SU979673A1 - Method of controlling ship combination gas steam turbine plant - Google Patents

Description

The invention relates to ship. power plants and can be used in combined Gaeopar installations with fixed and adjustable pitch propellers, driven by a gas turbine and a steam turbine powered by steam from a recovery boiler.

A known method for regulating suction combined gas and steam turbine units, including a turbocompressor, gas and steam turbines rigidly connected to the propeller, and a waste heat boiler based on maintaining the rotational speed of the propeller by changing the power transmitted to it. The change in power transmitted to the propeller is made by changing the fuel supply to the turbocharger [1].

The disadvantage of this method is that frequent fluctuations in the load on the propeller lead to a change in the temperature of the metal elements of the gas turbines and turbocharger, causing their premature wear.

The aim of the invention is to increase the reliability of the turbine and turbocharger.

This goal is achieved by the fact that according to the method for regulating a ship combined gas and steam turbine installation, including a turbo-compressor, gas and steam turbines, which are closely connected with the propeller, and a waste heat boiler based on maintaining the rotational speed of the propeller by changing the power transmitted to it, the change in power is carried out due to a change in the flow rate of steam entering the steam turbine from the boiler, with a constant mode of operation of the gas turbine and turbocharger 15.

The drawing shows a diagram of an implementation of a method for regulating a ship combined gas and steam turbine 20 Installation.

The installation contains a propeller 1, through a gearbox 2 driven by gas 3 and steam 4 turbines. The gas comes from a turbocompressor, consisting of a high pressure gas turbine 5 and compressor 6. The fuel supply to the combustion chamber 7 is controlled by a regulator 8. The gases that are exhausted in the high pressure turbine 5 and turbine 3 are supplied to

I heat recovery boiler 9., where steam is generated. The steam generated in the waste heat boiler 9 enters through the shunting valve 10, controlled by the steam supply regulator 11, to the steam turbine 4.

The sensor 12 generates a signal supplied to the controller 11, where it is compared with a predetermined value. During normal operation, the installation of the installation from one operating mode to another is effected by adjusting the fuel supply regulator 8 with the shunt valve 10 fully open. When the torque on the propeller 1 is changed frequently, for example, when the ship is rolling, the signal 11 changes the shunt position of the sensor 12 valve 10 by the amount necessary to compensate for changes in torque on the propeller 1, providing a change in the flow rate of steam entering the steam turbine 4 from the recovery boiler 9. Gas operation mode howling · turbines 3 and turbocharger does not change.

The regulation of the combined gas-steam turbine installation according to the proposed method provides an increase in the reliability of the gas turbine and turbocharger, since their operating mode, and therefore the temperature of the metal of their elements, remain unchanged, and the change in steam flow does not significantly affect the reliability of the steam turbine.

Claims (1)

Claim A method for regulating a shipboard combined g'azoparoturbine installation, including a turbocompressor, gas and steam turbines rigidly connected to the propeller, and a waste heat boiler based on 15 maintaining the rotational speed of the propeller by changing the power transmitted to it, characterized in that, in order to increase the reliability of the turbocharger, the change in power is carried out by changing the flow rate of steam entering the steam turbine from the recovery boiler, at a constant operating mode gas turbine and 25 turbochargers.