RU2162944C1 - Method of mine ventilation - Google Patents

Abstract

FIELD: mining. SUBSTANCE: method may be used in artificial ventilation of opencasts where metalliferous and nonmetalliferous minerals are mined. The method includes cascade horizon location of ventilation plants and mixing of fresh and foul air. Ventilation plants are used in the form of plants producing fuel-air mixtures. Fresh and foul air is mixed by explosion of fuel-air mixture. In this case suction stream withdrawing foul air beyond opencast is formed by exploding of fuel-air mixture on upper horizon, and then successively down to the lowest horizon. A number of cascades, fuel volume supplied to fuel-air mixture and uniformity of explosions between cascades are determined by an experiment. EFFECT: higher intensity of mixing fresh and foul air. 2 cl, 1 dwg

Description

 The method of ventilation of the mine relates to mining and can be used to artificially ventilate quarries in which ore and non-metallic mineral resources are mined.

 One of the most important problems in the development of ore and non-metallic minerals by open-pit mining is to ensure sanitary air standards in quarries and opencasts / 1 /.

 This is especially true for deep careers in their intensive development.

 The main causes of dust formation and gas contamination in mines are: drilling, blasting, secondary crushing and transportation of rock mass by vehicles with internal combustion engines.

 To normalize the atmosphere in the quarries, natural and artificial ventilation methods are used / 2 /.

 Well-known methods of activating natural air exchange in mines (the construction of wounds, profiling of the sides of quarries, the use of wind deflecting shields, etc.) have not been widely used in practice because of their low efficiency or high cost.

 Artificial ventilation of quarries involves the use of mechanical (fan installations), thermal or combined means / 2 /. In this case, a discharge, suction, or combined ventilation method with a cascade layout of ventilation means is realized.

 These methods are also ineffective especially in large quarries, since their implementation requires high energy costs.

 The aim of the invention is to increase the efficiency of ventilation of the mine by creating a powerful suction jet that carries the exhaust air outside the quarry and leads to an increase in the intensity of mixing of fresh and exhaust air.

 To achieve this goal, it is proposed to use, instead of the well-known technical devices, installations that create fuel-air mixtures that are placed in stages (horizontally).

In the explosion of a fuel-air mixture of gasoline weighing 1000 kg in a short period of time, a highly heated region of air with a volume of up to 10 ⁶ m ^{3 is formed} , which is comparable with the volume of a quarry / 2 /.

 To form a suction jet, fuel-air mixtures are created at the developed horizons. Undermining these mixtures is carried out cascadingly, starting from the upper horizon.

 The essence of the method is illustrated in the diagram (see drawing). At the horizons (1) of the mine, a fuel-air mixture (2) is created by known methods.

 An air-fuel mixture explosion is more effective at heating air than an explosion of other known explosives.

 On the upper horizon, the region of air heated by the explosion, rising up, destroys the inversion of the atmosphere. When undermining with some delay in the fuel-air mixture on the underlying horizon, the heated region of air is drawn into the explosion region on the upper horizon, and thus a suction jet is created. In this case, naturally, the mixing of fresh and exhaust air in the quarry is intensified.

 For each mine, the number of cascades and the mass of the fuel exploded is selected empirically based on specific conditions.

 The implementation of the proposed method does not require any complex devices and therefore is not in doubt.

LIST OF REFERENCES
1. Pevzner M.E. Ecology of mining. Mining and industry, Sat articles. M .: Nedra, 1989.

 2. Bitkolov N.Z., Medvedev I.I. Aerology quarries. M .: Nedra, 1992.

Claims (2)

 1. A method of ventilating a mine, including cascadewise horizontal placement of ventilation units, mixing of fresh and exhaust air, characterized in that the installations creating fuel-air mixtures are used as ventilation units, and mixing of fresh and exhaust air is made by blowing the fuel-air mixture.  2. The method according to claim 1, characterized in that the blasting of the fuel-air mixture is carried out cascadely, starting from the upper horizon, the number of cascades, the mass of fuel supplied to the fuel-air mixture, and the uniformity of the blast between the cascades is determined empirically.