SU517756A1 - Vortex power separator and how it works - Google Patents

Description

one

The invention relates to refrigeration engineering, in particular, to vortex energy dissipators, designed for temperature separation of gases and vapors, based on the vortex effect.

Vortex energy separators are known, the hot end of which has an inlet for supplying an additional hot stream. Vortex energy separators containing two vortex tubes are also known, in the hot end of one of which we introduce the cold end of the other tube. These energy dividers regulate the cold flow, but cannot simultaneously control the hot flow. In addition, there are known vortex energy separators containing two vortex tubes with separate nozzle inlets placed on a common smallpox, from which partly it is partially introduced into the outer one. The last energy separators provide flow control for both cold and hot flows, however, they are not characterized by high enough thermodynamic efficiency, since the entrance to them — vortex tubes that do not actively interact through the gas flows. They work by separate tangential inlets of compressed gas into each of the pipes with a twist of the input flows in the same direction.

The aim of the invention is the new

thermodynamic efficiency. In the described energy separator, this is achieved by the fact that the inner tube is introduced into the outer side of its hot end with its open hot end, and a razvikhritel is installed in the annular gap between them at the entry point, and a throttle valve is installed at the cold end of the inner tube. At the same time, the outer tube has an inner diameter exceeding 3-4 times the diameter of the inner tube.

The peculiarity of the operation of an onisable power separator is that, but the axes of the hot end of the outer tube introduce a swirling hot flow of the inner tube and change the direction of the tangential entry more permanently to the opposite.

Figure 1 shows schematically the described power separator.

It contains the main (outer) vortex tube 1, into which the razvikhritel 2, installed on its hot end 3, is coaxially injected through its open hot end 4 with an additional (inner) vortex tube 5 with varying direction of nozzle entry 6. An additional vortex tube 5 is provided at the cold end with a throttle valve 7, and the main vortex tube 1 at the hot end 3 has a tap of w1,1; the branch pipe 8 with the throttles 9.