RU2727107C1 - Micro gas turbine power unit - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: invention relates to devices for generation of electric power, namely to gas turbine power plants of low power. In the proposed micro gas turbine power unit, which includes: an air compressor configured to supply compressed air into the combustion chamber; combustion chamber made with possibility of mixing fuel and air and combustion of produced mixture; radial turbine with ceramic impeller rotated by hot gas coming from combustion chamber; high-speed electric generator, which shaft is mechanically connected to turbine shaft with possibility of torque transfer between them; wherein torque transmission between the turbine and generator is carried by a single shaft direct drive scheme, the impeller is made of silicon nitride having a density of not more than 3500 kg/m, the mechanical strength of at least 800 MPa, and wherein it is made in an open circuit with an inclination angle of the blades on the peripheral (inlet) part of the impeller in range from 14.5° to 15.5° and with an angle of inclination of the blades on the central (outlet) part of the impeller in range of 89° to 91°, wherein impeller has number of blades 12, thickness of which on its peripheral part is within range from 1.45 mm to 1.55 mm and smoothly varies, increasing from peripheral part to central part of impeller to value within 1.75 mm up to 1.85 mm.EFFECT: invention allows improving operating and technical characteristics of a micro gas turbine power unit, namely efficiency, reliability and service life.1 cl, 3 dwg

Description

The invention relates to a device for generating electrical energy, in particular to low-power gas turbine power plants.

As a prototype based on review and analysis of technical literature and patents for IPC F01D 15/10, F02C 6/00, F02C 3/05, F16C 3/02, F01D 5/04, B23K 1/19, F01D 1/08, F01D 5/14, F01D 5/04, F16C 3/00, F04D 29/02, F01D 11/08, F01D 1/08, F01D 25/30, the invention "Micro-gas turbine power unit" was adopted - patent RU No. 114341 from 20.03.2012 to IPC F01D 15/10, F02C 6/00, F02C 3/05.

According to this invention, a micro-gas turbine power unit includes: an air compressor configured to supply compressed air to a combustion chamber; a combustion chamber configured to mix fuel and air and burn the resulting mixture; a radial turbine with a ceramic impeller rotated by hot gas coming from the combustion chamber; a high-speed electric generator, the shaft of which is mechanically connected to the turbine shaft with the possibility of transferring torque between them; the transmission of torque between the turbine and the generator is carried out according to a single-shaft gearless scheme.

The features of the known micro-gas turbine power unit, which coincide with the features of the claimed invention, consist in the presence of: an air compressor capable of supplying compressed air to the combustion chamber; a combustion chamber configured to mix fuel and air and burn the resulting mixture; a radial turbine with a ceramic impeller rotated by hot gas coming from the combustion chamber; a high-speed electric generator, the shaft of which is mechanically connected to the turbine shaft with the possibility of transferring torque between them; the transmission of torque between the turbine and the generator is carried out according to a single-shaft gearless scheme.

The reason that prevents the technical result obtained in the known technical solution, which is provided by the claimed invention, is that the technical means of the known micro-gas turbine power unit do not allow to ensure its high operational and technical characteristics.

The problem to be solved by the claimed invention is to improve the operational and technical characteristics of a micro-gas turbine power unit.

The technical result, which ensures the solution of this problem, consists in the creation of technical means that make it possible to increase the operational and technical characteristics of a micro-gas turbine power unit, namely, efficiency, reliability and service life.

The technical result is achieved by the fact that in the claimed micro-gas turbine power unit, which includes: an air compressor configured to supply compressed air to the combustion chamber; a combustion chamber configured to mix fuel and air and burn the resulting mixture; a radial turbine with a ceramic impeller rotated by hot gas coming from the combustion chamber; a high-speed electric generator, the shaft of which is mechanically connected to the turbine shaft with the possibility of transferring torque between them; in this case, the transmission of torque between the turbine and the generator is carried out according to a single-shaft gearless scheme, the impeller is made of silicon nitride having a density of no more than 3500 kg / m ³ , mechanical strength of at least 800 MPa, and at the same time it is made according to an open scheme with an inclination angle blades on the peripheral (inlet) part of the impeller in the range from 14.5 ° to 15.5 ° and with the angle of inclination of the blades on the central (outlet) part of the impeller in the range from 89 ° to 91 °, while the impeller has a number of blades 12, the thickness of which on its peripheral part is in the range from 1.45 mm to 1.55 mm and smoothly changes, increasing from the peripheral part to the central part of the impeller to a value in the range from 1.75 mm to 1.85 mm.

The above-described created technical means as part of the proposed micro-gas turbine power unit allow the following.

Firstly, the created technical means can significantly increase the efficiency of the micro-gas turbine power unit (MGTE) due to the fact that its impeller is made with an angle of inclination of the blades on the peripheral (inlet) part of the impeller in the range from 14.5 ° to 15.5 ° and with the angle of inclination of the blades on the central (outlet) part of the impeller in the range from 89 to 91 degrees, while the impeller has a number of blades 12, the thickness of which on its peripheral part ranges from 1.45 mm to 1.55 mm and smoothly changes, increasing from the peripheral part to the central part of the impeller to a value in the range from 1.75 mm to 1.85 mm. The aforementioned technical solutions form such a gas flow path (working fluid) in terms of its geometry (inlet and outlet angles, numerical values of the cross-sectional areas of the interspace channels and their profile), which ensures the process of converting the energy of a high-temperature gas flow into the kinetic energy of the MGTEA impeller with minimal losses , which leads to a higher efficiency of the MGTEA, which is expressed in a higher efficiency factor (efficiency).

Secondly, the created technical means can significantly increase the reliability of the micro-gas turbine power unit (MGTEA) due to the fact that its impeller is made of silicon nitride having a density of no more than 3500 kg / m ³ , mechanical strength of at least 800 MPa, and the impeller is made according to the open circuit. Limiting the density of the impeller material to a value of no more than 3500 kg / m ³ provides a decrease in destructive forces from the action of centrifugal forces, which, as you know, are directly proportional to the mass of rotating bodies. The density value of the material 3500 kg / m ³ with the existing geometry of the impeller in the part of the most loaded sections of its elements ensures the integrity of these elements and the entire impeller at the given high values of the impeller rotation speed (in our case - 64000 rpm), which is confirmed by the calculation ... An increase in the reliability of the impeller and the entire MGTEA is also ensured by the fact that it is made according to an open scheme: the absence of the so-called cover disk of the impeller or minimization of its surface and, accordingly, the mass, reduces the values of centrifugal forces acting on the structure (on the body) of the impeller , which is especially important when these influences are of a mechanical and high temperature nature.

Thirdly, the created technical means can significantly increase the service life of a micro-gas turbine power unit (MGTE) due to the fact that its impeller is made of silicon nitride, which, with the above set of properties, has high strength characteristics and characteristics of high chemical resistance in high-temperature oxidative gas environment.

New features of the proposed 'technical solution are that the impeller is made of silicon nitride having a density of not more than 3500 kg / m ³ , mechanical strength of at least 800 MPa, and at the same time it is made according to an open scheme with an angle of inclination of the blades on the peripheral ( inlet) part of the impeller in the range from 14.5 ° to 15.5 ° and with the angle of inclination of the blades on the central (outlet) part of the impeller in the range from 89 ° to 91 ° degrees, while it has a number of blades of 12, the thickness of which on its peripheral part is in the range from 1.45 mm to 1.55 mm and smoothly changes, increasing from the peripheral part to the central part of the impeller to a value in the range from 1.75 mm to 1.85 mm.

The invention is illustrated by drawings (Fig. 1-Fig. 3), which shows a fragment of a radial turbine with a ceramic impeller and the impeller itself of the claimed MGTEA.

FIG. 1 - design of a fragment of a radial turbine with an impeller.

FIG. 2 - the design of the impeller.

FIG. 3 - the external view of the impeller in the volumetric image.

The radial turbine (Fig. 1) in the presented fragment includes a housing 1, in which an annular inlet channel 2 for supplying hot gas (working fluid) to a nozzle apparatus 3 with blades 4, an impeller 5, with profiled blades 6 and an outlet channel 7 removal of hot exhaust gas (working fluid). In this case, the outlet channel 7 is located inside the inlet drip 2 coaxially (coaxially) with respect to it, and the impeller 5, including the shaft 8, the hub 9, twelve blades 6 and made in an open circuit (without a cover disk) as a whole from silicon nitride.

The blades 6 (Fig. 2) of the impeller 5 are made with an inclination angle at the peripheral (inlet) part in the range from 14.5 ° to 15.5 ° and with an inclination angle of the blades at the central (outlet) part of the impeller in the range from 89 and up to 91 degrees, while the thickness of the blades 6 on the peripheral part of the impeller is in the range from 1.45 to 1.55 mm and smoothly changes, increasing from the peripheral part to its central part to a value in the range from 1.75 to 1.85 mm. Overall dimensions of the described impeller: diameter along the edges of the blades of its peripheral (inlet) part - 170 mm, and the diameter along the edges of the blades of its central (outlet) part - 91 mm; length ~ 135 mm, of which ~ 63 mm falls on the length of the blade block. When performing the calculations, the rotational speed of the impeller as part of the rotor was set at 64,000 rpm. (~ 1066 r / s).

Described and illustrated above, the claimed invention operates as follows.

Hot gas (working fluid), having a temperature of up to 1300 °, from the combustion chamber MGTEA enters the annular inlet channel 2 (Fig. 1) and then moves to the nozzle device 3 with blades 4, passes through them and enters the impeller 5 through it the peripheral part, passes through the interscapular space to the central part of the impeller 5, in which the energy of the high-temperature gas flow is converted into the kinetic energy of rotation of the impeller 5. The torque from the impeller 5 is transmitted to the shaft 8 of the high-speed electric generator according to a single-shaft gearless scheme.

The calculations show that in the manufacture of an impeller made of silicon nitride having a density of not more than 3500 kg / m ³ , the mechanical strength is not less than 800 MPa, with an open impeller with 12 blades with an angle of inclination on the peripheral (inlet) part impeller in the range from 14.5 ° to 15.5 ° and with the angle of inclination of the blades on the central (outlet) part of the impeller in the range from 89 to 91 degrees, and with a smooth change in the thickness of the blades from the size 1.45 ... 1.55 mm on the peripheral part to a size of 1.75 ... 1.85 mm on the central part - the integrity of the impeller is maintained at a frequency of its rotation at 64,000 rpm and it ensures the achievement of the declared characteristics in the operation of a micro-gas turbine power unit, namely, an increase in efficiency, reliability and service life.

The presence of the material - silicon nitride and the technology for its production with the above characteristics, is confirmed in publications in scientific and technical publications and the results of research work, in particular, by A.S. Lysenkov's dissertation. "Structural ceramics based on silicon nitride with the addition of calcium aluminates" in the specialty "05.17.11 - technology of silicate and refractory nonmetallic materials", Moscow, 2014 (website www.imet.ac.ru), as well as the presence of the patent "Method of obtaining sintered products based on silicon nitride "No. 2458023 dated 08/10/2012, IPC С04В 35/591 with priority from 03/11/2011.

Thus, the technical solution that constitutes the subject of the claimed invention "Microgas turbine power unit" provides a technical result, namely, an increase in the efficiency, reliability and resource of its operation, and therefore, the solution of the task, which consists in increasing the operational and technical characteristics of the microgas turbine power plant. unit.

Claims (1)

Micro-gas turbine power unit, including an air compressor configured to supply compressed air to the combustion chamber; a combustion chamber configured to mix fuel and air and burn the resulting mixture; a radial turbine with a ceramic impeller rotated by hot gas coming from the combustion chamber; a high-speed electric generator, the shaft of which is mechanically connected to the turbine shaft with the possibility of transferring torque between them; in this case, the transmission of torque between the turbine and the generator is carried out according to a single-shaft gearless scheme, characterized in that the impeller is made of silicon nitride having a density of not more than 3500 kg / m ³ , mechanical strength of at least 800 MPa, and at the same time it is made on an open scheme with the angle of inclination of the blades on the peripheral (inlet) part of the impeller in the range from 14.5 ° to 15.5 ° and with the angle of inclination of the blades on the central (outlet) part of the impeller in the range from 89 ° to 91 °, while the working the impeller has a number of blades 12, the thickness of which on its peripheral part ranges from 1.45 mm to 1.55 mm and smoothly changes, increasing from the peripheral part to the central part of the impeller to a value in the range from 1.75 mm to 1, 85 mm.

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