and loops that form a “zipper” when applying the lock.

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