SU1717845A1 - Mine air conditioner - Google Patents

Abstract

Use: air conditioning mine air. The purpose of the invention is to reduce the cost of air conditioning. The installation contains a compression chiller with an evaporator and a condenser. A contact heat exchanger installed at the inlet of the channel for the supply of atmospheric air to the shaft is included in the system of the primary coolant of the refrigerating machine. The system of primary coolant also includes blocks-section of the ice maker, installed after the evaporator. In addition, the installation includes a conveyor and a cascade descent of ice, located in the air supply trunk, a chamber for receiving and dissolving ice, located in an underground mine. In the ice receiving and dissolving chamber, nozzles of the ice dissolution control system are installed, communicating with the secondary coolant circulation system containing a coolant flow regulator and a dust suppression pipeline communicating with an air cooler. 1 il. . g yo

Description

The invention relates to the mining industry, more specifically to mine ventilation and mine air conditioning.

A known air conditioning shaft installation includes a compression chiller, a channel for supplying atmospheric air to the shaft, a coolant supply system, an air cooler located on a deep horizon, and a contact heat exchanger connected to a condenser of a compression chiller. This installation provides a reduction in energy consumption for heating in winter of air supplied to

mine due to waste heat of the refrigeration machine. The closest to the proposed mine is the air conditioning aa, which includes a supply and return primary coolant pipeline system, a compression chiller, a contact heat exchanger, a channel for supplying atmospheric air to the shaft, an absorption chiller, a compressed air cooler, a high pressure heat exchanger, a system secondary coolant supply and return pipelines, bodies air coolers and well heat sinks. Dunn Usv | 00

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This makes it possible to increase the profitability of normalizing the air temperature in the mine by reducing the required cooling performance of the compression chilling machines by pre-cooling the extracted coal massif by means of the coolant already used in the shaft coolers.

The drawbacks of the installation are the significant capital and operating costs of the circulation supply and return system of the primary coolant with a high pressure heat exchanger.

The aim of the invention is to reduce capital costs and operating costs.

This goal is achieved in that the installation is equipped with ice maker block sections with an assembly conveyor and cascade ice dropping into the mine, an ice receiving and dissolving chamber, a dust suppression pipeline and an ice dissolution circulation system, and the cascade ice descent is located in the air supply shaft between the assembly conveyor and an ice receiving and dissolving chamber, wherein the circulation system of the return of the secondary coolant is equipped with nozzles and a flow controller that is connected to the pipeline dust control and circulation system controlling the dissolution of ice is connected in parallel circulation system of the secondary coolant.

The presence in this installation of block sections of an ice maker with an assembly conveyor and cascade descent allows for deep mines to obtain ice all the year round and lower it into the mine, while the ice receiving and dissolving chamber provides for receiving and storing ice and for obtaining ice water for circulation. secondary cooling system sys- tems, with the help of which air is cooled in the mine air coolers.

For shafts with a cold consumption of 3-4 million, kcal / h, up to 50 m / h of ice must be supplied, which is approximately equal to 45 m / h of thawed snow, which in this installation, which prevents the return to the surface, is supplied to the nozzles for dust suppression, which allows simultaneously improving the temperature conditions in the mine.

Switching the secondary coolant parallel to the circulation system of the circulating ice dissolution control system makes it possible to maintain a temperature of + 1 ° C in the secondary coolant supply pipes to the air coolers. The proposed installation eliminates the need for a primary coolant circulation system, which in turn eliminates the installation of two or more high pressure pipes up to 300 mm in diameter, a high pressure heat exchanger, a chamber for placing it in a near-barrel yard and a pumping station. , the use of ice water for secondary refrigerant instead of 6.7 ° C for the prototype reduces: the amount of circulating coolant, the diameter of pipelines and the power of the secondary circulation pump pumps

coolant. All this reduces the capital costs of construction and reduces the operating costs of the installation,

The drawing shows the installation diagram

air conditioning.

i The installation includes an evaporator 1 and a condenser 2 of a compression chiller 3 with a brine circulation pump 4 and ice maker block sections 5 connected to an assembly conveyor 6 and a cascade discharge of ice 7 into the mine, an ice receiving and dissolving chamber 8 with a circulation system 9 controlling ice with pump 10 and ice receiving reservoir 11

water supplied to the pump 12 of the circulating supply system 13 and return 14 of the secondary coolant with air coolers 15, nozzles 16 and a flow regulator 17 connected to the pipeline 18

dust suppression, contact heat exchanger: 19 with regulator 20 of operation mode and ventilation duct 21 for supplying atmospheric air to shaft of mine 22, as well as with circulation pump 23 connected to

by compressed air cooler 24 by supply lines 25 and coolant return 26, valves 27 - 29.

The installation works as follows.

When the temperature of atmospheric air is below 2 ° C, it is necessary to heat it before it enters the shaft. For this purpose, the regulator 20 of the operating mode of the contact heat exchanger 19 is installed in a position at which heated atmospheric air can flow into the ventilation duct 21 and further into the barrel 22. Open the valves 27 and 28 and close the valve 29, ensuring parallel operation of cooling bodies The compressed air 24 and the condenser 2 of the compression refrigerating machine 3, in which the evaporator 1 of the brine circulation pump 4 and the block sections of the ice maker 5 produces ice, serves it

on assembly line 6 and cascaded

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. 1717845

at the descent 7, it is dropped into the chamber to receive and dissolve the ice. The pump 10 of the circulation system 9 for regulating the dissolution of ice is turned on and, the solution is ice, ice water is obtained in the reservoir 11 with a temperature of 0-1 ° C. The pump 12 is turned on and through the circulating supply system 13 and return 14 of the secondary coolant, the coolant circulates through the air cooler 15, the nozzles 16 and the ice receiving and dissolving chamber 8, ensuring a constant temperature of the secondary coolant in the tank 11. At the same time, the flow controller 17 maintains A constant flow rate in the coolant return pipeline 14, and an excess coolant equal to the amount of ice supplied to the mine, after the air coolers 15, is fed to the pipeline of the dust suppression system 18, where one temporarily provided pylelodavlenie and additional air cooling.

In the same period of the year, if the air temperature drops below -10 to -15 ° C, the sources of cold heat condenser 2 and compressed air cooler 24 are connected in series, increasing the temperature of the heat carrier by closing the valves 27 and 28 and opening the valve 29. In the warm the period of the year at the temperature of atmospheric air above 2 ° C, its heating before feeding into the shaft of the shaft is not required and the installation works as follows. The controller 20 of the operating mode of the contact heat exchanger 19 is switched to a position that blocks the ventilation duct 21. And the supply of atmospheric air is carried out directly to the barrel 22.

19 cycle heat exchanger, which is in this one. the period is used to cool the coolant from the condenser 2 and the cooler 24, compressed air. Obtaining of ice, its trans-, 5 porting, cooling of the secondary coolant and air in the mine is carried out in the same way as in the previously described period.

iThe introduction of the proposed air conditioning shaft installation

You will reduce capital costs and operating costs.

Invention Formula

Mine installation of air conditioning 15, including compression

chiller with evaporator and cbn sensor, contact heat exchanger,

included in the primary cooler system, the channel for supplying atmospheric air 20 to the shaft of the mine, the compressed air cooler,

circulation system of supply and return of the secondary coolant with air-cooling, bodies, and so on, so that, in order to reduce the cost of air conditioning i, it is equipped with 25 block sections installed after the evaporator of the compression chiller in the primary coolant system, by a conveyor and cascade descent of ice located in the 30 air supply barrel, an ice receiving and dissolving chamber located in the under-; ground development and a spray control system. ice and nozzles of the circulation system 35J of the secondary coolant, which, in -; in turn, it is equipped with a coolant flow regulator and a dust-and-pressure pipe installed by an air cooler and nozzles. 40

Claims (1)

Formula tions Air conditioning shaft installation including a compression chiller with an evaporator and condenser, a contact heat exchanger included in the primary refrigerant system, a channel for supplying atmospheric air to the shaft of the shaft, and a cooler compressed air, a circulation system for supplying and returning a secondary coolant with air coolers, characterized in that, in order to reduce conditioning costs, 25 it is equipped with block sections of an ice maker, installed after the evaporator by a compression refrigeration machine in the primary refrigerant system, with a conveyor and cascading ice discharge located in the 30 air supply barrel, an ice receiving and dissolving chamber located in the under ^; earthly excavation and a system for regulating the dissolution, ice and nozzles of the circulation system 35 ^J equipped with nozzles, we are a secondary coolant, which, in turn, is equipped with a coolant flow regulator and a dust suppression pipe installed between the air cooler and nozzles. 1717845: oh oh Compiled by. Editor N. Rogulin Tehred M. Morgenthal Corrector s.Shevkun Order 864 Circulation Subscription VNIIIPI of the State Committee for Inventions and Discoveries at the State Committee for Science and Technology 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and Publishing Combine Patent, Uzhgorod, 101 Gagarin St.