SU1476261A2 - Rotary heat-exchanger - Google Patents

Abstract

The invention makes it possible to increase the efficiency of a heat exchanger by expanding its functionality. In the housing 1 is placed a rotor made in the form of two autonomous concentric sections 6 and 7, and the cylinders of section 6 are coated with a hydrophobic material. Pipeline 4 supply of coolant has two parallel sections 8 and 9, each of which is located above the corresponding section 6 and 7 of the rotor. The relative humidity of the treated air is determined by the ratio of the flow rate of water through sections 8 and 9, which can be varied with the help of regulators 10 and 11, installed on the sections. 1 il.

Description

The invention relates to heat transfer technology.

The purpose of the invention is to increase efficiency by expanding functionality.

The drawing shows a heat exchanger, General view.

The rotary heat exchanger comprises a housing 1 with inlet and outlet air pipes 2 and 3, a coolant supply pipe 4 and a tray 5, as well as a rotor with coaxially arranged cylinders located in the housing 1. The nozzles 2 and 3 have sections introduced into the housing 1 and located coaxially with one another and eccentric to its axis of rotation. The rotor is made in the form of two autonomous concentric sections 6 and 7, and the coolant supply pipe 4 is provided with two output sections 8 and 9 connected in parallel at the last. Each of which is located above the corresponding rotor section 6 and 7. The cylinders of one of the sections, namely section 6, are provided with a coating of hydrophobic material. In sections 8 and 9, flow controllers 10 and 11 are installed.

The heat exchanger also contains a sensor 12 for relative humidity installed in the serviced room 13, and a control unit 14, to the input of which a sensor 12 for relative humidity is connected, and to the outputs are flow controllers 10 and 11.

Rotary heat exchanger operates as follows.

When the coolant is fed through the outlet sections 8 and 9 by jets coming out at a certain angle to the vertical, the rotor sections 6 and 7 under the influence of the jets acquire a rotational movement. . Moreover, the surface of the cylinders of section 7 is moistened, and the cylinders of section 6 with a coating of a hydrophobic material remain dry, however, it heats up due to the heat capacity of their material. The processed air enters through the pipe 2 to sections 6 and 7.

Part of the air interacts with a film of water on the surface of the cylinders of section 7, as a result of which it is moistened and heated. Another part of the air interacts with the dry surface of the cylinders of section 6, as a result of which it heats up without humidification. Both parts of the air are mixed in the outlet air pipe 3 and supplied to the serviced room 13. Chilled water is collected in the pan 5 and removed from the heat exchanger. The relative humidity of the processed air is determined by the ratio of the flow of water through sections 8 and 9 of the pipeline 4.

By increasing the relative humidity in the room to be ventilated sensor 13, relative humidity 12 ⁵ WHO spirit assembly 14 takes the signal adjustment, which transmits it to the regulators 10 and 11 flow, increasing the flow of coolant through the portion 8 and through the reducing portion 9. This increases the growth section sko10 rotation 6, which causes an increase in the degree of heating of the air, and the rotation speed of section 7 decreases, which causes a decrease in the degree of humidification of the air. As a result, the relative humidity at the outlet of the heat15 of the exchanger decreases, causing a corresponding decrease to the required value of the relative humidity of the air in the serviced room 13.

With a decrease in the relative air humidity 2 of the serviced room 13, the relative air humidity sensor 12 gives a signal to the control unit 14, which transmits it to the flow controllers 10 and 11, increasing the flow rate of the heat carrier through section 9 and decreasing through section 8 8. This increases the rotation speed of section 7, which causes an increase in the degree of humidification of the air, and decreases the rotation speed of section 6, which causes a decrease in the degree of heating of the air. As a result, the relative air humidity at the outlet of the heat exchanger increases, causing a corresponding increase to the required value of the relative humidity of the served room 13. Using the sensor 12, you can set any desired value of the relative humidity of the served room 13.

Thus, the functionality of the heat exchanger is expanded, which 40 increases its efficiency.

Claims (1)

Claim Rotary heat exchanger according to ed. St. _ No. 943487, characterized in that, in order to increase efficiency by expanding the functionality, the rotor is made in the form of two autonomous concentric sections, moreover, the cylinders of one of the sections are coated with a hydrophobic material, and the coolant supply pipe is provided with two parallel sections, each of which is located above the corresponding section of the rotor. Compiled by G. Petrov Editor I. Casarda Order 1964/39 Tehred I. Veres Corrector I. Muska Circulation 635 Subscribed VNIIIPI of the State Committee for Inventions and Discoveries at the State Committee for Science and Technology 113035, Moscow, Zh-35, Raushskaya nab., D. 4/5 Production and Publishing Plant "Patent", Uzhhorod, st. Gagarina, 101