RU2010147600A - METHOD FOR AIR COOLING IN A BUILDING AND SYSTEM FOR ITS IMPLEMENTATION - Google Patents

Abstract

 1. The method of cooling the air in a building, mainly in the hot season, equipped with a cold water supply network and a central heating circuit with many heat-exchange sections, namely, that the liquid in the central heating circuit is cooled and sent through a forced circulation to many heat-exchange sections, which cool the air in the building, characterized in that the cooling of the liquid in the central heating circuit is carried out by heat exchange with cold water in a cold water supply network liquid / liquid type cooler, for this purpose, at least part of the cold water at the inlet of the cold water supply network is supplied to the liquid / liquid cooler and used as a cooling medium, and the liquid at the outlet of the central heating circuit is supplied to the liquid / liquid cooler and used in the quality of the medium to be cooled, after which the cooled liquid is sent to the inlet of the central heating circuit and a plurality of heat exchange sections for cooling the air in the building, while cold water heated in a type cooler liquid / liquid, returned to the cold water supply network. ! 2. The method according to claim 1, characterized in that the liquid in the central heating circuit, which is used to heat the air in the building in cold weather, is used as a refrigerant in the named circuit to cool the air in the building in the hot season. ! 3. The method according to claim 1, characterized in that if there is a hot water supply network in the building, part of the cold water heated in the liquid / liquid cooler is sent to the hot water supply network. ! 4. The method according to claim 1, characterized

Claims (10)

1. The method of cooling the air in a building, mainly in the hot season, equipped with a cold water supply network and a central heating circuit with many heat-exchange sections, namely, that the liquid in the central heating circuit is cooled and sent through a forced circulation to many heat-exchange sections, which cool the air in the building, characterized in that the cooling of the liquid in the central heating circuit is carried out by heat exchange with cold water in a cold water supply network liquid / liquid type cooler, for this purpose, at least part of the cold water at the inlet of the cold water supply network is supplied to the liquid / liquid cooler and used as a cooling medium, and the liquid at the outlet of the central heating circuit is supplied to the liquid / liquid cooler and used in the quality of the medium to be cooled, after which the cooled liquid is sent to the inlet of the central heating circuit and a plurality of heat exchange sections for cooling the air in the building, while cold water heated in a type cooler liquid / liquid, returned to the cold water supply network. 2. The method according to claim 1, characterized in that the liquid in the central heating circuit, which is used to heat the air in the building in cold weather, is used as a refrigerant in the named circuit to cool the air in the building in the hot season. 3. The method according to claim 1, characterized in that if there is a hot water supply network in the building, part of the cold water heated in the liquid / liquid cooler is sent to the hot water supply network. 4. The method according to claim 1, characterized in that the temperature of the outside air, the temperature of the cold water at the inlet to the liquid / liquid cooler, the temperature of the liquid in the central heating circuit at the inlet and outlet is measured, the data obtained are processed and control signals are generated, according to the first of which regulate the flow of cold water into a liquid / liquid cooler, and in the second, turn on or turn off the circulation pump in the central heating circuit. 5. The air cooling system in the building, mainly in the hot season, equipped with a cold water supply network and a central heating circuit, configured to cool the air in the building and includes a circulation pump and a plurality of heat exchange sections, characterized in that it contains a cold water flow regulator installed at the inlet of the cold water supply network, and a liquid / liquid cooler, in which the cold water of the cold water supply network serves as the cooling medium, and the fluidity of the central heating circuit, while the cooling line of the liquid / liquid cooler through the first pipe is connected to the cold water supply network in front of and after the cold water flow regulator, and the cooled liquid / liquid cooler line through the second pipe is connected to the output of the central heating circuit and entrance in front of the circulation pump. 6. The system according to claim 5, characterized in that the liquid in the central heating circuit used to heat the air in the building in cold weather serves as a refrigerant in the said circuit to cool the air in the building in the hot season. 7. The system according to claim 5, characterized in that if there is a hot water supply network in the building, the first pipeline is additionally connected to the input of the hot water supply network. 8. The system according to claim 5, characterized in that the first and second shutoff valves, respectively, are installed on the first pipeline before and after connecting to the cooling circuit of the liquid / liquid cooler. 9. The system according to claim 5, characterized in that the third and fourth shutoff valves, respectively, are installed on the second pipeline before and after connecting to the cooled circuit of the liquid / liquid cooler. 10. The system according to claim 5, characterized in that it contains a control unit, to the first input of which an external air temperature sensor is connected, a cold water temperature sensor in the supply line of the first pipeline is connected to the second input, a liquid temperature sensor in the supply line is connected to the third input the second pipeline, and a liquid temperature sensor in the return line of the second pipeline is connected to the fourth input, while the first and second outputs of the control unit are connected to the cold water flow regulator and circulation to the central heating pump, respectively.