SU60112A1 - The method of operation of the internal combustion turbine - Google Patents

Description

A method of operating an internal combustion turbine is proposed, whose operating cycle consists mainly of two isotherms — air compression isotherms at the lowest possible temperature and expansion medium isotherms at the maximum possible temperature.

The compression temperature limit is determined by the available cold source, for example, the temperature of the cooling water.

The maximum expansion temperature of the working medium is possible with an excess air ratio of 1.

The proposed method allows the maximum use of compressed air energy.

In this method, in order to carry out the process of gas combustion on the turbine blades, the degree of combustion of the fuel in the combustion chamber is regulated by changing the volume of the chamber.

In FIG. 1 shows an air cooling circuit with the proposed method for operating an internal combustion turbine; FIG. 2 is a diagram of a turbine combustion chamber.

The turbine is reactive with water cooling in all places exposed to high temperatures.

The air is compressed in a multistage centrifugal compressor. The air from the intermediate stages of the compressor is vented to a conventional cylindrical vertical tank 1 with water (Fig. 1). The end of the discharge pipe 2, filled with curved glass or metal thin-walled tubes 3, is lowered into water to such a depth that when air bubbles pass upward through the water layer, the latter is cooled to approximately the temperature of cold water in the tank. The condition of the water level in the tank is due to the presence of an overflow pipe having a loop for the hydraulic valve needed to create a siphon.

The energy consumption for rolling by the centrifugal pump 4 of water through the surface cooler 5 is negligible, since the energy is only spent on overcoming the harmful resistances.

To obtain an expansion isotherm, fuel combustion occurs