RU2031319C1 - Conditioner - Google Patents

Abstract

FIELD: conditioning plants. SUBSTANCE: output from surface heat exchangers in cooling water circulation circuit is connected with spraying system of mechanical-draft tower. Tray of the tower is connected with sprayer device of evaporation cooling apparatus. The mechanical-draft tower is mounted higher than the conditioner. Valves are disposed at inputs into surface heat exchangers in cooling water circulation circuit, as well as at inputs of sprayer devices of the tower and apparatus. Supply and reverse pipe-lines of heat supply source are brought into cooling water circulation circuit at input and output of surface heat exchangers correspondingly. Lintel is connected to output of the pump and to input of sprayer of the apparatus. EFFECT: improved efficiency. 1 dwg

Description

 The invention is intended for use in air conditioning systems for buildings for various purposes.

 A known air conditioning installation comprising an air conditioner with surface heat exchangers sequentially arranged along the air, an evaporative cooling apparatus with an irrigation device and a tray, a fan, as well as a fan cooling tower with a tray and a coolant circulation circuit including pipelines with valves and a pump [1].

 A disadvantage of the known installation of air conditioning is the increased energy consumption necessary to ensure the circulation of water through heat exchangers and cooling tower, as well as through an evaporative cooling apparatus with an irrigation device.

 The aim of the invention is to reduce energy consumption in an air conditioning installation.

 The goal is achieved by organizing a single circulation circuit cooled by evaporation of water.

 The drawing shows a diagram of the proposed installation of air conditioning.

 In air conditioner 1, surface heat exchangers 2 are mounted first along the air flow, in which the first heat exchanger along the supply air is connected by a pipe 3 to an irrigation device 4 of a cooling tower 5 mounted above the air conditioner 1 (usually on the roof of the building), and its pan 6 is connected by a drain pipe 7 with an irrigation device 8 of an evaporative cooling apparatus 9 having a pan 10 connected by a pipe 11 to a suction side of a pump 12, the discharge side of which is connected by a pipe 13 to the last days along the supply air surface of the heat exchanger 2, as well as an additional circuit for the circulation of coolant and water, formed due to the fact that valves 15 are installed on pipelines 3,7 and 13, and pipelines 13 and 7 are connected by a jumper 16 on which the valve 17 is mounted, and behind valve 15 on pipeline 13, a supply pipe 18 is connected to it with valve 19 from a heat source (a heat source is not shown in the drawing), and pipe 20 with valve 21 is connected to a heat supply source in front of valve 15 to pipeline 3, and The air conditioner 1 in front of the surface heat exchangers 2 is provided with a pipe 22 with air valves for the possible connection of the cleaned air recirculation duct from the room served by the system, the air is supplied to the room from the operation of the supply fan 14.

The unit is designed for year-round processing of supply air. In the warm season, the installation works under the following conditions. The motors of the supply fan 14, pump 12 and cooling tower fan 5 are turned on, the valves 15 are open and the valves 17, 19 and 21 are closed, the air valves are closed in the pipe 22 and only the supply air G _Mon and pump 12 are supplied to the air conditioner 1 for cooling the pipe 11 takes water from the pan 10 and the pipe 13 supplies water to the heat exchanger 2 last along the cooled air. Passing from the fin side of the heat exchangers 2, the supply air is cooled and the heat removed from the air is transferred through the walls of the heat exchange tubes Ennikov 2 to the water passing through the pipes, which increases the temperature, and through the pipe 3, the water enters the irrigation device 4 of the cooling tower 5, where the heated water is cooled from its evaporation in the stream of outdoor air moved through the cooling tower from the operation of its fan. The cooled water is collected in the pan 6 and through the drain pipe 7 to the irrigation devices 8 (for example, nozzles) of the evaporative cooling apparatus 9, the cooled water is collected in the pan 10 and the moistened air is supplied to the room by the supply fan 14.

In the cold season, the unit operates in a mode of increasing temperature and humidifying the supply air under the following conditions. The motors of the supply fan 14 and pump 12 are turned on, the valves 15 are closed and the valves 17, 19 and 21 are open, the air valves are open in the air pipe 22 and a mixture of outdoor G _Mon and recirculated air G _c enters the air conditioner 1. Pipeline 18 enters the heat exchanger 2 with hot water from the heat source, which lowers the temperature of the water through the pipe 20 returns to the heat source. Due to the displacement of the cleaned recirculation G _in and the cold outside air, the temperature of the supply air supplied to the room by the supply fan 14 of the air conditioner 1 increases and if the supply air temperature is insufficient to maintain the required temperature in the room, then the flow of the coolant (usually heated) will increase through the pipe 18 to the heat exchanger 2 Due to the operation of the pump 12 through the pipe 11, water from the pan 10 will flow to the suction side of the pump 12 and then be pumped through the pipe 13 to the an integral device 8 of the evaporative cooling apparatus 9 operating in the full water circulation mode, which will provide adiabatic humidification of the supply air supplied by the supply fan 14 to the room.

 The proposed air conditioning installation uses the operation of one pump in the warm season, instead of two pumps in a known installation.

Claims (1)

 INSTALLATION OF AIR CONDITIONING, comprising an air conditioner with surface heat exchangers sequentially arranged along the air flow, an evaporative cooling apparatus with an irrigation device and a tray, a fan, and also a fan cooling tower with an irrigation device and a tray and a cooling water circulation circuit including connecting pipelines with valves mounted on them and pump, characterized in that the installation further comprises a supply and return pipelines of the heat source and a jumper with valves located on them, while in the cooling water circuit the outlet from the surface heat exchangers is connected to the irrigation device of the fan cooling tower, the latter pan is connected to the irrigation device of the evaporative cooling device, the pallet of which is communicated through the pump with the entrance to the surface heat exchangers, the fan the tower is installed above the air conditioner, the valves in the cooling water circuit are located at the inlets of surface heat exchangers, irrigation devices fan cooling tower and evaporative cooling apparatus, and the supply and return pipelines of the heat supply source are included in the cooling water circulation circuit, respectively, at the inlet and outlet of surface heat exchangers, a jumper is connected to the pump outlet and the inlet of the evaporative cooling apparatus irrigation device.

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