DE1196667B - Vertical waste heat saturated steam generator with field pipes - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. α .:

F22c

German; 13 g-3/01

Number:
File number:
Announcement date:
Display day:

1196 667
M 418741 a / £ 13
June 19, 1959
15th Wed 1965

The invention relates to an upright waste heat saturated steam generator, the heating surface of which is perpendicular downward into a pressure-resistant jacketed boiler room, in two tiered tube sheets fixed field pipes is formed, with a feed pipe and facilities for drying and Removal of the steam in the headspace of the pressure vessel.

Waste heat saturated steam generators of this type are already known. However, they have the disadvantage that the Water recirculation is not required for the safety of the operation of such saturated steam generators It is always guaranteed that the water from the feed water area via circulation pipes to the boiler pipes Field pipes and water entrained by the steam from the pressure vessel back into the feed water space returns.

There are also standing waste heat steam generators with standing field pipes and hot gas heating to utilize the waste heat of a cooling circuit led out of a nuclear reactor known.

It has also become known in steam generators to separate steam from carried water, to arrange flat or funnel-like inwardly inclined sheets in the path of the steam which the carried water condenses.

The aim of the invention is to create a waste heat saturated steam generator which has the disadvantage of the known Saturated steam generator does not have and, moreover, by a complete return of the from Steam entrained water in the feed water space an effective evaporation of the whole Feed water causes.

According to the invention, this is the case with a standing waste heat saturated steam generator, the heating surface of which through vertically downwards into a pressure-resistant jacketed boiler room, arranged in two steps Tube sheets attached field tubes is formed, with a feed tube and facilities for Drying and removal of the steam in the headspace of the pressure vessel achieved in that the upper Tube sheet is supported on the lower tube sheet and at its edge tightly with a cylindrical Guide jacket is connected, which is an annular between itself and the jacket of the head space Riser channel forms which is in communication with the space between the two tube sheets that in Cladding of the head space a collar is attached, the upper part running radially, part parallel to the mantle The end of the guide jacket engages around and so forms the end of the riser channel and that the feed pipe of Standing waste heat saturated steam generator with field pipes

Register

Mitchell Engineering Limited, London

Representative:

Dr. A. Mentzel, patent attorney,

Refrath near Cologne, Frankenforst 137

Named inventor:

Harold John Coles,

John Mackintosh Sutherland, London

Claimed priority:
Great Britain dated June 19, 195S (19 683),
dated June 15, 1959

Coming at the top, dips into the opening of the collar and into the one enclosed by the guide jacket Space opens.

By the arrangement according to the invention, in particular by the riser channel and with this connected space between the tube sheets, the water to be evaporated is already in the space enclosed by the guide jacket and in which the superheated steam also flows around Inner tubes of the field tubes partially evaporated, whereby the heat of the guide jacket, the upper tube sheet and the inner tubes the temperature difference between these parts and the hotter ones Outer tubes of the field tubes decreased, so that the intensity of the cooking and thus that of the steam the amount of water carried is small. The non-evaporated water that is still carried along by the according to the invention arranged in the guide jacket openings and caps in the guide jacket enclosed space and thus fed to a new circulation through the field pipes. The inventive Waste heat saturated steam generator enables an effective transfer of the water in steam. This advantage and the high degree of heat transfer characterize the invention Waste heat saturated steam generator compared to the known facilities.

Further features of the subject matter of the invention are based on the drawing, which shows an embodiment of a waste heat saturated steam generator, explained in more detail.

509 600/85

In the drawing shows

Fig. 1 is a vertical section through the waste heat saturated steam generator,

FIG. 2 shows a detail of FIG. 1 in a larger scale Scale, F i g. 3 shows a section along line 3-3 in FIG. 1.

The waste heat-saturated steam generator shown is used to generate steam from water through heat exchange with steam that has arisen in the primary cooling circuit of a nuclear reactor.

The evaporator of the waste heat saturated steam generator is located in a lower pressure-resistant housing 10 made of soft steel with a stainless steel lining and the evaporation part in an upper housing 12, which is also made of soft steel. Each of the two housings consists of a base 10 a or 12 a, a cylindrical jacket 10 b or 12 b and a flange part 10 c or 12 c, with which the two parts are connected to one another by bolts. The weld seams of the housing 10 and 12 are denoted by 13.

The two housings 10 and 12 are with their flanges 10 c and 12 c with the interposition of a tube sheet 14, and this connection is made by a series of bolts 15 with screwed nuts 16 causes.

The tube sheet 14 is provided with a large number of bores serving for receiving tubes, into which the ends of tubes 17 (field tubes) made of stainless steel extend. These tubes are fixed by brazing or welding in the bores, with their upper ends with the upper surface of the tubesheet (g Fig. IB and F i. 2) 14 are aligned and extend downward to near the bottom of the lower end of the shell 10 b of the housin uses 10. The upper ends of the tubes 17 are open, while their lower ends are closed, so that the interior of the tubes is only in communication with the interior of the housing 12.

The tubes 17 are surrounded by a cylinder jacket 18 which is spaced apart from the housing 10 by a fixed approximately in the middle of the length of the cylinder on this and on the housing 10, im Cross-section U-shaped spacer ring 19 is held in place. The ends of the cylinder jacket 18 are at a distance from the tube sheet 14 and the floor 10 a of the housing 10.

A heating steam inlet pipe 20 is attached to the housing 10 immediately above the spacer ring 19 and opens into the space 21 between the housing 10 and the cylinder jacket 18. This Space contains above the spacer ring 19 a number of catalysts 22, for example from a with Composed of platinum-coated granular goods. Dissociated hydrogen and oxygen in the incoming Steam is recombined as it passes through these catalytic converters 22. In the bottom 10 a is an outlet pipe 23 for the condensate is present.

The headspace in the upper housing 12 contains a guide jacket 24 (FIG. 1) extending from the Tube sheet 14 extends upward over part of the length of the headspace. This guide jacket 24 carries a tube sheet 25 in a a small distance above the lower end of this jacket. The tube sheet 25 is with a row Provided bores which are axially aligned with the tubes 17, and in each bore one sits on his Ends open tube 26, the upper end of which is flush with the top of the tube sheet 25 and that is extends downward into the respective underlying tube 17 (FIG. 2). The guide jacket24 and the Tube sheets 25 together form an insert container 28 which is fed with water via a feed tube 30 will. The feed tube 30 is carried by the bottom of the housing 12. The space 29 α below the tube sheet 25 is above breakthroughs

30 a in the guide jacket 24 with the riser channel

31 between the guide jacket 24 and the housing 12 in connection.

In the housing 12 in the space above the upper end of the guide jacket 24 is an annular one Collar 32 attached, the inner edge of which is bent downwards and into the upper end of the guide jacket 24, at a distance from it, protrudes.

In the guide jacket 24 openings are distributed in a ring shape over its wall in several floors 33 is provided above the end 29 of the feed tube 30, and each of these openings is provided in the interior of the guide jacket 24 with a cap 34 that is open at the bottom.

In the bottom 12 a of the upper housing 12, an outlet pipe 35 is used. This pipe protrudes down into the larger diameter part of a funnel 37 and in the annular space between the pipe 35 and the funnel 37 are a number of vortex plates 36. The lower end of the funnel 37 is very narrow and extends tubularly downwards to the vicinity of the end 29 of the feed pipe 30.

In operation, the primary steam, which can be wet, dry or superheated steam, is the Pipe 20 fed from where it flows up through the space 21 and the catalysts 22. here dissociated hydrogen and oxygen are combined again. Then the steam flows downwards within the cylinder jacket 18 around the outer surfaces of the field tubes 17, where it passes through them Heated pipes flowing water. The steam condenses here and the condensate leaves Housing 10 through the outlet pipe 23.

The feed water is introduced through the pipe 30 into the container 28 so that the water level below the openings 33, but above the pipe end 29 and the lower end of the part 37 α of the Funnel 37 remains. The water of the container 28 flows down through the tubes 26 and then back up through the annular gap between the tubes 26 and 17, where it is heated and evaporated will. The steam generated in the field tubes 26, 17 flows into the space 29 α, through the openings 30 α in the riser channel 31 and from there around the annular collar 32 and through the openings 33 in FIG the upper part of the housing 12. The collar 32 and the shielded openings 33 effect a Separation of the water still present in the steam, and the separated water flows into the container 28 return. The steam then flows to the outlet pipe 35, to be precise between the vortex plates 36 through; Any water remaining in the steam is separated out and flows downwards funnel 37 into container 28.

Claims (4)

Patent claims: 1. Standing waste heat saturated steam generator, the heating surface of which by vertically downwards into a Pressure-tight jacketed boiler room protruding field pipes fixed in two stepped pipe sheets, with a feed pipe and devices for drying and discharging the steam in the head space of the pressure vessel, characterized in that the upper tube sheet (25) is supported on the lower tube sheet (14) and is tightly connected at its edge to a cylindrical guide jacket (24) which between itself and the jacket (12 b) of the head space forms an annular riser channel (31) which is in communication with the space between the two tube sheets that in the jacket (12 Z?) Of the head space a collar (32) is attached, which partially radially, partially extending parallel to the jacket engages around the upper end of the guide jacket (24) and thus forms the end of the riser channel (31) and that the feed pipe (30) of Coming at the top, it dips into the opening of the collar (32) and opens into the space enclosed by the guide jacket (24). 2. Waste heat saturated steam generator according to claim 1, characterized in that the guide jacket (24) distributed over its circumference and arranged in rows openings (33) which above of the level of the outflow (29) of the feed pipe (30), and that of the guide jacket (24) downwardly open caps (34) for each opening (33) one in each case, projecting obliquely downwards inwards. 3. Waste heat saturated steam generator according to claim 1 or 2, characterized in that the devices for drying and discharging the steam from the head space of the pressure vessel from its upper floor (12 a) into this protruding tube (35), one with its upper, further part (37) with the tube (35) Distance surrounding funnel, the conical part of which is inserted into the guide jacket (24) enclosed space protruding tube (37 a) is extended, and one in the space between the tube (35) and the funnel part (37) arranged ring of vortex plates (36) include. 4. Waste heat saturated steam generator according to one of claims 1 to 3, characterized by a the tubes (17) surrounding, spaced from the jacket (10 b) arranged cylinder jacket (18) and a spacer ring (19) attached to the housing (10) and in the Annular gap (21) between the housing (10) and the cylinder jacket (18) above the spacer ring (19) arranged catalyst cushions (22). Considered publications:
German Patent Nos. 62 911, 141250;
French Patent No. 797 552;
Power magazine, February 1958, p. 83, image 6. 1 sheet of drawings 509 600/85 7.65 © Bundesdruckerei Berlin