RU101096U1 - GAS-TURBINE POWER PLANT - Google Patents

Abstract

 1. A gas turbine power plant containing a centrifugal compressor connected to a combustion chamber having burners, the output of the combustion chamber is connected to a centripetal turbine, the rotor of which is connected to an electric generator, and also a starting device, characterized in that the rotors of the starting device are centrifugal the compressor and the centripetal turbine are mounted on a common shaft installed in gas-static bearings, the burner devices of the combustion chamber are installed in how many tiers, the installation is provided with a heat exchanger mounted between the compressor and the combustion chamber, and is equipped with a plasma ignition device of the combustion chamber. ! 2. The gas turbine power plant according to claim 1, characterized in that it is equipped with a control unit associated with a starting device, an ignition device and a centripetal turbine.

Description

The utility model relates to the field of energy, namely, to power engineering and can be used in power plants.

A gas turbine power plant is known, comprising a gas turbine engine, a turbogenerator installed in series with its stator winding, a frequency converter, for example, a two-channel thyristor converter, a plant shaft, consisting of a rotor of a gas turbine engine, a turbogenerator rotor and an intermediate shaft, which is connected to both rotors by rigid flange connections . The shaft line is mounted on active magnetic bearings: four radial and one axial. Bearings located at the ends of the rotor of a gas turbine engine and bearings located at the ends of the rotor of a turbogenerator provide non-contact suspension of the rotor in a magnetic field created by controlled electromagnets. The axial magnetic bearing provides non-contact locking in the axial direction of the rotor of the gas turbine engine and the rotor of the turbogenerator. The intermediate shaft does not have its own bearings. Radial magnetic bearings are equipped with twin safety bearings, such as ball bearings, which come into operation when the radial active magnetic bearings do not work. During normal operation, the safety bearings do not work and rotate together with the shaft of the installation.

During installation operation, in start-up mode, the frequency converter is used as a starting device. Having received energy from the network, it smoothly increases the frequency to the required value, and the turbogenerator acts as an engine that accelerates the gas turbine engine to its self-starting frequency, after which the gas turbine engine brings the rotation frequency to nominal, while the turbogenerator generates a current with a non-standard frequency of 101.6 Hz . The stator winding of the turbogenerator is connected to a thyristor frequency converter, which lowers the current frequency to the standard frequency of 50 Hz, and transmits electricity through the transformer to the industrial network.

(see RF patent for utility model No. 43331, class F02C 3/00, 2005).

As a result of the analysis of the design of this installation, it should be noted that the use of active magnetic bearings eliminates the use of oil and the organization of the oil system, and, therefore, eliminates the laborious maintenance and repair of the oil system and the oil slide bearings themselves. However, the design of the shaft support is very complicated, as it uses a large number of bearings of various types.

Known power gas turbine installation containing a gas turbine unit and a closed utilization circuit. The gas turbine unit contains a low-pressure compressor installed in series, into which external air is supplied, a high-pressure compressor, a fuel combustion chamber, a gas turbine consisting of high and low pressure turbines, as well as a current generator through which the power removed from the turbines is transmitted to the consumer.

The closed utilization circuit of the installation contains sequentially installed recuperative heat exchanger with a coolant, the first and second utilization turbines, a refrigerator, a pump that provides movement of the coolant in the circuit, a regenerator and a second current generator. The generator is connected to the output of the second utilization turbine to transfer the power of the turbines to the consumer.

To ensure a chemical reaction, N ₂ O ₄ ^↔ 2NO ₂ and vice versa, the regenerator is additionally connected to utilization turbines, and the regenerative heat exchanger is connected to the outlet of the low-pressure turbine.

During the operation of the installation, atmospheric air from the environment enters the low-pressure compressor and through the high-pressure compressor enters the combustion chamber, where it is mixed with fuel, for example, natural gas. The fuel mixture burns in the combustion chamber. From the chamber, the gases obtained during combustion enter the high pressure turbine and then to the low pressure turbine. A current generator located on a common shaft with turbines is driven and the electricity generated by it is supplied to the consumer.

Exhaust gases from a low-pressure turbine with a temperature of 400-560 ° C are fed into a recuperative heat exchanger to heat a dissociating heat carrier of a closed system - nitrogen tetroxide N ₂ O ₄ .

The coolant is nitrogen dioxide N ₂ O ₄ in a liquid state at a temperature of 30-40 ° C and a pressure of 0.18-0.22 MPa, from the refrigerator enters the pump, which compresses it and increases the pressure to 13-17 MPa. Next, the coolant enters the regenerator, where it is heated due to the heat of the gases leaving the first utilization turbine to 200-250 ° C. With the obtained parameters, nitrogen dioxide N ₂ O ₄ enters the heat exchanger already in gaseous form. Here, the gas of the working fluid receives additional heat from the exhaust gases of the gas turbine unit, dissociates with energy absorption for dissociation to the NO ₂ phase, and performs work in the first turbine.

After the turbine in the regenerator, the coolant is transformed into N ₂ O ₄ gas, giving up part of the heat for heating and evaporation of the coolant pump entering the regenerator from the coolant pump in the liquid phase. From the regenerator, the coolant in the N ₂ O ₄ phase enters the second turbine of the closed recovery circuit. The turbine runs on a coolant in the N ₂ O ₄ phase. The current generator is driven and the resulting capacity of the recovery turbines is also supplied to the consumer.

(see RF patent for utility model No. 61797, class F01K 23/10, 2007) - the closest analogue.

As a result of the analysis of the known installation, it should be noted that its design allows the use of heat of exhaust gases, however, it only works efficiently with a power exceeding 1000 kW. In addition, the design of the known installation is very complex, due to the need to use units (turbines, compressors) of high and low pressure. Chemical reactions in the utilization circuit must take place in a rather narrow temperature range, which complicates the implementation of the technological cycle, which is carried out at very high pressure and temperature in gas turbines, which can cause problems with environmental safety

The objective of this utility model is the development of a gas turbine power plant with a fairly simple structural design, which has a high service life and provides a high percentage of fuel combustion, and, consequently, environmental safety during operation.

The task is ensured by the fact that in a gas turbine power plant containing a centrifugal compressor connected to a combustion chamber having burners, the output of the combustion chamber is connected to a centripetal turbine, the rotor of which has the ability to connect to an electric generator, as well as a starting device, is new that the rotors of the starter, centrifugal compressor and centripetal turbine are mounted on a common shaft mounted in gas-static bearings The combustion chamber devices are installed in several tiers, while the installation is equipped with a heat exchanger installed between the compressor and the combustion chamber, and is equipped with a plasma device for igniting the combustion chamber and is equipped with a control unit associated with a starting device, an ignition device, and a centripetal turbine.

The essence of the utility model is illustrated by graphic materials on which the installation diagram is presented.

The gas turbine power plant contains a starting device - an electric generator - a starter 1 made on permanent magnets of rare earth metals, a centrifugal compressor 2, a centripetal turbine 3.

The rotors of these units are located on one shaft 4. The bearings for the shaft are gas-static bearings 5 (the design of such bearings is known, see, for example, RF patent for utility model No. 93125). The output of the compressor 2 through the heat exchanger 6 is connected to the combustion chamber 7, equipped with a plasma device 8 for its ignition. The output of the combustion chamber is connected to a centripetal turbine 3. The installation is equipped with a control unit 9, based on a programmable controller designed to control and diagnose the installation in real time. The control unit is connected to a starting device, an ignition device and a centripetal turbine.

The combustion chamber is equipped with gas burner devices 10 mounted on the housing of the combustion chamber in several tiers. The graphic materials show two tiers, which, however, does not mean that their number cannot be different.

The inner surface of the combustion chamber may be made of silicon carbide.

The implementation of the device ignition plasma provides guaranteed ignition at low temperatures.

The implementation of the blocks, modules and units of the installation is known, it does not constitute the subject of patent protection and, therefore, is not disclosed in the application materials.

Under the connections (compounds) in this application are understood means of transportation, namely water-gas-vapor pipelines for liquid and gaseous components and their mixtures.

The installation can be stationary or mobile. In the second case, all components and assemblies of the device indicated above are mounted on the frame of the vehicle or on a trailer that can be connected to the vehicle.

Gas turbine power plant operates as follows.

To start the installation, at the command of the control unit 9, the electric generator - starter 1, the agent pumping system through the heat exchanger 6, the medium supply system to the bearing clearances 5 of the shaft 4 are turned on. The electric generator - starter drives the shaft 4, from which the rotors of the centrifugal compressor 2 rotate and centripetal turbine 3.

The air from the compressor 2 is passed through a heat exchanger, where its temperature is brought to a predetermined value and enters the combustion chamber, where fuel is also supplied, for example, natural gas, which is fed through the nozzles of the burner devices 10 to the combustion chamber, where it is mixed with air pumped into the chamber combustion by compressor. From the control unit 9, a command is given to turn on the ignition device 8, which ignites the gas mixture in the combustion chamber. Burner devices form converging flows, which ensures almost complete combustion of the fuel mixture.

The gas obtained in the combustion chamber is sent to a centripetal turbine 3 to rotate the rotor, which is connected to an electric generator that generates electrical energy for consumers.

The operation parameters of the centripetal turbine are monitored by sensors (not shown) associated with the control unit 9.

Claims (2)

1. A gas turbine power plant containing a centrifugal compressor connected to a combustion chamber having burners, the output of the combustion chamber is connected to a centripetal turbine, the rotor of which is connected to an electric generator, and also a starting device, characterized in that the rotors of the starting device are centrifugal the compressor and the centripetal turbine are mounted on a common shaft installed in gas-static bearings, the burner devices of the combustion chamber are installed in how many tiers, the installation is provided with a heat exchanger mounted between the compressor and the combustion chamber, and is equipped with a plasma ignition device of the combustion chamber. 2. The gas turbine power plant according to claim 1, characterized in that it is equipped with a control unit associated with a starting device, an ignition device and a centripetal turbine.