DE2054578A1 - Jacket and pipe heat exchanger for steam generation - Google Patents

Description

Description of the patent application

Combustion Engineering Inc., Windsor, Connecticut 06o95, USA

concerning

Shell and tube heat exchangers, for steam generation.

The invention relates to a shell and tube heat exchanger for steam generation through indirect heat exchange between a heating medium and a vaporizable liquid,

It has already been proposed to preheat the inflowing feed liquid in a jacket and tube heat exchanger by indirect heat exchange with a heating medium, which is passed through the tubes of the tube bundle it was the case with the previously known steam generators of this type. However, such preheating exposes those parts of the pressure vessel and the tube plate which are adjacent to the liquid inlet to the risk of considerable temperature tests, since these parts are at a high temperature when they are exposed to the come into contact with liquid at a low temperature

The invention is based on ede object, a device for use in shell and tube heat exchangers, by means of which the inflowing, at low temperature located, vaporizable liquid by indirect Heat exchange can be preheated with the heating medium, while 00 at the same time prevents the on deeper Ttmperatur · Liquid with the by thermal

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Load-endangered components of the steam generator comes into contact before they reach a high enough level for this Component is heated to a safe temperature.

According to the invention, this object is achieved by an im substantial cylindrical pressure vessel including a vapor generating chamber with an evaporator section; a bunch of through the steam generating chamber running heat exchanger tube a device sum Passing heating medium through the tubes; an opening in the wall of the pressure vessel for feeding vaporizable liquid located at a low temperature into the steam generation chamber ι and one in the steam generation «-» Chamber-arranged device for preheating the injected vaporizable liquid, with a chamber system arranged upstream of the evaporator section, which has the following components: baffles which delimit two concentric, annular passages and an inner chamber; a" Device, averaging their liquid from the opening with Distance from the wall of the pressure vessel to the inner, annular opening and then one after the other through the inner chamber and directing the outer annular passage; and one of the outer, ring-shaped passage with the steam «xv procreation chamber connecting device.

According to the invention, the vaporizable liquid is in a steam generator dee dumbbell and tube heat exchanger - j type preheated at the lower end of the tube bundle «Pie Front Izvor direction has a number of baffles, which are arranged so that the el η entering liquid directed upwards and with the drilling in an area above the bottom of the steam generating chamber for heat exchange brought us4, from where the liquid then along your downward in a winding flow path · The liquid flows back and forth over the tubes and is thus opened brought to a tolerable temperature before it leaves the preheating chamber and into the evaporator section of the steam

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oraeurjars occurs where it comes into contact either with the pressure vessel or the tubular plate, which would otherwise be exposed to dangerous thermal loads, _etc.

The economizer arrangement according to the invention for use in steam generators of the shell and tube heat exchanger types has the advantage that the incoming feed water is preheated by using it for indirect heat exchange brought to the primary potting agent flowing through the tubes becomes * The device according to the invention makes it avoids the inflow of cold feed water with components of the steam generator that are at a high temperature comes into contact before it has itself been heated to a tolerable temperature o

Further features and advantages of the invention emerge from the following description, in which an exemplary embodiment of the invention is shown in detail with reference to the drawing is described. It shows

Figure 1

an embodiment of a dumbbell and tube heat exchanger with an embodiment of the inventive Device in side view and

Figure 2

a section along the line II-II of Figure 1.

A steam generator 1o of the dumbbell and tubular heat exchanger type has a cylindrical which is elongated in the vertical direction Pressure vessel 12 on the top and / bottom of its opposite Ends with curved container hoods H and 16 is closed. Inside the pressure vessel 12 are in In the transverse direction, an upper and a lower tube plate 18 and 2o are arranged, which are one-sided with the container wall related and subdivide the interior of the container in axially spatially separated chambers, which as

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Heating medium inlet chamber 22, heating medium outlet chamber 24 and steam generating chamber 26 are designated »Sine number of straight heat exchanger tubes 28 through which the eluent flows eioh extends between the ear plates through the Steam generation chamber 26 and is connected to the heating medium inlet chamber 22 and the heating medium outlet chamber 24 * Ben chambers 22 and 24 are assigned inlet and outlet openings 3o, 32 through which heating means from a heating means * source (not shown) is passed through the steam generator *

The wall of the container 12 is at two axially spaced locations at 34 and 36 with a number of openings provided · The Dampfauelaeeaufnahme 34 eteht with the upper one Area of the steam generating chamber £ 26 in connection and serves to direct the steam generated in the steam generator to the point of consumption (not shown) with the lower area of the Chamber 26 are two openings 36 arranged at a distance from one another in the circumferential direction, via which the interior of the steam generator with a source of vaporizable Liquid (not shown) in communication.

According to the invention, a device is provided through which the vaporizable liquid flowing in at a low temperature is directed in such a way that it directly enters into a heat exchange relationship with the tubes Dampferieugersia comes into contact. The most important parts of the DaapferitugerSi which are protected against thermal stress are the lower section of the pressure vessel 12 and the lower tube plate 2o. The dedicated device tt "f" terfc a "VorbeiBkammer 4o which äueeeren from baffle ·» and an inner, cylindrical Bew to «« ordn "t" n _f bleoh 42 consists * 44 einechlieeeen an annular passage 4 '. As shown in FIG. 1, the ring-shaped "passage 46 is in a radial view outside the BöhrtnbUadel"

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arranged, while that area of the preheating chamber 4o, which is occupied by the tubes is referred to as inner chamber 48. Inside the interior chamber 48 is a Number of annular, transverse baffles 5o - 56 arranged, which determine the flow rate, the the liquid admitted into the chamber must pass " All transverse deflector plates 5o - 56 have openings through which the tubes 28 forming the tube bundle pass * The upper baffle plate 5o, which is also referred to as the cover plate, closes the inner chamber at the top the evaporator section attached to it directly at the top away. The lower baffle 52, also called the base plate, closes off the inner chamber at the bottom, but points a wide central opening 58 for the drainage of liquid. In the interior chamber 48 are the baffles 54 and 56 arranged to define a tortuous flow path so that the liquid flows across the tubes 28 « The baffles 54 are tight on their outer circumference the inner surface of the inner, cylindrical baffle 44 and have a central opening 6o for passage of liquid to · These baffles are arranged alternately with respect to the baffles 56, whose circumference with Spaced from the surface of the cylindrical baffle 44 so that the liquid flow in downward inverted direction alternating inwards and outwards duroh dl · inner chamber 4o.

The top and bottom of the annular passage 56 are while the above and below, transversely running baffles «5o and 52 are closed · In the outer, cylindrical one Baffles 42 are two circumferentially spaced apart arranged openings 62 are provided, which are in communication with heat shields 64, the ^ in the openings 36 to protect against contact with the incoming, temperature stresses caused by cooler liquids provided are «Aa upper end of the inner, cylindrical

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three baffles 44 are at 68 two opposing recesses elongated in the circumferential direction 68 are provided which, together with the cover plate 5o, form access openings which form the annular passage 46 connect to the upper end of the inner chamber 48.

As shown in Figure 1, the outer, cylindrical baffle 42 and the transverse bottom plate 54 are spaced apart from the inner surface of the pressure vessel »12 and the upper surface of the lower tube plate 2o. Through this are a bottom space 65 and an outer, annular flow passage 66 created, through which the interior of the preheating chamber 4o communicates with the evaporator section of the steam generator for the continuous, unimpeded flow of an evaporable liquid through the preheating chamber and into the evaporator section of the steam generator.

Near the top of the steam generating chamber 26 is at the steam generator described a deflection device with a deflector plate 68 · and transverse plates 7o, 72 provided, whereby the superheater section is formed. The transverse plates 7o and 72 are arranged in such a way that the fluid flowing out of the evaporator section is guided into the tubes 28, which pass through the superheater section. The cylindrical baffle 68 is concentrically spaced from the Arranged inner surface of the pressure vessel »12 and forms together with an annular bottom closure plate 74 a annular flow 76, which the superheater section connects to the steam outlet opening 34.

The device described above works as follows, Heating medium emanating from a source (not shown) circulates through the steam generator to, in succession through the heating medium inlet opening 3o, the heating medium inlet chamber 22, the heat exchanger tubes 28, the heating medium *

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Outlet chamber 24 and the outlet opening 32 flows therethrough. At the same time, low-temperature, vaporizable liquid through the opening 36 into the steam generator. The liquid flows through the from the inside of the heat shield 64 opening and then flows through the annular passage 46, which is formed in the preheating chamber 4o. Since the on lower Temejpratur located inflowing liquid through the Heat shield 64 flows into passage 46, it cannot come into contact with any of the various components of the steam generator come, which could not withstand this temperature stress · From the passage 46 the liquid guided through the recess 68 in the inner, cylindrical baffle 44 into the inner chamber 48. Inside the inner chamber 48 the liquid is directed downwards in a winding path formed by the deflectors 54 and 56, in the manner indicated by the arrow, transversely to the tubes 68 flows. As a result of the heat exchange with the fluid flowing in the drilling, the liquid becomes brought to a higher temperature. The temperature of the liquid is related to the saturation temperature brought to the inner kasnner 4o. From the lower central opening 58 from the inner cash register, the liquid flows into the floor space 65, from where it exits through the outer, annular flow 66 in the evaporator section of the steam generator and then gets into the superheater section. While the liquid through the evaporator and superheater section flows, takes away heat from the heating medium flowing through tube 28 on, whereby ei «i» evaporator section initially in Steam is converted, which is then superheated in the superheater section is, by Tom tTberheaterabohnitt outgoing overheated Saapf works through the annular throughflow 76 * ur steam outlet opening 34, from where it goes to its consumables is directed.

Becomes the inflowing, located at a low temperature

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Liquid passed through the preheating chamber 4o in the manner described, so it does not come with components of the Steam generator, in particular with the pressure vessel 12 or the Höhrenplatte 2o in contact, before its temperature has been increased so far that no unacceptable temperature stresses occur in the steam generator. The hot chamber 4o therefore gives the possibility of feeding liquid that is at a low temperature directly into a steam generator of the shell and tube heat exchanger type, in which they are through indirect heat exchange with that of the tubes heating medium flowing through is heated. The heat exchange surface in jacket and stirred heat exchangers can pass through this to be better exploited,

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Claims (10)

Claims Jacketed and tubular heat exchangers for generating steam by indirect heat exchange between a heating medium and a vaporizable liquid, characterized by an essentially cylindrical pressure vessel (12) which has a steam generating chamber (26) with an evaporator from υ: ϋ ·. jclil ". .-. ,,: j; an iündtl of heat exchanger tubes (28) running through the steam generation chamber (26); a device (22, 24, 3o, 32) for passing heating medium through the tubes (28); an opening (36) in the wall of the pressure vessel (12) for feeding vaporizable liquid at a low temperature into the steam generating chamber (26); and a device (4o) arranged in the steam generating chamber (26) for preheating the injected vaporizable liquid, with an upstream The chamber system arranged in the evaporator section, which has the following components: baffles (42, 44) which delimit two concentric, annular passages (46) and an inner chamber (48) J a device (50 - 56) by means of which liquid is removed from the opening (36 ) is passed at a distance from the wall of the pressure vessel (12) to the inner, annular passage and then successively through the inner chamber (48) and the outer annular passage (46); _{and a device (66) or the like} connecting the outer, annular passage (46) to the steam generating chamber (26) Shell and tube heat exchanger according to claim 1, characterized characterized in that the chamber system (48) has the following components: Two concentrically arranged, in Axially extending, cylindrical baffles (42, 44) which together with the inner surface of the pressure vessel (12) form the concentric, annular passages (46); a laterally extending baffle (5o), which the inner passage and the inner chamber (48) closes off at the top; and a device with an opening (48, 6o) 10 9 8 3 0/1169 ^BAD ORiQWAL ~ ² ~ 20S4578 in the inner, cylindrical baffle, through which an exchange of fluid between the inner passage and the inner chamber (48) can take place. Shell and tube heat exchanger according to Claim 2, characterized marked that the opening f6o) in: inner cylindrical Deflector plate (44) was located at the upper end thereof 4ο jacket and tubular heat exchanger according to claim 3, characterized by a number of transverse baffles (5o-56) within the inner chamber (48) through which the vaporizable liquid flowing through is directed transversely to the tubes (28) " 109830/1159 Blank page