EP1561911A1 - Steam turbine with steam bleeding occuring at the stator - Google Patents

Abstract

Steam turbine arrangement comprises taps formed by openings (154, 254) arranged in the region of blades (142). Preferred Features: The openings are arranged in the region of the turbine housing wall (38) supporting the blades. The openings are arranged between two blade foot profiles and are round, oval, square or slit-like.

Description

The invention relates to a steam turbine plant comprising a preheating section with at least one preheater for a Steam generators, such as heat exchangers, steam boilers or the like. feed water to be supplied, one of the preheating section and the Steam generator downstream expansion area in which attached to a turbine housing or vane carrier stationary vanes absorb the steam on a turbine shaft attached rotating blades direct and the steam relaxed at the turbine shaft work, and with Taps in the expansion area for the return of steam high temperature in the preheating section.

Such steam turbine plants are known to the applicant. The pipe of high temperature steam from the Expansion area in the preheating section is used for optimization the steam cycle, d. h., To increase the efficiency the steam turbine plant. The tapping of the steam higher Temperature is happening so far from openings in the housing wall between the individual stages, d. H. in a shovel-free room. This is disadvantageous, as the shovel-free space, the for the tap must be provided, the Length of the turbine increased. An increase in the length leads to increase the cost of materials and to increase the Load of the material. Another aspect yields from the service business: modifications and upgrades of Existing facilities often result in the problem that the new Design must be adapted to the existing length, especially if z. B. reaction stages in a Equal pressure design must be fitted.

The object of the invention is therefore the previously known type modify the tapping construction such that a reduced length results.

The object is achieved according to the invention that the Taps are formed by openings in the area of Guide vanes are arranged.

By shifting the tap in the area of Guide vanes results in a reduction in overall length. This is advantageous in that as a more compact design and thus u. a. the desired cost reduction results. One special advantage is also, as sought in the Service business achieved because of a modification and a Upgrading existing assets is easier. This This is because the new design is shorter and therefore can be easily fitted into an existing length. Maybe even more benefits can be realized, is An increase in efficiency thereby possible that at shortened axial distance and reduction of the boundary layer in the Extraction area lower wall losses and secondary flow losses occur.

According to one embodiment of the invention, the openings in the area of a bearing the vanes Turbine housing wall arranged. Alternatively, the Openings in the area of the vanes bearing Guide vanes are arranged, provided the vanes not on a turbine housing wall but on Guide vanes are arranged. According to yet another Alternatively, the openings in the area of a Be arranged guide vane bearing blade root. In all Cases results in the desired shortening of the overall length.

It is particularly advantageous if the opening respectively is arranged between two blade root profiles. there The openings may be angular, round or oval, or too have a comma-shaped configuration. Other geometries, z. As slots are possible.

It should be noted that the openings are equally for Zudampfleitungen or drainage instead of taps can be used.

The invention will become more apparent from exemplary embodiments explained, which are illustrated in the drawings.

Fig. 1

eine schematische Darstellung eines Dampfkreislaufes, bei dem Dampf hoher Temperatur aus dem Expansionsbereich in die Vorwärmstrecke geleitet wird;

Fig. 2

in einer axialen Teilschnittansicht eine Turbine, bei der die Anzapfungen in herkömmlicher Weise verwirklicht sind;

Fig. 3

eine vergrößerte Darstellung eines Teils der Fig. 2;

Fig. 4

eine radiale Schnittansicht durch einen Abschnitt der Gehäusewand, die die Leitschaufelreihe trägt; und

Fig. 5

einen Gehäusequerschnitt entlang der Schnittlinie V-V der Fig. 4 zur Darstellung der zwischen den Leitschaufeln angeordneten möglichen Querschnitts-Formen von Anzapfungsöffnungen.

It shows:

Fig. 1

a schematic representation of a steam cycle, is passed in the high-temperature steam from the expansion area in the preheating section;

Fig. 2

in a partial axial sectional view of a turbine in which the taps are realized in a conventional manner;

Fig. 3

an enlarged view of a portion of Fig. 2;

Fig. 4

a radial sectional view through a portion of the housing wall, which carries the vane row; and

Fig. 5

a housing cross-section along the section line VV of Fig. 4 for illustrating the arranged between the guide vanes possible cross-sectional shapes of tapping openings.

In Fig. 1, a steam turbine plant 10 is schematic illustrated, comprising a preheating section 12 with at least a preheater, here a total of six preheaters 14, 16, 18, 20, 24, 26 to a steam generator 11, such as heat exchangers, Steam boiler or the like to be supplied feed water (condensate) preheat, thereby optimizing the steam cycle. With 22 is designated a feed water tank / degasser. Of the Preheating section 12 and the steam generator 11 is a Expansion area 30, 32 downstream, which is the actual Turbine arrangement with z. A high pressure turbine 130, Medium pressure turbines 132 and low pressure turbines 232, 332 See also the turbine cross-section of FIG. 2 and Fig. 3. The turbines comprise a common turbine shaft 34, for example, an electric generator 36th drives. The turbine housing 38 or a connected thereto Guide vane 40 carries stationary vanes 42, the the steam supplied at 44 on the turbine shaft 34th attached rotating blades 46 are directed, wherein the steam is released to the turbine shaft 34 giving off work, ultimately at 148 then discharged to a capacitor 28 to become. The turbine usually consists of several stages, so here from a high pressure area 30, a Medium pressure range and a low pressure region 32, where off the high-pressure area steam 44, the partially is relaxed, is supplied to the medium-pressure region whose further relaxed steam 48 in the low pressure range as Steam supply at 144 is supplied again, as in Fig. 1 to recognize.

Furthermore, the turbine in the expansion region 32 Taps 50, 52 on, by means of which high-temperature steam in the preheating section, here for example to point 14, is returned.

The tap of steam is so far from openings 54, 56 in the housing wall 38, 40, between the steps, d. H. in the vane-free space 58. This necessary for tapping Free space extends the length of the turbine, such as is obvious to the route marked at 58.

To avoid this disadvantage, according to the invention Tap 150 formed by an opening 154 in the area the vanes 142 are arranged, see Figs. 4 and 5. Fig. 4, a radial sectional view through the turbine housing 38 or by the guide vane bearing Guide vane carrier 40, shows openings in the form of an oval Profiles 154 and alternatively in the form of an approximately comma-shaped Profils 254. Other design options in the form of Slits or other opening geometries are also possible.

Fig. 5 also shows that the contour of the openings 154, 254 at least in some areas to the respective adjacent Outer contour of the blade profile 142 is adapted. Thereby there remains enough strength for the bearing of the vanes in Leitschaufelfuß 60 and Leitschaufelträger 40 bzw. Housing wall 38, especially if the blade ends by a Shroud 62 stabilized.

It is clear that with the same benefit and after the same principle not only steam for the preheating section can be deducted, but that appropriate openings also suitable for Zudampfleitungen and for drainage are.

In contrast to the tap (or suction) is through the Steam supply line steam is fed to the expansion section and not removed. This is true for. B. in gas and steam systems (gas and Steam turbine plants) to. Here is z. T. depending on the driving style taken through such an opening steam in the preheating strut or steam from another part of the circuit Expansion area fed.

Claims (9)

A steam turbine plant (10) comprising a preheating section (12) with at least one preheater (14, 16, 18, 20, 24, 26) for a steam generator (11), such as heat exchangers, steam boilers or the like, feed water, one of the preheating section and the Steam generator downstream expansion area (30, 32), in which fixed to a turbine housing (38) or vane support (40) stationary vanes (42) direct the steam on a turbine shaft (34) mounted rotating blades (46) and the steam to the Turbine shaft (34) discharging work (36) and having taps (50, 52) in the expansion region (30, 32) for returning high-temperature steam to the preheating section (12),
characterized in that the taps are formed by openings (154, 254) which are arranged in the region of the guide vanes (142). Steam turbine plant according to claim 1,
characterized in that the openings (154, 254) in the region of the guide vanes (142) bearing turbine housing wall (38) are arranged. Steam turbine plant according to claim 1,
characterized in that the openings (154, 254) in the region of the guide vanes (42) carrying the vane support (40) are arranged. Steam turbine plant according to claim 1,
characterized in that the openings (154, 254) in the region of the vane (42) carrying the blade root (60) are arranged. Steam turbine plant according to one of claims 1 to 4,
characterized in that the openings (154, 254) are each arranged between two Schaufelfußprofilen (142). Steam turbine plant according to claim 5,
characterized in that the openings (154) are round or oval, angular or slot-shaped. Steam turbine plant according to claim 5,
characterized in that the openings (254) are profiled comma-shaped. Steam turbine plant according to claim 5, 6 or 7,
characterized in that the contour of the openings (154, 254) is adapted at least in partial areas to the respective adjacent outer contour of the blade profile (142). Steam turbine plant according to one of claims 1 to 8,
characterized in that the openings (154, 254) are used equally for Zudampfleitungen and for drainage.

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