BG2501U1 - A gas-steam turbine aggregate - Google Patents

Abstract

The gas-steam turbine aggregate /GSTA/ consists of a corpus (1) with inlet pipe (2) and exhaust pipe (3), turbines with a work wheel (4) and a compression wheel (5), an ignition chamber (6) with placed inside it torches (7). The exhaust pipe (3) via pipeline (8) is connected to a device for overheating steam (9), the exit of which via pipeline (10) is connected to a steam generator (11), which is connected to a device for separating gasified carbon form the processed gasses. The corpus of the device for overheating steam (9) forms a chamber (12) for separation of processed gasses. Inside it is placed a spiral pipe (13), the entrance of which is connected via pipeline (14) to steam generator (11), and it is connected to a device for separating gasified carbon from processed gasses. The exit of the spiral pipe via pipeline (15) is connected to part of the torches (7), placed in the ignition chamber (6). The steam generator (11) with a device for separating gasified carbon from processed gasses is in turn fitted with a pipeline (16) for carrying water and pipeline (17) for carrying gasified carbon to part of the torches, placed in its ignition chamber (6), and via pipe (18) the residual fractions of the processed gasses are led into the atmosphere. Pipeline (17) is connected to input pipe (19), connected to a secondary source of gasified carbon. The rest of the torches (7) placed in the ignition chamber (6) are connected to pipeline (20) used for feeding gas-like fuel.

Description

The utility model will find application in power engineering, in particular in gas-steam turbines in power plants.

BACKGROUND OF THE INVENTION

A gas-steam turbine unit is known, comprising a turbine, an associated chamber for the ^1st combustion of gaseous fuel, an exhaust manifold located at its outlet, a steam generator connected to a water supply device and to the exhaust system. $ the heat from the exhaust manifold; and also with a device for mixing the medium leaving the steam generator with gaseous fuel before its combustion. At the outlet of the exhaust manifold there is a device for separating gasified carbon.

Disadvantages of this unit are the use of flammable fuel in its operation and significant emissions of polluting products into the atmosphere.

Technical essence of the utility model

The gas-steam turbine unit consists of a housing with an inlet pipe and an outlet pipe, turbines with an impeller and a compressor wheel, between which there is a chamber for combustion of gaseous fuel with burners located in it.

The discharge pipe is connected by a pipeline to a device for superheated steam, the outlet of which is connected by a pipeline to a steam generator. It is connected to a device for separating gasified carbon from the exhaust gases, which device is connected by a pipeline to a pipe through which additional quantities of gasified carbon enter. Thus, they together enter part of the burners in the gaseous fuel combustion chamber.

The housing of the superheated steam device forms a chamber for passing the exhaust gases, which enter the steam generator through a pipeline. The steam generator is connected via a pipe to the atmosphere to discharge the remaining exhaust gas fractions.

The steam generator is connected by a water supply device. This device is connected by a spiral tube located in the steam generator to a pipeline which is connected to another spiral tube located in the superheated steam device 2501 U1. This helical tube is connected to a pipeline which is connected to a certain part of the burners in the combustion chamber _with gaseous fuel.

The gaseous fuel combustion chamber is also connected to a gaseous fuel supply pipe.

Explanation of the attached figure

Figure 1 represents a gas-steam turbine unit.

Exemplary implementations of the utility model

The gas-steam turbine unit consists of a housing 1 with an inlet pipe 2 and an outlet pipe 3, turbines with an impeller 4 and a compressor wheel 5, between which a gas combustion chamber 6 with burners 7 is located.

The exhaust pipe 3 is connected via a line 8 to a superheated steam device 9, the outlet of which is connected via a line 10 to a steam generator 11. It is connected to a device25 for separating gasified carbon 21 from the exhaust gases, which is connected to the line 17. part of the burners in the gaseous fuel combustion chamber 6.

The housing of the superheated steam device 9 forms a chamber 12 for passing the exhaust gases, which enter the steam generator 11 via a pipeline 10. The steam generator is connected through a pipe 18 to the atmosphere for discharge of the 35 remaining exhaust gas fractions.

The steam generator is connected via a water supply device 16. This device is connected by a spiral tube 13 located in the steam generator 11 to a pipe 14 which is connected to another spiral tube 22 located in the superheated steam device 9. This spiral tube 22 is connected to a pipe 15 which is connected to a certain part of the burners 7 in the gaseous fuel combustion chamber 4.

The gasified carbon obtained in the steam generator passes through pipe 17. At the end it is mixed with the additional quantities of gasified carbon entering through the pipe 19, so they together enter some of the burners. The gaseous fuel combustion chamber 6 is connected to a gaseous fuel supply pipe 20.

Action of the utility model

On the burners 7 of the combustion chamber of

2501 UI gaseous fuel 6, fuel is supplied through the line 20, and air is supplied through the inlet pipe 2.

The fuel, burning, rotates the turbine, creating a force on its impeller 4 and heats to an operating temperature of 80 ° C.

The exhaust gases, heated to a high temperature, pass through the discharge pipe 3, line 8 and enter the superheated steam device 9. From there through line 10 enter the steam generator 11, which is connected to a device for separating gasified carbon 21.

Simultaneously with this cycle, water is supplied to the steam generator via line 16. The heated exhaust gases convert the water into steam and at the same time cool down sharply, which leads to the release of gasified carbon.

The steam generated in the steam generator 11 through a pipe 14 enters the coil 13 of the superheated steam device 9. Due to the higher temperature of the exhaust gases in the chamber 12 of the superheated steam device 9 compared to the steam generator 11, the steam in the coil pipe 13 receives an additional amount of heat, then enters through a pipeline 15 to a certain part of the burners 7 in the combustion chamber of gaseous fuel 6.

The gasified carbon obtained at the same time in the steam generator passes through pipeline 17, where it mixes with the additional quantities of gasified carbon entering through pipe 19, so they together enter part of the burners 7 in the combustion chamber of gaseous fuel 6. The remaining fraction of exhaust gases is releases into the atmosphere through a tube 18.

Claims (1)

Claims A gas turbine unit comprising a turbine connected to a combustion chamber for gaseous fuel (6), a steam generator (11) connected to a water supply device (16), a gasified carbon separation device (21), characterized in that the gas-steam turbine unit consists of a housing (1), with an inlet pipe (2) and an outlet pipe (3), turbines with an impeller (4) and a compressor wheel (5) located in it, between which a chamber for a combustion of gaseous fuel (6), burners (7) are located in it, as the housing (1) is connected to the discharge pipe (3), which by means of a pipeline (8) is connected to a device for superheated steam (9), in it a spiral tube (22) is located, the outlet of this device (9) is connected by a pipeline (10) to a steam generator (11), which is connected to a device for separating gasified carbon from the exhaust gases (21), which by a pipeline (17 ) is connected to a tube for additional carbon source (19) and to the chamber h and combustion of gaseous fuel (6), in the steam generator (11) is located a device for water supply (16), which is connected to a spiral pipe (13), and it through the pipeline (14) to another spiral pipe (22) , and it with a pipeline (15), which is connected to a part of the burners (7) in the chamber for combustion of gaseous fuel, which is connected to a pipe for additional gaseous fuel (20), the steam generator is connected to a pipe for removal of residual gaseous fuel fractions.