RU2085746C1 - Recirculation method for ventilation of underground workings - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: this primarily relates to chamber mining. Method implies taking recirculating part of air from delivery stream, directing it through open underground workings and mixing with fresh air. Prior to delivery of recirculating part of air in open workings, it is subjected to purification from suspended particles directly in passage intended for delivery of initial ventilation stream at point of its conjugation with passage for taking recirculating part of air. For this purpose, inlet hole of passage for taking recirculating part of air is closed by convex partition which contains filtering members, and their frontal surface constitutes portion of guarding surface of convex partition at side of approaching to it of primary ventilation stream. EFFECT: high efficiency. 6 cl, 1 dwg

Description

 The invention relates to the mining industry and can be used for partial recirculation of the outgoing air stream to ventilate the mine workings.

 There is a known recirculation method for ventilating mines, including supplying air to the mine workings through an air supply shaft and its removal through a ventilation delivery shaft, in order to reduce the cost of ventilation and create comfortable working conditions, part of the outgoing air stream is again sent to the mine through an air supply shaft, for which air supply and dispensing shafts are connected by an underground channel (Yu.D. Dyadkin et al. Thermal regime of ore, coal and alluvial mines of the North. M. Nauka, 1968, pp. 164-165 and 161).

 Closest to the proposed technical solution is a recirculation method for ventilating mine workings (ed. St. USSR N 1008464 class E 21 F 1/00, 1981), according to which the recirculated air is cleaned of harmful impurities before being fed into the ventilation stream by passing it through the outstanding cameras. The disadvantage of this method is the low efficiency of cleaning the recirculated part of the air from harmful impurities with a large number of mine workings. It is known that the outgoing air stream, in addition to gaseous harmful impurities, contains a large number of suspended particles: dust, soot, oil aerosol, etc. These particles, together with the recirculated part of the air, enter the unloaded workings and settle on their enclosing surfaces, thereby reducing their sorption catalytic properties , the ability to form and saturate the air of outstanding mines with chemically active, electrically charged sub-micron aero ions. In addition, with large volumes of outstanding mine workings (reaction chambers), the efficiency of the process of neutralizing harmful gaseous particles is negatively affected by the recombination processes occurring in them associated with the conversion of electrically charged particles into neutral ones.

 The present invention is aimed at solving the problem of improving the efficiency of cleaning the recirculated part of the air.

 The solution to this problem is determined by the technical result, which consists in preliminary elimination of suspended particles from the recirculated part of the air, a reduction in aerodynamic resistance to the movement of air flows, and a decrease in recombination processes when neutralizing harmful gaseous components of the recirculated part of the air.

The essential features of the claimed technical solution:
restrictive intake from the outgoing ventilation stream of the recirculated part of the air, passing it through the outstanding mine workings and mixing with fresh air;
distinctive before supplying the recirculated part of the air to the undeveloped mine workings, it is cleaned of suspended particles directly in the channel for transporting the outgoing air stream at its interface with the channel for collecting the recirculated part of the air, for which the inlet of the channel for taking the recirculated part of the air is blocked by a convex jumper, containing filter elements, the frontal surface of which is part of the enclosing surface of the convex lintel from the approach her outgoing air flow; the recirculated part of the air is passed through a layer of crushed rocks before being discharged into the open pit; the convex lintel is given a smooth wavy shape and placed with a smell relative to the inlet of the channel for the intake of the recirculated part of the air; the surface of the channel for transporting the outgoing ventilation stream at the site of the convex lintel is covered with a layer of antifriction material that does not dust under the action of the air stream; an ejector fan is installed in the channel for transporting the outgoing ventilation jet in front of the convex jumper, while the distance from the outlet of the ejector fan along the most protruding part of the convex jumper is taken no more than the length of the section corresponding to the full opening of the jet exiting the ejector fan; the speed of the outgoing air stream through the channel to the installation site of the fan-ejector is maintained at a level not exceeding the critical air speed, causing dust blowing from the enclosing surfaces of the channel; upon receipt of moist air for cleaning, the layer of crushed rocks is heated to a temperature that excludes the formation of film moisture on the surfaces of crushed rocks.

 The connection between the set of essential features and the technical result is achieved by the fact that during the preliminary cleaning of the recirculated part of the air from suspended particles directly in the channel for transporting the outgoing air stream at the place of its conjugation with the channel for the intake of the recirculated part of the air, the fencing (active) surfaces of the outstanding mine workings are eliminated and thereby increasing the efficiency of neutralizing harmful gaseous impurities. Coating the inlet of the channel for the intake of the recirculated part of the air with a convex septum containing filter elements, the front part of which is part of the enclosing surface of the convex lintel from the approaching side of the outgoing stream, is aimed at reducing the aerodynamic drag at the intake and filtering the recirculated part of the air. the established effect of reducing friction resistance to air movement in the channel for transporting an outgoing air stream in the interface due to suction from the boundary layer of the recirculated part of the air, which helps to keep suspended particles in the stream of the outgoing jet transported through the channel and reduces their movement towards the filter elements, clogging of the latter and ensures the purity of the recirculated part of the air in the part of the suspended particles. Passing the recirculated part of the air through a layer of crushed rocks before being discharged into the open mines increases the efficiency of cleaning the recirculated part of the air from harmful gases, significantly reduces the need for unused mines to clean the air of harmful components due to the intensification of the formation of electrically charged, chemically active mineral particles submicron sizes and reduce the time from the moment of their formation to the moment of contact with harmful gases of air. Giving a convex lintel a smooth wave-like shape and placing it with a smell relative to the inlet of the channel for intake of the recirculated part of the air provides a gradual change in the section of the channel for transporting the outgoing air stream at the point of intake of the recirculated part of the air and thereby reduces aerodynamic drag compared to other possible options, increases the efficiency of cleaning the recirculated part of the air from suspended particles, prevents dust blowing from the channel walls (p Coating of the channel for conveying the outgoing jet at the location of the convex lintel with a layer of antifriction material that does not dust under the action of the air stream helps to prevent dust generation).

 The installation of an ejector fan in the channel for transporting the outgoing ventilation jet in front of the convex small bridge at a distance from its outlet to the most protruding part of the convex lintel, not exceeding the length of the section corresponding to the full opening of the jet emerging from the ejector fan, provides the best conditions for achieving high coefficients ejections of the outgoing ventilation stream and the most favorable conditions for excluding suspended particles from the recirculated part of the air. Maintaining the speed of the outgoing ventilation jet along the channel to the installation site of the fan-ejector at a level not exceeding the critical air velocity, which causes blowing of dust from the enclosing surfaces of the channel, eliminates additional (due to blowing) contamination of the outgoing ventilation stream by suspended particles. Heating the crushed rock layer upon receipt of moist air to a temperature that excludes the formation of film moisture on the surfaces of the crushed rocks helps to ensure the formation of chemically active, electrically charged particles of submicron sizes on the surfaces of the crushed rocks, their conservation and interaction with harmful gaseous impurities of the recirculated part of the air.

 The drawing shows a diagram of a recirculation method for ventilating mines.

 The recirculation method of ventilation of the mine workings is as follows. Initially, split workings 2 pass along the axes of the treatment openings 1, with the help of which the air supply channel 3 is connected to the channel 4 for transporting the outgoing ventilation stream. Using channel 5 for intake of the recirculated part of the air, channel 4 is connected to a system of series-connected outstanding mine workings 6, and using channel 7, the end of the system of series-connected outstanding mine workings is connected to an air supply channel 3. At the interface between channel 4 for transporting the outgoing air stream with a convex, smooth wave-like shape, a jumper 8, containing filtering elements 9, the frontal surface of which is clear, is erected by a channel 5 for intake of the recirculated part of the air It is part of the enclosing surface of the convex wave-like jumper 8 from the approach side of the outgoing ventilation stream. When this convex wave-like jumper 8 is placed with a smell relative to the inlet 10 of the channel 5 for the intake of the recirculated part of the air. In the channel 5, a jumper 11 is erected, in which a fan 12 is installed, working on a suction in relation to the channel 4 for transporting the outgoing ventilation stream. An open duct 14 is connected to the discharge side of the fan 12 through the air line 13 with a layer 15 of crushed rock placed therein. The box 14 is installed in the outstanding mine workings 6. The surface of the channel 4 for transporting the outgoing air stream at the site of the convex wave-shaped jumper 8 is covered with a layer 16 of antifriction material that does not dust under the action of the air stream. In the channel 4, in front of the convex wave-like jumper 8 along the outgoing ventilation stream, an ejector fan 17 is installed, at a distance from the most protruding part of the convex wave-like jumper 8, not exceeding the length of the section corresponding to the full opening of the jet exiting the fan-ejector 17. Then, in depending on the aerodynamic characteristics of the mine shaft ventilation network, outstanding mine workings 6, channels 3,4,5,7, air duct 13, mine workings 1,2, convex lintel 8, filter elements 9, vent Yator 12, layer 15 of crushed rocks, antifriction layer 16 without dusting by the air jet ejector and the material of the fan 17 generate the formation of fresh air flows outgoing air flow. Using the fan 12, the recirculated part of the air is sampled, it is cleaned of suspended particles by passing through the filtering elements 9, the gaseous harmful impurities are cleaned by passing crushed rocks through the layer 15 and passing the outstanding mine workings 6 along the enclosing surfaces, and the purified recirculated part of the air is mixed with fresh air at the junction of channel 7 with channel 3, the supply of a mixture of fresh air with a recirculated part of the air in treatment 1 and split 2 workings, trans rtting of the outgoing air stream through channel 4 with the help of an ejector fan and a shaft depression, selection of a recirculated part of air, etc. according to the considered sequence. Upon receipt of moist air for cleaning, the layer 15 of crushed rocks using thermocouples (not shown in FIG.) Is heated to a temperature that excludes the formation of film moisture on the surface of crushed rocks.

 The application of the proposed recirculation method for ventilating the mine workings makes it possible to increase the efficiency of cleaning the recirculated part of the air and ensure reliable supply of the mine workings with high-quality air in the required volumes while significantly reducing the ventilation costs of the entire mine (mine), and reduce the influence of external meteorological conditions on the microclimate of underground mine workings.

Example. 600 m ³ / min (10 m ³ / s) of fresh air is supplied to the mountainous area. For ventilation of the treatment and preparatory faces, 1000 m ³ / min. The missing amount of “fresh” air (400 m ³ / min) is made up by taking part of the outgoing air stream, purifying it, mixing it with fresh air entering the site. To move the outgoing ventilation stream, an SVM-6m ejector fan with an ejection coefficient of 3.7 is used, and a VM-6m fan is used to select the recirculated part of the air. Purification of the recirculated part of the air from dust particles and soot (sizes from 0.5 to 70 μm) is carried out directly in the channel for transporting the outgoing ventilation stream, passing (taking) it through a filtered mesh with a fiber thickness of 10 μm and a packing density of 0.06, total the area of the frontal filtered surface is 7 * 5 m ² , while the filtered mesh is part of the enclosing surface of a convex wave-like bridge. The efficiency of purification from suspended particles is 98-99%. Purification from gaseous harmful impurities (nitrogen oxides, carbon monoxide, aldehydes) is carried out by passing the recirculated part of air previously purified from suspended particles through a layer of crushed sylvinite ore (particle size 0.03-0.05 m) 0.4 m thick and frontal (open) surface area of 5 m ² . Purified air is discharged into an unburnt chamber 180 m long and is mixed with fresh air. When the channel for transporting the outgoing air stream to the installation site of the fan-ejector is 9.8 m ² , the air velocity is 1.7 m / s, which does not exceed the critical speed (2-2.5 m / s) that characterizes the start of dust blowing from enclosing surfaces. The enclosing surfaces of the convex wave-like lintel of the channel for transporting the outgoing air stream at the lintel placement area are covered with an aluminum sheet.

Claims (7)

 1. The recirculation method of ventilating the mine workings, including the intake of the recirculated part of the air from the outgoing ventilation stream, passing it through the open workings and mixing with fresh air, characterized in that before the recirculated part of the air is fed into the open workings, it is cleaned of suspended particles directly in the channel for transporting the outgoing ventilation stream in the place of its interface with the channel for intake of the recirculated part of the air, for which the input tverstie channel for recirculating part of the air intake cover the convex bridge comprising filter elements, which is the front surface part of the partition webs convex surface side approach thereto outgoing air flow.  2. The method according to p. 1, characterized in that the recirculated portion of the air is passed through a layer of crushed rocks before being discharged into the open pit mines.  3. The method according to PP. 1 and 2, characterized in that the convex jumper give a smooth wave-like shape and placed overlapping relative to the inlet of the channel for intake of the recirculated part of the air.  4. The method according to PP. 1 to 3, characterized in that the surface of the channel for transporting the outgoing ventilation stream at the location of the convex lintel is covered with a layer of antifriction dust-free material under the action of a jet of air.  5. The method according to PP. 1 to 4, characterized in that an ejector fan is installed in the channel for transporting the outgoing ventilation stream in front of the convex jumper, while the distance from the outlet of the ejector fan to the most protruding part of the convex jumper is no more than the length of the section corresponding to the full opening of the jet exiting fan ejector.  6. The method according to PP. 1 to 5, characterized in that the speed of the outgoing air stream through the channel to the installation site of the fan-ejector is maintained at a level not exceeding the critical air speed, which causes dust blowing from the enclosing surfaces of the channel.  7. The method according to PP. 1 to 6, characterized in that upon receipt of moist air for cleaning, the layer of crushed rocks is heated to a temperature that excludes the formation of film moisture on the surfaces of crushed rocks.