RU2734532C1 - Pit ventilation method - Google Patents

Abstract

FIELD: ventilation and air conditioning.

SUBSTANCE: method can be used for ventilation of working space of pits, in particular for ventilation of deep funnel-shaped open pits of diamond deposits. During pit ventilation, an upward vortex flow is created by swirling it along the perimeter with streams of ventilation jets, placing ventilation installations around the working zone and directing air flows inside the working zone along a tangent to the circle circumference of the vortex column base. Diameter of the vortex column is controlled by changing the angle of attack of the axes of ventilation installations relative to the vortex column. Rotation speed of the vortex is controlled by changing the efficiency of ventilation installations, and density of air in ventilation flows is reduced by heating or heating and moistening.

EFFECT: technical result consists in improvement of ventilation efficiency of deep open pits by providing control and controllability of vortex air funnel.

8 cl, 2 dwg

Description

The invention relates to mining, namely to airing the working space of the quarries, in particular, for airing deep funnel-shaped quarries of diamond deposits.

There is a known method of airing open pits (see RU # 2036311, class E21F 1/00, publ. 05/27/1995), including drilling vertical wells along the perimeter of the quarry boundaries, driving from each ledge of horizontal mine workings tangentially to its side to the collision and the supply of clean air to the pit space along these workings to create a rotational-upward movement of the entire mass of air in the pit space.

The disadvantage of this method of airing a quarry is the high labor intensity of sinking and fixing a large volume of underground mine workings. Driving horizontal mine workings tangentially to the surface of the slope under the base of the collapse prism undermines the stability of the bench and may jeopardize the safety of the passage of industrial vehicles along it, which, in turn, will lead to a halt in the operation of the entire open pit.

There is a known method of airing open pits (see SU No. 859648, class E21F 1/00, publ. 08/30/1981), including placing a fan unit at the bottom of the quarry and moving the ventilation stream in the aired volume of the quarry according to a given program. In this case, a cone of rotation is formed with an angle of inclination of the trajectory of the jet axis to the vertical equal to half of the full angle of opening of the jet, then the ventilation stream is continuously moved in the vertical and horizontal planes, and as the angle of deviation of the ventilation stream from the vertical to the pit board increases, the rotation speed of the jet in the horizontal plane is the trajectory is mixed in the vertical plane by the value of the full jet opening angle.

The disadvantage of this method of ventilation of the quarry is the small ventilation depth, which in this ventilation scheme is limited by the range of the direct fan jet. The speed of rotation of the above "vortex" cone is equal to the angular speed of rotation of the fan itself, i.e. in essence, the air is simply mixed by the fan jet.

There is a known method of airing quarries (see SU No. 1122831, class E21F 1/00, publ. 07.11.1984) by placing ventilation units along an ascending conical helical line along the sides of the quarry at a distance between them 0.5-0.9 their maximum value range and with an angle of inclination of the jet axes within 10-25 ° to the horizon. The operation of the units is designed to create a continuous flow of air leaving along a conical helical line.

The disadvantage of this method is the irrational scheme of the ventilation circuit of the apparatus and the unreasonably high energy consumption for driving the entire multimillion-dollar volume of the open pit air mass into circular motion. The length of such a conical spiral line in deep diamond quarries with given slope parameters will be up to 10 kilometers or more, along which at least 20-30 ventilation units will need to be sequentially located. However, even such an unrealistic number of ventilation units will not be able to ventilate the quarry for the simple reason that the capacity of such a sequential ventilation scheme does not exceed the capacity of just one ventilation unit, and therefore it is not possible to ventilate the entire volume of a quarry with a capacity of several hundred million cubic meters.

There is a known method of airing open pits (see SU No. 581300, class E21F 1/00, publ. 11/25/1977), which consists in creating a vertical vortex flow by arranging ventilation units towards one another in such a way that the axes of the jets injected by them are located with parallel displacement in the horizontal plane.

The disadvantage of this method is the extremely low energy utilization factor of the ventilation unit due to the fact that only a small part of the flow from one side of the fan jet, which is in contact with the counter flow, participates to create a vortex. A significant part of the air mass flow flies straight without changing its direction of movement. In addition, the method does not provide the ability to ventilate a deep open pit due to the low height and diameter of the vortex column, which rapidly decays due to the loss of kinetic energy of the jet due to turbulent parasitic vortices and air mixing.

The closest in technical essence is the method of airing a quarry, which includes the creation of an ascending vortex air flow by installing fans around the working area of the quarry connected to vertical ventilation pipes with side air distribution (see SU No. 712509, class E21F 1/00, publ. 30.01.1980). In this case, air flows are directed tangentially to the working area of the quarry. The upper end of each ventilation pipe is suspended from balloons and fixed by ropes to the ground.

The main disadvantage of this method is the physical impossibility of swirling the air jets flowing from the nozzles, directly directed tangentially to the outside of the working area, due to the absence of guiding (swirling) jet limiters. Technological disadvantages are the complexity and duration of the preparation of balloons for operation, the laboriousness of the installation of fans and air ducts, as well as the need to dismantle the entire system for evacuation outside the danger zone for the period of the next blasting operations in the quarry.

The object of the present invention is to improve the efficiency of ventilation of deep quarries by ensuring control and control of the vortex ventilation funnel.

To solve the problem in the method of airing a quarry, including the creation of an ascending vortex flow by placing ventilation units around the working area of the opencast and directing air flows to the working area, the ascending air flow is formed in the central part of the working area in the form of a vortex column of rotation by twisting it around the perimeter with flows ventilation jets. The flows of ventilation jets are directed inside the working area tangentially to the circumference of the base of the vortex column, the diameter of which is controlled by changing the angle of attack of the axes of the ventilation units relative to the column. The vortex rotation speed is controlled by changing the performance of ventilation units, and the air density in ventilation flows is changed by heating or heating and humidification.

Heating and supply of the ventilation stream flow is carried out by burning combustible fuel in jet engines. Heating of the ventilation jets can also be accomplished by burning combustible materials inside the base of the vortex column. The change in the performance of ventilation units is carried out simultaneously or in pairs from opposite sides of the perimeter of the working area. Before the start of airing, the area of the base of the vortex column is dedusted by irrigating water onto dusty surfaces and freezing it.

Heating and humidification of the ventilation jet is carried out by supplying hot steam. The humidification of the ventilation jet can also be accomplished by the formation of water mist with the dust suppression guns.

FIG. 1 shows a schematic diagram of pit ventilation; in fig. 2 section a-a in Fig. 1.

Comparative analysis of both individual features and the entire set of essential features of the claimed solution, with features of analogues and prototype, indicates the compliance of the declared solution with the "novelty" criterion.

The features of the characterizing part of the claims ensure the solution of the following functional problems.

The feature "the flows of ventilation jets are directed into the working area tangentially to the circumference of the base of the vortex column" allows, in contrast to the prototype and analogs, to use all the energy of the ventilation stream to swirl the vortex column and reduces the number of ventilation units, increasing their utilization rate.

The feature "change in the angle of attack of the axes of the ventilation units relative to the column" enables flexible selection of the optimal value of the vortex column diameter to regulate the geometric and dynamic parameters of the vortex column. For example, a decrease in the diameter of a vortex column increases the speed of rotation of the vortex and the height of its rise.

The sign "the rotation speed of the vortex is controlled by the change in the performance of ventilation units" is necessary to achieve ventilation indicators to the required removal of gassed and dusty air.

The sign “the air density in the ventilation flows is changed by heating or heating and humidifying” allows you to create a vertical thrust gradient, creating an Archimedes lift due to the difference in the density of the ambient cold air and the warm ventilation jet.

The joint work of the combination of the proposed essential features of the method provides an increase in the efficiency of ventilation of deep stagnant zones in the pit space by creating and ensuring the stability of a vertical vortex ventilation column, the parameters of which can be controlled and, if necessary, controlled.

The method is carried out as follows.

In the center of the working zone 2 of the quarry 1 along the circular contour 3, the sources of the ventilation jet 4 are installed. The sources 4 are distributed evenly along the perimeter of the contour of the circle 3 at a distance of no more than the range of each installation. The longitudinal axis 5 of the ventilation stream of each installation 4 is directed inward to the center of the working area 2 tangentially to the circumference of the base 6 of the vortex column 7. Water mist guns 8 are placed between the installations to suppress dust. Before the start of airing, the area of the base of the vortex column 7 is dedusted by irrigation of water from cannons 8 and frozen with natural cold. The installation 4 is started up and an ascending vortex column 7 is created by swirling it around the perimeter with the flows of ventilation jets 9. As the sources of ventilation jets 9, you can use units with jet aircraft engines. Dusty and gaseous air of the working area of the quarry is sucked in by jet engines and ignited together with the combustible mixture in the engine combustion chamber. Combustion products escaping from the engine exhaust nozzle, due to the high temperature and flow rate, create a powerful artificial vortex column 7. The ascending vortex column 7 creates a stable funnel for the removal of polluted air from the pit 1 due to the difference in density, temperature and humidity between the cold polluted air outside and directed in a spiral 10 upwards at a high speed of a hot and light ventilation stream inside the vortex column 7. The contaminated air is sucked from the lower zone 2 of the open pit through the funnel of the vortex column 7 into the upper zone of wind activity 11 and into the recirculation zone 12, i.e. actually dense layers of cold air in the inversion plug 13 squeeze out the gaseous and dusty air from the bottom through the vortex funnel of the ascending rarefied air. Depending on the size of the working zone 2, the diameter of the vortex column 7 is regulated by changing the angle of attack α of the axes of the ventilation units 5 relative to the vortex column 7. The height of the vortex column 7 is influenced by the kinetic energy of the rotational motion of air flows in the vortex. Therefore, to ensure the required depth of pit ventilation, the vortex rotation speed is controlled by adjusting the performance of ventilation units or by changing the speed or position of the fan blades, etc. To ensure the stability of the vortex column 7 in the space of the quarry 1, the regulation of the performance of the ventilation units 4 during their operation is performed simultaneously or in pairs from opposite sides of the perimeter of the working area. To create a vertical thrust inside the vortex column, the air density in the ventilation flows is reduced by heating by flares of combustion products from jet engines and by humidifying with water vapor from dust suppression guns 8. Heating the air mass inside the vortex column 7 can also be produced by burning solid, liquid or gaseous fuel in the center the base of the vortex column. Heating and humidification of the ventilation jet can also be done by applying a jet of hot or superheated steam 14.

Example. Let us consider the problem of airing a quarry during the development of a primary diamond deposit in the Far North when the working horizon drops below 200-300 m. In winter, during open pit mining, a stagnant contaminated zone 2 is formed in the lower tapering part of the quarry due to the blockage of the inversion plug 13, flowing from the day surface, of heavy cold air. With a decrease in the working horizon of mining below the wind activity zone 11 and recirculation 12, the downtime of mining operations due to gas pollution and dustiness grow rapidly. Long-term downtime of the quarry due to air pollution is observed in the winter season, starting from October-November, and decreases only in March-April. At times, downtime in the work of the quarry reaches 2,000 hours or more per year.

To ventilate the quarry under such conditions, in the center of the bottom part of the gaseous zone along the perimeter of the circular contour, sources of ventilation jets 4 are installed. As such sources, axial mine fans of local ventilation can be selected. It is preferable to use fans with adjustable performance by changing the position of the blades or frequency control of the rotor speed. The number of fans is determined based on the volume of polluted air and the estimated duration of ventilation. The minimum number of fans is recommended at least 5 based on the principle of minimizing the energy losses of the jets to swirl the flow. With the number of four or less installation points of the fans, the angle between the axes of the ventilation jets will be 90 ^° or less, which makes it impossible to swirl the flows into a vortex. The distance between the installations is chosen no further than the maximum range of the fan jet.

With respect to the horizontal plane, after the formation of a stable vortex, the fans can be installed with an angle of inclination upward to create an additional vector of vertical thrust. The optimal angles are selected based on local conditions and their values can be varied in the above ranges to create a stable vortex column and minimize overhead losses.

In the center of the circle - projection 6 of the projected vortex column 7, heat sources are installed. As such sources can be used special heating units such as UKPK-1 or UT-LPI-2 on liquid or gas fuel. In the presence of combustible gases in the underground strata of the field and aquifers, it is possible to utilize the sources of underground gas through gas flares to create convective lifting force. A fire source can be created by controlled burning of other combustible materials.

Combustion products from the nozzles of a gas torch or open flame of burning materials, due to the high temperature, create a powerful convective flow directed upward. The height of the flame can be adjusted by controlling the consumption of the combustible substance. Turning on the fans and swirling air masses around the fire source creates an artificial fire whirlwind, repeatedly raising the height of the fire flame. The large difference in temperature inside and outside the vortex column of fire sharply increases its rotation, forming an artificial vortex column in the form of a stable funnel of polluted air leaving the quarry.

In the Far North winter temperature could drop below -50 ^{° C} and the air take a minimum value of maximum moisture saturation, which leads to maximum air density. Heating air in a flame raises its temperature up to 300 degrees or more. An increase in air temperature significantly increases the value of maximum moisture saturation. Thus, the heating and humidification of the ventilation jet significantly reduces the air density and increases the convective thrust force in the vortex column. The humidification of the ventilation jets can be carried out with special water mist cannons for suppressing dust (Fog Cannon) with a range of 30 to 120 m or more. The set of features of the method proposed in the technical solution in joint work for airing the quarry provides:

- improving the safety of mining in deep and unventilated quarries;

- reduces downtime of mining operations in conditions of gas and dustiness of the open pit working space.

Claims (8)

1. A method of airing a pit, including the creation of an ascending vortex flow by arranging ventilation units around the working area of the pit and directing air flows to the working area, characterized in that in order to ensure control and controllability of the ventilation funnel, the ascending air flow is formed in the central part of the working area in the form vortex column of rotation by twisting it around the perimeter by the flows of ventilation jets, which are directed into the working area tangentially to the circumference of the base of the vortex column, the diameter of which is regulated by changing the angle of attack of the axes of the ventilation units relative to the column, the rotation speed of the vortex is controlled by changing the performance of ventilation units, and the air density in ventilation flows are changed by heating or heating and humidification. 2. The method according to claim 1, characterized in that the heating and supply of the ventilation stream flow is carried out by combustion of combustible fuel in jet engines. 3. A method according to claim 1, characterized in that the heating of the ventilation jets is performed by burning combustible materials inside the base of the vortex column. 4. The method according to claim 1, characterized in that the heating and humidification of the ventilation jet is performed by supplying hot steam. 5. The method according to claim 1, characterized in that the change in the performance of the ventilation units is performed simultaneously or in pairs from opposite sides of the perimeter of the working area. 6. The method according to claim 1, characterized in that the ventilation jet is humidified by the formation of a water mist with dust suppression guns. 7. The method according to claim 1, characterized in that the area of the base of the vortex column is dedusted before the ventilation begins. 8. The method according to claim 7, characterized in that the dedusting of the base area of the vortex column is carried out by irrigating water onto dusty surfaces and freezing it.

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