DE2837714A1 - Compact gas turbine unit - uses turbine exhaust to evaporate pressurised water, resulting steam being introduced in compressor outlet line to turbine - Google Patents

Abstract

The unit comprises a turbine (12) driving a compressor (10) and connected to this via a combustion chamber (14). The turbine exhaust is led through the primary circuit of an evaporator (15) whose secondary circuit receives water pressurised by a pump (17) up to the turbine inlet pressure. The steam produced in the evaporator is introduced (18) into the compressed air line between compressor and turbine, and may first be superheated. A turbo-charger may be arranged upstream of the compressor (10) and connected to this via a heat exchanger, the turbine of the charger being connected to the turbine (12) outlet, pref. via a further combustion chamber.

Description

Gas turbine unit in a compact design

The invention relates to a gas turbine unit with a compact design, its turbine with the compressor sitting on a shaft with it via a combustion chamber is in connection and together with these parts to form a compact unit is. For the sake of brevity, such units will hereinafter be referred to as compact units will.

The so-called compact units of the aforementioned type are distinguished due to extremely low space requirements, light construction and inexpensive manufacture off, but they have the disadvantage of a relatively poor efficiency, with Added to this is the improvement measures that can be taken with normal gas turbines can take, e.g. interposition of a heat exchanger between the compressor and the combustion chamber, which is exposed to the hot turbine exhaust gases on the secondary side is not possible due to geometrical or spatial reasons, so that they are called Turbine exhaust gases cannot be recycled directly. For this Reasons is also the area of application of the gas turbine compact units despite their geometric Benefits only limited.

The aim of the present invention is to report the above disadvantages in compact units of the aforementioned type an improvement of efficiency and increase in performance.

For the above purpose, according to the invention, there is a gas turbine unit in a compact design, its turbine with the compressor sitting on a shaft with it Is connected via a combustion chamber and with these parts to form a compact unit together it is provided that the outlet of the turbine of the compact unit with the primary part of a secondary side of water, which is fed to the by means of a pump Turbine inlet pressure has been brought into connection with the pressurized evaporator from which the generated steam possibly after overheating in the air circuit between Compressor and turbine of the compact unit is introduced.

In an arrangement of the aforementioned type, the turbine is roughly the same Pressure but a much larger volume (the supplied steam volume is additional available), so that they now have a much coarser wave power can generate. Since at the same time the energy is comparable to that of the known arrangements Kind of hot led directly to the chimney Exhaust gases still used the new arrangement results in a substantial increase in the degree of ineffectiveness, which can possibly be more than 50%.

It is particularly advantageous when in an arrangement of the here in The type in question is a turbocharger upstream of the compressor of the unit, its compressor on the outlet side via a heat exchanger with the inlet of the compressor the compact unit is in communication and its turbine is preferably on the inlet side in communication with the outlet of the turbine of the compact unit via a combustion chamber stands and on the outlet side with the primary part of a secondary side of water that has been brought to the turbine inlet pressure by means of a pump, acted upon Evaporator is in connection, from which the generated steam possibly after overheating introduced into the air circuit between the compressor and turbine of the compact unit will.

The aforementioned measures bring the advantage of a further increase in performance and above all, improvement in efficiency with it.

Overall, it follows that with the arrangement according to the invention with very cheap additional elements while maintaining the compact system very considerable, When calculating profitability, performance considerations are of great importance and receives efficiency improvements.

The arrangement can, for example, also be made so that the in the dem Upstream chimney heat exchanger generated steam in the line between the combustion chamber upstream of the turbine of the compact unit and the turbine of the Compact unit is introduced. However, the arrangement can also be made in this way, for example be that the steam generated in the heat exchange upstream of the chimney introduced into the line between the compressor of the compact unit and the combustion chamber which is connected upstream of the turbine of the compact unit. Introducing the steam after the combustion chamber has compared to the arrangement in which the steam in front of the combustion chamber is introduced, the advantage that here the pressure drop that occurs when the gas enters enters the combustion chamber, does not have to be billed.

The invention and its advantages are illustrated in the drawings illustrated various embodiments explained in more detail and shown. It 1 shows a so-called compact unit of known type in a schematic form Side view in section, FIG. 2 shows a first embodiment of the subject matter of FIG Invention in a diagrammatic schematic representation and FIG. 3 a variant to the arrangement according to FIG. 2 in the same representation as in Fig. 2.

In the case of the compact unit shown in FIG. 1 of the drawing, it is known per se The type of compressor is denoted by 1, while the one on a shaft with the compressor seated turbine is designated with 2. 3 is the combustion chamber, 4 is the air inlet, 5 the exit. The gas flow within the compact unit takes place according to the arrows 6. With such an arrangement, the gas comes out still hot, e.g. at a temperature from 6500. This compact design has structural and geometric advantages, since the turbine and compressor sit directly next to each other on a shaft, only is at this arrangement is not given the opportunity, for. a. to save energy to interpose a heat exchanger. Compact units of this type have the above reasons a relatively small efficiency, this efficiency can e.g. below 10%.

As already stated, the invention has set itself the goal of avoid the above disadvantages. Arrangements that serve this purpose are in Fig. 2 and 3 shown.

In the arrangement according to FIG. 2, the compressor is denoted by 10, which is coupled to a transmission 11, for example to a generator or to a other machine can lead, moreover, the compressor 10 is directly connected to the turbine 12 coupled. the cold air is introduced into the compressor at 13, is compressed, then goes through the combustion chamber 14 into the turbine 12, then the air goes from the low-pressure part of the turbine into the heat exchanger 15 and from this to the chimney 16. The heat exchanger is on the secondary side Acted upon by water which has been pressurized with the aid of the pump 17, that prevails in front of the turbine.

This water is evaporated ii heat exchanger and is then called Steam, possibly after overheating, enters the air circuit between the compressor and the turbine the line 18 returned therethrough. If the pressure P1 and after the compressor the pressure P2 prevails, the turbine has the pressure gradient P2 : P1 available for dismantling, but is also not available / only the volume, that has been conveyed by the compressor, but also add the volume D arriving through line 18 all steam. In this way, of course, the Turbine generate considerably more shaft power, this additional shaft power does not have to deliver it to the compressor, but to the delivery side via the gearbox 11. At the same time, the energy of the hot exhaust gas was suagenutit in the heat exchanger 15, which means that at the same time the efficiency in the new system compared to the The efficiency of the known arrangement according to FIG. 1 has been increased considerably. In the case of the arrangement according to the invention, the advantage of the compact design is thus obtained according to Fig.l with a significant increase in performance and a very large improvement the efficiency connected.

In Fig. 3, a further variant of the subject invention is shown, in which the compressor of the unit is preceded by a turbocharger, its compressor on the outlet side via a heat exchanger with the inlet of the compressor of the unit is in connection and its turbine on the inlet side, preferably above a combustion chamber communicates with the outlet of the turbine of the unit and on the outlet side with the primary part of a secondary side of water, which by means of a pump on the Turbine inlet pressure has been brought into contact with the evaporator from which the generated steam possibly after overheating in the air circuit between Compressor and turbine is introduced. The compressor of the turbocharger is at 20, 21 is the turbine of the turbocharger. The cold air comes into the at 22 Compressor under pressure P1 and is compressed in this to PZ. From the compressor 20 of the turbocharger, the compressed air enters the heat exchanger 23, in which it is cooled to then in the Kopaktsyetem with the compressor 24 and the turbine 25 directly coupled to its shaft. Before the compressor However, the compact unit is no longer the pressure P1 as in the embodiment 2 but the pressure P2, which is achieved by the compressor of the turbocharger srden, in the compressor of the compact unit 24 the air is at the higher pressure P3 brought, with this pressure P3 the air passes through the combustion chamber 26 and into the turbine 25 of the compact unit and possibly afterwards from this turbine Overheating at 27 with the high pressure P3 in the turbine 21 of the turbo charger, from where they is then passed to the heat exchanger 28, in which the hot Flue gases that led to the chimney at 29 after leaving the heat exchanger are, by the secondary side supplied water, which by means of the pump 30 on the Turbine inlet pressure (pressure in front of the turbine 25 of the compact unit) s / brought has been chilled worth it. The water heated in the heat exchanger is evaporated in the process and is then possibly after overheating through the line 31 into the Air circuit introduced between compressor and turbine. With this arrangement thus a further improvement in the degree of effectiveness and an increase in performance with very simple, inexpensive to manufacture additional elements while retaining the same of the so-called compact system.

According to the invention, therefore, there is a substantial improvement in the degree of effectiveness and the increase in performance achieved in that the turbine exhaust gas flow a Vsrdampfer permeated by the secondary side water that is pumped to the Turbine inlet pressure has been brought, evaporated and superheated, in order to then to be introduced into the air circuit between the compressor and turbine.

A further simplification of the structure and improvement of the efficiency 3 better utilization of the energy then results when one in the arrangement 3, the outlet 35 of the secondary side of the between the compressor 20 of the turbocharger 20, 21 and the compressor 24 of the compact unit 24, 25 arranged Heat exchangers 23 connects to the supply line 36 to the pump 30, which controls the turbine inlet pressure brought water to the heat exchanger 28 upstream of the chimney 29. It is clear that this results in more energy that accumulates in the heat exchanger 23, can be exploited.

In the embodiments according to FIGS. 2 and 3, the arrangement is made so that the in the chimney 16 or 29 upstream heat exchanger 15 or 28 generated steam is introduced into the line between that of the turbine 12 or 25 of the compact unit 10, 12 or 24, 25 upstream combustion chamber 14 or 26 and the turbine 12 or 25 of the compact unit runs, cf.

37 and 38. This variant is shown in dashed lines in the figures of the drawing registered. Another variant, which is also possible, but less favorable is, is shown in dotted lines in Figs. 2 and 3 of the drawing. According to this A variant is the heat exchanger connected upstream of the chimney 16 or 29 15 or

28 generated steam in the line between the compressor 10 and

24 of the compact unit 10, 12 or 24, 25 and the combustion chamber 14, 26 introduced upstream of the turbine 12, 25 of the compact unit 10, 12 and 24, 25, respectively is, as shown at 39 or 40 (dotted line section). The est shown Variant (dashed variant, mouth at 37 or 38) is cheaper than the second shown Variant (dotted variant), because in the latter case there are also pressure losses that are present themselves because of the pressure drop when entering the combustion chamber (large volume must go through the small holes in the combustion chamber pass through).

Depending on the turbine outlet temperature, 10 to 50% proportions by weight can be used Steam doubles the shaft power and the efficiency of the gas turbine unit, what depends on all things that the necessary compressor capacity of remains unaffected by the intervention described above. When retrofitting a Compact gas turbine unit with additional steam injection can reduce the turbine flow conditions be kept constant by lowering the combustion chamber temperature, which increases the additional The advantage is that the service life can be increased.

Claims (5)

Essturbineneinheit in compact design claims cGasturbinsneinheit in a compact design, its turbine with the compressor sitting on a shaft with it is in communication via a combustion chamber and with these parts a / to a compactness is summarized, characterized in that the outlet of the turbine (12, 25) the compact unit with the primary part of a secondary side of water, which by means of a pump (17, 30) has been brought to the turbine inlet pressure, acted upon Evaporator (15, 28) is in communication, from which the generated steam (line 18 or 31) possibly after overheating in the air circuit between compressor (10, 24) and Turbine (12, 25) of the compact unit is introduced. 2. Gas turbine unit according to claim 1, characterized in that the compressor (24) of the compact unit (24, 25) is preceded by a turbocharger (20, 21) is, the compressor (20) on the outlet side via a heat exchanger (23) with the Inlet of the compressor (24) of the compact unit (24, 25) is in communication and whose turbine (21) is preferably connected to the inlet side via a combustion chamber (27) The outlet of the turbine (25) of the compact unit (24, 25) is in communication and on the outlet side with the primary part of a secondary side of water, which by means of a pump (30) has been brought to the turbine inlet pressure, pressurized evaporator (28) is in connection, from which the generated steam possibly after overheating (line 31) into the air circuit between the compressor (24) and turbine (25) of the compact unit (24, 25) is introduced. 3. Gas turbine unit according to claim 2, characterized in that the outlet (35) of the secondary side of the between the compressor (20) of the turbocharger (20, 21) and the compressor (24) of the compact unit arranged heat exchanger (23) is connected to the supply line to the pump (30), which controls the turbine inlet pressure brought water to the heat exchanger (28) upstream of the chimney (29) feeds. 4. Gas turbine unit according to one of claims 1 to 3, characterized in that that the one upstream of the chimney (16, 29) Heat exchanger (15, 28) generated steam in the line between that of the turbine (12, 25) of the compact unit (10, 12 or 24. 25) upstream combustion chamber (14, 26) and the turbine (12, 25) the compact unit (10, 12 or 24, 25) is introduced. characterized, 5. Gas turbine unit according to one of the claims 1 to 3, the one in the W6.rmeauatauscher upstream of the chimney (16, 29) (15, 28) generated steam in the line between the compressor (10, 24) of the compact unit (10, 12 or 24, 25) and the combustion chamber (14, 26) is introduced, which is the turbine (12, 25) of the compact unit (10, 12 or 24, 25) is connected upstream.