DE2351678B2 - Steam power plant with a pressurized water reactor and several steam generators heated by the pressurized water - Google Patents

Description

' ³ 4

multi-stage switching However, it is necessary for this than with single switching. A constructive one

The turbine is the live steam with two different- reinforcement of the components mentioned is, however

The pressures and temperatures are not necessary in spite of the higher live steam

Feed points A ₁ and A ₂ . agile.

This is done by stepping the steam 5 I _n Fi g. 5 is the steam power plant after the generator, as explained in more detail in FIGS. In the making explained with the aid of a circuit diagram. The fig. 2 are the temperatures at the heat exchanger reactor 1 is cooled by two primary cooling circuits F of a steam generator with single-stage switching, which is shown once through lines 2, the steaming. The coolant in the primary circuit enters the generator 3 and 4 and the circulation pump S, in the case of temperature i _£ in the steam generator and in the other case through the lines 8, the steam leaves this after heat dissipation with the generator 9 and 10 and the circulation pump 11 correspondingly lower temperature t _A. The food to be. In the steam generators 3 and 9 of the higher pressure water passes by the temperature / _sp in the other steam is generated by the space of the steam generator is heated to the temperature lines 6, 1L2 and 14 of the high-pressure turbine / _s and evaporated at this temperature. 15 IS is forwarded. The one in the steam generators 4 and

In Fig. 3, the same conditions are shown in the case of live steam generated at a lower pressure when the steam generator is switched. The through the lines 7, 13 and 20 in the high pressure coolant of the primary circuit is in the steam generator turbine section 21L. The expanded steam higher with the area F, from the temperature t _E to the pressure leaves the high-pressure turbine section 15 and temperature t _{M is} cooled, the live steam of the ao being generated through the line 16 to the mechanical temperature i _sl, which is generated from the food - Steam dryer 17 and then in the with water that is supplied with the temperature t _spl supplied live steam heated reheater 18. From was. In the steam generator with the area F ₂ cools there it flows into the low-pressure turbine 19. In the medium of the primary circuit further from the tem- Similarly, the vapor from the outlet of the peraturf _M to the temperature T _A from where fresh "5 High-pressure turbine section 21 with the aid of line 22 steam from the temperature f _s2 from feed water is sent to the steam dryer 23 and then to the steam generator, which is conducted to the superheater 24 _{at the temperature t SP2.} After that he flows through tet. When comparing FIGS. 2 and 3, the line ZS in the two low-pressure sub-towers can see that the mean value from the turbines 26. The sub-turbines 15, 19, 21 and 26 driver temperatures f _sl and i _{s2 are} higher than the temperatures of the generators 27 at.

turr _s . So there is a process improvement. The exhaust steam from the two low-pressure parts

a. Turbines 26 passes through the lines 28 in the

In a further embodiment of the steam power plant, condensation elements 29 and is deposited there

According to the invention, it is advantageous to hit the stepped. The cooling air is supplied by fan units 30

circuit add the total number of steam generators to 35 in the direction of arrows 31 through the condensation

keep and the number of cooling circuits to half elements 29 and 37 promoted. In the latter, the

to reduce. Without enlarging the diameter, this is exhaust steam of higher pressure flowing through the lines

the steam generator is possible if one is fed from the up to 36 from the low-pressure turbine section 19,

Her most commonly used hairpin-shaped condensed tube. The condensate is

systems goes over to those with straight tubes. 40 gen 32 and 38 with the aid of pumps 33 and 39, respectively

With this step switching the steam generator is through the preheater 34 or 40 and the lines

yet another advantage connected, which is shown in Fi g. 4 35 or 41 in the steam generator 3 and 9 or 4 and

is explained. There the temperatures are fed in at the steam 10.

generator plotted against power N. From about in place of the direct selected here in the example

35% of the nominal power, the average temperature is 45 air-cooled condensation process with forced

temperature t _{M of} the primary medium kept constant. Any other suitable air-

With increasing power, therefore, the cooled condensation processes are used,

inlet temperature t _E and the outlet temperature t _A In the case of an indirect system with injection condensers

of the primary medium on both sides of the average temperature, the cooling elements are connected in series

temperature t _M. The 5 ° generated in a single-stage circuit on the cables of the cooling air.

Live steam has the temperature f _s . This value. Since in large nuclear power plants the affected decreases considerably with increasing output, so components are already present several times, so that the live steam quantity is not increased according to the nature of their number. Since the steam fall loss must be specifically increased. on the other hand, it is necessary to represent the second, it is even possible to reduce the number of steam generators, the main steam pipes, cooling circuits and primary pumps by half and to increase the high pressure housing of the turbine in this way. Reduce. Since the steam generator measures of the same size mean that the significantly higher pressure can be used for heating surfaces, the energy required for the self-consumption increases in relation to the saturated steam temperature t _{b compared to simple switching.} 60 not ..

In the step switching of the steam generator according to Wie the dash-dotted curves in Fig. 1, the

of the invention occur saturated steam temperatures run through the points E _x and E ₂ , show behavior-

corresponding to the temperatures < _S1 and / _s2 . The specific volume of the turbine

If the temperature f _{sl is} close to the saturated steam with the step switching like 1: 2, so that temperature t _b , and the mean value from the temperature 65 when using conventional turbo sets with three low

turen i _sl and i _si is higher than the temperature / _s . partial pressure turbines a good filling with appropriate

The above-described relationships are in the case of the division according to the example explained

Step switching of the steam generator is given more favorable to each turbine section.

List of referenced parts

1 reactor

2 lines

3 steam generators

4 steam generators

5 circulation pump

6 lines

7 lines

8 lines

9 steam generator

10 steam generators

11 circulation pump

12 lines

13 lines

14 lines

15 high pressure turbine section

16 line

17 steam dryer

18 reheater

19 Low-pressure turbine section

20 lines

21 High pressure turbine section

22 line

23 steam dryer

24 reheater

25 management

26 Low-pressure turbine section

27 generator

28 lines

29 condensation elements

30 cooling units

31 arrows

32 lines

33 pumps

34 preheater

35 lines

36 lines

37 condensation elements

38 lines

39 pumps

40 preheaters

41 lines

For this purpose 2 sheets of drawings

Claims (1)

The object of the present invention is, with claims: such a steam power plant and when using 1. Steam power plant with a pressurized water generation of a pressurized water reactor as a heat source reactor and at least two of the pressurized water to improve the efficiency while maintaining the high warming-up span of the air resulting from heated steam generators and at least two air-cooled and air-side connected in series. The condensation elements, thereby characterized, the invention relates to a steam power plant entzeich η et that at least two steam generators speaking the preamble of claim 1. (3, 4 or 9, 10) on the pressurized water side to each other in The solution to the problem mentioned consists m which are connected in series that the lines (6, 7 io mark contained technical teaching,
and 12,13) for removing the steam from the From the German Offenlegungsschrift 19 57 217 It is already known for steam generators to cool condensation elements over different parts of the turbine (15, 19, 21, 26) with the condenser air side in series and different turbine stages sation elements (37,29) connected downstream in the way. The resulting are that the condensate, which is first passed through by the cooling air, is used to dissipate part of the flowed condensing element (29) to condense with a vapor at higher pressure. One the steam through which the pressurized water last passed - efficiency improvement according to the inventors (4, 10) is connected and that the arrangement according to the invention is not, however, too lines (38, 32) that achieve the condensate from the con. Densation elements (37, 29) discharge, separately 20 To the pressurized water of a nuclear reactor as possible to the steam generators (3, 9; 4, 10) are performed. to cool with, it is from the German patent-2. Steam power plant according to claim 1, known as 10 79 752, two heat exchangers characterized in that the reactor (1) to connect two pressurized water side in series. The seconds to each other however, there are no parallel pressurized water circuits (the discharge side of these heat exchangers) lines 2 and 8), with each pressure «5 in connection with each other, so that with this Water circuit a series connection of two arrangements does not achieve the object of the invention (3, 4; 9,10) is switched on, is released. and that both the pressurized water first Finally, from the DT-AS 1147 330 the par- traversed (3, 9) as well as those of the pressure general circuit of two pressurized water circuits in relation to water last flowed through steam generator (4, 30 known to the reactor, the steam generator 10) feed water and steam side parallel to each other feed water and steam side parallel to each other are switched. are switched. To explain the invention, the circuit of an embodiment in FIG. 5 shown .. 35 Fig. 1 shows that in the steam power plant In steam power plants with a pressurized water working process resulting from the invention in the is-Diareactor, the steam is generated in several heat grams in comparison to a conventional steam exchanger. The heat exchangers contain a power plant with a bundle of tubes that are not connected in series, through which it acts as a coolant for the steam generator. In Fig. 3 is the temperature nuclear reactor used pressurized water flows. The shown is located around ♦ <> in the steam generators connected in series with the tubes of the tube bundle. F i g. 2 shows the same temperature to be evaporated water. The steam is started up when only one steam generator is used, then expanded in turbines and subsequently expanded. 4 are the temperatures at the steam generator switched capacitors back into water depending on the power N of the steam power plant converts. 45 applied. With the increasing number of steam power- In F i g. 1 is the process flow in the i-s diagram systems, it is becoming more and more difficult to explain enough cooling. With conventional process management water for the condensation of the live steam occurs with the condition at point A to be found emerging from the turbines. For this reason, enter the high-pressure part of the turbine, where air-cooled condensers are increasingly expanded to the state according to point B. Then gesators used. In order to dissipate the heat, very large amounts of coolant are required in the mechanical moisture separator with air cooling (section BC) and the steam-heated intermediate ones are required. In order to reduce this amount of coolant superheater (route CD) and from there with the Zugern, it is known from the German Offenlegungsschrift according to point D in the low-pressure turbine part 19 57 217 in a steam power plant, 55 NEN. There the steam expands with water-cooled different exits of the turbine from one condensation to point F. With air-cooled other separate condensers to be connected downstream and condensation, however, only one exhaust steam can be achieved on the cooling air side in series with switching pressure, which roughly equals point E at. This achieves a higher level of warm-up which would correspond to a stepped circuit. The gradient of the air, without first differentiating from E to F in that of the cooling air, characterizes the flowing condenser with a higher internal pressure and deterioration in degree of efficiency. To have to buy. This step circuit of For the steam power plants according to the invention is Condensers make it possible, compared to arrangements of essential importance, that at the same time and without condensers connected in series, the parallel each partial amount of steam, which corresponds to about half the amount of cooling air and thus the space requirement and the 65 of the total amount, to reduce the investment required for the process. However, according to the dashed lines from point A ₁ or A. , The efficiency of the system is thereby reduced to points E ₁ and / or. £, runs through. That sets off. the total usable gradient that occurs is greater than that of the