KR101141144B1 - Micro turbine engine with generator - Google Patents

Abstract

PURPOSE: A micro turbine engine equipped with a generator is provided to protect a generator from high heat by blocking the heat from a combustion chamber using a heat insulting layer or a water jacket. CONSTITUTION: A micro turbine engine comprises a body(10), a turbine(20), a compressor(30), a generator(40) and a heat shield structure(60). The body comprises a combustion chamber(11) and a journal bearing. The turbine is placed in an upper part of the body for an upper part of a shaft to be connected to the turbine. The turbine is operated by the pressure of combustion gas from the combustion chamber. The compressor is placed in a lower part of the body for a lower part of the shaft to be connected to the compressor. The compressor supplies a mixed fuel to the combustion chamber with compressing, mixing the fuel and air. The generator is integrated with the compressor. The heat shield structure prevents the heat of the turbine and the combustion chamber from transferring to the compressor.

Description

Micro Turbine Engine with Generator

The present invention relates to a micro-turbine engine having a generator capable of producing electricity by mounting a generator in a gas turbine system for generating a driving force. Particularly, a complicated structure and a high manufacturing cost are required through a MEMS processing method. And the other parts are manufactured by precision machining method to improve the assembly and manufacturability, and to prevent the power generation efficiency from being lowered and the compression efficiency is improved by heat shielding between the turbine part and the compression part and the power generation part. One relates to a micro turbine engine with a generator.

Recently, due to the development of portable electronic devices, the problem of constant power supply for these devices is emerging, and in particular, the need for a portable ultra-small power supply source is increasing. Accordingly, various researches on ultra small power systems have been conducted.

In particular, the United States has been working on turbine-powered ultra-small power systems around the Defense Advanced Research Projects Agency (DARPA) and the Massachusetts Institute of Technology (MIT) since the early 1990s. As a result, MIT has also developed a microgas turbine generator consisting of a compressor, a turbine and a combustor with a total thickness of 3.7 mm and a diameter of 8 mm and 6 mm, respectively.

As shown in FIG. 1, the micro gas turbine generator includes an air inlet 101 formed at an upper center thereof, an exhaust nozzle 102 at which combustion gas is discharged at a lower center thereof, and a combustion chamber 105 formed therein. Turbine unit 110 and the turbine unit 110, which includes a turbine blade 111 located in the lower side of the inside of the body 100 and rotated by the combustion gas discharged from the combustion chamber 105, and the body 100 Located in the upper side of the inner side is connected to the turbine shaft 110 and the same shaft 115, the generator consists of a compression unit 120 formed integrally.

The turbine unit 110 further includes a turbine nozzle 112 positioned radially outward of the turbine blade 111 to guide the combustion gas of the combustion chamber 105 to the turbine blade 111. In addition, the compression unit 120 is connected to the turbine blades 111 by the same shaft 115 and rotates, the compressor blade 121 is attached to the rotor 125 of the generator, and the compressor blade 121 of A diffuser vane 122 is located radially outward and compresses the air supplied by the compressor blade 121.

In addition, the body 100 is provided with a manifold 104 for distributing the fuel introduced through the fuel inlet 103, the compressed air compressed in the compression unit 120 and the fuel in the manifold 104 Backfire is provided in the mixed gas passage 106 which allows the mixed gas mixed with the fuel injected through the injector 104 'to be supplied to the combustion chamber 105 and the portion that connects the combustion chamber 101 and the mixed gas passage 106 to each other. A flame holder 107 is formed for prevention.

The conventional micro gas turbine generator configured as described above operates the turbine using the pressure of the combustion gas, and the compressor and the generator are operated by the turbine to compress air and generate electricity.

A mixed gas in which compressed air and fuel are mixed by injecting fuel introduced into the compressed air by the compressor blade 121 and the diffuser vane 122 of the compression unit 120 through the fuel injector through the fuel injector 104 '. Is generated and supplied to the combustion chamber 105, and the combustion chamber 105 is combusted to generate a high pressure combustion gas. Since the combustion gas is injected to the turbine blade 111 through the turbine nozzle 112 of the turbine unit 110, the turbine blade 111 is rotated, and the compressor blade connected to the turbine blade 111 in the same axis. 121 is rotated. At this time, electricity is produced by a generator formed integrally with the compression unit 120.

However, the above-described conventional micro gas turbine engine is manufactured by the MEMS (Micro Electro Mechanical System) processing process, so the process itself is too complicated, so mass production is not possible. I can't do it.

In addition, in the conventional micro gas turbine engine, since the height difference between the turbine portion and the compression portion is not large, the power generation efficiency by the generator is lowered due to the heat effect transmitted from the turbine portion as well as the combustion chamber, and the combustion chamber is sufficiently provided from the compression portion to prevent this. If dropped, there is another problem that the diameter of the system becomes larger than necessary.

The present invention has been made in order to solve the above-mentioned problems, by producing only the complicated structure parts through the MEMS processing process and the rest through the precision machining process to improve the convenience of manufacturing and assembly and mass production is possible and In addition, it is an object of the present invention to provide a micro-turbine engine with a generator which prevents a decrease in power generation efficiency and improves compression efficiency by performing heat shielding so that heat of a turbine part, which is a heat generating part, is not transferred to a generator and a compression part.

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Moreover, an object of this invention is to provide the micro turbine engine provided with the generator which improved safety by preventing the flame of a combustion chamber from flowing back to a gas path side.

In addition, an object of the present invention is to provide a micro-turbine engine with a generator, which can easily install a turbine, a compressor, and a generator by forming a body in which a combustion chamber is formed in a multilayer structure.

In addition, an object of the present invention is to provide a micro-turbine engine with a generator provided with bearings in the turbine and the compressor so that the shaft can rotate stably.

In addition, an object of the present invention is to provide a micro-turbine engine with a generator having a simplified overall structure by forming a generator including a permanent magnet and a stator integrally with a compressor.

In addition, an object of the present invention is to provide a micro-turbine engine equipped with a generator to improve the combustion characteristics in the combustion section and to improve the mixing effect of fuel and air.

The present invention for achieving the above object, the combustion chamber is formed in the upper portion and the body of the multi-layer structure is formed a journal bearing for supporting the shaft located in the center portion; A turbine positioned at an upper portion of the body such that an upper end of the shaft is connected and operated by a pressure of combustion gas generated in the combustion chamber; A compressor positioned at a lower portion of the body such that a lower end of the shaft is connected, and compressing air supplied from the outside to supply the fuel to the combustion chamber together with fuel; And a generator configured to be integrated with the compressor to generate electricity, wherein the turbine, the compressor, and the generator are manufactured by a MEMS processing method, and the body and the shaft are manufactured by a precision machining method.

Further, according to the micro-turbine engine provided with the generator of the present invention, the micro-turbine engine further includes a heat shielding structure for preventing heat from the combustion chamber and the turbine from being transferred to the compressor, and the heat shielding structure includes the turbine and the combustion chamber part and the And a water jacket formed in an intermediate portion of the body in the vertical direction to allow the coolant to flow and the insulating layer partitioning the compressor and the generator.

In addition, according to the micro-turbine engine with a generator of the present invention, a mixture gas inlet through which a mixed gas mixed with air and fuel is introduced is formed at the upper side of the combustion chamber, and a flame holder for preventing backfire is installed. do.

In addition, according to the micro-turbine engine provided with the generator of the present invention, the body, the upper cover is formed with a mixed gas injection port for supplying the mixed gas to the combustion chamber, and the groove is mounted on the lower end of the center is formed around the An upper body in which the combustion chamber is formed to be connected to the mixed gas injection hole, a lower body in which a groove in which the compressor and a generator are mounted is formed, a middle body interposed between the upper body and the lower body, and the lower body Located at the bottom of the lower cover is formed with a fuel inlet and an air inlet, the upper cover and the upper body, intermediate, lower body and the lower cover is formed by sequentially stacked from the upper side, the outlet of the compressor and the mixed gas Characterized in that a gas passage for connecting the injection port is formed.

In addition, according to the micro-turbine engine provided with the generator of the present invention, the turbine, the turbine blade is connected to the upper end of the shaft, and is located outside the turbine blades to eject the combustion gas of the combustion chamber toward the turbine blades. And a turbine bearing configured to rotatably support the turbine blade above the turbine blade.

In addition, according to the micro-turbine engine with a generator of the present invention, the compressor is connected to the lower end of the shaft and the compressor blade for discharging the air flowing through the air inlet in the radial direction, and is located outside the compressor blade And a compressor diffuser for compressing air discharged by the compressor blades, and a compressor bearing rotatably supporting the compressor blades under the compressor blades.

In addition, according to the micro-turbine engine with a generator of the present invention, the generator is a permanent magnet installed on the compressor blades, a stator positioned above the compressor blades to generate electricity when the permanent magnet is rotated, and And a spacer positioned between the compressor diffuser and the stator to support the stator.

In addition, according to the micro-turbine engine with a generator of the present invention, the fuel introduced through the fuel inlet has a two-row fuel supply structure to be supplied to the rear of the compressor diffuser through the inner manifold and the outer manifold, the inner The manifold and the outer manifold are characterized in that a plurality of injector holes are formed in semicircular portions facing each other.

The micro-turbine engine with the generator of the present invention, since the turbine, compressor and generator having a complicated shape are manufactured through MEMS processing and the remaining parts are manufactured through precision machining, there is an effect of improving fabrication and assembly.

In addition, according to the micro-turbine engine provided with the generator of the present invention, the generator and the combustion chamber are separated and the heat shield of the combustion chamber is shielded by using a heat insulating layer or a water jacket, thereby protecting the generator from high heat and improving power generation efficiency as well as a compressor. Has an effect of improving the compression efficiency.

In addition, according to the micro-turbine engine with a generator of the present invention, as the flame holder is installed in the mixed gas injection port on the upper side of the combustion chamber, there is an effect of preventing the backfire accident caused by the flame in the combustion chamber flows back to the gas passage.

In addition, according to the micro-turbine engine with a generator of the present invention, as the body in which the combustion chamber is formed is formed in a multi-layer structure, there is an effect that can be easily assembled various components.

In addition, according to the micro-turbine engine with a generator of the present invention, since the bearings provided in the turbine and the compressor, respectively, rotatably support both ends of the shaft, the shaft is stably rotated.

In addition, according to the micro turbine engine provided with the generator of the present invention, since the permanent magnet of the generator is integrally formed on the turbine blade of the compressor, the overall structure is simplified.

In addition, according to the micro-turbine engine with a generator of the present invention, as the fuel supplied through both fuel inlets is injected into the rear of the compressor through the injector holes formed in the different manifolds, the mixing effect of fuel and air is improved. It works.

1 is a cross-sectional view of a conventional micro gas turbine generator.
Figure 2 is a cutaway view of a micro turbine engine with a generator according to the present invention.
Figure 3 is an external perspective view of a micro turbine engine with a generator of the present invention.
Figure 4 is a cross-sectional view of a micro turbine engine with a generator of the present invention.
Figure 5 is a reference diagram showing a three-dimensional cutaway and components of a micro turbine engine with a generator of the present invention.
Figure 6 is a reference diagram showing a three-dimensional cutaway and components of the compressor and the generator of the main components of the present invention.
7 is a reference diagram showing a combustor and a fuel and air supply structure which are main components of the present invention.

Hereinafter, a micro turbine engine equipped with a generator of the present invention will be described with reference to the accompanying drawings.

In the micro-turbine engine with a generator according to the present invention, as shown in FIGS. 2 to 7, a combustion chamber 11 is formed in an upper portion and a journal bearing 15 supporting a shaft 50 located in a central portion. A body 10 having a multilayer structure formed thereon; A turbine 20 positioned at an upper portion of the body 10 such that an upper end of the shaft 50 is connected to and operated by a pressure of the combustion gas generated in the combustion chamber 11; A compressor (30) positioned at a lower portion of the body (10) such that the lower end of the shaft (50) is connected, and mixing and compressing fuel and air supplied from the outside to the combustion chamber (11); It consists of; a generator 40 is configured integrally with the compressor 30 to generate electricity.

Here, each of the above components is a complex structure for ease of fabrication and assembly, the turbine 20, the compressor 30 and the generator 40 is manufactured by the MEMS processing method, the body 10 is relatively simple structure ) And the shaft 50 are manufactured by a precision machining method.

In addition, a heat shield structure 60 is installed to prevent heat from the combustion chamber 11 and the turbine 20 from being transferred to the compressor 30. The heat shield structure 60 includes an insulating layer 61 and a coolant partitioning an upper portion in which the turbine 20 and the combustion chamber 11 are installed, and a lower portion in which the compressor 30 and the generator 40 are installed. It includes a water jacket 62 formed in the vertical middle portion of the body 10 to flow.

In addition, a mixture gas injection port 13 through which a mixed gas in which fuel and air are mixed is introduced is formed above the combustion chamber 11, and a flame holder 12 is installed to prevent backfire.

The body 10 includes an upper cover 10a having a mixed gas injection hole 13 for supplying a mixed gas to the combustion chamber 11, and a groove in which the turbine 20 is mounted at a lower end of the center, and formed therein. An upper body 10b having the combustion chamber 11 formed therein so as to be connected to the mixed gas injection hole 13, and a lower body 10c having a groove in which the compressor 30 and the generator 40 are mounted at the center lower end thereof. And a lower cover having an intermediate body 10d interposed between the upper body 10b and the lower body 10c and a lower portion of the lower body 10c and having a fuel inlet 16 and an air inlet 17 formed therein. It consists of 10e. At this time, the upper cover (10a) and the upper body (10b), the intermediate body (10d), the lower body (10c) and the lower cover (10e) is formed by sequentially stacked from the upper side, the outlet of the compressor 30 and the A gas passage 14 connecting the mixed gas injection port 13 is formed.

The turbine 20 may include a turbine blade 21 to which an upper end of the shaft 50 is connected, and a turbine blade 21 positioned outside the turbine blade 21 to supply combustion gas of the combustion chamber 11 to the turbine blade 21. The turbine nozzle 22 which blows toward 21 and the turbine bearing 23 which rotatably support the said turbine blade 21 in the upper side of the said turbine blade 21 are comprised.

In addition, the compressor 30 has a lower end of the shaft 50 is connected to the compressor blade 31 for discharging the air flowing through the air inlet 17 in the radial direction, and the outer side of the compressor blade 31 A compressor diffuser 32 positioned to compress the air discharged by the compressor blade 31 and a compressor bearing 33 rotatably supporting the compressor blade 31 below the compressor blade 31. It is made to include.

In addition, the generator 40 is a permanent magnet (41) installed on the compressor blade 31 and the stator (located above the compressor blade 31) generates electricity when the permanent magnet 41 rotates ( 42 and a spacer 43 positioned between the compressor diffuser 32 and the stator 42 to support the stator 42.

When supplying the fuel to the combustion chamber 11, the heat introduced through the fuel inlet 16 is supplied to the rear of the compressor diffuser 32 by the inner manifold 18 and the outer manifold 19. It is desirable to have a fuel supply structure. In this case, the inner manifold 18 and the outer manifold 19 are formed with a plurality of injector holes 18 ′, 19 ′, respectively, in semicircular portions facing each other.

The micro-turbine engine equipped with the generator of the present invention configured as described above operates the turbine at the pressure of the combustion gas generated by the combustion of the fuel, and operates the compressor connected to the same shaft as the turbine to compress air and simultaneously with the compressor. Electricity is produced by using an integrally formed generator.

The air introduced through the air inlet 17 is compressed by the compressor 30 and then mixed with the fuel introduced through the fuel inlet 16 to form a mixed gas. That is, the air introduced through the air inlet 17 is compressed by the compressor diffuser 32 located outside the compressor blade 31 while being radially scattered by the compressor blade 31, and the fuel inlet ( The air introduced through the 16 is compressed by being injected to the rear of the compressor diffuser 32 through the injector holes 18 'and 19' formed in the inner manifold 18 and the outer manifold 19 of the double row structure. It is mixed with air.

The mixed gas behind the compressor diffuser 32 flows to the upper side of the combustion chamber 11 through the gas flow passage 14 formed at one side of the body 10, and the mixed gas injection hole 13 formed at the upper side of the combustion chamber 11. Inject through the combustion chamber (11). Combustion gas is generated in the combustion chamber 11 as the mixed gas is combusted, and the high-pressure combustion gas is injected into the turbine blade 21 through the turbine nozzle 22 to rotate the turbine blade 21 at high speed. The combustion gas is then discharged to the outside.

As the turbine blade 21 rotates at a high speed, the compressor blade 31 connected to the same shaft 50 as the turbine blade 21 rotates, thereby introducing and compressing external air. In addition, since the induced current is generated in the stator 42 when the permanent magnet 41 of the generator 40 installed in the compressor blade 31 rotates, electricity is produced in the generator 40.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Changes will be possible.

10 ... body
10a: upper cover 10b: upper body
10c: lower body 10d: intermediate
10e: lower cover
11.Combustion chamber
12 ... flame holder
13.mixed gas nozzle
14 ... Gas Euro
15 ... Journal Bearing
16.Fuel inlet
17.Air inlet
18.Inner manifold
19 ... Outer manifold
18 ', 19' ... injector
20.Turbin
21.Turbine Blade
22.Turbine Nozzle
23 ... turbine bearing
30 ... compressor
31.Compressor Blade
32 ... compressor diffuser
33 ... compressor bearing
40 ... generator
41.Permanent magnet
42 ... Stator
43 ... spacer
50 ... shaft
60 ... heat shield structure
61.Insulation layer
62 ... water jacket

Claims (8)

A body 10 having a multilayer structure in which a combustion chamber 11 is formed in an upper portion and a journal bearing 15 for supporting a shaft 50 located in a central portion is formed;
A turbine 20 positioned at an upper portion of the body 10 such that an upper end of the shaft 50 is connected to and operated by a pressure of the combustion gas generated in the combustion chamber 11;
A compressor (30) positioned at a lower portion of the body (10) such that the lower end of the shaft (50) is connected, and mixing and compressing fuel and air supplied from the outside to the combustion chamber (11);
A generator 40 integrally formed with the compressor 30 to generate electricity;
And a heat shield structure (60) for preventing heat from the combustion chamber (11) and the turbine (20) from being transferred to the compressor (30).
The heat shield structure 60 includes an insulating layer 61 and a coolant partitioning an upper portion in which the turbine 20 and the combustion chamber 11 are installed, and a lower portion in which the compressor 30 and the generator 40 are installed. It comprises a water jacket 62 is formed in the vertical middle portion of the body 10 to flow,
The turbine 20, the compressor 30, and the generator 40 are manufactured by MEMS processing, and the body 10 and the shaft 50 are manufactured by machining. engine. delete The method of claim 1,
In the upper side of the combustion chamber 11, a mixed gas injection port 13 through which a mixed gas in which fuel and air are mixed is formed, and a flame holder 12 is installed to prevent backfire. Turbine engine. The method of claim 1,
The body 10 includes an upper cover 10a having a mixed gas injection hole 13 for supplying a mixed gas to the combustion chamber 11, and a groove in which the turbine 20 is mounted at a lower end of the center, and formed therein. An upper body 10b having the combustion chamber 11 formed therein so as to be connected to the mixed gas injection hole 13, and a lower body 10c having a groove in which the compressor 30 and the generator 40 are mounted at the center lower end thereof. And a lower cover having an intermediate body 10d interposed between the upper body 10b and the lower body 10c and a lower portion of the lower body 10c and having a fuel inlet 16 and an air inlet 17 formed therein. 10e,
The upper cover 10a and the upper body 10b, the intermediate body 10d, the lower body 10c, and the lower cover 10e are sequentially stacked from the upper side, and the outlet of the compressor 30 and the mixed gas are formed. Micro turbine engine with a generator, characterized in that the gas passage (14) connecting the injection port (13) is formed. The method according to any one of claims 1, 3, and 4,
The turbine 20, the turbine blade 21 to which the upper end of the shaft 50 is connected, and is located outside the turbine blade 21 to the combustion gas of the combustion chamber 11 to the turbine blade 21. And a turbine nozzle (22) ejecting toward the turbine turbine (23) rotatably supporting the turbine blade (21) above the turbine blade (21). engine. The method according to any one of claims 1, 3, and 4,
The compressor 30 is connected to the lower end of the shaft 50 is a compressor blade 31 for discharging the air flowing through the air inlet 17 in the radial direction, and is located outside the compressor blade 31 And a compressor diffuser 32 for compressing air discharged by the compressor blade 31, and a compressor bearing 33 rotatably supporting the compressor blade 31 under the compressor blade 31. Micro turbine engine provided with a generator, characterized in that. The method of claim 6,
The generator 40 has a permanent magnet 41 installed in the compressor blade 31 and a stator 42 positioned above the compressor blade 31 to generate electricity when the permanent magnet 41 is rotated. And a spacer (43) positioned between the compressor diffuser (32) and the stator (42) to support the stator (42). The method of claim 6,
It has a two-row fuel supply structure for the fuel introduced through the fuel inlet 16 is supplied to the rear of the compressor diffuser 32 by the inner manifold 18 and the outer manifold 19,
And a plurality of injector holes (18 ', 19') are formed in the inner manifold (18) and the outer manifold (19), respectively, in semicircular portions facing each other.

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