SU58018A1 - Steam and gas turbine - Google Patents

Description

The present invention relates to a device already known combined-cycle turbines, equipped with hollow blades, in which steam is produced from water, cooling blades, utilized in a steam turbine operating on a shaft in common with a gas turbine.

The invention consists in the fact that the working blades of a steam turbine are located on the inner surface of a hollow cylindrical rotor carrying on the outer surface of the blade of a gas turbine.

In the proposed turbine, it is intended to use supersonic gas flow rates in the nozzles and blades of a gas turbine to increase the coefficient of heat transfer from gas to the wall.

In FIG. 1 shows a longitudinal section of a turbine; and FIG. 2 shows a section along the line AB in FIG. one.

The steam part of the proposed turbine is a conventional steam turbine, with the only difference being that its rotor is stationary and the stator is rotating. On the inside of the rotor is a working blade apparatus 3, 4 of the air part.

The gas part of the turbine consists of a constant pressure combustion chamber (not shown in the drawing), having nozzles 5 and working guide vanes 6 and 7 of the two-speed Curtis wheel. Each blade is a heating element of the steam section and is made hollow (water circulates inside it). Due to the increased coefficient of heat transfer from gas to the wall, such a surface will work very intensively.

Since the dependence (taken from the Nusselt – Reier equations) and C (where C is the gas velocity) is preserved for supersonic speeds, the heating surface voltage in a heater of this design and the heat transfer coefficient increase, as the calculation shows, many times , compared to boilers of normal design.

The water in the proposed turbine goes through a closed cycle, evaporates, performs the expansion work and condenses again.

The feed pump is operated due to the centrifugal effect resulting from the rotation of the turbine rotor. Therefore,