EP2927436A1 - Method for operating a power plant using electrical support and related power plant - Google Patents

Abstract

In a method for operating a power plant (1), in particular a large power plant, comprising a steam generator (2) with a carbon-fired, in particular coal-fired, combustion chamber (3) and a superheater (4) and with a connected water / steam circuit (6) with integrated turbo or turbine set (7) having at least one low-pressure turbine (10) and a connected generator (1), a solution is to be created, which makes it possible to generate a sufficient steam flow even with a minimum load operation or a low load operation of the power plant to perform a continuous operation of the connected turbo or turbine set, in particular the low-pressure turbine, under the conditions of minimum load operation or low load operation of the power plant, trouble-free. This is achieved in that in the water / steam circuit (6) of at least one additional steam generator (28) is integrated and / or in the steam side of the water / steam cycle (6) additionally at least one electrically heated steam superheater (32) and / or in addition at least one electrically heated steam reheater (33) is / are integrated, to which / by the generator (11) generated and / or from the connected public power grid (12) derived electrical energy and from the water / steam cycle (6 ) Steam is supplied and from which in the steam superheater (32) and / or the steam reheater (33) from the supplied steam superheated steam is fed to the steam side of the water / steam circuit (6), wherein the at least one additional steam generator (28) and / or the at least one additional steam superheater (32) and / or the at least one additional steam reheater (33 ) Steam is generated in such an amount and with such a pressure and temperature and the steam side of the water / steam cycle (6) is supplied, so that the turbo or turbine set (7) with its permissible for continuous operation minimum load and / or low load is operable.

Description

The invention is directed to a method for operating a power plant, in particular a large power plant, comprising a steam generator with a carbon-fired, in particular coal-fired, combustion chamber and a superheater and with an attached water / steam cycle with integrated turbo or turbine set, the at least one low-pressure turbine and a connected generator, wherein in the water / steam cycle in addition at least one electrically heated and in particular connected to the self-supply of the power plant steam generator is integrated, generated by means of the generator and / or derived from a connected public power grid electrical energy, in particular electric current, and to which water is supplied from the water side of the water / steam cycle feed water, and supplied from which the steam side of the water / steam cycle in the electric steam generator from the water supplied steam The method is carried out in times of low load operation or minimum load operation of the power plant.

Furthermore, the invention is directed to a power plant, in particular large power plant, preferably for carrying out such a method, comprising a steam generator with a carbon-fired, in particular coal-fired, combustion chamber and a superheater and with an attached water / steam cycle with integrated turbo or turbine set, the at least one low-pressure turbine and a connected generator, wherein in the water / steam cycle additionally at least one electrically heated steam generator is integrated, which has an electrical line connection, by means of which he connected to the generator and / or a public power grid connected thereto and in particular the power supply of the power plant is connected and it electrical energy, in particular electric current, can be fed, and having a media-carrying line connection, by means of which he with the water side of the water / steam cycle is connected and it feed water of the water / steam cycle can be fed, and having a media-carrying steam line connection, by means of which it is connected to the steam side of the water / steam cycle and the water / steam cycle in the electric steam generator from the water supplied steam supplied is.

Fossil-fired, especially coal-fired modern power plants usually have turbo or turbine sets whose steam turbines have a permanent minimum load capacity of about 25% +/- 5%. Should capacity increases of 20% be carried out by means of a roughing gas turbine as part of a retrofit, the average minimum load capacity would be reduced to approximately 21% +/- 4% of the extended power plant output.

On the other hand, it is possible with the modern combustion technology, with which existing burners of the combustion chambers of steam generators existing power plants can be retrofitted, to reduce the firing capacity of the steam generator to a minimum load range of about 5% of the firing capacity. With such a mode of operation in the minimum load range of the steam generator is driven in the circulation mode. However, the then adjusting live steam pressures and fresh temperatures and the other steam parameters are not sufficient to operate the connected turbo or turbine set, in particular the steam turbines, in such a minimum load operation or low load operation of the power plant in continuous operation. In particular, in such a low-load operation or minimum load operation of the power plant, the low-pressure turbines then run poorly and unwanted backflow effects and droplet formation can occur. This has the consequence that the feed-in into the grid, in particular the primary control, becomes problematic.

Given the enormous expansion of renewable energy in the public power grid, there is often more electricity than is currently being consumed from the grid, the problem of taking fossil-fired, especially coal-fired, power stations off the grid at such times, and only with maintenance a sufficiently fast Wiederanfahrmöglichkeit the power plant necessary, ie the self-supply the power plant maintaining and restarting the steam generator enabling operating mode. However, this means that the firing capacity is reduced to the aforementioned about 5% of the firing capacity of the steam generator with the consequent consequences for the water / steam cycle and the connected turbines.

From the US 2008/0134681 A1 a generic method and power plant are known in which the storage of power generated in low-demand times current in a high-temperature storage of electrically heated solid material and steam in a low-temperature storage takes place in order to additionally deliver the stored energy in high-demand times can.

The DE 10 2012 204 081 A1 discloses an energy storage power plant for providing electrical power to cover peak load power, wherein electrical energy is stored in two thermal reservoirs associated with the turbo-charged water / steam cycle, wherein at least one reservoir supplies water to the water / steam cycle and steam generated therein is supplied to the water / steam cycle.

The DE 10 2012 103 617 A1 discloses a fossil-fired power plant with a heat storage, which is exclusively thermally by means of a heat transfer medium with the water / steam cycle in combination.

The invention has for its object to provide a solution that makes it possible to generate a sufficient steam flow even under a minimum load operation or low load operation of a power plant, the continuous operation of the connected turbo or turbine set under the conditions of minimum load operation or low load operation of the power plant , in particular the low-pressure turbine, to carry out easily.

In a method of the type described in more detail, this object is achieved in that in the water / steam cycle of at least one additional steam generator is integrated and / or in the Steam side of the water / steam cycle in addition at least one electrically heated and in particular to the domestic power supply of the power plant connected steam superheater and / or additionally at least one electrically heated and in particular connected to the domestic power supply of the power plant steam reheater is / is integrated, the / generated by means of the generator and / or derived from the connected public power grid electrical energy, in particular electric power, and from the water / steam cycle steam is supplied and from which / which in the steam superheater and / or the steam reheater from the supplied steam generated superheated steam in the Steam side of the water / steam cycle is fed, wherein the at least one additional steam generator and / or the at least one additional steam superheater and / or the at least one additional steam reheater steam in a such quantity and with such a pressure and a temperature generated and the steam side of the water / steam cycle is supplied, so that the turbo or turbine set with its permissible for continuous operation minimum load and / or low load is operable.

Likewise, the above object is achieved in a power plant of the type described in more detail by the fact that in the water / steam cycle of at least one additional steam generator is integrated and / or in the steam side of the water / steam cycle additionally at least one electrically heated steam superheater and / or in addition at least one electrically heated steam reheater line is / are integrated, each having an electrical line connection, by means of which he / she connected to the generator and / or the public power grid connected thereto and in particular connected to the domestic power supply of the power plant / are and he / she electrical energy, in particular electric power, can be supplied, and which / each of which via a media-carrying line connection from the water / steam cycle steam is supplied and from which / which in each case via a media-leading line connection in the steam Heater and / or the steam reheater from the supplied steam generated superheated Steam in the steam side of the water / steam cycle can be fed, wherein the at least one additional steam generator and / or the at least one additional steam superheater and / or the at least one additional steam reheater steam in such an amount and at such pressure and temperature can be generated and the steam side of the water / steam cycle can be supplied, so that the turbo or turbine set with its permissible for continuous operation minimum load and / or low load is operable.

Advantageous developments and expedient embodiments of the invention are the subject of the dependent claims.

The invention is therefore based on the aspect in the water / steam cycle of the power plant additionally provide at least one electrically heated steam generator, which is operated with the power generated during the minimum load operation or low load operation of the power plant in the context of domestic power supply or operable and with the water supplied from the water / steam cycle of the power plant is evaporated or vaporizable, wherein the steam generated in the electrically heated steam generator is then fed to the steam side of the water / steam cycle of the power plant or can be fed. Here, the electrically heated steam generator is particularly designed or at least in cooperation with the still possible electrically heated superheaters and / or reheaters in the position of the steam side of the water / steam cycle of the power plant steam at such pressure, in such an amount and with To supply such a temperature that the turbo or turbine set, in particular its low-pressure turbine (s) and / or its medium-pressure turbine (s) can be operated permanently in a minimum load operation or low load operation of the power plant / can. With the procedure according to the invention, electrical power generated by the generator or provided by the connected public power network is (again) consumed - and in this sense "destroyed" - but it is thereby achieved that even with a firing capacity of the steam generator of only approx 5% of its firing capacity carried out minimum load operation or Low load operation of the power plant, the turbines, ie the turbo or turbine set, and thus the "rotating mass" can remain on the grid, so that on the one hand the turbines are protected and permanently operated and on the other hand can maintain the network stability or at least positively influenced.

Since it is provided according to this aspect, to maintain the operation of the turbo or turbine set with the minimum necessary mass steam flow, the invention is also characterized in that the method is carried out in times of low load operation or minimum load operation of the power plant.

After according to one aspect of the invention, the integration of an electrically heated additional steam superheater in the water / steam cycle of the power plant is further provided.

In addition to or instead of the steam superheater and / or the steam generator can also be provided also an electrically heated additional steam reheater.

With this measure, the amount of live steam and the boiler load can be lowered simultaneously.

Since it is provided that is provided by the various measures, possibly in combination, the minimum required for trouble-free continuous operation of the turbo or turbine set steam mass flow in minimum load or low load operation of the power plant is provided according to the invention that with the at least one electrically heated additional steam generator and / or the at least one electrically heated additional steam superheater and / or the at least one electrically heated additional steam reheater steam is generated in such an amount and at such a pressure and temperature and the steam side of the water / steam cycle is supplied, so that Turbo or turbine set, in particular whose at least one low-pressure turbine, with his / her permissible for continuous operation minimum load and / or low load is operable.

In an advantageous development of the method, the invention provides that the steam generated in the at least one additional steam generator and / or in the at least one additional steam superheater and / or in the at least one additional reheater steam in the flow direction of the steam in the water / steam cycle upstream of the turbo or turbine set is fed into the steam side of the water / steam cycle. Similarly, the power plant is characterized in a further development in that in the at least one additional steam generator and / or in the at least one additional steam superheater and / or in the at least one additional steam reheater generated steam in the flow direction of the steam in the water / steam cycle upstream of the turbo - Or turbine set in the steam side of the water / steam cycle can be fed.

In this case, it is expedient if the at least one low-pressure turbine of the turbo or turbine set can be operated with its permissible minimum load and / or low load for continuous operation with the steam generated, which the invention furthermore provides in a further development of the method and the power plant

For the use of the steam generated in the steam superheater, it is also advantageous if generated in the steam superheater from the supplied steam superheated steam in the direction of flow of superheated steam upstream of a high-pressure turbine of the turbo and turbine set is fed into the water / steam cycle, which the invention also provides. The power plant is characterized analogously by the fact that in the steam superheater from the steam supplied superheated steam in the flow direction of the superheated steam upstream of a high-pressure turbine of the turbo or turbine set in the steam side of the water / steam cycle can be fed.

An expedient feed of steam produced, according to a further development of the invention, is also achieved by generating medium-pressure steam in the at least one additional steam generator and / or the at least one additional intermediate steam superheater and a reheater steam line leading to a hot reheater steam Flow direction of the hot reheater steam is supplied downstream of a reheater of the steam generator and upstream of the junction of the hot superheater steam leading reheater line in at least one medium-pressure turbine of the turbo or turbine set. The power plant is in accordance with further advantageously characterized in that in the at least one additional steam generator and / or the at least one additional steam reheater intermediate pressure steam generated and a hot reheater steam leading reheater line in the flow direction of the hot reheater steam downstream of a reheater of the steam generator and upstream of the junction of the hot Reheater steam leading reheater line in at least one medium-pressure turbine of the turbo or turbine set can be fed.

In order to meet in particular future grid codes, it is expedient according to a further aspect of the invention to integrate an additional electrically heated steam storage in the water / steam cycle of the power plant to load changes to the primary control of 10% by a spontaneous increase of To achieve medium-pressure steam, in which case the inertia of the boiler is attenuated. The inventive method is therefore further characterized in that in the water / steam cycle an electrically heated and in particular to the domestic power supply of the power plant connected steam storage is arranged, the generated by means of the generator and / or derived from a connected public power grid electrical energy , in particular electric current, and from the water side of the water / steam cycle feed water is supplied, which is evaporated in the steam accumulator and then the steam side of the water / steam cycle is supplied. Accordingly, the power plant in an embodiment of the invention is characterized in that in the water / steam cycle an electrically heated and in particular to the domestic power supply of the power plant connected steam storage is arranged, which has an electrical line connection, by means of which he with the generator and / or connected to a public power grid connected to it and it electrical energy, in particular electric power, can be supplied, and the one having first media-carrying line connection to the steam side of the water / steam cycle and a second media-carrying line connection to the water side of the water / steam cycle. Hiewrbei it is still appropriate if the first line connection opens into a steam leading to the reheater of the steam generator reheater line and the second line connection leads to a feed water leading to the steam generator line, which also provides the invention in another embodiment of the power plant.

In order to realize a heat energy supply also on the water side of the water / steam cycle, the invention further provides that in the water side of the water / steam cycle at least one electrically heated and in particular connected to the domestic power supply of the power plant water heater is involved, the means the generator generated and / or derived from a public power grid connected thereto electrical energy, in particular electric power, and is supplied from the water side of the water / steam cycle feed water heated in the water heater and then into the water side of the water / steam cycle is fed. Likewise, the power plant is characterized by the fact that in the water side of the water / steam cycle at least one electrically heated and in particular connected to the power supply of the power plant water heater is incorporated circuit-wise, having an electrical line connection, by which he with the generator and / or connected to a public power grid connected to it and it electrical energy, in particular electric power, can be fed, and which is fed via a media-leading line connection from the water side of the water / steam cycle feed water, and from which via a media-leading line connection in the water heater from the supplied heated water fed feed water can be fed into the water side of the water / steam cycle.

But also the air side of the burners of the combustion chamber of the steam generator of the power plant fed media can be supplied with additional heat energy to minimize fuel consumption. The invention is therefore further distinguished by the fact that at least one electrically heated and in particular connected to the power supply of the power plant gas preheater is integrated into the burners of the combustion chamber combustion oxygen, in particular combustion air, and / or recirculated flue gas lines, by means of the generator and / or or a public power grid connected thereto electrical energy, in particular electric power, is supplied and by means of which the combustion oxygen and / or the recirculated flue gas is preheated before entering a burner of the combustion chamber. Accordingly, the power plant is characterized in that the burners of the combustion chamber combustion oxygen, in particular combustion air, and / or recirculated flue gas supplying media-carrying lines with one or more electrically heated and in particular connected to the power supply of the power plant gas preheaters are in media-leading line connection, the combustion oxygen and / or preheat the recirculated flue gas before entering a burner of the combustion chamber, wherein the one or more gas preheater connected by means of an electrical line connection to the generator and / or a public power grid connected thereto and in particular connected to the power supply of the power plant is / are and him / they electrical energy, in particular electrical power, can be fed.

Finally, the invention is characterized in a further embodiment of the power plant characterized in that the burners of the combustion chamber plasma igniter or have a resistance to air heating or are designed as plasma torches, the burner by means of an electrical line connection to the generator (11) and / or an attached public Power supply (12) connected and in particular connected to the domestic power supply of the power plant and they electrical energy, in particular electrical power, can be supplied.

The plasma ignition burners support the operation and in particular the flame pattern of the burners of the combustion chamber of the steam generator in order to keep the flame (s) stable even with minimized or minimal fuel supply. through a resistance air heating and / or a plasma burner, the fuel can also be completely replaced by heat energy provided by or obtained from electrical energy. This possibility is particularly interesting when electric power in the future, at least temporarily a price compared to gas or coal fuel can be very favorable. In total, more energy can also be absorbed via the domestic power transformer, which is usually provided as part of the self-supply, than is supplied to the power grid by the generator synchronized with the power grid.

The invention is explained in more detail below by way of example with reference to a drawing.

The single figure shows a schematic representation of a total designated 1, inventive power plant, which is suitable for carrying out the method according to the invention.

Core of the power plant 1 is a steam generator 2, which has a combustion chamber 3 fired with coal or lignite. In the usual way, a superheater 4 and a reheater 5 are arranged and formed in the steam generator 2. The superheater 4 and the reheater 5 are part of the connected to the steam generator 2 water / steam cycle 6 of the power plant 1. In the water / steam cycle 6 a turbo or turbine set 7 is integrated in a conventional manner, the high-pressure turbine 8, a medium-pressure turbine 9 and two low-pressure turbines 10 includes. To the turbo or turbine set 7, a generator 11 is connected in a conventional manner, with the power is generated or can be generated, which is fed into the connected public power grid 12, but can also be used for internal power supply kaftwerksintern.

In the usual way, the steam side of the water / steam circuit 6 has a superheater line 13 leading from the superheater 4 of the steam generator 2 to the high-pressure turbine 8 of the turbo or turbine set 7 as a media-carrying line connection. Likewise, the steam generator 2 in the usual way one of the high-pressure turbine 8 back to the reheater 5 of the steam generator 2 and from there to the intermediate pressure turbine 9 of the turbo or turbine set 7 leading reheater line 14, the leading to the reheater 5 part with 14a and its from the reheater 5 on to the middle-pressure turbine 9 leading part with 14b is designated. Also in the reheater line 14, 14a, 14b is a media-leading line connection.

On the starting after the turbo or turbine set 7 with the condenser 15 water side of the water / steam cycle 6 this is configured as usual and has on the way the water return to the steam generator 2 a Niederdruckvorwärmer 16, a feedwater tank 17 and a Hochdruckvorwärmer 18.

Burner side are the burner 19 with a fuel supply 20 and a combustion air supply 21 in media-leading line connection.

On the flue gas side, the flue gas is fed to a cooling tower 26 via a flue gas duct 22 in which a denitrification device 23, an electrostatic precipitator 24 and a desulfurization system 25 are arranged. The cooling water circuit 27 of the cooling tower 26 is connected to the condenser 25 in circuit connection.

In the water / steam circuit 6, an additional electrically heated steam generator 28 is integrated, which is connected via an electrical line connection 29 to the generator 11 and / or the public power grid 12 connected thereto. Via the line connection 29 to the steam generator 28 electrical power can be supplied. The steam generator 28 is connected to the water side of the water / steam circuit 6 and here the feedwater tank 17 via a media-carrying line connection 30 shown in dashed lines and can be supplied with water, here feed water. On the steam side, the steam generator 28 has a media-carrying steam line connection 31, by means of which it is connected to the steam side of the water / steam circuit 6 and the water / steam circuit 6 in the electric steam generator 28 from the supplied via the media-carrying line connection 30 water produced Steam is supplied. The media-carrying steam line connection 31 opens in the flow direction of the steam upstream of the medium-pressure turbine 9 in the part 14 b of the reheater line 14 a.

In addition, at least one additional electrically heated steam superheater 32, which is symbolized by an arrowhead, is integrated into the steam side of the water / steam circuit 6. In a manner not shown, the electrically heated steam superheater 32 has an electrical line connection, by means of which it is connected to the generator 11 and / or the public power grid 12 connected thereto and it can be supplied with electric current. The electrically heated steam superheater 32 is so integrated into the superheater line 13 that it can be fed via the media-leading line connection steam from the water / steam cycle 6 and superheated steam generated by the steam superheater 32 in the steam superheater 32 by means of a media-leading line connection in the steam superheater 32 from the steam superheater the steam side of the water / steam circuit can be fed. Here, the electrically heated steam superheater 32 in the flow direction of the superheated steam upstream of the turbo or turbine set 7 and here in particular the high-pressure turbine 8 is arranged.

Furthermore, in the steam side of the water / steam circuit 6 is a symbolically represented as an arrowhead and provided with the reference numeral 33 Dampfüberüberhitzer involved. This steam reheater 33 is in a manner not shown in electrical line connection with the generator 11 and / or the public power grid 12 so that it can be supplied with electrical power. In the electrically heated steam reheater 33, medium-pressure steam can be generated and fed to the intermediate-pressure turbine 9 of the turbo or turbine set 7 via the reheater line 14, in the part 14b of which the steam superheater 33 is connected in a steam-conducting manner. The steam reheater 33 is here in the flow direction of the hot reheater steam downstream of the reheater or the reheater 5 of the steam generator 2 and upstream of the junction of the hot reheater steam leading reheater line 14 arranged in the turbo or turbine set 7.

With the at least one electrically heated steam generator 28 and / or the at least one electrically heated steam superheater 32 and / or the at least one electrically heated steam reheater 33 each alone, but preferably in their combination total, steam in such an amount and with such pressure and Such a temperature can be generated and supplied to the water / steam cycle, so that the turbo or turbine set 7, in particular its low-pressure turbine 10, with a minimum necessary steam mass flow in a permissible continuous operation with a minimum load and / or low load, especially in a Minimal load operation or low load operation of the power plant 1, is operable.

In the water side of the water / steam cycle 6, three, also shown as arrowheads and provided with the reference numeral 34 electrically heated water heater are incorporated line. These are also connected in a manner not shown via an electrical line connection to the generator 11 and / or the connected public power grid 12 so that they electrical power can be supplied. The electrically heated water preheater 34 are so involved in the water supply side of the water / steam cycle 6 in the wiring that each of them via a media-leading line connection water, especially feed water, can be fed and from them or from them via a media-carrying line connection in the respective Water heater produced from the water supplied heated water, in particular heated feed water, in the water side of the water / steam cycle 6 can be fed.

Furthermore, an electrically heated steam accumulator 35 is integrated in the water / steam cycle 6. This is also connected via an unspecified electrical line connection to the generator 11 or the public power grid 12 in live wiring. The steam accumulator 35 has a media-carrying line connection 36 Steam side of the water / steam circuit 6, which opens into the recirculating to the reheater 5 of the steam generator 2 line part 14 a of the reheater line 14. Via this line connection 36 steam stored in the steam accumulator 35 can be supplied to the water / steam circuit 6 (again). However, it may also be possible to derive steam for storage in the steam reservoir 35 via this line connection 36 from the water / steam circuit 6. In principle, however, the steam accumulator 35 is designed to feed steam into the water / steam circuit 6. Here, the electrically heated steam accumulator 35, for example, generate steam of 110 bar with a mass flow of 50 kg / s within 5 minutes with a mass of 20 m ³ / s, said steam generated then for filling the steam side of the water / steam Circuit 6 in low load operation or minimum load operation of the power plant 1 or for the withdrawal at a necessary rapid primary control of ≥ 5% per minute use. For the supply of water, in particular feed water, the steam accumulator 35 has a second media-carrying line connection 37 to a feed water to the steam generator 2 leading line 8 on the water side of the water / steam cycle 6.

In a manner not shown in the burners 19 of the combustion chamber 2 combustion oxygen, in particular combustion air, and / or recycled flue gas supplying media-carrying lines, such as the fuel supply 20 and / or the combustion air supply 21, electrically heated gas preheater arranged or stand with these in media-leading line connection. By means of these gas preheaters, which are also connected to the supply of electric power by means of an electrical line connection to the generator 11 and / or the public power grid 12, the combustion oxygen, in particular the combustion air, and / or the recirculated flue gas before entering the respective burner Preheat 19.

In a manner also not shown, it is also possible that the burner 19 plasma ignition or have a resistance to air heating or are designed as a plasma torch, the burner or the respective plasma torch or the respective resistance air heating or the respective plasma torch are also connected by means of an electrical line connection to the generator 11 and / or the public power grid 12 and they electrical power can be supplied.

Claims (18)

Method for operating a power plant (1) comprising a steam generator (2) with a carbon-fired combustion chamber (3) and a superheater (4) and with a connected water / steam circuit (6) with integrated turbo or turbine set (7) at least one low-pressure turbine (10) and a connected generator (1), wherein
in the water / steam circuit (6) in addition at least one electrically heated steam generator (28) is integrated, by means of the generator (1) generated and / or derived from a public power grid connected thereto (12) electrical energy
and to which feed water is supplied from the water side of the water / steam circuit (6),
and from which steam generated from the supplied water is supplied to the steam side of the water / steam circuit (6) in the electric steam generator (28), the method being performed during periods of low load operation or minimum load operation of the power plant (1),
characterized in that in the water / steam circuit (6) of the at least one additional steam generator (28) is integrated and / or in the steam side of the water / steam cycle (6) additionally at least one electrically heated steam superheater (32) and / or additionally at least one electrically heated steam reheater (33) is / are integrated, the / by the generator (11) generated and / or from the connected public power grid (12) derived electrical energy and from the water / steam cycle (6) steam is supplied and from which in the steam superheater (32) and / or the steam reheater (33) from the supplied steam generated superheated steam in the steam side of the water / steam circuit (6) is fed, wherein the at least one additional steam generator (28) and / or the at least one additional steam superheater (32) and / or the at least one additional Steam reheater (33) Steam generated in such an amount and at such a pressure and temperature and the steam side of the water / steam cycle (6) is supplied, so that the turbo or turbine set (7) with its permissible for continuous operation Minimum load and / or low load is operable. A method according to claim 1, characterized in that in the at least one additional steam generator (28) and / or in the at least one additional steam superheater (32) and / or in the at least one additional steam reheater (33) generated steam in the flow direction of the steam in Water / steam cycle (6) is fed upstream of the turbo or turbine set (7) in the steam side of the water / steam cycle (6). A method according to claim 1 or 2, characterized in that with the generated steam, the at least one low-pressure turbine (10) of the turbo or turbine set (7) with its permissible for continuous operation minimum load and / or low load is operable. Method according to one of the preceding claims, characterized in that in the steam superheater (32) from the steam supplied superheated steam in the flow direction of the superheated steam upstream of a high-pressure turbine (8) of the turbo and turbine set (7) in the water / steam cycle ( 6) is fed. Method according to one of the preceding claims, characterized in that generated in the at least one additional steam generator (28) and / or the at least one additional reheater superheater (33 medium pressure steam and a hot reheater steam leading reheater line (14) in the flow direction of the hot reheater steam downstream of a reheate ( 5) of the steam generator (2) and upstream of the junction of the hot superheater steam leading reheater line (14) in at least one medium-pressure turbine (9) of the turbo or turbine set (7) is supplied. Method according to one of the preceding claims, characterized in that in the water / steam cycle (6) an electrically heated steam accumulator (35) is arranged, by means of the generator (11) generated and / or from a connected public power grid (12 ) and is supplied from the water side of the water / steam circuit (6) feed water, which is evaporated in the steam accumulator (35) and then the steam side of the water / steam cycle (6) is supplied. Method according to one of the preceding claims, characterized in that in the water side of the water / steam cycle (6) at least one electrically heated water preheater (34) is integrated, generated by means of the generator (11) and / or from a public connected thereto Power supply (12) derived electrical power and from the water side of the water / steam circuit (6) feed water is supplied, which is heated in the water pre-heater (34) and then fed into the water side of the water / steam circuit (6). Method according to one of the preceding claims, characterized in that in the burners (19) of the combustion chamber (3) combustion oxygen and / or recirculated flue gas supplying lines (20, 21) at least one electrically heated gas preheater is integrated, by means of the generator (11 ) and / or a public power grid connected thereto (12) electrical energy is supplied and by means of which the combustion oxygen and / or the recirculated flue gas is preheated before entering a burner (1) of the combustion chamber (3). Power plant (1) for carrying out the method according to one of claims 1 - 8, comprising a steam generator (2) with a carbon-fired combustion chamber (3) and a superheater (4) and with a connected water / steam circuit (6) with integrated turbo or turbine set (7) having at least one low-pressure turbine (10) and a connected generator (11), wherein in the water / steam circuit (6) in addition at least one electrically heated steam generator (28) is integrated, which has an electrical line connection (29), by means of which it to the generator (11) and / or a public power grid connected thereto (12 ) and electrical energy is supplied to him, and having a media-carrying line connection (30), by means of which it is connected to the water side of the water / steam cycle (6) and fed him feed water of the water / steam cycle (6) and having a media-carrying steam line connection (31) by means of which it is connected to the steam side of the water / steam circuit (6) and the water / steam Circuit (6) in the electric steam generator (28) from the supplied water generated steam can be supplied,
characterized,
in that the at least one additional steam generator (28) is integrated in the water / steam circuit (6) and / or additionally at least one electrically heated steam superheater (32) and / or additionally at least in the steam side of the water / steam circuit (6) an electrically heated steam reheater (33) is / are connected in line, each having an electrical line connection, by means of which he / she is / is connected to the generator (11) and / or the public power grid (12) connected thereto electrical energy can be supplied, and to which / each via a media-carrying line connection (13,14) from the water / steam circuit (6) steam can be supplied and from which / which in each case via a media-leading line connection in the steam superheater (32) and / or the steam reheater (33) from the supplied steam generated superheated steam in the steam side of the water / steam cycle (6) can be fed is t, wherein with the at least one additional steam generator (28) and / or the at least one additional steam superheater (32) and / or the at least one additional Steam reheater (33) steam in such an amount and with such a pressure and a temperature can be generated and the steam side of the water / steam cycle (6) can be supplied, so that the turbo or turbine set (7) with its permissible for continuous operation Minimum load and / or low load is operable. Power plant (1) according to claim 9, characterized in that in the at least one additional steam generator (28) and / or in the at least one additional steam superheater (32) and / or in the at least one additional steam superheater (33) generated steam in the flow direction of the Steam in the water / steam cycle (6) upstream of the turbo or turbine set (7) in the steam side of the water / steam cycle (6) can be fed. Power plant (1) according to claim 9 or 10, characterized in that with the generated steam, the at least one low-pressure turbine (10) of the turbo or turbine set (7) with its permissible for continuous operation minimum load and / or low load is operable. Power plant (1) according to one of claims 9 to 11, characterized in that in the steam superheater (32) from the steam supplied superheated steam in the flow direction of the superheated steam upstream of a high-pressure turbine (8) of the turbo or turbine set (7) in the Steam side of the water / steam cycle (6) can be fed. Power plant (1) according to any one of claims 9 to 12, characterized in that in the at least one additional steam generator (28) and / or the at least one additional intermediate steam reheater (33) medium pressure steam produced and a hot reheater steam line leading superheater (14) in the flow direction of the hot reheater steam downstream of a reheat (5) of the steam generator (2) and upstream of the confluence of the reheater line leading to the hot reheater steam (14) in at least one medium-pressure turbine (9) of the turbo or turbine set (7) can be fed. Power plant (1) according to any one of claims 9 - 13, characterized in that in the water / steam circuit (6) an electrically heated steam accumulator (35) is arranged, which has an electrical line connection, by means of which it with the generator (11 ) and / or a public power grid connected thereto (12) is connected and electrical energy can be supplied to it, and a first media-carrying line connection (36) to the steam side of the water / steam cycle (6) and a second media-carrying line connection (37) Water side of the water / steam cycle (6). Power plant according to claim 14, characterized in that the first line connection (36) opens into a steam to the reheater (5) of the steam generator leading reheater line (14) and the second line connection (37) leading to a feed water to the steam generator (2) line (38 ) leads. Power plant (1) according to any one of claims 9 - 15, characterized in that in the water side of the water / steam cycle (6) at least one electrically heated water preheater (34) is integrated circuit-connected, having an electrical line connection, by means of which he the generator (11) and / or a connected public power grid (12) is connected to it and electrical energy can be supplied, and the via a media-carrying line connection (37, 38) from the water side of the water / steam cycle (6) feed water, can be fed and from which via a media-leading line connection in the water heater (34) from the supplied water generated heated feed water in the water side of the water / steam cycle (6) can be fed. Power plant (1) according to one of claims 9-16, characterized in that the burners (19) of the combustion chamber (3) combustion oxygen and / or recirculated flue gas supplying media-carrying lines (20, 21) with one or more electrically heated Gasvorwärmern in media-leading line connection, which preheat the combustion oxygen and / or the recirculated flue gas before entering a burner (19) of the combustion chamber (3) the gas preheater (s) is / are in each case connected to the generator (11) and / or a connected public power supply system (12) by means of an electrical line connection and electrical energy can be supplied to it / them. Power plant (1) according to any one of claims 9 - 17, characterized in that the burners (19) of the combustion chamber (3) plasma ignition or have a resistance air heating or are designed as plasma torches, the burner (19) by means of an electrical line connection with the Generator (11) and / or a public power grid connected thereto (12) are connected and electrical energy can be supplied to them.

Images