DE19921023A1 - Nuclear power plant comprises reactor, steam generator with at least one high pressure turbine, steam line branch, and steam main with steam control member - Google Patents

Abstract

The nuclear power plant comprises a nuclear reactor (2) and a steam generator (3), as well as a steam turbine (4) with at least one high pressure turbine (5). The turbine has an inlet (7) for steam from the steam generator, and a steam path is connected to the steam inlet. A steam line branches off between the steam generator and the steam inlet, and is connected to a steam main (17) which contains a steam control member (9). The main joins the steam path downstream of the steam inlet.

Description

The invention relates to a nuclear power plant comprising a Nuclear reactor and possibly a steam generator and a steam door leg arrangement. The steam turbine arrangement at least has a high pressure sub-turbine, the steam from the nuclear reactor or can be supplied to the steam generator with a steam inlet for the steam from the steam generator or the nuclear reactor. In the steam turbine assembly joins the steam inlet a steam path. The invention further relates to a ver drive to operate a nuclear power plant, in which by means of egg nes nuclear reactor directly or in a steam generator is generated, which steam a steam inlet of a high pressure Sub-turbine is supplied to a steam turbine arrangement. The The invention further relates to a method for increasing performance hung of such a nuclear power plant.

To increase the current power reserve of a steam door leg arrangement, d. H. a short-term increase in performance beyond the nominal power of the steam turbine arrangement so-called overload devices known. DE 29 30 184 A1 corresponding to US Pat. No. 4,373,340, concerns an overload establishment of a multi-casing steam turbine, with a pre switching turbine part (high pressure part turbine), the exhaust steam as a main stream a downstream turbine part (middle or low pressure part) is supplied. This overload device device has a bypass line through which a part the steam bypassing the pilot turbine part and un bypassing a reheater into one into one pipe end of the downstream turbine part can be introduced. The introduction to the pipeline follows here as a jet compressor. This kind of overload direction has the advantage that in a load range the steam  turbine up to 100% no impairment of heat consumption occurs and a pressure increase of the steam before the night switching turbine in the order of 2%. The elec trical power of the steam turbine assembly is about 600 Megawatt. The bypass line is upstream each Valve combination consisting of a quick-closing valve and a control valve both upstream of the upstream turbine part also arranged in front of the secondary turbine part.

US Pat. No. 4,403,476 relates to a method for operating a Steam turbine arrangement with an overload valve. The About The load valve of the steam turbine arrangement closes a bypass the normal control valves of the steam turbine assembly and is connected in parallel. It creates a steam connection which enables steam to be drawn from a steam generator at egg nem lower pressure in the steam turbine assembly Food. When operating the steam turbine arrangement below egg At full load, the overload valve is closed and the rule valves set according to a power to be delivered. At full load, all control valves are open, so that one further short-term performance increase by opening the Overload valve is reached, with one or several of the control valves are throttled. This will a throttle reserve is manufactured, which is completely over the Re gel valves takes place while the overload valve is fully open is. There are therefore only two operating modes for the overload valve states available, namely either completely closed or fully opened.

The object of the invention is to provide a nuclear power plant with a Steam turbine arrangement with increased performance give. Another object of the invention is to a method for operating a nuclear power plant and in specifying a procedure for increasing the performance of a Nuclear power plant.  

According to the invention is directed to a nuclear power plant Task solved by such a nuclear power plant, the one Nuclear reactor and possibly also a steam generator as well a steam turbine arrangement with at least one high-pressure Partial turbine has. The nuclear reactor or the steam generator serves to generate steam, which steam is a steam let the high-pressure turbine part be fed, whereby the steam inlet to a steam path of the steam turbine assembly closes and between the steam generator or nuclear reactor and Steam inlet a steam branch is provided, which steam outlet branch is connected to a steam line, which is a steam generator Gelorgan, in particular a control valve, and downstream of the steam inlet opens into the steam path.

The invention is based on the knowledge that at Nuclear power plants in a steam generator or the nuclear reactor Pressure fluctuations can occur due to a corresponding appropriate throttle reserve must be balanced. To make egg ner such throttle reserve is the pressure during nominal operation the nuclear power plant throttled before the steam inlet, at for example by between 1% to 2.5%. With the invention it is now possible for the first time, via the steam regulator Maintain pressure in the steam generator or nuclear reactor. As a result, the steam can operate during nominal operation of the nuclear power plant Inlet on the high pressure turbine section must be fully open. Ge compared to the use of classic overload valves with the background, for example a frequency support of the electrical network or a short-term increase in performance the steam regulator serves to carry out the steam Connect the branch to the steam path downstream of the steam inlet the steam line of a corresponding pressure maintenance in the steam generator or nuclear reactor.

The steam line preferably opens into the high pressure part turbine, especially in a steam tap, for example the top tap. In this case it is preferably one simultaneous increase in performance of the steam generator or  Nuclear reactor provided, for example, between 0.4% to 2%, in particular between 0.59% and 1.47%. A sol che performance increase can increase the electri performance by between 0.65% and 1.6%, which at ei an electrical output of 1350 megawatts an increase the electrical output between 8.7 megawatts and 21.6 me gawatt means.

The nuclear power plant preferably has a quick-closing valve on which is arranged in front of the steam branch. Hereby a quick shutdown ensures that even When the steam control element is open, no more steam is added to the steam path ends. The quick-closing valve can correspond open steam redirection through which the entire steam, for example, directly to a condenser gate is fed. Preferably between the steam outlet branch and the steam inlet a control valve arranged by that when starting the steam turbine arrangement or the like operating conditions deviating from the nominal operation development of the steam turbine system.

The nuclear power plant preferably has an electric Leis over 600 megawatts, especially over 1000 megawatts, e.g. B. 1300 megawatts. The steam regulator, especially a Control valve, preferably has a flow diameter for steam between 60 mm and 80 mm, especially 70 mm, whereby, of course, within the scope of the design Ab deviations of a few millimeters can be given.

The ge on a method of operating a nuclear power plant The object is achieved in that in the nuclear reactor or the steam generated by the steam generator egg steam inlet ner high-pressure turbine part of a steam turbine arrangement leads, with the normal operation of the nuclear power plant Steam inlet is fully open and dependent on a pressure change in the steam generator or nuclear reactor Part of the steam branches off in front of the steam inlet and the  steam path downstream of the steam inlet in is fed to the steam turbine arrangement. This is one Maintaining pressure in the steam generator or the nuclear reactor allows control of the branched part of the steam, so that by throttling the steam inlet into the High pressure sub-turbine incoming steam can be disregarded can. This leads to an increase in the performance of the steamer generator or the nuclear reactor while ensuring the pressure holding properties of the nuclear power plant at the same time Increase in nuclear power output was up to over 1%, which depending on the performance of the core power plant can be up to over 20 megawatts.

The branched-off part of the steam is preferably via a Steam control element, in particular a control valve regulated, wel ches during normal operation, d. H. without pressure fluctuations at vol Power of the steam generator or nuclear reactor closed is.

The part of the steam branched off before the steam inlet becomes preferably in the high pressure turbine, especially in conducted a steam tap. With steam tapping it can This is the top tap, with the ab branched part of the steam preferably in front of a tap back flap of the tapping is fed. Depending on the design the nuclear power plant it may be possible to use the branched Part of the steam in the steam path downstream of the high pressure part turbine, for example upstream of an intermediate area heater or downstream of a reheater one of the High-pressure sub-turbines downstream steam turbine, at for example, a medium or low pressure turbine feed.

The on a method for increasing the power of a nuclear power location-directed task is solved in that a steam line is installed, which has an adjustable steam flow allows which branches in front of the steam inlet and behind  the steam inlet a steam path of the steam turbine assembly is fed again, with an increase in the same time Power of the nuclear reactor or the steam generator instead det. The increase in the power of the nuclear reactor or Steam generator is preferably between 0.4% to 2%, in particular between 0.59% to 1.47%. This also happens a corresponding increase in the electrical output of the Nuclear power plant up to well over 1%.

The nuclear power plant with steam turbine arrangement and the Ver Driving to operate a nuclear power plant are exemplary based on a not shown to scale and schematically Embodiment explained.

The only figure here shows a schematic not to measure literal circuit diagram of a nuclear power plant with a steam turbine arrangement.

The single figure shows a nuclear power plant 1 with a nuclear reactor 2 , which is connected to a steam generator 3 via a primary circuit (not shown ) . In the steam generator 3 of fresh steam is generated for operating a steam generator connected to the steam turbine assembly 3. 4 The steam turbine assembly 4 has a high-pressure turbine section 5 , which is connected to the steam generator 3 via a live steam line 6 . The live steam line 6 opens into the steam inlet 7 into the high-pressure turbine section 5 . In the fresh steam line 6 , a quick-closing valve 8 is arranged. Wei terhin a control valve 9 is arranged in the live steam line 6 between the steam inlet 7 and the quick-closing valve 8 . In the high-pressure turbine section 5 , a steam tapping 10 is provided, which has a tapping check valve 11 . In the steam turbine arrangement 4 , a steam path 12 is formed, which leads from the steam inlet 7 through the high-pressure part turbine 5 via a water separator 13 , a reheater 14 connected downstream of the latter, to a further partial turbine, not shown, in particular a medium pressure and / or low pressure Part turbine leads.

Between the quick-closing valve 8 and the control valve 9 , a steam branch 15 is provided, from which an intermediate superheater line 16 , which leads to the intermediate superheater 14 , branches off. Upstream of the reheater 14 branches off from the reheater line 16, a steam line 17 , which in the steam tap 10 between the tap-back flap 11 and the high-pressure turbine section 5 opens. A steam control element, in particular a control valve 18 , is provided in the steam line 17 . The direction of flow of the steam when the control valve 18 is at least partially open is indicated by corresponding arrows. In the illustrated core power plant 1 is a pressurized water nuclear power plant. However, this could also be a boiling water reactor system, in which case the steam generator 3 would be replaced directly by the nuclear reactor 2 .

During normal operation of the nuclear power plant, ie in nominal operation with delivery of the corresponding electrical nominal power of a generator (not shown ) connected to the steam turbine system 4 , the control valve 9 is fully actuated. The steam inlet 7 is thus fully open. The control valve 18 is closed, so that no steam from the live steam line 6 in the steam tapping 10 reaches ge. To maintain the pressure of the steam in the steam generator 3 , the control valve 18 is opened accordingly and / or the control valve 9 is closed accordingly, depending on pressure changes occurring in the steam generator 3 , so that pressure maintenance is achieved. Compared to conventional practice, performing a throttle reserve by throttling the control valve 9 from 1% to 2.5% of the pressure during nominal operation, the design of a nuclear power plant with a steam line 17 , which opens into the steam path 12 downstream of the steam inlet 7 , has the advantage that a corresponding pressure maintenance can take place via a control valve 18 in the steam line 17 with the control valve 9 fully open, so that when the output of the steam generator 3 and the Kernre actuator 2 is increased, an increase in the electrical output can also be achieved. An increase in power of the steam generator 3 or nuclear reactor 2 of 0.59% to 1.47% requires an electrical power increase of 0.65% to 1.6%, which means an increase in the electrical power between 1350 megawatts of a nuclear power plant between 8.7 megawatts and 23.6 megawatts.

Claims (10)

1. Nuclear power plant ( 1 ) comprising a nuclear reactor ( 2 ) and optionally a steam generator ( 3 ) and a steam turbine arrangement ( 4 ) with at least one high-pressure sub-turbine ( 5 ), the nuclear reactor ( 2 ) / the steam generator ( 3 ) Steam is used, the high-pressure turbine section ( 5 ) has a steam inlet ( 7 ) for steam from the steam generator ( 3 ) or nuclear reactor ( 2 ) and a steam path ( 12 ) connects to the steam inlet ( 7 ), characterized in that that between the steam generator ( 3 ) or nuclear reactor ( 2 ) and steam inlet ( 7 ) a steam branch ( 15 ) is provided, which steam branch ( 15 ) is connected to a steam line ( 17 ) having a steam control element ( 9 ) and downstream of the steam inlet ( 7 ) opens into the steam path ( 12 ). 2. Nuclear power plant ( 1 ) according to claim 1, in which the Dampflei device ( 17 ) in the high-pressure turbine ( 5 ) opens, in particular in a steam tapping ( 10 ). 3. Nuclear power plant ( 1 ) according to claim 1 or 2, in which a quick-closing valve ( 8 ) is arranged between the steam generator ( 3 ) or nuclear reactor ( 2 ) and steam branch ( 15 ). 4. Nuclear power plant ( 1 ) according to one of claims 1 to 3, in which a control valve ( 18 ) is arranged between the steam branch ( 15 ) and steam inlet ( 7 ). 5. Nuclear power plant ( 1 ) according to one of the preceding claims, characterized by an electrical output of over 600 MW, in particular practicing 1000 MW. 6. Nuclear power plant ( 1 ) according to one of the preceding claims, in which the steam control element ( 9 ) has a flow diameter for the steam of 60 mm to 80 mm, in particular 70 mm. 7. A method for operating a nuclear power plant ( 1 ), in which by means of a nuclear reactor ( 2 ) directly or in a steam generator ( 3 ) steam is generated, which steam can let a Dampfein ( 7 ) a high-pressure sub-turbine ( 5 ) of a steam turbine arrangement ( 4 ) is supplied, the steam inlet ( 7 ) being fully open during normal operation of the nuclear power plant ( 1 ) and, depending on a pressure change in the steam generator ( 3 ) or nuclear reactor ( 2 ), part of the steam upstream of the steam inlet ( 7 ) branched off and supplied to the steam path ( 12 ) downstream of the steam inlet ( 7 ). 8. The method according to claim 7, in which the branch of the steam branched off before the steam inlet ( 7 ) is regulated by a control valve ( 9 ), and the control valve ( 9 ) is closed during normal operation. 9. The method according to claim 7 or 8, wherein the branched off in front of the steam inlet ( 7 ) of the steam in the high-pressure turbine ( 5 ), in particular in a steam tap ( 10 ), is performed. 10. A method for increasing the power of a nuclear power plant ( 1 ) comprising a nuclear reactor ( 2 ) and possibly a steam generator ( 3 ) and a steam turbine arrangement ( 4 ) with at least one high-pressure sub-turbine ( 5 ), the nuclear reactor ( 2 ) generating it Steam is used directly or in the steam generator ( 3 ) and the power of the nuclear reactor ( 2 ) or the steam generator ( 3 ) is increased by 0.4% to 2%, in particular by 0.59% to 1.47%, and a a steam flow controllable steam line ( 17 ) is installed, through which part of the steam can be branched off in front of a steam inlet ( 7 ) of the high-pressure turbine section ( 5 ) and this part of the steam into a steam path ( 12 ) adjoining the steam inlet ( 7 ) is feasible.