DE2038047A1 - Drainage of the surfaces of the guide vanes and the flow space of steam turbines, especially saturated and wet steam turbines - Google Patents

Description

bt / kr

Machine factory Augeburg-Nuremberg

Corporation Branch office Hürnberg

Hürnberg, July 30, 1970

Drainage of the surfaces of the guide vanes of the flow space τοη steam turbines, into the » special Satt and laßdaapfturbines

The invention relates to a drainage opening having cavity guide vanes and an lsi Housing housed drainage channel existing Daapfturbine, in particular saturated or! Barrel steam turbine. ·

Ue caused by drops of water on the surfaces of the Corrosion caused by the rotor blades of Haßdampfturbinen To reduce or completely avoid the inlet edge on the suction side, it is necessary to use the relatively small Water that is on the surface of the previous one Guide vane accumulates to prevent it from getting back into the steam flow from the guide vane leading edge,

Ea iet known, breakthroughs in the form of two rows of longitudinal * slots to connect the step space with the cavity of the guide vane on its belly and back side, and swar to be arranged immediately in front of the trailing edge, around the to suck off the precipitating liquid film on the Sohaufeloberfläohe.

It has also become known to remove heavy Tsil- 03.8171 109886/1002 _{m / m}

from a stream of air, vapor, gas or liquid, which is passed axially through rotating blades, the back of each hollow blade with straight or inclined directed bores, the look of which! after the Sohaufelkopf can take to provide. Simple bores of this type, i.e. such opening shapes, however, usually lead to premature spraying of the water film *, which reduces the drainage effect. In the case of sloping sole seats, the water enters the suction opening without detachment, but such openings are extremely difficult to manufacture.

In addition, a drainage device at the low pressure stage of a steam turbine is known, after which the suction openings in the trailing edge of the guide vane, and «was in the form of a gap with sharp edges running over the entire height of this Xante. the However, the manufacture of such blades is also very complex.

Finally, it has also already been suggested that oblique Schiit Ze to be provided with an overlap on the surfaces of the Leltechaufeln. With suction openings designed in this way Although the water film gets into the openings without residue, but such constructions are again very difficult to realize.

The through-flow cross-sections for such longitudinal slots, for such straight or inclined bores, required for suctioning off the small amount of water that occurs or for passage gaps with sharp edges must, however, be kept extremely small, with the result that the realization of which encounters very great difficulties in terms of production technology. An aceaage opening on a hollow In addition, the blade must also be designed so favorably in terms of flow technology that the water in the

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steering of almost 180 ° without premature disintegration in drip · » can follow.

Which the object underlying the invention now is with substantial Yeriieidung sufficient drainage dee both through the holes or slots in the hollow vanes as entering also through the Abscheideöffnungen ± m Gehäueeumfang loss of workable flow medium of the surfaces of the yon wet steam applied blades and of the housing with structurally and assembly © moderately simplest and inexpensive to produce means

According to the Brfindungsvorscalag, this is achieved by

that the openings, i.e. the holes or slots to the Cavity of each guide vane and / or access to the la The circumference of the housing through a porous, liquid permeable material have been replaced. Ss done So the drainage of the working area of the turbine through this porous mass through, whereby at the same time, in a further embodiment of the invention, the known considerable difference of the free surface energy of the water, for example compared to metallic materials, is used, to remove the harmful water from the steam flow as much as possible.

As is well known, porous material offers a relatively large surface area. If now, for example, strips of porous material in the area of the blade end edges according to the invention are arranged and a pressure gradient is provided over these strips, the water tries the free surface to cover the porous material completely. This process is based on the physical knowledge according to which the potential energy, here the surface energy, one Strives for a minimum. Due to the intended pressure gradient

03.8171, /.

109888/1002

dae porous material is constantly partially sucked empty, so that Sufficient open pores are always present in stationary operation into which the water is drawn. E * is therefore with a sufficiently dimensioned strip of porous material, the removal of the harmful water from steam turbine Lei t blades in stationary operation is feasible. Because of the small free flow cross-section », which in the If porous material is available, the strip locks the cavity of the blade relative to the working space of the turbine is very good, so that hardly any working fluid is lost.

In a further embodiment of the invention, it is therefore proposed that the porous mass for the passage of water be selected from metallic materials or their alloys, for example based on Cr-Ni steels can be easily connected to the blade material or the turbine housing by soldering or welding. There Such metal alloys are easy to work with, so profiled and twisted blades can also be manufactured easy to perform using such porous material.

Such inserts aua porous material in the wall of Hollow blades are in a further embodiment of the invention in the area of the blade end edge, either on the Bucket pressure side and / or on the suction side of the bucket, preferably provided in strip form. It is also possible to have such a porous one in the area of the inflow edge Insert insert into the wall of the suction side, if there additional suction should be required. The water moving like a film or strand on the surface of the blade will then fill the open pores under the action of capillary forces and, if there is a sufficient pressure difference between the flow space and the blade cavity, will be sucked into the inside of the blade will. When the water escapes from the porous,

03.8171 109886/1002 ./·

The mass must, if its lying towards the blade cavity The surface is not completely moistened, e.g. with a very small amount of water to be sucked off, and is therefore over the Pore openings can form menisci, the resulting lowering of the capillary pressure can be overcome by a certain additional pressure difference. The capillary » The pressure decrease depends on the pressure gauge of the forums and increases with decreasing forum diameter * The porosity of the used porous mass must therefore to achieve an optimal suction effect to the given thermodynamic and fluidic conditions, in particular to be adapted to the available pressure difference and to the amount of water to be sucked off.

Further details of the invention emerge from the following description and the drawings.

In the drawings, for example, and in FIG sohematic representations illustrated, namely pointer

1 to 3 partial cross-sections through hollow guide vanes, while

Pig. 4 shows the housing drainage in detail.

The assembled hollow guide vanes illustrated in FIGS. 1 to 3 consist of the heap walls 1, 2 bsw. 3, 4 or 5, 6, which are made of normal material. For these exemplary embodiments, the blade cavity is designated with 7 in each case.

According to Figure 1 is the porous according to the invention Material 8 in strip form on the blade pressure side 9, namely in the area of the outflow edge, and is at 10 with connected to the blade material, for example by welding.

03.8171 109886/1002

BATH

In the modified version according to Figure 2, the blade end edge, namely, both the pressure side 9 and the suction side 11 of the guide vane made of strip-shaped, porous Material 8 and 8 'formed according to the proposal of the invention, with 12, 13 and 14 again representing the respective weld seam: are designated. The thin flow lines 15 and 16 illustrate the course of the water and show that, in an advantageous manner, no water detachment takes place.

Figure 3 shows the use of the strip-shaped, porous Materials 8 ·· 'on the blade suction side 11, this time in the area of the inflow end of the guide vane, which is composed of parts 5 and 6, with the welds 17 and 18. Such a shovel design is useful for additional suction, i.e. for those cases in which the suction side 11 of the shovel also has a considerable Catches the amount of water and is intended to pass into the cavity 7.

In FIG. 4, the turbine housing is designated with 19 and the outflow channel 20, while a rotor blade is indicated at 21. According to the proposal of the invention, the access from the flow space 22 to the outflow channel 20 is ^{filled with porous material 8 1111} and welded or soldered to the turbine housing 19 at 23. Attaching the porous material 8!

The invention also extends to turbine blades, which are made of ceramic material. Access to the cavities of such blades is then at the top mentioned places by inserting porous ceramic parts.

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ΒΑΏ ORIQJNAL

Claims (7)

bt / kr Machine factory Augsburg-Hürnberg Corporation
Branch office Hürnberg Nuremberg, July 30, 1970 Claims { 1. kue dewatering vents having cavity guide vanes and a dewatering duct located in the housing, in particular saturated or wet steam turbine, characterized in that the openings to the cavity (7) of each guide vane and / or the access to that in the housing circumference located drainage channel (22) are filled with porous, liquid-permeable material (8 to 8 ""). 2. Steam turbine according to claim 1, characterized in that that the porous material made of metallic materials or their alloys is used. 3. Steam turbine according to claim Ί and 2, characterized in that that the porous material is inserted in the form of strips into the walls (1 to 6) of the cavity blades or in the access to the housing drainage channel (20) is laid. 4. Steam turbine, characterized in that the length of the porous surface of such strips in the direction of flow of the working medium, the applied pressure difference E, the pore size and the area of the porous Material is adapted. 03.8171 ./. 109886/1002 -2- 5. Steam turbine according to claim 1 to 4, characterized in that the porous material (8 Jais 8 "'or 8'« · ·) is connected to the blade walls (1 to 6) or to the turbine housing (19) by welding or soldering. 6. Steam turbine according to claim 1 to 5, characterized in that part of the blade wall of the pressure and / or the suction side is made of porous material (8 ·, 8 ··) in the area of the outflow end (Fig. 2). 7. Steam turbine according to claim 1 to 6, characterized in that for an additional suction the wall (6) of the suction side of the inflow is wholly or partly made of porous material (8 ¹ ··) (Pig. 3). ° ⁵ ' ⁸¹⁷¹ 109886/1002