RU1827505C - Device for heat and moisture processing of air - Google Patents

Abstract

SUMMARY OF THE INVENTION: a heat exchanger is installed in front of the nozzle chamber. A heat exchanger located in the pan of the nozzle chamber is connected by a recirculation line to the racks with nozzles in the chamber. The supply and return pipes of a heat exchanger located in a sump are connected by a jumper on which a control valve is connected, connected to a temperature sensor. A temperature sensor is installed at the air outlet from the chamber. The supply and return pipelines of the heat exchanger installed in front of the chamber are connected by a similar jumper with shutoff valves connected to a temperature sensor located at the inlet of the air supplied to the device. After a jumper at the coolant inlet to the heat exchanger, shut-off and control valves are installed in front of the chamber, connected to a temperature sensor installed at the inlet supplied to the air device. 1 ill.

Description

The invention relates to ventilation and air conditioning, apparatus for heat and moisture treatment of air.

The purpose of the invention is to reduce capital and operating costs during heat-moisture treatment of air.

This goal is achieved in that: a) the supply and return pipes of the heat exchanger located in front of the nozzle chamber are connected by a jumper. Shutoff valves are installed on this jumper and on the supply pipe between the jumper and the heat exchanger: b) a thermal sensor is installed in front of the heat exchanger located up to the nozzle chamber. This temperature sensor is connected to shutoff valves installed on the supply pipe and a jumper connecting the supply and return pipes of this heat exchanger; c) one heat exchanger is installed in the nozzle chamber pan, the supply and return pipelines of which are additionally connected by a jumper and a control valve; d) a temperature sensor is installed after the nozzle chamber, which is connected to a control valve mounted on a jumper connecting the supply and return pipes of the heat exchanger nozzle chamber located in the pan. In the nozzle chamber, racks with nozzles are mounted, which are connected by a recirculation pipe to the recirculation pump and the nozzle tray. To recycle00

yo o o

Joint venture

The feed line is connected to the pilot line.

When the parameters of the air supplied to the device are lower than the calculated ones, the heat carrier is supplied from an external source and the heat exchanger is in front of the nozzle chamber, heats the supplied air, enters the sequentially located heat exchanger located in the tray of the nozzle chamber, transfers heat to the water in the tray and returns back to heat source. An adjustable valve mounted on a jumper connecting the supply and return pipes of a heat exchanger located in the pan of the nozzle chamber changes the flow rate of the heat carrier passing through the heat exchanger, depending on the signal from the temperature sensor installed at the outlet of the processed air from the nozzle chamber. The shutoff valves installed on the jumper connecting the supply and return pipes of the heat exchanger located in front of the nozzle chamber, and on the supply pipe of the heat exchanger after the jumper shuts off the flow of heat medium to the heat exchanger located on the bottom of the nozzle chamber, depending on the signal received from the temperature sensor installed on the air inlet to the device. A temperature sensor installed at the outlet of the treated air from the nozzle chamber gives a signal to the control valve when the temperature of the treated air changes from the calculated one. The feed air is heated in a heat exchanger installed in front of the nozzle chamber, moistened and warmed up to the calculated parameters of the anode sprayed in the nozzle chamber coming from the nozzle chamber pan and heated by the heat exchanger installed in the pan. At a temperature of the supplied air above a predetermined temperature, the treated air is heated only in the nozzle chamber by heated water sprayed by the nozzles in the stream of treated air. The water heated in the stream of the nozzle chamber is supplied by the recirculation pump through the recirculation pipe to the racks with nozzles installed in the nozzle chamber.

The drawing shows a diagram of a device for heat-moisture treatment of air.

The device includes: a nozzle chamber 1 and a pallet 2 located below it; a heat exchanger 3. installed in front of the nozzle chamber 1, the supply pipe of which is connected to the return pipe of the heat exchanger 3, and the return pipe to the heat supply source; recirculation pump 5 with a recirculation pump 6 connected to it and

make-up 7 pipelines; racks 8 with nozzles 9 placed on them, installed inside the nozzle chamber 1 and connected to the recirculation pipe 6; fan 10; a temperature sensor 11 installed after the nozzle chamber 1; a temperature sensor 12 installed in front of the heat exchanger 3; shut-off valves 13 mounted on the supply pipe of the heat exchanger 3 and connected to the temperature sensor 5; shutoff valves 14 connected to a temperature sensor 12; a control valve 15 associated with the temperature sensor 11; a jumper 16 connecting the supply and return pipes of the heat exchanger 3, on

0 which is installed shutoff valve 14; a jumper 17 connecting the supply and return pipes of the heat exchanger 4, on which the control valve 15 is located.

5

The device operates as follows: in the cold period of time, the air supplied to the device is preheated in a heat exchanger 3 installed in front of the nozzle chamber 1 by supplying a heat carrier from an external source to the heat exchanger. Inside the nozzle chamber 1, the air is heated by the water located in the drip tray of the nozzle chamber 5 and heated by the heat exchanger 4 sprayed by the nozzles 9. The treated air is supplied by the fan 10 to the room. The recirculation pump 5 picks up the water heated in the pan of the nozzle chamber 2 and delivers it through the recirculation pipe 6 to the racks 8 with nozzles 9 installed in the nozzle chamber 1. Water is supplied from the make-up pipe 7.

5 connected to the recirculation pipe 6. The heat carrier supplied from an external source enters the heat exchanger 3, where it transfers part of the heat to the supplied air, and then enters

0 is a heat exchanger 4, where it heats the water in the drip tray 2 and is discharged into the return line. The temperature sensor 11 sends a signal to the control valve 15 when the temperature of the treated air deviates from these parameters. The control valve 15 changes the flow rate of the coolant supplied to the heat exchanger 4, depending on the signal supplied by the thermal sensor 11. The thermal sensor 12 supplies a signal to the shut-off valves 13 and 14, with increasing

the temperature of the air supplied to the device is higher than the calculated one, which shuts off the flow of coolant into the heat exchanger 3 located in front of the nozzle chamber 1.

The technical and economic advantages of the proposed technical solution in comparison with the prototype are that the installation of zeppo-control valves on the supply and return pipelines of series-connected heat exchangers connected to temperature-controlled sensors that monitor the temperatures of the air supplied to the device and the air leaving it provides adjustment of the flow rate of the coolant used to heat the supplied air and water in the pan of the nozzle chamber, which increases the efficiency of lzovani heat medium, reduces operating costs; the placement of one heat exchanger in the nozzle chamber of the nozzle chamber reduces the metal consumption of the structure, which reduces capital costs.

A device for heat and moisture treatment of air can be used in air conditioning systems of ground buildings and structures associated with an external heat source.

0

5

0

5

0

Claims (1)

SUMMARY OF THE INVENTION A device for heat and moisture treatment of air, consisting of a heat exchanger installed in front of the nozzle chamber and a heat exchanger located in the pan of the nozzle chamber, which is connected by a recirculation line to the stacks and nozzles in the nozzle chamber, supply and return pipes of heat exchangers, characterized in that what. in order to reduce capital and operating costs, the supply and return pipelines of the heat exchanger located in the pan of the nozzle chamber are connected by a jumper on which a control valve is installed, connected to a temperature sensor installed at the air outlet of the nozzle chamber, while the supply and return pipelines of the heat exchanger, installed in front of the nozzle chamber, are connected by a similar jumper with shutoff valves connected to a temperature sensor located at the inlet of the air supplied to the device ear, after a jumper at the coolant inlet to the heat exchanger, shut-off and control valves are installed in front of the nozzle chamber and connected to a temperature sensor installed at the inlet of the air supplied to the device. 2 B / t - v% 1/ thirteen / em