DE1932538A1 - Pipe passage construction - Google Patents

Description

Patent attorney * - ■ -. / -. - ^ srlin, den? rVS, i9

1 Berlin 55 (Grunawaid)

Waagner-Biro '· Aktiengesellschaft in Vienna

1051 Vienna, Margaretenstrasse TO;

Pipe passage construction

The invention relates to a pipe passage construction in particular for steam generators in nuclear plants, where the Connecting pipes or the actual heat exchange pipes in tube plates flow out.

The invention is characterized in that the 'tube plates are arranged between the primary and secondary pressure barriers and at least partially form parts of the primary and secondary pressure barriers. connected _f which are not necessarily gas-tight _s but slidable, are combined with the tube plate. The tube plates, on the other hand, are connected to the primary pressure barrier © by means of a tube © gas-

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tightly connected, with these tubes near the tube plates have a larger diameter than when passing through ' the primary pressure barrierβ the pipes between the primary and secondary pressure barriers are particularly straight, so that in the event of damage the connection points are easily accessible by means of a decoupling machine

The invention is in the Figur.Example and shown schematically. The figure shows a heat exchanger in Cut"

The heat exchanger shown in elevation in the drawing is designed for nuclear purposes The invention

* dung is not restricted to this area »it can too in chemical plant engineering, especially in the petrochemical industry. The heat exchanger shown is as steam « generator and has a primary and secondary Pressure barrier 1 and 2. The actual heat exchanger tubes or * the tube bundles 6, 7 and β are schematized in the figure shown. The tube bundle 6 is used to preheat the liquid and optionally for their evaporation, while the tube bundle 7 is used to superheat the generated steam. The tube bundle 8 serves as an intermediate superheater, with the presence . several tube bundles is not essential to the invention. The one or The duct of the gaseous medium exits into the Vi heat exchanger is-marked 9 »The channel 9 connects in this Ausfü-i

ψ tion of the heat exchanger with the reactor, not shown, the gaseous medium fills the entire interior of the heat exchanger. It penetrates through licking e ^^^^^ in the secondary pressing barrier 2j which through the connectors 5 of the tube plates J with the secondary pressure barrier 2 are caused, even in the space between the primary and secondary Druekbarriere "The division into primary and secondary pressure Barrier © has the purpose that in the event of a rupture of the primary pressure barrier 1, _ ■ in particular the cover of the heat exchanger, not; an immediate escape of the gaseous medium into the space around the heat exchanger enters »in the event of a break in the primary

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ORIGINAL BATHROOM

pressure barrier 1 takes over the secondary pressure barrier 2 Tasks of the primary pressure barrier at least until the hot gas source is separated from the heat exchanger or the reactor has been turned off ·.

At the primary pressure barrier 1 are connection, pipes 4 arranged on the pipe plates 3, which are gas-tight are executed and optionally, especially when a hot medium is passed through, with thermal insulation 15 are provided. These pipes 4 have at the junction " on the tube plate an enlargement of the diameter, so that through the tubes 4, which preferably run straight, a stopping machine can be introduced, which closes the damaged pipe in the pipe plate 3, 'so that the corresponding pipe or «the pipe coil is no longer from the cooling» medium flows through »In the tube plates 3 are the tubes the tube bundle 6 to 8 welded in * The connecting pipes 4 are thus the actual collecting chambers, which collect the medium conducted in the tubes and pass through the primary Guide pressure barrier 1 through. Outside the primary pressure barrier 1, the connecting lines 11 and 12 then close essentially at right angles to the axis of the connecting pipe solutions 4.

As a result of these measures, the tube plates are light accessible, so that a stopping machine can reach the tube plates 3 after the closure plates 13 and 14 have been removed and if necessary, closes a damaged pipe string.

The central collecting chamber in the heat exchanger has a slightly modified design »Here is the tube plate 3» into which the heat exchanger tubes are rolled, clearly a Part of the primary pressure barrier, while a second tubular plate-like plate 18 forms part of the secondary pressure barrier forms. The plate IS has a number of holes through which the heat exchange tubes 6 are passed through »also

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there are gaps here, so that if the primary breaks Pressure barrier, the hot gaseous medium can only escape slowly. In this construction there is also a catching cylinder 16 provided, which is firmly connected to the secondary pressure barrier and with the primary pressure barrier 1 by a Bolt-elongated hole connection 17 is connected.

The collector 4, especially those through which a hot medium is passed, point at their point of passage through the primary pressure barrier 1 via se lifting tube (heat traps) 19, so that in the primary pressure barrier only a small Heat dissipation takes place.

The plug connections 5 of the tube plates 3 with the secondary pressure barrier 2 allow free expansion of the Collectors and prevent additional stress on the secondary pressure barrier 2 from thermal stresses. That’s exactly how it will be as a result, the primary pressure barrier 1 is less stressed due to uneven Vi poor tensions. For the plug connection 5 Piston ring seals are advantageously provided. Xn of the innermost connecting pipe 4 is generally the cold feed water is supplied to the heat exchanger designed as a steam boiler, which is evaporated in the heat exchanger without being led out of the pressure vessel. The connecting pipes 4, especially those that form the outlet plenum chambers or in those into which steam is directed are to be avoided of heat losses between the primary and secondary pressure barriers provided with an insulating jacket 15 «

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Claims (7)

P ate η ta ή s ρ r ü ehe; Pipe passage construction for heat exchangers, in particular for steam generators nuclear ** systems) where the connecting pipes or the actual heat exchange pipes open into pipe plates, characterized in that; the tube plates (}) between? the primary and secondary pressure barriers (1, 2) are arranged and at least partially form parts of the primary and secondary pressure barriers (Ij 2). 2. Rohrdürchtrittskonstruktion according to claim I _1, characterized in / that the tube plates (3) through pipe sockets. (15) are connected to the inner cover (2) of the secondary pressure vessel of the secondary pressure barrier, which are not necessarily gas-tight, but can be slid together with the tube plate 37. 3. RohNturchtrittskonstruktion according ^Anspruch'1,: characterized gekennzeie & _r net that the tube plates (51 with the primary pressure barrier Cl) gas-tightly connected by means of tubes ¹ (U), 4 · Roiird passage structure according to claim 3 »characterized in that the pipes (U) in the pipe plates (3) have a larger diameter than when they pass through the primary pressure barrier (1). 5 * pipe duct construction according to claim 3 or 4 »characterized in that the tubes (4, 15) between the primary and the secondary pressure barrier (-1 ^ 2) straight * linear « 6. Pipe passage construction according to claim 1> characterized in that the primary pressure barrier (U) is connected to the secondary pressure barrier (2) by a catching cylinder (16), the connection of which with the primary pressure barrier (1) via a longitudinal hole ^ Bol2en "Connection -" (17) 'takes place. "-." - .. ■ "■ & Ö9885 / ti 1t .: 7. ROhrdurGhtrittskonstFuktlon according to claims 3 to 5, characterized in that the tube (4) between the primary and secondary pressure barrier (1, 2) against Heat losses are insulated . ν β. Tube passage construction according to claim 1, characterized in that the innermost tube bundle of the heat exchanger starts from a tube plate (3) which belongs to the primary pressure barrier (1) alone, and then through ■ a tube plate (lö) can be passed through with play, which forms part of the secondary pressure barrier (2).