SU1191723A1 - Heat-exchanging apparatus - Google Patents

Abstract

1. HEAT EXCHANGE DEVICE, containing coaxially located the endtrp device. Air pipes with channels for working media, placed along the axis of the pipes a nozzle fixed in the inlet chamber and a diverting chamber, which is designed so as to intensify heat exchange, the nozzle is equipped with a conical radiation socket, made in the form of longitudinal plate systems. . 2, the apparatus according to claim 1, characterized in that the nozzle is mounted for axial movement.

Description

one

The invention relates to heat exchangers operating primarily on gaseous media, and can be used in heating and ventilation systems of buildings, where heat of vented emissions is used as a secondary energy resource.

The purpose of the invention is to intensify heat transfer.

The drawing schematically shows the proposed heat exchanger

The heat exchanger contains coaxially arranged pipes 1 with channels 2 and 3 for working media placed along the axis of the pipes. 1 a nozzle 4 fixed in the inlet chamber 5, and a diverting chamber 6.

The nozzle 4 is equipped with a conical radiation socket 7, made in the form of a system of longitudinal plates 8. The nozzle 4 can be mounted with the possibility of axial movement.

The pipes 1 are equipped with overflow fittings 9. A part of the fittings 9 with a pipe 10 and a throttle 11 form a channel for the passage of internal air;

The heat exchanger operates as follows.

Supply air (chrlod) enters into the inlet chamber 5 and, through the nozzle 4, is directed to the radiation socket 7 along the plates 8, which are heated by means of 17232

heat transfer from the walls of the inner tube 1, heated, in turn, with hot gas. In this case, convective heat transfer from the plates 8 to the stream of external air is carried out. The dimensions of the radiation socket 7 are determined by the dimensions of the turbulent jet, in which the speed is an order of magnitude higher than in the surrounding ejected space, which ensures maximum convective heat transfer. In order to control the diameter of the jet entering the discharge chamber 6, the nozzle 4 is adapted for axial movement. The internal air is ejected (recirculated air flow through the air inlet 9 and the internal air inlet 10. The circulation of the internal air intake is controlled by throttles 11. External cold air is ejected through the air inlet 9 and the intake air inlet 12 with throttle 13.

The ejected air is heated in transfer nipples 9, which flow around hot gases flowing through the annular gap between the pipes I. The ejected air, thus heated, flows to the turbulent jet, where it is additionally heated from the sockets of the radiation sockets 7.

Claims (2)

1. HEAT EXCHANGE DEVICE containing coaxially arranged pipes with channels for working media, a nozzle mounted along the axis of the pipes, fixed in the inlet chamber, and a discharge chamber, which, in order to intensify heat transfer, the nozzle is equipped with a conical radiation bell, made in the form of a system of longitudinal plates. . 2. The apparatus by π. 1, characterized in that the nozzle is mounted with the possibility of axial movement.