Power plants – Combustion products used as motive fluid – With exhaust treatment
Reexamination Certificate
2002-05-30
2004-11-23
Koczo, Michael (Department: 3746)
Power plants
Combustion products used as motive fluid
With exhaust treatment
Reexamination Certificate
active
06820409
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to a method of operating a gas-turbine power plant, essentially comprising a device for compressing an oxygen-containing gas, at least one combustion chamber for heating the compressed gas, at least one gas turbine in which the hot gas produced is expanded to perform work, a flow path in which the expanded hot gas, if need be while passing a number of further working stages for energy and/or material recycling, such as, for example, a waste heat boiler for the generation of steam, is fed to an outlet into the atmosphere. Furthermore, the invention relates to a corresponding gas-turbine power plant.
DESCRIPTION OF RELATED ART
A gas-turbine power plant of the generic type is described in publication DE 199 05 818 A1, this gas-turbine power plant providing a stationary gas turbine which has an open cycle and in which the atmospheric circulating air is drawn in, compressed, mixed with fuel and ignited, and the hot gases produced in the process are expanded in a turbine stage and are then directed into a waste heat boiler for further recycling of the inherent thermal energy.
The output of a gas-turbine power plant also depends to a certain extent on the losses in the flow path of the hot gases. Firstly, the output is reduced by exhaust-gas pressure losses in the downstream plants. Secondly, the exhaust gases largely recycled thermally discharge via the stack into the atmosphere with flow velocities of 10 m/s to 30 m/s, that is to say with a considerable content of kinetic energy.
To increase the overall efficiency of the gas-turbine power plant known per se, it is proposed in the abovementioned publication to utilize the kinetic energy of the thermally recycled exhaust gas flowing through the outlet of the waste heat boiler. To this end, a fluid-flow prime mover which is designed like a turbine as used occasionally for utilizing wind power is provided inside the outlet designed as a stack. Such a fluid-flow prime mover has propeller or turbine rotors which are set in rotation inside the outlet when subjected to the flow of the exhaust gas. To generate electricity, the rotor shaft of such a fluid-flow prime mover is connected to a generator, which is driven in a similar manner to a wind power plant, so that electrical energy can accordingly be obtained from the loss of flow energy.
A disadvantage of this known apparatus for utilizing the kinetic energy inherent in the exhaust gas is the relatively high complexity of the fluid-flow machine provided in the outlet region of the stack, this fluid-flow machine additionally being subject to a high maintenance cost and comparatively high investment costs. In addition, typical fluid-flow machines for the flow conditions present inside the stack, with flow velocities of between 10 m/s and 30 m/s, generally have a markedly lower working potential than the gas turbine connected upstream in the flow, so that the energy conversion also takes place at an efficiency which tends to be lower than is possible in the upstream gas turbine.
SUMMARY OF THE INVENTION
In a development of the prior art, the object of the invention is to reduce the total pressure loss in the flow path of the exhaust gas between the discharge from the gas turbine and the entry into the atmosphere, in which case the reduced flow losses are to directly benefit the gas turbine as increased output.
According to the invention, the object is achieved by a method of operating a gas-turbine power plant and by a gas-turbine power plant of the type mentioned in the independent patent claims. The dependent claims reproduce advantageous embodiments of these inventions.
The basic idea of the inventions consists in utilizing the kinetic energy of the exhaust gas, discharging via an outlet into the atmosphere, specifically for producing a low pressure within the flow path of the exhaust gas and in maintaining this low pressure over the entire flow path downstream of the gas turbine in order to build up in this way a lower back pressure behind the turbine. In this way, the gas turbine does not have to perform work against atmospheric pressure or an even higher pressure—as is normal in conventional plants. The higher pressure difference available at the gas turbine as a result of this measure is reflected in an increased output and thus increased overall efficiency of the gas-turbine power plant.
The method according to the invention of operating a gas-turbine power plant, an oxygen-containing gas being drawn in, compressed and heated while admixing a fuel, and the hot gas produced being expanded in a gas turbine to perform work and then discharging from the gas turbine and being fed to an outlet via a flow path, is characterized according to the invention in that the hot-gas flow, at an essentially constant flow rate, is decelerated in the region of the outlet, and the pressure conditions produced as a result upstream of the region of the deceleration are transmitted back via the flow path of the hot gases up to the exit of the gas turbine.
A gas-turbine power plant designed for realizing this method is equipped with a diffuser unit in the region of the outlet, which as a rule is designed as a stack, by means of which diffuser unit the exhaust gas is decelerated in its flow velocity with low losses by means of a specific widening of the cross section of flow, in the course of which the pressure prevailing in the region of the decelerated exhaust gas increases. This in turn, relative to the atmospheric pressure which adjoins the diffuser unit downstream, leads to a considerable pressure reduction upstream of the diffuser unit inside the outlet. By the flow path between the turbine exit and the outlet equipped with the diffuser unit being at the same time designed so as to be gas-tight relative to the ambient pressure, the reduced pressure occurring upstream of the diffuser unit inside the outlet is able to spread right up to the turbine exit. Thus the gas turbine works against a lower back pressure, as a result of which the efficiency of the gas turbine can be increased inasmuch as the latter does not have to work against atmospheric pressure, as in the case of conventional gas-turbine plants of open design, but against a pressure level which is markedly reduced compared with the atmospheric pressure.
By means of suitable diffuser units, a selection (by no means exhaustive) of which is explained in the exemplary embodiments below with reference to the drawings, an energy recovery efficiency of over 70% can be achieved from the specific deceleration of the exhaust-gas velocity.
The overall efficiency, which is relatively high anyway, of a gas-turbine power plant known per se is further increased by the measure according to the invention for utilizing the kinetic energy inherent in the exhaust-gas flow, it not being necessary to use any technically complex, movable components susceptible to wear for realizing the increased technical overall efficiency, as is the case, for example, with a fluid-flow machine installed in the exhaust-gas duct.
In the process, the utilization of the kinetic energy directly benefits the generation of electricity with a relatively high efficiency. In this case, the relevant measures require low investment costs. The associated maintenance cost is exceptionally low. Finally, it is worth mentioning that the measures according to the invention for the technical utilization of the kinetic energy inherent in the exhaust gas can be integrated not only in plants to be newly erected but also, with an extremely low investment cost, in already existing plants.
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Alstom Technology LTD
Cermak Adam J.
Cermak & Kenealy LLP
Koczo Michael
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