SU589510A1 - Vortex pipe - Google Patents

Description

one

The invention relates to refrigeration and can be used in ventilation systems and air conditioning.

Vortex tubes with a ribbed hot end, equipped with a cooling jacket 1, are known. An end wheel is installed along the axis of the hot end, which rotates under the action of a swirling flow, and an impeller of the fan is placed on the same shaft with the wheel for pumping cooling air through the jacket.

The disadvantage of these pipes is their low cooling capacity, since the hot end is cooled by the air flow circulating in the jacket, the amount of heat removed is determined by the type of refrigerant used, i.e., its heat absorption capacity.

The aim of the invention is to increase the cooling capacity of the vortex tube.

This is achieved by the fact that in the proposed vortex tube the hot end is made in the form of a semiconductor thermopile with cold joints on the inner surface and hot on the outer surface.

Lamellar fins can be attached to hot spas.

The heat removal at the limited thermal contact surface increases due to the greater temperature difference between the heat exchanging media. When the semiconductor thermopile operates in the heat exchange intensifier mode, the specific density of the heat flux removed from the cooling surface increases. The removal of heat from the hot junctions of the thermopile is accomplished with the help of lamellar fins, which are washed by a cooling fluid circulating in the cavity of the cooling jacket.

Such an embodiment of the pipe allows to intensify the heat exchange and increase its cooling capacity.

The figure shows schematically the proposed pipe.

It has a conduit 1 through which compressed gas is supplied to a vortex chamber 2 with a cold flow pipe 3, a hot end choke 4 made in the form of a semiconductor thermopile with cold junctions 5 on the inner surface and hot 6 on the outside. Plate heat ribs 7 are attached to the hot thermometer battery 6. The hot end is equipped with a cooling jacket 8.

Pipeline 1 is supplied with compressed gas, which is divided into cold and hot streams in the vortex chamber 2. The cold stream leaves through pipe 3, and the hot stream goes through throttle 4 at the hot end. The cooling of the surface of the hot end and the intensification of heat transfer are carried out with the help of a semiconductor thermopile, the cold junctions 5 of which are located on the inner surface of the hot end of the tube. The heat is removed from the hot cnaeg b thermopile by plate fins 7, which are washed by a cooling fluid circulating in the cavity of the cooling jacket 8. The semiconductor thermopile operates in the heat exchange intensifier mode to increase the heat flux from the hot end.

Making the hot end of the vortex tube in the form of a semiconductor thermopile makes it possible to increase the heat flux density between the heat exchanging media and

most increase the cooling capacity of the vortex tube.

Claims (2)

 1. A vortex tube with a hot end, equipped with a cooling jacket, characterized in that, in order to increase its cooling capacity, the hot end is made in the form of a semiconductor thermopile with cold joints on the inner surface and hot heat. : 2. A pipe on c. 1, characterized in that lamellar fins are attached to the hot spades. Sources of information taken into account in the examination. 1. Copyright certificate № 418682, cl. F 25 B 9/02, 1972. , Ng / f I  / - /. ./. . (, i4X7vxVx.s.S. Tsch7 Xvr VX .. N l