EP1571136A2 - High-viscosity emulsion explosive, process for the production thereof and process for transferring it - Google Patents

Abstract

Producing a highly viscous emulsion explosive (1) using a gassing process, comprises producing a high viscosity (10) emulsion matrix, passing the matrix through an advancing system (30) using a lubrication medium (15) which contains a gassing agent (16), and mixing the matrix with the medium at the end of the advancing system. The mixture is then emulsified to form the explosive.

Description

The invention relates to high-viscosity emulsion explosive and a method for its production and a method for Spend this highly viscous emulsion explosive in Cavities, in particular boreholes. In particular, the Invention a method for loading boreholes with the high-viscosity emulsion explosive according to the invention over days and underground as well as for loose use in one Density range from 0.5 to 1.3 kg / l.

Emulsion explosives belong to the explosive-free, water-containing nitrate explosives. It is based on a water-in-oil emulsion, which is produced by emulsifying a highly concentrated nitrate salt solution with mineral oil. The salt solution is broken down into very finely distributed droplets - of the order of magnitude of about 10 ^-6 m diameter - and surrounded by an even thinner oil film of about 10 ^-8 m thickness. This fine emulsion matrix is the essential prerequisite for the special properties of emulsion explosives. Despite the extremely intimate contact sensitization by in the emulsion matrix finely distributed gas bubbles as reaction centers for the introduction and forwarding of a detonative reaction is required. Emulsion explosives are sensitized either by the introduction of hollow microspheres or by chemically formed gas bubbles (chemical gassing) by a so-called gasing agent.

The emulsion explosive is only after the sensitization, d. H. the formation of the gas cavity body within the Emulsionsmatrix sensitized and thus detonationsfähig. He finds application especially in the overground at the Rock extraction in quarries. For this purpose, the Emulsion explosive either locally or mixed Matrix stationary premixed and on site only by Gas bubbles sensitized and by charging hose in prefilled holes are filled. When spending into the borehole the gasing agent is added and As a result, the formation of gas bubbles within the Emulsion matrix, d. H. the sensitization of the Explosives, when pumping or in the borehole instead. The Mixed charging device used for this purpose, the individual can not Sensitized components safely to the blast site transport, because at this moment no detonatable mixture is present.

Due to the liquid pulpy texture of the Emulsion explosive can this in over-the-counter applications very good in the mostly more or less inclined down Boreholes drilled in the mountains are filled from above. However, holes should be filled horizontally or (obliquely upwards) are drilled, so there is a risk that this emulsion explosive due to gravity and the Quasi-liquid consistency tends to leak out of the well to flow out. For this reason, in particular under Days patronized explosives used, since here very often there is a requirement that holes are horizontal or off are drilled down to the top and then have to be filled.

The liquid pulpy consistency of most Emulsion explosives allowed when sensitized by chemical gas bubble formation only a limited Density reduction to about 1.1 kg / l, given this consistency coagulate the unenclosed gas bubbles or from the Matrix can escape. Because the sensitivity of the Emulsion explosives increases with decreasing density is This is the main reason why emulsion explosives are liquid pulpy consistency and chemical sensitization at Small diameters of 40 mm and less often not are sufficiently detonatiosfähig or capsule sensitive.

In addition, there is the conventional Emulsion explosives underground more often the problem of critical diameter. This is even with patronized Emulsion explosives due to a dense density of approx. 1.1 +/- 0.1 kg / l at about 25 mm. For pumpable emulsions the critical diameter is usually 40 mm and more. Underground but blast holes are usually lower Diameter inserted. In addition, in particular Pumpable emulsion explosives conventional type after the Sensitization is not always sensitive to capsules, so that Booster can be used.

Object of the present invention was therefore, the Overcome disadvantages of the prior art and in particular an emulsion explosive of high viscosity to provide, which also meets the requirements for the Use underground for critical diameter, Ignition or capsule sensitivity and consistency met. Another object of the invention was to provide a method for Spend this explosive in boreholes, in particular obliquely upwardly extending boreholes, ready to provide. Another object of the present invention was to provide a device with this Emulsion explosive according to the invention prepared and / or in Boreholes can be spent.

The object of the present invention is achieved by a Process for the handling-safe production of highly viscous emulsion explosive (1) by means of Gassing method, comprising the steps of: producing a High Viscosity Emulsion Matrix (10) Conveying the High viscosity emulsion matrix (10) through a conveyor system (30) using a Lubrifikationsmediums (15), wherein the lubrication medium (15) has a gas agent (16) having; Mixing the high viscosity emulsion matrix (10) with the lubrication medium (15) at the end of the Conveyor system (30) or loading tube; Post-emulsifying the discharged mixture of high viscosity emulsion matrix (10) and Lubrifikationsmedium (15) for high-viscosity Emulsion explosive (1).

Produced by the gasing process Emulsion explosives are inventively from a Emulsion matrix of high viscosity, and mixing with made by a gassing agent. By mixing the Emulsion Matrix with the Gassing Agent will be the required gas bubbles in the emulsion matrix introduced, with which this is then sensitized.

The high viscosity emulsion matrix of the invention is preferably from an emulsifier, an oil phase and a Oxidizer phase produced. The emulsifier is preferred chosen so that the finished emulsion matrix at low Shear initially low tendency to Having post-emulsification and higher shear stress nachemulgiert.

The emulsion matrix of high viscosity is preferred all oxygen-releasing salts in the rest Solution. Typically, the lies in the Compositions used amount of water between 1 and 30 Weight. Preferably, the amount used is between 10 and 25 weight percent, more preferred between 10 and 15 weight percent based on the Emulsion phase. The immiscible with water continuously organic phase (oil phase) of the water-in-oil emulsion contains between 2 and 15 weight percent, preferably between 4 and 8 Weight percent based on the emulsion phase.

The emulsifier component of the composition of Emulsion matrix of high viscosity preferably contains between 0.5 and 5 weight percent of the emulsion phase. The Emulsifier component preferably consists of an emulsifier from PIBSA type and from a sorbitan ester in any one Mixing ratio. It can also be a pure PIBSA emulsifier be used. The mass fraction of the emulsifier is preferably chosen so that on the one hand the highest possible Stability reserve is achieved and on the other hand the Subsequent emulsification, with a viscosity increase of the Emulsion is accompanied, can be influenced purposefully. As an emulsifier, a mixture (blend) consisting of pure emulsifier (active phase) and oil are used.

Particularly preferred is higher in the emulsion matrix Viscosity when using an emulsifier of two Emulsifier components already a first, in the High viscosity emulsion matrix already activated phase of the Emulsifier before and another surplus at not yet activated emulsifiers, the first in the step of After-emulsifying the discharged mixture of High viscosity emulsion matrix and lubrication medium for high-viscosity emulsion explosive post-emulsified.

The Oxidizerphase is preferably chosen so that the Oxygen balance of the high-viscosity emulsion explosive at 0 to + 2.5%, preferably + 0.5 to 1.5%. The through the inorganic phase caused excess oxygen of the Product allows the addition of other high-energy Components, such as metal powder, preferably Al, Mg, graphite, Carbon black, coal, etc. or a mixture of these components, in Concentrations of preferably up to 2%. This allows the energy content and other thermodynamic data of the high viscosity emulsion explosive for different Applications can be optimized.

By using a Lubrifikationsmediums in the Promotion of the emulsion of high viscosity viscosity through the Conveyor system will be a particularly gentle promotion of the still non-sensitized high viscosity emulsion matrix the conveyor system allows. Due to the set, laminar flow profiles within the conveyor system and the special supply of Lubrifikationsmediums with the Gassing agent contained therein preferably in the form of a concentric, the emulsion surrounding lubricating film finds no pre-mixing of high viscosity emulsion matrix and lubrication agent or gasing agent instead, so that sensitization of the high viscosity emulsion matrix excluded within the technical (conveyor) system is. The components present in the emulsion matrix system and surrounding lubrication film taken by itself no sensitized explosive capable of detonating would. This innovation in the procedural Security conception, the formation of explosives in all Parts of the technical (conveyor) system to avoid was in the previous emulsion explosives of the prior Technique therefore not possible because the emulsion matrix itself already within the conveyor system with the Gassing Agent has mixed and thus to a (partial) and gradual sensitization of the matrix or training a detonationsfähigen explosive when pumping or Transport through the loading hose had come. Surprised has been found in the present invention that at the use of a high viscosity emulsion matrix and a corresponding promotion a mixing not in the Delivery system takes place, although the Lubrifikationsmedium already includes the gassing agent.

Only at the end of the conveyor system is the emulsion matrix high viscosity with the surrounding Lubrifikationsmedium and thus mixed with the gassing agent. This will only at the end of the conveyor system, d. H. at the exit of the Explosive from the hose system the emulsion matrix sensitized and detonated explosive produced.

After mixing the emulsion matrix with the Lubrifikationsmedium or the gasing agent, preferably in A static mixer, it comes to a Nachemulgierung the discharged mixture of emulsion matrix and Lubrifikationsmedium and thus for the production of high-viscosity emulsion explosive according to the present invention Invention. As a result, once again finds a decisive Increasing the viscosity of the emulsion explosive at or after the sensitization takes place.

In this way, an emulsion explosive or a Provided method for its production, due to the high-viscosity property now against gravity too can be loaded into a wellbore that is oblique or even vertical was drilled to the top. Due to the high viscosity of the in the manner described explosive flows this no longer from the borehole but remains there against gravity.

In another preferred method of the present invention Invention becomes higher in conveying the emulsion matrix Viscosity (10) between this and the lubrication medium (15) no turbulent, but a largely laminar Maintained flow, in particular a laminar Flow with a Reynolds number of less than 2300, preferably less than 2000, more preferably from less than 1500.

By choosing the emulsion matrix of high viscosity can now within the funding system between this and the Lubrifikationsmedium maintained a laminar flow become. A laminar flow in this sense means that in particular no shear forces between the Lubrifikationsmedium and the emulsion matrix occur and so no mixes. There are thus no Turbulence or mixing on. That's the way it is possible the gassing agent until mixing the To transport emulsion matrix at the end of the conveyor system, without any mixing or reaction the gassing agent can take place with the emulsion matrix. Since the gasing agent in the lubricant or Lubrifikationsmedium only at the end of the tube with the matrix is mixed, the final composition, in particular the desired final viscosity, Explosives only behind the static mixer, d. H. after this the components have leaked out of the hose.

In the further preferred method of the present invention Invention, the emulsion matrix (10) has a viscosity of more than 60,000 mPas, preferably more than 80,000 mPas, more preferably more than 100,000 mPas.

The viscosity of a conventional emulsion matrix is up to 50,000 mPas (measured by the method Brookfield, Spindle 7, 10 rpm, 20 ° C). The inventive Emulsion matrix now has a much higher viscosity. This has been avoided in the prior art so far because it causes a mixture with the gasing agent could no longer be displayed effectively. Surprised was inventively found that even in a Emulsion matrix with a much higher viscosity, especially preferably of over 100,000 mPas mixing with the Gassing agents very well to the required mixing and Re-emulsification or sensitization of the final product can. For this reason, contrary to the prejudices of the State of the art according to the invention an emulsion matrix higher Viscosity selected.

Due to the high viscosity of the emulsion matrix can thus with the promotion of the emulsion matrix together with the gasing Agents containing Lubrifikationsmedium within the The conveyor system maintains the laminar flow very well to be obtained.

In another preferred method of the present invention Invention, the emulsifier consists of at least two Emulsifier components that are different Emulsify shear stress. The one in the emulsion matrix high viscosity emulsifier is for the production this matrix has already been activated, d. H. for the production partially emulsified in the matrix. This will be the Emulsion matrix imparted this viscosity first. Prefers is higher in this premixed emulsion matrix Viscosity a second phase of emulsifier (a Emulsifier excess), which only after application of the Emulsionsmatrix nachemulgiert by mixing at the end and so the high density emulsion matrix by activation This second phase in the emulsifier once again crucial gives higher viscosity. The finally received Explosive then has a viscosity above 200,000 mPas, preferably 250,000 to 350,000 mPas and higher. The High viscosity emulsion matrix has a viscosity of more than 60,000 mPas, preferably more than 80,000 mPas, more preferably more than 100,000 mPas. By the Use of an emulsifier of at least two components is thus making it possible to keep the emulsion matrix in a high level Produce viscosity range, and then at Mixing again to the final emulsion explosive to increase decisively in their viscosity.

In another preferred method of the present invention Invention, the lubrication medium (15) comprises a mixture of water and gas agent (16).

Because the lubrication medium is next to the gas Agent also contains water, the Lubrification properties of the lubrication medium be improved.

In another preferred method of the present invention Invention is a high viscosity emulsion explosive obtained having a density of at least 0.5 kg / l to 1.2 kg / l, preferably 0.9 kg / l.

The production method described makes it possible to the density of the resulting emulsion explosive through the To set choice of different parameters. In addition to the The composition of the emulsion matrix can in particular be the type and manner of mixing in the end to a change in the Contribute density. By a particularly intensive mixing This makes it possible to generate low densities. Especially densities of from 0.6 to 1.5 kg / l are especially preferred preferably adjusted from 0.8 to 1.15 kg / l.

While the viscosity of the resulting emulsion explosive especially by the shearing forces, the ruling ones Temperature and the persistent pressure is determined, the Density due to the composition of the emulsion matrix (proportion of SN (sodium nitrate) in the solution), temperature and pressure and the extent of gas bubble formation.

In a particularly preferred method of the present invention Invention comprises the conveyor system (30) for conveying the Emulsion matrix (10) as a conveying means (32) a Progressive cavity pump.

The more gentle the promotion of the emulsion matrix in the Conveyor system using the Lubrifikationsmediums done The more reliable the laminar flow can be between them Matrix and Lubrifikationsmittel be maintained. The laminar flow is also particularly advantageous the high viscosity of the emulsion matrix associated with ensured moderate flow velocities. These Parameters lead to the smallest Reynolds number and thus to Formation of laminar flow. The (mechanically) gentle Promotion is characterized essentially by the pump and Injector technology, but also the static mixing elements in the Comparison to theoretically conceivable dynamic mixers promoted. It has preferably been found according to the invention that a particularly gentle conveying process using Progressing cavity pumps can be performed. A An eccentric screw pump is in particular a Positive displacement pump of simple design. She works without valves and has only two conveying elements, the rotating ones Eccentric screw and the static housing insert. Of the metallic rotor rotates eccentrically in a stator elastic material. The medium is continuously, d. H. almost pulsation-free, in the axial direction promoted. The flow rate is approximately proportional to Rotation speed.

In another preferred method of the present invention Invention comprises the conveyor system (30) for conveying the Emulsion matrix (10) a delivery line (34) having a Inner diameter of less than 25 mm, preferably less than 22 mm, more preferably less than 19 mm.

By choosing the inner diameter of less than 25 mm once again the safety of the manufacturing process increased, as by a correspondingly low choice of Inside diameter of the diameter is below, at the self-sensitized explosive could detonate. Will now be a correspondingly lower Inner diameter used in the conveyor system, so can not once theoretically a sensitized explosive in these Dimensions come to detonation.

In the further preferred method of the present invention Invention, the emulsion matrix (10) and the Lubrifikationsmedium (15) by means of a static mixer (35) to the highly viscous emulsion explosive (1) mixed.

By using a static mixer, especially preferably by a number of preferably different static mixers are the emulsion matrix and the Lubricating medium mixed together, making it to the optimal gas formation as well as preferred for Post-emulsification of the explosive comes. So far was in the state The technique has been assumed to be use a static mixer would not be enough to one appropriate adequate mixing between the gasing Make agents and the emulsion matrix. It is particularly preferred, several static mixers depending on Use in a row.

Particularly preferred is the static mixer (35) in Mouthpiece at the end of a delivery line (34.4) of the Conveyor system (32).

When forming the static mixer in the mouthpiece at End of the promotion line it is possible to have different To use mouthpieces alternately to make an adjustment in particular the viscosity of the emulsion explosive on the to carry out the respective application. Preferably, the free cross sections or the length of the integrated Mixing distance can be varied to flow rate, To influence the mixing quality and final viscosity of the emulsion. Preferably, the geometry of the mouthpiece is varied, around a directional beam, a side beam, etc. adjust and always an optimal filling of the holes to ensure. At the same time are different Recording systems for detonators or boosters of various kinds realizable within the mouthpiece, so that together with the emulsion explosive equal matching ignition for Initiation be safely introduced into the wellbore deepest can. Preferably, the mouthpieces are designed so that by means of a quick change system an exchange within the shortest possible time is possible.

The object of the invention is also achieved by a Method for bringing a high-viscosity Emulsion explosive (1) in a cavity (5), in particular a borehole, comprising the steps Promote an unsensitized emulsion matrix higher Viscosity (10) through a conduit system (33), injecting a Lubrifikationsmediums (15) in the conduit system, wherein the lubrication medium (15) has a gas agent (16) contains and between the emulsion matrix and the inner wall of the piping forms a lubricating film, Mixing the emulsion matrix (10) with the gasing agent (16) at the transition from the pipe system into the to be filled Cavity (5).

By this inventive method for bringing a high viscosity emulsion explosives, it is possible to Emulsion explosive in a cavity, in particular a Borehole to spend, without that before leaving the Explosives in the well finished mixed explosive The high-viscosity emulsion explosive is only after exiting the conveyor system, d. H. at the end of the hose educated. Particularly preferred is the line system, in particular a hose, inserted into the borehole and during the filling process according to the level of the Borehole slowly pulled out again or through the Recoil pushed out. That way, the borehole can optimally filled with high-viscosity emulsion explosive, even if the drill hole is oriented obliquely upwards.

In a further preferred method for bringing a high-viscosity emulsion explosive according to the present Invention is the lubricating film or Lubrifikationsfilm such trained that there is no mixing of the Gas lubricant (16) containing Lubrifikationsmediums (15) and the emulsion matrix (10) within the conduit system (33) comes.

The task is also solved by a Emulsion explosive which after a Process is made.

The emulsion explosive thus obtained is distinguished in particular by having a viscosity of more than 200,000 mPas, preferably more than 250,000 mPas, especially preferably has more than 300,000 mPas and thus one has extremely high viscosity. This high viscosity allows it the explosive, in the cavities once pumped there also to stick and not like the conventional one pumped explosives against gravity again to drain. Since the achieved high viscosity according to the invention preferably also with a correspondingly low density can be combined is the explosive thus obtained ideally suited for use underground or in tunnel construction get.

The object of the present invention is also solved by a conveyor system (30) for high-viscosity, Emulsion-based explosives (1) comprising Line system (33) with an emulsion matrix feed and a Lubrifikationsmediumszuführung, wherein the Lubrifikationsmediumszuführung via an injector (36) with the emulsion matrix feeder is connected, and at or near at the end of the conveyor system (30) a static mixer (35) is provided.

Particularly preferred is in the inventive Funding system a supply for Gasing Agent over the Connected injector. That way, the gasing agent in the line system are introduced and to be promoted Emulsion matrix around together with the lubrication medium form a sliding film.

Particularly preferred is the feed for the Lubrication medium and the supply for the gasing agent at least partially identical, most preferably identical.

Fig. 1

zeigt eine schematische Darstellung eines Fördersystems bzw. Mischgeräts gemäß der vorliegenden Erfindung und

Fig. 2

zeigt eine schematische Darstellung des Ausschnitts des Fördersystems im Bereich des Endes der Förderleitung.

The invention will be explained by way of example with reference to the following figures. Here, in the figures:

Fig. 1

shows a schematic representation of a conveyor system or mixing apparatus according to the present invention and

Fig. 2

shows a schematic representation of the section of the conveyor system in the region of the end of the delivery line.

In Fig. 1 , a conveyor system or mixing device 30 according to the present invention is shown schematically. The conveyor system 30 consists of containers for holding mixed loading components namely the emulsion matrix EM10, the lubrication medium LM15 and optionally a component for adjusting the pH. The storage container of the emulsion matrix EM10 is connected to the conveying means or the pump 32 via a first conveying line 34.1. Optionally, a means for adjusting the pH within the emulsion matrix EM10 may also be connected to the pump 32 via a delivery line 34.1 '(shown in phantom). Via a delivery line 34.2, the pump 32 is then connected to an injector 39. On this injector 39 and the stored Lubrifikationsmedium LM15 is connected via a feed line 34.3. The injector 39 is then connected via a delivery line 34.4, in particular a hose 34.4 with a static mixer 35.

It is now emulsion matrix 10 via the delivery line 34.1 supplied to the pump 32. The pump 32 is preferably an eccentric screw pump. Optionally can here - if not already done before - the pH of the Emulsion matrix 10 are set. This happens through Addition of a pH-regulating component such as Acetic or citric acid or another acid that is for lowering the pH of the emulsion matrix. The way Modified emulsion matrix EM10 is pumped by the pump 32 conveyed via the delivery line 34.2 to the injector 39. In There is an unsensitized moment Emulsion matrix EM10 with adjusted pH before. On the Injector 39 is now from the storage tank LM15 Lubrifikationsmedium via the supply line 34.3 in the Flow rate of the emulsion matrix EM10 injected. The Lubrification medium LM15 includes the for the Sensitization of the explosive required gasing Agents. By injecting the Lubrifikationsmediums over the injector 39 becomes a concentric, the emulsion matrix surrounding slip film consisting of the lubrication medium LM15 formed, which then in the supply 34.4 the Surrounding emulsion matrix, without any mixing of High viscosity emulsion matrix 10 and lubrication medium or Gassing Agent 15 takes place. That way, one becomes Sensitization of the explosive in the delivery line 34.4 prevented. In the mixer 35 is then until then as ring-shaped accompanying film Lubrification medium with the gasing agent with the Emulsion matrix EM10 mixed so that behind the mixer 35 high-viscosity emulsion explosive ES1 emerges. By the Use of the mixer 35 is a Nachemulgierung of as Excess in the emulsion matrix remaining emulsifier causes, so that the viscosity of the emulsifier again until is increased to 100% and more. The then present Emulsion explosive ES1 is highly viscous at low density, by the kind of mixing and the sensitization through the gasing agent at the selected temperature and pressure is adjustable.

By this arrangement of a mixing device is a conveyor system 30 has been provided, until the exit of the mixture from the static mixer 35 sensitized Explosive comprises. Also when switching off the conveyor system does not form even in the feed line 34.4 sensitized explosive. This way is a particularly safe mixing device or conveying system 30 been provided.

FIG. 2 again shows in detail an embodiment of the present invention for the distance behind the injector 39 (not shown). In the feed line 34.4, the emulsion matrix 10 of the lubrication medium 15, which includes the gasing agent, is enclosed in a ring. In the cross-sectional illustration in FIG. 2, this is represented by the black color in the edge region of the supply line 34.4. The exemplary static mixer 35 consists of two sections 35.1 and 35.2. While in Section 35.1 a slight premixing is provided by a corresponding geometry in the edge region of the hose, in section 35.2 by means of corresponding channel systems a mixing of the emulsion matrix 10 with the lubrication medium 15 is made possible.

The emulsion matrix 10 surrounding by the lubrication medium 15 is via the supply line 34.4 in the static Mixer section 35.1 promoted, where there is a Pre-mixing of Lubrifikationsmediums 15 with the Emulsion matrix 10 is coming. In mixer section 35.2 it comes then the occurrence of shear forces on this premix, resulting in intensive mixing of the two components is effected. On the one hand this happens Sensitization of the explosive by mixing the Emulsion matrix with the gasing agent and at the same time too a subsequent emulsification of the emulsion matrix with activation the second phase of the emulsifier still unused, d. H. not activated, is present in the emulsion matrix. By the use of this emulsifier excess in the Emulsion matrix can in this way a Nachemulgierung be carried out, which leads to an increased viscosity of the End produced emulsion explosive 1 leads. This one will also only after leaving the mixing section 35.2 final sensitized and thus able to detonate.

In this way, a novel mixing device is found This has been an even safer deal with pumping and Promotion of emulsion explosive admits and to one significantly higher viscosity explosives leads. This is at the same time with correspondingly low density detonator sensitive and thus after reaching the Final density particularly good detonationsfähig.

The invention will be illustrated by the following examples become:

Examples 1) Comparative blasting of the high invention viscous emulsion explosive to ANC explosive

In an underground rock salt operation Comparative blasting between an ANC explosive and an emulsion explosive according to the invention carried out.

The ANC explosive consists of porous ammonium nitrate with a weight fraction of 94.3% and a mineral oil with a Weight share of 5.7%. The explosive density is included 0.78 kg / l.

The emulsion explosive consists of 93.5% oxidizer solution and a fuel phase of mineral oil and emulsifier of 6.5 Weight. The density of the emulsion matrix is included 1.44 kg / l, that of the sensitized explosive between 0.8 and 1.15 kg / l.

With the same efficiency of the respective explosive in the tees can be saved when using the emulsion explosive up to 27% of the Sprengbohrlöcher and the specific explosive cost can be reduced up to 15%, as can be seen from the following table: ANC explosives emulsion explosives drill hole number 70 51 amount of explosives 322.2 kg 266.7 kg total heap 541 t 541 t Specific explosive effort 596 g / t 493 g / t Toxic steam components NO _x 1.4 l / kg 0.6 l / kg CO 6.5 l / kg 1.9 l / kg

Also in the area of toxic swath components cuts
the emulsion explosive significantly better.

2) Swath measurements of the toxic components in one Explosive chamber with defined volume, comparison of ANC explosives to an emulsion explosive

In a defined volume of an explosive chamber, swath measurements of the toxic components were carried out with the explosives described in Example 1. The explosives were filled into steel tubes of 35 mm inner diameter and 600 mm length. The ignition was in each case with a 100 g cartridge of a capsule-sensitive emulsion explosive and a moment fuse. The results are shown in the following table: Steam stocks (l / kg) Detonation velocity (m / s) Density (kg / l) NO _x NO ₂ NO CO Emulsion explosives 1.0 0.0 1.0 5.4 4490 0.96 ANC explosive material 3.1 0.1 3.0 12.7 3600 0.77

The proportions of toxic components are in all cases Average of 5 trials - for the emulsion explosive lower.

LIST OF REFERENCE NUMBERS

1

high-viscosity emulsion explosive

5

to be filled cavity / borehole

10

High viscosity emulsion matrix

15

Lubrifikationsmedium

16

Gassing Agent

30

Conveyor system / mixer

32

Conveyor / eccentric screw

34

Delivery line / hose

35

static mixer

39

injector

Claims (20)

Process for the handling-safe production of highly viscous emulsion explosive (1) by means of the gasification process, comprising the steps Preparing a high viscosity emulsion matrix (10); Conveying the high viscosity emulsion matrix (10) through a conveyor system (30) using a lubrication medium (15), the lubrication medium (15) having a gas inlet agent (16); Mixing the high viscosity emulsion matrix (10) with the lubrication medium (15) at the end of the conveyor system (30); Post-emulsifying the delivered mixture of high-viscosity emulsion matrix (10) and lubrication medium (15) to the high-viscosity emulsion explosive (1). Method according to one of the preceding method claims wherein
in conveying the high viscosity emulsion matrix (10) between it and the lubrication medium (15) a laminar flow is maintained, in particular a laminar flow having a Reynolds number of less than 2300, preferably less than 1500,
more preferably less than 1000. Method according to one of the preceding method claims
in which
the emulsion matrix (10) has a viscosity of more than 60,000 mPas, preferably more than 80,000 mPas, particularly preferably more than 100,000 mPas. Method according to one of the preceding method claims
in which
the emulsion matrix (10) is made of an emulsifier, an oil phase and an oxidizer phase. Method according to claim 4
characterized in that
the emulsifier consists of at least two components that emulsify at different shear stress. Method according to one of the two preceding method claims
in which
the Oxidizerphase is chosen so that the oxygen balance of the high-viscosity emulsion explosive (1) is 0 to + 2.5%, preferably + 0.5 to + 1.5%. Method according to one of the preceding method claims
in which
the lubrication medium (15) comprises a mixture of water and gasing agent (16). Method according to one of the preceding method claims
in which
the high-viscosity emulsion explosive (1) obtained has a density of 0.5 kg / l to 1.2 kg / l, preferably 0.9 kg / l. Method according to one of the preceding method claims
in which
the conveyor system (30) for conveying the emulsion matrix (10) as conveying means (32) comprises an eccentric screw pump. Method according to one of the preceding method claims
in which
the conveyor system (30) for conveying the emulsion matrix (10) comprises a conveyor line (34) having an inner diameter of less than 25 mm, preferably less than 22 mm, particularly preferably less than 19 mm. Method according to one of the preceding method claims
in which
the emulsion matrix (10) and the lubrication medium (15) are mixed by means of a static mixer (35) to the high-viscosity emulsion explosive (1). Method according to the preceding method claim wherein
the static mixer (35) is provided in the mouthpiece at the end of a delivery line (34) of the conveyor system (32). Method according to the preceding method claim wherein
the mouthpiece has a geometry that defines a jet as a directional and a side jet such that a cavity is optimally filled by the high-viscosity emulsion explosive (1). Method for bringing a high-viscosity emulsion explosive (1) into a cavity (5), in particular a borehole, comprising the steps Conveying a non-sensitized high viscosity emulsion matrix (10) through a conduit system (33) injecting a lubrication medium (15) into the conduit system, the lubrication media (15) including a gas agent (16) and forming a lubricating film between the emulsion matrix and the inner wall of the conduit system; Mixing the emulsion matrix (10) with the gas inlet agent (16) at the transition from the conduit system (33) into the cavity (5) to be filled. Method for bringing a high-viscosity emulsion explosive (1) according to the preceding claim,
characterized in that
the lubricant film is formed in such a way that mixing of the lubricant (15) containing the gas agent (16) and the emulsion matrix (10) within the conduit system (33) does not occur. emulsion explosives
characterized in that
it is produced according to one of the preceding method claims. Emulsion explosive according to claim 16
characterized in that
it has a viscosity of more than 200,000 mPas, preferably more than 250,000 mPas, particularly preferably more than 300,000 mPas. A high viscosity emulsion based explosive delivery system (30) comprising a conduit system (33) having an emulsion matrix supply and a lubrification media supply,
characterized in that
the lubrication medium feed is connected to the emulsion matrix feed via an injector (39) and a static mixer (35) is provided at or near the end of the conveyor system (30). A conveyor system (30) according to claim 18
characterized in that
a supply for gasing agent (16) via the injector (39) is connected. Conveyor system according to claim 19
characterized in that
the supply for the gasing agent (16) and the lubricating medium supply are at least partially identical.

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