DE2033756C - Boiling water reactor plant - Google Patents

Description

At the same time, the connection piece can be a channel for the supply of feed water into the water space of the reactor bypassing the turbine. This creates special openings or nozzles saved in the pressure vessel. Under certain circumstances, the duct in the connecting piece can be the same duct, through which the feed water exiting the turbine already flows.

The feed water of the circulating flow can preferably be in the pressure vessel within the circulating pump be mixed in. As a result, a particularly simple design is obtained, which under Also offers other advantages.

By adding an admixture in front of the pump impeller, the amount of water that is passed through the pump flows, are cooled, which leads to an increase in the available thermal suction head leads, because the steam pressure of the circulating water is lowered at this point.

In an advantageous embodiment, the Um- ao wiiizpump be provided with guide vanes on the inlet side, which lead to the outside into the flow have rm.ndende channels which are connected to the channel for the supply of feed water. In such an arrangement, a simple »5 Means a very even mixing of the feed water with the circulating flow obtained for the aforementioned purpose. · an increase in the Suction lift of the pump is advantageous.

In a particularly advantageous embodiment, the impeller of the circulation pump can also be in the blades formed channels which open outward into the flow rate, to the channel for the Introduction of the feed water are connected and are arranged so that they are used to form a Serve the flow layer of feed water along the surface of the blade. This will result in particularly effective way achieved an increase in the suction lift of the pump, as targeted the relevant Areas of the pump where there is a risk of vapor bubbles being cooled. The rest Feed water can flow into the diffuser of the circulation pump, i.e. H. after the impeller. The feed water is therefore not passed through the pump, so that it has smaller dimensions can be.

The invention is illustrated by means of some exemplary embodiments shown schematically in the drawing explained. It shows

Fig. 1 is a schematic section of a boiling water reactor with the arrangement of the circulation pumps according to the invention,

FIG. 2 shows a section of a possible embodiment of a circulation pump in the Reaktoi according to FIG. 1,

3 shows a section of another embodiment of the circulation pump with its drive,

4 shows a section of a particularly advantageous embodiment of the circulation pump and its drive in a nuclear reactor according to FIGS. 1 and

F i g. 5 a slightly modified version (ir <> <> Circulation pump from FIG. 3.

In Fig. I is a schematic! ^1. ':! Section of a boiling water reactor with a pressure vessel I, a reactor core 2, a vapor separator 3 and lower circulating pumps 4, which are arranged below the water level 5 in the container I, but above the reactor core 2. The shafts of the impellers of the circulating pumps, not shown in FIG. 1, are passed through connecting pieces 6, to which housings 7 of water turbines, which are used to drive the impellers of the pumps 4, are attached. The housings 7 contain pipe connections 8 and 9, which both serve to supply feed water, namely one feed water for driving the turbines and the other for direct introduction of the feed water into the reactor, bypassing the turbines. In FIG. 1, the directions of flow of the circulating flow in the water space of the reactor and that of the feed water supplied are also shown by arrows.

The F i g. 2 shows a section through a circulation pump and its drive turbine in a reactor plant according to the figure!. The parts corresponding to FIG. 1 are denoted by the same reference numerals. As shown in FIG. 2, are located in the turbine housing 7, which is secured by a cover 10 is completed, turbine elements 11 with a bearing Ϊ2 for a shaft 13 and an impeller 14 of the Water turbine. The other end of the shaft 13 is supported in a bearing 15 in a pump housing 16 and carries an impeller 17. The pump housing 16 is in front of the impeller, in the direction of flow of the circulated Considered water, provided with fixed inlet guide vanes 18, each of which has a bore 20 and bores 21 leading to the outside transversely thereto.

As in FIG. 2 is indicated by an arrow P , the feed water emerging from the impeller 14 of the turbine flows through an annular space 22 into an annular space 23 connected to it in the connecting piece 6. The annular space 23 is simultaneously connected to the feed line 9 for feed water. The feed water exiting from the impeller 14 of the turbine or the feed water supplied through the line 9 passes from the annular space 23 into the bores 20 of the blades and from there through the bores 21 into the circulating flow passing through the pump 4.

In the case of the illustrated in FIG. 2 according to the invention Execution use the same connection piece 6 for fastening the drive turbines for the Circulation pumps as well as for the supply of feed water. This creates special nozzles for the Drive shafts of the circulation pumps avoided together with their seals. In the case of the FIG. 2 The embodiment shown has the additional advantage that the circulating flow in the pump is cooled by the admixture of cooler feed water, so that in the pump the risk of Formation of vapor bubbles, which worsen the suction effect of the pump, is reduced. This is particularly the case in FIG. 1 is important where the circulation pumps are above the Reactor core 2 and below the water level 5. At this point, the operational Reasons is advantageous because to expand the Ριιιυ η only a lowering of the water level in the Reactor is required, the circulation pumps have only a low air pressure. Through the illustrated Execution, the formation of steam bubbles is suppressed and thus under certain circumstances a correct function of the circulation pumps is possible in the first place.

In FIG. 3, one is essentially that of FIG. 2 corresponding embodiment shown, in which, however, the housing of a pump 30 compared to the Housing of the pump 4 from tier F i g. 2 is reversed,

_K r. With its tea, the feed water exiting the outside shown in Fig. 1 forms a stream the Be-Se has a bore _{32 in} a targeted manner in a diac manner. Through the bore 32 cools richly, in which there is a risk of the formation of residue from the steam bubbles supplied bypassing the turbine. In this embodiment, water from deXituig 8 is poured into a housing part to achieve the same effect with regard to the sub-Ar circulation _P to _P e30. The housing of the pump for pressing steam bubbles a smaller Kuhlwas-30 is also required in this case with a fixed flow rate in the form of feed water. Lhaufcin 34 provide the bores 35, 36 on the inlet ports of the circulating pumps after the,

sen S flow through Ss impeller 14 of the turbine i. F i g. 2, 3 and 4 can be axially symmetrical

The incoming feed water passes through an annular space body, or it can, according to the intestinal \

3 ^ e £ nfa ^P lh in to housing part 33. From the housing position in FIG. 1, only upwardly open inlet part 33, the feed water flows through the channels 35 to form a funnel. According to the presen- tation in the and 36 to the outside and the circulating flow Fig. 5 is also an embodiment with an axial in front of the impeller 38 admixed with the circulating pump. I ₅ inflow possible.

The mode of operation and effect of the execution according to FIG. 5, as a modified version

The F ie 3 are otherwise the same as those of the Ausiüh- the arrangement from the right part of the F ι g. ί "is une understand after the FU 2? 30 contains the pump a suction

FIG. 4 shows a further embodiment in section 50, which has a hollow, inner body 51. The left part of the figure with the 20 whose cavity is connected to the bore 32 of the height shaft connector J and the drive turbine is the same as at 31. At the same time, the cavity of the embodiment according to FIG. 2 and is denoted by the same as the inner body 51 with the annular space 37 in reference numerals. The pump 40 is similar to binding. Between the inner body 51 and as in the embodiment according to FIG. 3 arranged. an outer jacket 52 are guide vanes 53 ai It contains an impeller 41, the channels 42, 43 and 44 25 arranged, which radial bores 54 and d ;; ran the from the hub of the impeller in the subsequent, outwardly leading bores .0 Shovels and lead out of these. The Ka- have, through which the jnv through the channels 32. Channels 42 43 44 are connected to an axial bore 45 of 37 of the feed water supplied by the pump? "> shaft 13 ', which is mixed in by a radial circulation flow leading to the bore wc Jc ;;. rune 46 comes out of the impeller 14 of the turbine - 30 can. The function of the version after the 1; ß. ^Λ tendem feed water is supplied is otherwise the same as that described above.: U '

In the embodiment shown, contains the explanations.

Pump 40 has a diffuser 47, the separate flow. It will be understood that in the embodiment na <Ji 0

munes channels 48 for the circulating flow and 49 for Fi g. 4 as well as the embodiments according to l · u contains the zueeführte feed water. 35 and 3 also other types of cooling of the ScIi;,;.: ^ «

Both execution according to Fig. 4 the feed or the flow passing them is ve scwasser the circulating flow can only be turned after the run.

wheel 41 of the circulation pump 40 mixed in. It As shown in the fig. 2 to 5 can be seen, is b -

If a smaller amount of water is circulated, the pump needs to be designed in such a way that the pump and with it the drive turbine can be smaller at the same time as the housing 7 is removed. In this case 13 or 13 ', 31 together with the impeller of the ' ■ U- is omitted, but the advantageous effect of cooling the circulating pump is expanded. In the pressure vessel there is a flow passing through the pump. There are therefore only the pump housing with the inlet nozzle. J '. · Irr, impeller 41 formed the channels 42 to 44, guide vanes and the diffuser. Through this <'which would take for * the supply of cool feed water into the 45, possible repairs of the Pur. c: serve shovels. That made much easier from the channels 44 after the impeller.

For this purpose 2 sheets of drawings

Claims (8)

Serreaktoranlage the circulation pump by a water patent claims: to drive serturbine, which is operated with feed water. This means that> wmi is an advantageous one 1. Boiling water reactor system with won in one execution, -as the otherwise complicated Pressure vessel below the water level of a 5 seals between "the circulation pump and its Reactor core arranged in the water space as well as; Drive can be omitted. The invention relates to a further development of the circulating pump, which is driven by a water turbine operated with feed water and has a system as its aim, which is simpler than the previous systems, characterized in that the water type, in particular in that a small turbine (14) is required on a number of nozzles on the pressure vessel, which is known per se, below the water level (5) in the pressure vessel. At the same time ■ the safety of the system (1), but practicing the reactor core (2) is increased by the elimination of nozzles, since the chen connecting nozzle (6) is arranged that particularly endangered bean is known in the nozzle of pressure vessels Drive shaft (13, 15 rich. A simpler 13 ', 31) for the circulation pump (4, 30, 40) through maintenance of the reactor and a simpler construction, the nozzle (6) is passed through, and that inside the pump to be possible. In particular, at least one duct maneuverability should be dispensed with within the nozzle (6) so that the pressure vessel (22, 37) for the introduction of the pressure vessel from the turbine must be completely emptied before the pump is removed.
(14) Leaving feed water into the water 30 The boiling water reactor system according to the invention, space of the reactor is provided through which this goal is achieved, is thereby 2. Plant according to claim 1, characterized in that the water turbine is connected to an in shows that the impeller (17, 38, 41) in a manner known per se below the water circulation pump (4, 30, 40) through the connection stub in the pressure vessel, but above the reactor core zen (6) can be expanded to the outside. 35 located connection piece is arranged that in 3. Installation according to claim 1, characterized in a manner known per se, the drive shaft for the shows that the connection piece (6) a Ka circulation pump passed through the connection piece nal (23, 32) for the supply of feed water in, and that at least one inside the nozzle the water space of the reactor bypassing canal for the introduction of auseder from the turbine Has turbine (14). 30 ting feed water into the water space of the reactor 4. Installation according to claims 1 and 3, which is provided. characterized in that the feed water of the In this context must be pointed out Circulating flow in the pressure vessel (1) will be within that there is, for. B. from the French patent the circulation pump (4, 30, 40) is added. Writings 1 525 013, 1 556 250 and the magazine 5. Plant according to claim 4, characterized in that it is known 35 »Atomic Nuclear Energy«, 3969, p. 153, indicates that the feed water ·· of the circulating flow drive shafts of impellers of circulating pumps is supplied in front of the pump impeller (17, 38). to pass through nozzles of pressure vessels, is mixed. However, I _n these cases is it's drives 6. System according to claim 5, characterized with electric motors, which include the aforementioned, that the circulation pump on the inlet 40 need adorned seals. side is provided with guide vanes (18, 34, 53), by the measure according to the invention, it is possible to open the outward into the flow rate with a minimum number of connection channels (21, 36, 55), which to the Get along with the socket on the pressure vessel. For the Annal (22, 37) for the supply of feed water propulsion turbines and their shafts can be closed. _{45 zen} can be used, which would otherwise be attached to the pressure vessel of the 7. Plant according to claim 4, characterized in that the reactor is provided for the supply of feed water shows that the impeller (41) are circulating. These are located above the reactor core and pump (40) with formed in the blades in the vicinity of the water level of the water space, Channels (42, 43, 44) is provided, the outward so that the thermosyphon effect of the colder food the flow stream open to the channel (22) 50 water can be used. For the circulation for the introduction of the feed water connected pumps results in the advantage that for one sen and are arranged so that they can be used to repair the turbine or the pump of the water formation a flow layer of feed water level just below the level of the circulation pump serve the surface of the shovel. needs to be lowered so that the reactor core 8. Plant according to claim 4, characterized by gekenra- 55 ter water can remain. The omission also adds that the feed water in the diffuser licher connection piece for the turbine plays a (47) the circulation pump (40) is introduced. significant role, since the connecting pieces with regard to their Manufacturing are expensive and areas at risk Represent pressure vessel, because they are complicated 60 states of tension exist and mostly only with The invention relates to a boiling water reactor which would require a great effort to control weld seams with in a pressure vessel below the water are required. The reactor arranged in the mirror of a water space- Preferably, the arrangement can be core and with at least one in the pressure vessel that the impeller of the circulating pump orderly circulation pump, which is expanded to the outside by a with feed 65 through the connection piece water operated water turbine is powered. can be. In particular, this It is essential to repair a circulation pump, as mentioned in the German interpretation 921 903 has been proposed, facilitated with a boiling water.