SU1688073A1 - Gas cooler and heater - Google Patents

Abstract

The invention relates to refrigeration and can be used in the gas industry. The purpose of the invention is to increase efficiency. This is achieved by installing inlet 2 and outlet 3 gas nozzles, nozzles 5 with heating modules, which are equipped with elements 12 connected to the source 13 of the electric current, and valves 10 installed on the bypass pipes, shell 4.7. flame tubes 6 and screen 8, with which the direct and reverse gas flows in the apparatus are organized, vortex tubes 17 installed on the diaphragm 16, and injectors installed in the overflow pipes, with the help of which daily temperature, which reduces the temperature gradient on the elements 12. 1 Il.

Description

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The invention relates to refrigeration technology, and more specifically to devices using a vortex cooling effect.

The purpose of the invention is to increase efficiency.

The drawing schematically shows the proposed device.

The device comprises a housing 1 in which an inlet pipe 2 is placed, which is arranged coaxially with the outlet pipe 3 and the shell 4. In a plane perpendicular to the axis of the contour, the pipes 5 are placed radially with heating modules that are structurally identical to each other.

Each module is made in the form of a cylindrical protrusion in the housing 1. in which the heat pipes 6 and the shells 7 are mounted coaxially with the body, which, together with the shell 4, are connected by the screen 8, and the cavities

between the shells 7 and the cylinders of the housing 1 are fitted with fittings 9 and, thus, the flow of cold gas from the supercharger is arranged to the reading valves 10, through which the gas is fed to the fittings 11, through which it enters the flame tube 6, where electric elements 12 are installed resistances connected to the source 13 of the electric current. Seals 14 are installed in the annular gaps. The outlet nozzle 3 and the flame tubes 6 are connected by an internal mixer chamber 15, which is installed in the center of the housing 1 and is supported on the tubes. Chamber 15 is divided into two cavities by diaphragm 16, one of which is connected to a gas outlet 3 and outlets 18 of a hot stream of vortex tubes 17, and their cold stream outlets 19 are located in a second cavity equipped with nozzles 20. In a bypass pipeline

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each module is installed on the injector, the input 21 of which is connected to the nozzles 9 through the valve 10, and the output 22 to the nozzles 11. The passive nozzle 23 of each injector is connected to the nozzle 20 of the mixer chamber 15.

The device works as follows.

The cold gas from the gas pipe in the inlet 2, On the body with the housing 1 and the surface formed by the shell 4, the shield 8 and the shell 7, the cold gas washes all the body parts, lowering their temperature, and through fittings 9.11, valves 10 and the injectors gas enters the strips and flame tubes 6, in which electric current from the source 13 is passed through the installed elements 12. The surface of the elements 12 is washed, the gas is heated and the flame tube 6 enters the vortex tube 17, in which the flow is divided into mountains Whose 18 is retracted for di phragma mixer 16 of the chamber 15 and further through the outlet pipe 3 is directed to the consumer and the cold flow which, via outputs 19 is fed to the passive nozzle 23 injectors. Due to the acceleration of flow at the inlets of 21 injectors with subsequent restoration of pressure at its output

22a passive nozzles 23 create a vacuum and gas from the chamber 15 through the nozzles 20 and

23 enters the injectors and is admixed to the heating gas, increasing the flow rate and temperature of the gas entering through the nozzle 11 into the combustion tube 6. The temperature gradient on the element 12 decreases, which

reduces the load on the element and increases the reliability of its work. To regulate the device, one or several valves 10 are closed, and the elements 12, which have the valve 10 closed, are disconnected from the source 13. The disconnected module 5 is a dead end both in cold and hot gas, over time some average

temperature, which, when it is re-enabled, reduces the thermal loads on its elements.

Claims (1)

Invention Formula A cooler and a gas heater comprising a housing with inlet and outlet nozzles in which the mixer chamber is placed, electric heater modules installed in the heat pipes with coaxial shells, between which valve overflow pipes are located, characterized in that, in order to improve efficiency, the device additionally contains injectors installed in each module included in the inlet and outlet to the overflow pipeline, and vortex tubes placed in the mixer chamber at the diaphragm dividing it by two cavities, with input The nozzles of the vortex tubes are connected to the outlet of the flame tubes, their hot flow outlets are placed in one cavity and communicated with the outlet pipes, and the outlets of the cold stream are placed in another cavity and 5 are connected to the passive nozzles of the injectors.