PL241294B1 - Modular gas turbine - Google Patents

Abstract

The modular gas turbine consists of the upper turbine rotor disk (9) and the lower turbine rotor disk (17), between which the nozzle palisade blades (7) are attached to the lower turbine rotor disk (17) by means of main and auxiliary pins. a sleeve (15) is attached to which the turbine rotor seal (16) and a bearing (11) are mounted, attached to the turbine housing with a gas connection (14), to which gas connections (8) and the lower outer disk (20) are attached and a labyrinth seal (18), and a casing element (1) is attached to the lower outer disk (20), to which the outlet connection (13) is connected, and the upper outer disk (2) is attached to the casing element (1), connected to the turbine housing with a flange (12) in which the gas connections (8) and the labyrinth seal (18) are embedded, as well as the bearing (11) and the turbine rotor seal (16), which are also mounted on the drive shaft (10) p connected to the upper disc of the turbine rotor (9), where between the flanged turbine housing (12) and the turbine housing with gas connection (14) there are diffuser palisade blades (6), and between the upper outer disc (2) and the lower outer disc (20) there are sleeves (5) with bolts (19) and nuts (3) with washers (4) in them.

Description

Description of the invention

The subject of the invention is a modular gas turbine, especially for low pressure circuits.

A gas machine equipped with a radial turbine is known from US Patent No. 7,980,078 B2. The working medium in the form of steam flows from the evaporator into the turbine channel, and then it is expanded on the nozzle palisade. Expanded steam goes to the condenser space, where there is a phase transformation into a liquid phase. The turbine disk is integrated with the shaft, which at the same time is equipped with a centrifugal pump that forces the flow of the medium from the condenser to the evaporator.

From the patent application US 5,236,349 A, a centrifugal turbine is known which is equipped with a disk with nozzle channels. The nozzle channels extend from the center of the turbine disk. The flow of the medium is characterized by a constant pressure drop along the length of the nozzle channel.

From the patent specification No. US 6354800 B1 there is known a turbine containing a disk mounted on a shaft and equipped with stationary nozzles generating a pulse force on the rotor and movable nozzles mounted in the rotor, which expand the medium to a pressure lower than stationary nozzles, thus generating additional torque. on the shaft of the band.

In classic gas turbines, the blades are attached to the hub, disc or drum, forming a blade palisade, and in some solutions they constitute one structural element. The shaft together with the hub, disc, drum and vane ring constitute the turbine rotor on which the torque is generated as a result of the flow of the medium in the form of gas, which is transmitted via the shaft to the driven machine. Turbines used in modern steam power plants are one of their most expensive structural elements. The high production cost of the turbines is primarily due to the complex structure of the blade palisades, and therefore the necessity to use complex technological processes during production.

The object of the invention is to simplify the construction of gas turbines, especially those used in the circuits of gas power plants.

The essence of the modular gas turbine according to the invention, having nozzle and diffuser palisade blades, labyrinth seal, bearings and drive shaft, is that it consists of an upper turbine rotor disk and a lower turbine rotor disk, between which they are attached by means of main bolts and auxiliary bolts. nozzle palisade blades. A sleeve is attached to the disc of the lower turbine rotor, on which the turbine rotor seal and a bearing are mounted, which is also attached to the turbine housing with a gas connection. The gas connections and the lower outer disk as well as the labyrinth seal are attached to the turbine housing with gas connection. A casing element to which a drain connection is connected is attached to the lower external disk. The upper outer disk is attached to the housing element, connected to the turbine housing with a flange, in which gas connections and a labyrinth seal are embedded, as well as the bearing and sealing of the turbine rotor, which are also mounted on the drive shaft connected to the upper disk of the turbine rotor. The diffuser palisade blades are located between the flanged turbine housing and the gas-connected turbine housing. Between the upper outer disk and the lower outer disk, there are sleeves in which screws are mounted, to which nuts and washers are attached.

Preferably, the blades of the nozzle palisade form a converging-diverging flow channel which is continued through a divergent channel formed by the blades of the diffuser palisade, the blades of the nozzle palisade and the blades of the diffuser palisade being provided with mounting projections.

The advantageous effect of the application of the invention is the simplification of the structure of the rotor rings of gas turbines in relation to the current solutions used in gas power plants. The turbine presented according to the present invention can be adapted to already existing solutions.

The subject of the invention in an exemplary embodiment is shown in the drawing, in which Fig. 1 shows a half-section view of the turbine, Fig. 2 - detail A of the turbine rotor sealing section with a visible labyrinth seal, Fig. 3 - exploded view of the gas turbine elements, Fig. 4 - cross-section of the turbine, fig. 5 - detail B with the visible arrangement of the movable nozzle palisade and the fixed diffuser palisade, and fig. 6 - isometric view of the arrangement of the movable nozzle palisade in relation to the fixed diffuser palisade.

The gaseous medium is led through the turbine housing with gas connection 14, and then directed through the sleeve 15 to the blades of the nozzle palisade 7, which together with the lower disk 17 and the upper disk 9 form the turbine rotor. A bearing 11 and a rotor seal are mounted on the sleeve 15

After expansion in the channels of the nozzle palisade 7, the stream is directed to the blades of the diffuser palisade 6, where it is further expanded. Fixed blades of the diffuser palisade 6 are attached to the turbine housing with gas connection 14 and the turbine housing with a flange 12. The stream of expanded air, after flowing out of the diffuser palisade, goes to the space limited by the upper outer disc 2, the lower outer disc 20 and the housing element 1. Further, the flow is routed via the downstream connection 13 to a downstream plant or to the environment. There are labyrinth seals 18 between the turbine housing with gas connection 14 and lower outer disc 20 and between the turbine housing with flange 12 and upper outer disc 2. The torque generated on the turbine rotor is transmitted by the drive shaft 10. there is a seal of the turbine rotor 16 and a bearing 11, which are simultaneously seated in the turbine housing with a flange 12. The turbine housing with a flange 12 and the turbine housing with gas connection 14 have openings enabling the installation of gas connections 8, to which conduits can be connected. equalizing pressure. The blades of the nozzle palisade 7 are mounted to the upper disk 9 and the lower disk 17 of the turbine rotor by means of auxiliary bolts 21 and main pins 22. The diffuser palisade blades 6 are attached to the turbine housing with gas connection 14 and the turbine housing with a flange 12 by means of auxiliary pins 21. The upper outer disk 2 and the lower outer disk 20 are connected to each other by means of bolts 19 and nuts 3 with washers 4, between which there are spacing sleeves 5.

List of markings:

Housing element

Upper external disk

Nuts

Pads

Sleeve

Diffuser palisade blade

Nozzle palisade blade

Gas connection

Top turbine rotor disc

Drive shaft

Bearings

Turbine housing with flange

Drain connection

Turbine housing with gas connection

Sleeve

Turbine rotor seal

Turbine rotor lower disk

Labyrinth seal

Bolts

Lower external disk

Auxiliary pins

Main pins

Claims (2)

1. Modular gas turbine with nozzle and diffuser palisade blades, labyrinth seal, bearings and drive shaft, characterized by the fact that it consists of the upper turbine rotor disk (9) and the lower turbine rotor disk (17), between which they are attached by means of main bolts (22) and auxiliary pins (21) of the nozzle palisade blade (7), with a bushing (15) attached to the lower turbine rotor disc (17), on which the turbine rotor seal (16) is mounted, and a bearing (11) attached to turbine housing with gas connection (14), to which gas connections (8) are attached, the outer lower disk (20) and labyrinth seal (18), and the lower outer disk (20) is fitted with a housing element (1) to which drain connection is connected PL 241 294 B1 (13), with the upper outer disk (2) attached to the housing element (1), connected to the turbine housing with a flange (12), in which gas connections (8) and a labyrinth seal (18) are mounted and also a bearing (11) and a turbine rotor seal (16), which are simultaneously mounted on the drive shaft (10) connected to the upper disk of the turbine rotor (9), and between the turbine housing with the flange (12) and the turbine housing with the connection (14) there are blades of the diffuser palisade (6), and between the upper outer disc (2) and the lower outer disc (20) there are sleeves (5) in which the screws (19) are mounted, to which the nuts ( 3) with washers (4). 2. A modular gas turbine as in claim 1; A nozzle panel according to claim 1, characterized in that the blades of the nozzle palisade (7) form a convergent-divergent flow channel which is continued through a divergent channel formed by the blades of the diffuser palisade (6), the blades of the nozzle palisade (7) and the blades of the diffuser palisade (6) provided with are provided with mounting tabs.