SU1167352A1 - Mine ir air-conditioning - Google Patents

Abstract

MINE AIR CONDITIONING INSTALLATION, including chiller, condensation heat removal system, primary and secondary coolant systems, consisting of pumps, high pressure heat exchanger, air coolers and primary and secondary coolant pipelines, which is designed to reduce the consumption of MOSH. The chiller's CHILDREN for cooling the coolant during periods of energy maxima of the power systems, the installation is equipped with a cold accumulator, made in the form of heat-insulated A container with a mixing chamber, an ejector device, a regulating device with controllable valves and an overflow chamber with a drain collector, the mixing chamber with an ejector device installed in the end of the heat-insulated container on the air side of the coolers, and the cold battery is included in the secondary cooling system (L system 77777 O5 oo O1 1C

Description

The invention relates to the mining industry and can be used for mine ventilation and air conditioning.

The purpose of the invention is to reduce the power consumption of the refrigerating machine for cooling the coolant during periods of energy maxima of the power systems, which leads to a significant reduction in the cost of electricity for the production of cold.

The drawing shows a diagram of the mine installation of air conditioning, section.

The installation consists of a chiller 1, a condensation heat removal system 2, a primary coolant system 3 with a pump 4 and a high pressure heat exchanger 5, a secondary coolant system with a pump 6, an air cooler 7 and supply lines 8 and a coolant return 9, a liquid cold battery 10 s a mixing chamber 11 and an ejector device 12 and a regulating device 13 with controllable valves 14 and 15, an overflow chamber 16 with a drain collector 17.

Mine installation of air conditioning works as follows.

In the periods between the energy peaks, the refrigerating machine 1 operates with a load that ensures the need for cold air coolers 7, and ensures the accumulation of cold in the cold accumulator 10.

In this case, the circulation system 2 of the heat removal of condensation removes heat from the refrigeration machines to the cooling tower. The circulation system of the primary coolant 3 with the help of pump 4 supplies cold to the dash, where the secondary system of the coolant using the high-pressure heat exchanger 5, the pump 6, the cold supply and return pipelines of the coolant 9 cool the air coolers 7,

while the valve 14 is open and the valve 15 is closed. At this time, cooling of the cold liquid battery 10 is parallelly performed. For this, the regulating device 13 is adjusted to supply 10% of the coolant to the ejector device 1-2 and the battery. 10. Having displaced the warm coolant through the drain manifold 17 into the overflow chamber 16, the pump 6 together with the heated coolant it is fed for cooling to the high-pressure heat exchanger 5 and cooled again fed to the air coolers and the battery.

During periods of energy highs reduce the productivity of refrigeration

machines by 50% by changing the installation angle of the turbomachine guide assembly in a known manner and reduce power consumption. To provide the air coolers with the necessary amount of cold, they open the valve 15 and close the valve 4 in the pipe 9. At the same time, the heated coolant enters the displacement chamber 11 and with the help of the ejector device 12 is supplied to the battery 10, while the heated coolant is partially mixed and partially cooled heat exchanger 5 coolant flowing through the regulating device 13.

Cold coolant through the drain manifold 17 enters the drain chamber and then for additional cooling to the heat exchanger 5 with subsequent supply to the air coolers 7.

Within 2 hours, there is a slight increase in the temperature of the coolant circulating in the secondary system, which has almost no effect on the air cooling of the mine, but allows a significant reduction in the injected capacity of the cooling mains during periods of energy maximum, which leads to a significant decrease in the cost of electricity for the production of cold .

Claims (1)

MINING AIR CONDITIONING UNIT, including a refrigerating machine, condensation heat removal system, primary and secondary refrigeration systems, consisting of pumps, a high pressure heat exchanger, air coolers and primary and secondary refrigerant pipes, characterized in that, in order to reduce the power consumption of the refrigeration machine for cooling the coolant during periods of energy maximums of power systems, the unit is equipped with a cold accumulator, made in the form of a heat-insulated battery bones with a mixing chamber, an ejector device, a regulating device with controlled valves and an overflow chamber with a drain manifold, while the mixing chamber with an ejector device is installed at the end of the heat-insulated container on the side of the air coolers, and the cold accumulator S is included in the secondary coolant system. SU ... 1167352