SU1562613A1 - Installation for utilizing heat energy in ventilation and air-conditioning systems - Google Patents

Abstract

The invention relates to a technique of ventilation and air conditioning. The purpose of the invention is to increase reliability in operation in the event of significant fluctuations in temperature (T) of exhaust air. When the supply air temperature T decreases, the three-way valve 12 opens slightly, providing flow into the circuit 3 of the coolant from the pipeline 10 through the intake line 11. This causes an increase in the T of intermediate air. A portion of the cooled coolant returns to the pipeline 10 via a drain line 13. The total consumption of the coolant of the heat supply system does not increase, and the air is heated by means of a deeper cooling. 1 il.

Description

The invention relates to the technique of air ventilation and conditioning.

The purpose of the invention is to increase the operational performance in the event of significant fluctuations in exhaust air temperature.

The drawing shows the installation of heat utilization in Q ventilation and air conditioning systems with an air heater placed in the inlet duct after the heat exchanger heat exchanger (a variant of the air heat exchanger - 15 bodies is possible and to the heat exchanger heat exchanger).

The unit for utilization of heat energy in the ventilation and air conditioning systems contains heat exchangers heat exchangers 1 and 2, interconnected by a circulating circuit 3 with a pump 4 and placed in the supply and exhaust ducts 5 and 6, and air heater 7 with regulating pro-25 inlet valve 8, connected to pipelines 9 and 10 of the warm and cold heat carrier. The installation is additionally equipped with an intake line 11 with a valve 12 and a drain line 13, 30 connecting the circulation loop 3 with the cold heat pipeline 10, and the intake line 11 is connected to the pipeline 10 along the heat carrier to the drain line 13 “35”

On the cold heat carrier pipe 10, a hydraulic resistance 14 (throttle, valve 40, etc.) is located between the connection points of the intake line AND and the drain line 13.

In addition, the installation contains temperature sensors 15 and 16, the temperature sensor 15 being placed in a flow of 45 supply air at the outlet of the installation and connected to a three-way valve 12 installed in the heat branch of the circulation circuit 3 at the point of its connection via the intake line 5 11 to the pipeline 10 "The regulating inlet valve 8 is installed on one of the communication lines of the air heater 7 with pipes 9 and 10 Temperature sensor 16 is made in the form of a liquid temperature sensor, mounted on a cold circulation branch circuit 3 and is connected to the three-way valve 12, and the sensor 15

temperature is additionally connected to the valve 8.

The installation also contains a temperature sensor 17 installed in the flow channel 5 in front of the heater 7 along the supply air, and connected to the pump 4.

The installation works as follows.

Exhaust air transported through channel 6 passes heat exchanger-heat exchanger 2, transfers its heat to intermediate heat transfer fluid circulating around circuit 3 by means of pump 4. Having heated up in heat exchanger heat exchanger 2, intermediate heat carrier in a warm branch of circuit 3 is directed to heat exchanger-heat exchanger 1, through which the fresh air passes, moving in the installation through the channel 5.

As a result, the supply air is heated to the required temperature, and the intermediate heat carrier is cooled and directed along the cold leg of circuit 3 to the heat exchanger-heat exchanger 2.

To obtain supply air of the required parameters, it is heated in the air heater 7 connected to the pipelines 9 and 10 of the warm and cold heat carrier of the system, heat supply.

In the design mode, the unit operates as described, but with a sharp change in the temperature of exhaust air, the air in the heat exchanger 1 is heated to a smaller temperature difference, and the surface of the air heater 7 does not allow an increase in the degree of air preheating. The parameters of the supply air are reduced - the reliability of maintaining the temperature in the room is reduced.

When the supply air temperature decreases, the temperature sensor 15 opens the three-way valve 12, providing flow into the circuit 3 of the heating medium of the heat supply system from the pipeline 10. Since the temperature of the heating medium is higher than the temperature of the intermediate heat transfer medium in circuit 3, the mixed heat transfer medium raises the temperature of the intermediate heat transfer fluid, and the latter heats the supply air air to the required temperature A portion of the cooled coolant will return to the pipeline 515626136

Waters 10 of the heat supply system for hydro- j increase the efficiency of use

equal resistance 1A

The total consumption of the coolant of the heat supply system is not increased, but the air is heated due to its deeper cooling, below the graph,

When the outside air temperature reaches the supply air temperature, the sensor 17 switches off the pump 4. The degree of air preheating in the air heater 7 is controlled by the sensor 15 acting on the valve 8 "

The sensor 16 adjusts the temperature of the heat transfer medium in circuit 3 so that the temperature of the heat transfer medium in the cold leg of circuit 3 is kept constant, for example, 5 ° C, and also acts as an indicator of the danger of freezing heat transfer medium in circuit 30

The proposed installation allows to increase the reliability of maintaining the supply air temperature, as well as

Compiled by A. Smirnov Editor N. Rogulich Tekhred L. Serdyukova Proofreader A. Obruchar

Order 1050

Circulation 590

VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5

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five

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five

temperature potential of the heat water

Claims (1)

The invention The installation for the utilization of heat energy in ventilation and air conditioning systems, containing heat exchangers, utilizers connected to each other by a circulating circuit with a pump and placed in the supply and exhaust ducts, and an air heater with a control valve, connected to warm pipelines. and cold coolant, characterized in that, in order to increase the reliability of operation in the event of significant fluctuations in the temperature of the drawn air, the installation is additionally equipped with a suction line with valve and drain line connecting the circulation circuit with cold heat medium pipe, wherein the intake line is connected to the conduit downstream of the heat medium discharging line .. Subscription