The invention relates to a system for generating compressed-air, in particular a system for generating compressed-air from superheated steam for feeding into a compressed-air system of an aircraft and for starting a gas turbine, for example of an aircraft engine.
Gas turbines have to be brought up to rotate at sufficient speed before the pressure rate is sufficient for operating a gas turbine by means of a fuel. Nowadays gas turbines are predominantly started by a mechanical drive, which is for example driven by way of an electrical starter motor, or they are started pneumatically.
However, self-sufficient electrical starting of a gas turbine, for example of an aircraft engine, requires a very high electrical power and a heavyweight starter motor. A pneumatic starting procedure requires a very high air-pressure output which may not be available with a mobile unit.
It may be an object of the invention to create a system with which it is easily possible to support the start-up process of a gas turbine, for example of an aircraft engine.
A possible solution of said object may be disclosed in claims 1, 2, 9 and 10. Advantageous embodiments of the invention are stated in the dependent claims.
An exemplary embodiment of the system according to the invention is characterized by the use of a steam generator, in particular a hydrogen/oxygen steam generator with which sufficiently high steam pressures and outputs can be generated. This steam or the hot mix comprising steam and supplied air can then be used for starting gas turbines, for example aircraft turbines. This makes it possible to do without the hitherto used staring auxiliaries, for example a starter motor. As an alternative, the generated steam can also be fed directly into a compressed-air system.
With the use of H2/O2 steam generators for starting the engines/gas turbines, due to the high power density, the aircraft weight may be reduced when compared to the electrical starter variant.
According to an alternative exemplary embodiment of the system according to the invention, the steam generated by the H2/O2 steam generator is fed to a compressed-air generator, which comprises a steam turbine and a compressor, to generate an adequate amount of compressed-air that can be used for starting a stationary or mobile gas turbine, or which can be fed to a compressed-air system.
The principle of H2/O2 steam generators is simple and their power density is high so that a starter unit based thereon may be in particular used in areas in which light unit weight, good economy and quick response behavior are required.
Instead of using pure oxygen in the H2/O2 steam generator it is also possible to use air or a mixture of air and oxygen. However, this is associated with a disadvantage in that NOx emissions increase.
According to the invention, substitation of a RAT (RAM Air Turbine) may be possible because it can be replaced by a combination of an H2/O2 steam-generator and a turbine, which by way of a steam-driven turbine drives for example a generator, and/or generates hydraulics pressure and/or hot compressed-air. Thus, according to the invention weight savings and performance advantages may be achieved when compared to a conventional RAT.
Since H2/O2 steam generators are capable of generating high steam pressures and high outputs, according to another exemplary embodiment of the invention it is possible to use the steam that is generated by an H2/O2 steam generator for driving a steam turbine and in turn to use said steam turbine to drive a compressed-air generator for compressed-air systems. Possible applications may relate, for example, to compressed-air systems in a vehicle, for example in an aircraft. The system according to the invention may provide an advantage in particular if no external energy sources are available outside the vehicle, and if high performance is required.
The use of such steam generator systems according to the invention in aircraft may be, for example, possible in anti-icing systems (e.g. on aerofoils). Up to now such compressed-air systems were fed by hot compressed-air which was bled from behind the engines. These systems are not used during the entire flight but only in the climbing and descending phase when there is a danger of ice formation. However, the bleeding of compressed-air from the engines results in loss of engine performance, increased consumption and thus a higher takeoff weight of the aircraft. The efficiency obtained in anti-icing systems that are operated with compressed-air from the engines is low so that substitution and/or support of the systems by the system according to the invention may be sensible. In such an arrangement compressed-air is generated by way of a compressed-air generator operated with superheated steam (for example a steam turbine with a compressor). A further option may consist of mixing and/or cooling the superheated steam with air and of using said steam directly.
Due to the high efficiency of the system according to the invention, the weight of the anti-icing unit and of the entire aircraft may be reduced according to the invention. In this way the system's economy may be improved, and exhaust emissions can be reduced.
The compressed-air generated by the system according to the invention may also be used for other compressed-air systems, such as for example the air conditioning system, instead of using engine bleed air. In this arrangement, complete substitution or support (for example to cover peak loads: e.g. rapid decompression) of conventional systems is imaginable. According to the system according to the invention, compressed-air is generated by way of a compressed-air generator operated with superheated steam (for example a steam turbine with a compressor).
Below, with reference to a preferred embodiment, the system according to the invention is described with reference to
As shown in
The H2/O2 steam generator 2 is generally known; it is primarily used for steam sterilization, the temperature control of bioreactors, foodstuffs, packaging materials, medical instruments, textiles and solutions and also for pure-water generation in the pharmaceutical industry.
The H2/O2 steam generator 2 comprises/consists of a system in which hydrogen and oxygen (or air) react with each other in a controlled way to produce steam. In particular, an H2/O2 steam generator 2 produces a stoichiometric hydrogen/oxygen mixture according to the principle of rocket propulsion, which stoichiometric hydrogen/oxygen mixture is burnt up in a controlled way to form steam.
As shown in
According to the invention, by means of the H2/O2 steam generator 2 and the cooling means 3 a steam temperature, for example, of between 200° C. and 3300° C. can be set, for example in that water is injected, or air is admixed for cooling. According to the preferred embodiment shown in
The compressed-air generated by the compressed-air generator 4 is for example fed to a compressed-air system 7 which according to the invention, for example, comprises an anti-icing system 7a, a hydraulics system 7b, an air conditioning system 7c and the like.
As shown in
Although, above, the invention has been described with reference to a preferred embodiment in connection with an aircraft, it is understood that the system according to the invention can also be used in other vehicles that comprise a gas turbine which needs to be started. Furthermore, the system according to the invention can also be used in stationary gas turbines in order to start the gas turbine.
Number | Date | Country | Kind |
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10 2004 039 019.3 | Aug 2004 | DE | national |
This application claims the benefit of the filing date of U.S. Provisional Patent Application No. 60/600,502 filed Aug. 11, 2004 and of the German Patent Application No 10 2004 039 019.3 filed Aug. 11, 2004, the disclosures of which are herby incorporated by reference.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP05/08691 | 8/10/2005 | WO | 2/8/2007 |
Number | Date | Country | |
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60600502 | Aug 2004 | US |