RU2132466C1 - Method for dehydration of liquid waste flushed in mine - Google Patents

Abstract

FIELD: mining technology. SUBSTANCE: method is used for reducing volume of underground workings occupied by liquid waste. In realization of method, initially water component of waste is removed. In this case delivery of mine air is increased above upper surface of liquid waste during period of time when content of moisture in mine air is insufficient. Moistened air is directed for ventilation of underground workings. Application of aforesaid method ensures efficient dehydration of liquid waste with removing moisture from underground mine to day surface. EFFECT: higher efficiency. 1 cl, 1 dwg

Description

 The invention relates to the mining industry and is intended to reduce the volume of mine workings occupied by liquid waste.

 A known method of dehydration of liquid waste, consisting in the evaporation of the aqueous component of the waste using power plants (Theory and Practice. / Under the editorship of ID Sokolov. - L .: Chemistry, 1983, S. 130-248).

 A disadvantage of the known technical solution is the need for high energy costs and the creation of special plants for the evaporation process.

 A known method of electric dehydration of liquid waste. The essence of this method is to pass current through the backfill array. As a result, the setting process is accelerated and the fluid return from the filling array is increased (B.A. Borzakovsky, L.M. Papulov. Bookmarking works at the Verkhnekamsk potash mines. M: Nedra, 1994. p. 170-171).

 The disadvantage of this method is the need for energy and the creation of special plants for the dehydration process.

 Closest to the proposed one is a method consisting in removing the water-containing component of waste in mine workings using pumps (B. A. Borzakovsky, L. M. Papulov. Bookmarking from Verkhnekamsk potash mines. M: Nedra, 1994. p. 115- 122).

 A disadvantage of the known technical solution is the need to use additional pumping stations, while the harmful component of the waste can be pumped out of the waste together with water.

 The aim of the proposed invention is to reduce the volume of mine workings occupied by liquid waste by dehydration and moisture removal from the mine to the surface.

 The goal in the proposed method is achieved by increasing the supply of mine air above the liquid waste mirror in a period of time when a lack of moisture is felt in the mine air.

 Water evaporates into the air stream. In this case, humidified air is sent to ventilate the mine workings. Thus, dehydration of liquid waste occurs, and moisture is carried out by air along the mine workings to the day surface. Dehydrated waste remains in the place of its laying, and the water component is removed from this place by air. Hence, the volume of workings occupied by waste is reduced, which allows you to lay more waste.

 The drawing shows a diagram of the method of dehydration of liquid waste laid in the mine, where the network of mine workings 1, air flow 2, switching device 3, liquid waste 4.

 The method is implemented as follows: the air stream 2 is passed through the mine workings 1 to the switching device 3, which directs the air stream 2 in the period of time in which the lack of moisture prevails in the air stream over the liquid waste mirror 4, and in the period with saturated air flow through workings 1, bypassing the liquid waste 4. Then, air 2 enters the ventilation of the mine workings 1 and is carried to the day surface.

 The method allows for the dehydration of liquid waste without the use of special equipment using regulation.

 The proposed technical solution will be tested at the BKRU-4 mine of JSC Uralkali in the third quarter of 1997.

 Compared with the known technical solution prototype, the proposed technical solution will reduce the loss of energy consumption for dehydration of liquid waste.

Claims (1)

 The method of dehydration of liquid waste laid in the mine, including the removal of the aqueous component of the waste, characterized in that the supply of mine air above the mirror of liquid waste increases during a period of time in which a lack of moisture prevails in the mine air, while humidified air is sent to ventilate the mine workings.