SU1271980A1 - Method and apparatus for airing an open mine - Google Patents

Abstract

The invention relates to the mining industry and makes it possible to increase the efficiency of pit ventilation (K), to reduce environmental pollution and the cost of ventilation. For this, solar energy is pre-accumulated in the EV I -iQ o, g. , / p :: f c h choals of rocks and inform its coolant (T). Changes in the vertical gradient of atmospheric temperature K 1 and the content of harmful gases (VG) in the air of working zones are constantly monitored. By reducing the gradient to an adiabatic value or increasing the GV concentration up to the maximum permissible value T, the pumps 8 are fed to the working zones and lower horizons KI. The air is heated and moistened before the gradient increases, the adiabatic concentration is lower and the concentration decreases below the maximum permissible quantities. After that, the supply of T is stopped and the state of the atmosphere continues to be controlled. Solar energy is accumulated by means of a heat accumulator 3, made in the form of cavities 4, formed in rock heaps 5. The accumulator 3 is connected to the solar concentrator 2 and nebulizers 1 through pipelines 6. 2 p.p. f-ly, 2 ill. / 3

Description

The invention relates to mining and is intended to ventilate quarries.

The purpose of the invention is to increase the efficiency of the quarry ventilation.

FIG. 1 shows the device; on ig. 2 - section A - A in FIG. one.

A solar energy concentrator 2 is installed on the surface of the pit 1, the heat accumulator 3, made in the form of cavities 4, formed in the dumps of rocks 5 in the process of discharge. Insulated piping 6 connects the solar energy concentrator 2 to the heat accumulator 3. The heat carrier 7 is fed by a pump 8 to a heat accumulator having central 9 and peripheral 10 cavities. The flow of coolant into the pit is carried out using sprayers 11.

At the same time, the solar energy concentrator can be made of plates 12 connected in blocks, which are placed on a free area near the dumps of batteries and set at an angle of 75 ° to the horizon, orienting the perceiving surface to the south. To increase the temperature of the coolant in solar concentrators, a triple glazing is used, as well as adjust the slope of the concentrators and their orientation relative to the sun in the morning and evening hours of the day, providing an insolation angle of 70-80 °.

Plates having transparent to solar radiation coatings may be

made with channels through which water or air flows, absorbing solar radiation from the coating; Isolation is located on the shadow surface of the plates. In addition, solar energy concentrators can be enclosed in a housing and have steam generators in the form of heat-insulated pools with water with blackened bottom and side surfaces and a coating that is transparent to solar radiation by one or more layers. The cavities of the heat accumulator are formed using reinforced concrete pipes.

The method is carried out as follows.

To determine the moment of supply of coolant to the pit, the state of the pit atmosphere is monitored by changing the vertical temperature gradient and the content of harmful impurities in the air of the working areas of the pit. When the state of the atmosphere deteriorates, in particular when the temperature gradient decreases to adiabatic or the concentration of harmful gases rises to the MPC value, the heat transfer fluid is supplied from the battery to the quarry, the air of the working zones is heated and moistened and the lower temperature gradient increases to the value and decrease of the concentration of harmful air impurities in the atmosphere of the working areas below the MPC. After that, the supply of heat to the quarry is stopped until the next deterioration of the atmosphere.

A device for aerating the pit operates as follows.

The coolant heated in the solar energy concentrator is supplied by means of a pump 8 to a heat accumulator.

The accumulation of heat and moisture in the dumps of rocks is carried out in the direction from the central cavities 9 to the peripheral cavities 10.

To do this, they control the difference in the temperature of the coolant flowing into the battery cavity and the temperature of the rocks, the surrounding, their cavity in the dump into which the coolant is currently flowing, and after reducing the temperature difference to 3-5 ° C, the coolant is directed to the neighboring cavities. After the specified temperature difference has been reached in all cavities of the heat accumulator, the heat carrier supply from the concentrators is stopped and the supply is resumed after the increase of this difference in any cavity. The removal of heat and moisture from the heat accumulator is carried out in the opposite direction: from the peripheral cavities to the central ones. To do this, the coolant is passed first through the peripheral cavities before it enters the quarry, and

0 then through more heated central cavities until the required coolant temperature is reached. After heating the heat carrier in a particular cavity to the extreme temperature, the cavity is sealed and the coolant is directed to the adjacent

cavities. In the event of a threatened career atmosphere, depressurize the peripheral cavities of the battery and direct the coolant through the heat-insulated pipes to the quarry, where

0 nozzles produce heat and humidity air treatment in work areas.

Claims (2)

1. A method of ventilating a quarry, which includes heating and humidifying the air with a coolant and feeding it into a quarry, characterized in that, in order to increase the efficiency of ventilation of the quarry, reduce environmental pollution and the cost of ventilation, pre-accumulate solar energy in the dumps of rocks, it is reported to the coolant and it is constantly monitored for the change in the vertical temperature gradient of the pit’s atmosphere and the content of harmful gases in the air of the working areas, while reducing the gradient to a Increasing the concentration of harmful gases to the MPC value of the coolant to the working areas and lower levels of the quarry, heat and moisten the air until the temperature gradient increases above the adiabatic value and decreases the concentration of harmful gases in the working zones below the MPC, then the flow of coolant is stopped and continued to be controlled state of the atmosphere. 2. A device for ventilating quarries, including a heat accumulator, connected to pipelines, n pumps for supplying the heat carrier to the quarry, characterized in that, in order to increase the ventilation efficiency of the quarries, the device is supplied with a solar energy concentrator and sprays, and the heat accumulator is made in the form of cavities formed in rock dumps and connected to the solar concentrator and dispensers with the help of pipelines.