CS223167B1 - Level of the blocking condenser of location of the crash of the nuclear power plant with water-main reactor - Google Patents

Description

The invention relates to a barbotage tray. lo capacitor system ^to alizace hav ^ K pithy power of the water reactor and RES ^I Questions techmc ^{y Ké} innovation that ^h oto ^to children ⁱⁿ it ^eh zanzení of security. ^You n and ^l ez ^sky after Herein besides improving overall ^é e ^f e ^{k b} trades bar rpm ^until nibo condenser ^and odpovtoajto US ^beta or ^gamma konstrukčmho material shrinks during the raanosti ^{p h} o výrot) and of Montis.

Dosavadrn state 'techn.i ^{alkyl Pla t} me ^d Joint zanzern AN ^d is ^d at ^the owls. VYN ^and lesions protected in Czechoslovakia's certificate No. 177 3 & 8, partly project documentation standard nuclear power plant with two waterwall reactor ^{characterized} by elelktrickiém above ^for one 2X440 MW secondly other drawings the substrate of structural completion bubbler condenser as well as the detailed construction technology to ^the umentac ^í čs. ^b annual CE ^that zajtéťuje first 'Tealizacr this -unikátního' and 'in' essentially ^{of p} rotot ^yp b ^s pressure side.

Bubbler condenser is in principle formed by a multistage system of steel prismatic I-section beam on which are mounted ^d va with ^Y ST ^E m ^{y pl} ec ^h ovýc ^H from ^L Abu from which the lower trays are stored on such nosnícmh are ^pl NEN ^y water and it -rrn troughs _ or. . hats are _. . turned the days up. In doing so, each upper trough extends into two adjacent troughs, forming together a low pressure 'water' seal. Above the troughs of each ^p atra formed Hermo ^ a metal cabinet or chamber whose ceiling is attached to the lower flanges of the upper floor beams. The entire barbotage capacitor is located in a tower or shaft, which is the end of the hermetic ^{seals , the} so-called prvrnho space. ^NTERNAL space ^Y zmínénýc ^h cabinets are ^p Ojen ^y hermetically, ie. The second space, which is formed near the shaft ^cA Square. first space.

Functional description and other technical parameters of the device are known from the literature. The hitherto contemplated embodiment of the barbotage condenser tray, which is characterized by a completely rectangular geometry of its cross-section, which is due to the use of pneumatic beams, is not to be realized hydraulically and hence thermally or thermally functionally optimal geometric solution, which is a significant disadvantage of the prior art barbotage capacitor trays.

^A MOUNT mentioned drawbacks ^h o ^d and is removed at the floor of the bubbler condenser according to the present invention which consists in that the storey beams lattice type or plnostěnného lightweight type, are carried ^d en ^y as asymetnc ^ with ^p ROM, ^e nnou elevation, ie . having straight but sloping lower sides ^or flanges nosnfcy to ^Tory is pHpevněna same ^E and ^the MO ^KL one ^of the upper or ceiling wall of the housing, wherein the largest ^to onstru ^to protrude ^TX k of the beam, or if ^h is the lowest site ^is in btíztosti ^BC EDM Stony housing to which is connected a water scavenger which is provided with a discharge pipe for connecting the water scavenger onto the connecting ^p abrasion ^{is running p} or passively ^h os ^p n ^h s ^eh of subsystems and which in ^yt vario along with ^ my ceiling wall of the cabinet collecting-volume for catching all the water from the nearest upper floor of the barbotage capacitor.

Charaktcri-st ^ ou tec ^h mc ^to EHO progress of the ^lecture object ^{ive out of five} in Nym ^y n ^and lesions are the following advantages. Using the new floor is increased 'efficiency bubbler condensate ^BC Included within the scope ^width m Zach ^ enrn pra ^{Tic alkyl} in the ^school ns water ^yp smoked ^é that ^Z and ^tBu, and ^which just ^Psi disintegration of the water into droplets instead of strands, by means of upwardly oriented low pressure or ^to nízkonáporových bezvlož s ^.gamma.CH nozzles čtaž '. d ^AL e ^also occurs ^for e increase the residence time of drops of water in the first space, i.e. to increase the time of interaction of water from the gutters pohavarijním environment of the first chamber and by the cascading of the water maiden ^p t ^y trolled tr ^y with ^the amino ^p res rnžší ^p atra of the barbotage capacitor.

This sJkuteraost: Total change ^that enables m Mrbotérntoo tontenzátory i.e. the changes ^are the ^Pooh dor ^y snýc ^h Dimensions a / ^b not to reduce the "number of the plates, or the total height barbotážnteo condenser. For the second glued ^to U is ^to ontmuita ^p Ruto ^to u st ^p l ^y new mixture ^of a barbotemtím ^to ondenz ^á tor ^whose M ^F with pon ^Ek U ^D becomes uniform ^p Ruto ^to b ^s and hence the power ^P Omer ^{characterized} in chat baiteotíižmm tontenzátory especially ^E on when ^d ruhý ^p free space only implemented as one large volume, or as a system of smaller ^p ro ^p ojenýc ^¼ volume ^{Z 'as the} RT ⁱ i decreases vtestní bubbler space - i.e. the space bounded wardrobes and gold which the advantage is ^{n e} s ^p o ^h Mediska avarijní - hydrogen problems because 'the conclusion of the first subspace is practically' no Ostu ^{d p} Nu deployment recombinant zanzern for reducing the hydrogen concentration 'in pohavarijním environment' of the first compartment. ^Z and ^d čtertó OCH ^and z ^{i k u for the} spores ^to onstru protrudes ^h of material, both to lower primary, are exercised as ^{to be} n ^Y abovementioned option duties ^to reduce b ^{s b} r ^b otážního ko.ndenz ^and Toru, as well as secondary savings, which are obtained by lowering the front wall of the housing and switching to a non-prismatic type of beams, the material of which is known to be better utilized. ^AP ^ y ^p Shui poorly to ^{s p e} ^ rostorov dmínky; especially for demanding construction work, as well as for future operational inspection and repair, which I ztepmje ^the RTA ^{l l} izovate ^{the company,} and maintainability ^^ otéžmho capacitor. ^Z and ^Sixthly, the opened and now the gradual ^{y p p} atrový ros'tor pos! K ^y te Herein ^{dogs ky p} rewards for addressing workplace ^W ORK ^Cart Mounting ^mainly SOLUTIONS ^ rn otóz ^k y ^p sucked out of the boat. n ^p n welding. ^Z and seventh, reducing the overall dimensions of the bubbler condenser can also be a corresponding reduction in volume of the tower and the shaft in which ^{E b} r ^b rt ^and changes condenser umístey leading к certain reduction of the entire first compartment, possibly к slight reduction in the second space and thereby to reduce the cost of this special and also hermetically sealed construction part of the reactor plant, or the main production unit of a standard medium-sized nuclear power plant.

The drawing schematically shows a vertical cross-section through a shaft condenser shaft along with two adjacent levels of this important operational safety device. The lower half of the figure shows a tray solution using a truss-type beam, while the upper half of the figure shows a tray mounted on a solid lightweight beam. The figure shows only the main equipment of the illustrated part of the emergency location system.

The trays are disposed in a first space 2 defined by a hermetically sealed casing 1, which is formed by a reinforced concrete wall, the inner surface of which is covered with steel sheet. Beams 39 are supported on the abutments, which carry both a set of troughs 11 and cabinets 13. The troughs 11 form water closures or the bottom of the barbotage space itself, while the cabinets 13 define this space at the top and sides. Optionally shaped water traps 31 are also connected to the housings 13, which together with the ceiling of the housing 13 create catching volumes 40, the size of which roughly corresponds to the volume of water discharged from the nearest upper floor during an accident. The water catchers 31 are provided with outflow throats 41, by means of which the catching volumes 40 are connected to the connecting pipe 28, which is inter alia connected to the nozzles 27 of the passive local shower system, possibly via return valves (not shown).

In the design of the water trap 31 according to the upper embodiment, it is expedient to supplement the barbotage condenser level with an additional water trap 42. Downstream of the first space 2 is also symbolically represented the second space 9, which is intended for post-accident concentration of a considerable part of air or non-condensing gases from the first space 2, in which the post-accident pressure is thereby substantially reduced. The function of the tray shown is identical to that of the prior art barbotage capacitor design, so it is unnecessary to describe it since it is well known in the literature. It can only be noted that the additional water catcher 42 returns the portion of the water dispersed by the nozzles 27 to the catchment volume 40 of the lower level, which flows down the outer surface of the front wall of the housing 13, thereby increasing water interaction with the post-emergence environment.

As an example of the application of the present invention, it has been contemplated that an innovated tray be applied to the barbotage capacitors of the MS. owl nuclear power plants. concept, where each power plant has two water reactors with electric power of 2X440 MW. The dimensions of the barbotage condenser shaft are: length 39 meters, width 8.55 meters, so the floor area is 333.45 m ² . The shaft height is 41.9 m, which means that the volume of the shaft is 13,972 m ³ . In this shaft there is a twelve-storey barbotage condenser, whose ground dimensions are 34 m and 7.25 m. The height spacing of the floors is usually 3.37 m. Instead of the previously designed and already realized prismatic beams of profile I with a height of 600 mm which are formed of rolled sections and / or seamless tubes, whose end upright plates are also 600 mm high, the maximum height of the new beam being assumed to be about 1,8 m and the height of the water trap about 1 m, so that the remaining free height for mixture is 800 mm instead of the original 600 mm. At the same time, the trapping volume of the palate is in the range of 90 to 100 m ³ , which ensures that virtually all water escaping from the gutters of the upper palate is collected. The above-mentioned geometry of the barbotage capacitor tray is approximately shown in the enclosed drawing at a scale of 1:50. In conclusion, it can be assumed that after the structural refinement of the tray in terms of its innovation according to the invention both in CSSR and abroad. It should also be emphasized that the advantageous design of the storey with the inclined inclined ceiling wall of the cabinet and the increased water trap can be realized using existing prismatic beams by suspending both the ceiling wall of the cabinet and the water trap onto these prismatic beams by vertical bars and low L-shaped reinforcement profiles. T when cooked from above in the direction of the slope lines to the ceiling wall of the cabinet.

Claims (1)

SUBJECT The barbotage condenser floor of a nuclear power plant with a water reactor consisting of a system of beams with two trough systems, where the lower troughs are filled with water and the upper troughs are turned upside down to form low pressure water closures together with a enclosure that delimits the end part of the first space has its own barbotage space and which consists of an upper or ceiling wall attached to the lower flanges of the upper floor beams and a vertical front wall provided with a perforated water catcher only part of the upper floor water, of the lightweight type, they are shown asymmetric with variable height, ie with straight but inclined lower sides or flanges of beams (39), to which the same inclined top or ceiling wall of the cabinet (13) is attached, p wherein the greatest structural height of the beam (39), or its lowest point, is near the front wall of the housing (13) to which it is attached from, a water catcher (31) provided with spouts (41) for connecting the water catchers (31) to a connecting passage (28) of the passive shower subsystem, which together with the inclined ceiling wall of the housing (13) forms a catch volume (40) for catching all water from the nearest upper level of the barbotage condenser.