DE516252C - Steam turbine pressure stage with speed gradation - Google Patents

Description

Equal steam turbine pressure stages with speed gradation (Curtis stages) have the disadvantage that with larger values of the speed ratio u [c, the blades can become excessively long. To avoid this inconvenience, it has been proposed to allow an expansion (slight overpressure effect) to occur in the blading in order to obtain an acceleration of the steam and to shorten the blades.

The first suggestion was to have this expansion only in the first tread, however not to appear in the following wreaths, and to carry them so far that the relative Exit velocity was greater than the speed of sound. If the relative entry speed is less than the speed of sound, so the blades are shortened all the more, the greater the expansion. This shortening but becomes lower, the closer the relative exit speed of the speed of sound is approaching. If the speed of sound is exceeded, the blades are lengthened again (which, however

is very small if the speed of sound is only slightly exceeded). Such Exceeding also has the further disadvantage that the expansion is superfluous, whereby too great an overpressure against the pressure prevailing in the wheel chamber and thus an unnecessarily large leak is reached, which cancel out any profit or can even turn into a loss.

A later suggestion was that the steam with a slight overpressure in the first or one to allow the following tread to enter without further details on the distribution of the expansion to make on the individual wheel rims. After this suggestion there will be a shortening of the blades then achieved if, contrary to the first suggestion, with the relative Exit velocity remains below the speed of sound. By any Shortening the blades will, however, achieve a significant improvement in the Efficiency not guaranteed. Rather, one more is of particular importance appropriate distribution of the expansion to the individual blade rings.

According to the invention, this distribution should be chosen such that the increase in kinetic energy in the individual blade rings, the smaller the relative Entry velocity is, or in other words, that the increase in kinetic Energy from wreath to wreath increases, but only so great that the relative exit velocity always remains below the speed of sound. Through this planned growth of the Increase is achieved that the divergence of the blades from ring to ring is even smaller is, as it is anyway as a result of the slight overpressure effect known per se Case is. A divergence of the blades has the disadvantage that a radial jobless Component is created. This component

any wreath is wholly or for the most part carried over into the following wreath; only the radial component of the last ring is completely lost. It is therefore of Value; this component by reducing the divergence for the purpose of a smoother transition of Let wreath to wreath become smaller so that they are in the last wreath where they are completely lost is the smallest.

ίο In the drawing, Fig. ι shows a section through the nozzle and blading, in Fig. 2 the associated expansion line is shown, for example. D is the nozzle, S ₁ and S _{2 are} the rotating blade rings and U is the fixed reversing blade. In the known stages with a slight overpressure effect, with numerical information about the expansion course, the expansion runs according to the solid curve a (Fig. 2). Expansion takes place only in the first tread, the relative outflow speed from this being greater than the speed of sound. The boundary lines run according to the solid lines c, d and e in Fig. 1.

In the invention, however, the expansion should only go so far that the relative outflow velocity from the blade rings remains below the speed of sound; If the relative entry speed into the first row of blades S _{1 is} greater or only slightly less than the speed of sound, expansion should only take place in the reversing ring U and in the second _{running ring S 2} , provided that the relative entry speed is then significant when entering the reversing ring is less than the speed of sound. In this case, the expansion line is indicated by the dashed line b in FIG. 2. The expansion in these wreaths may only go so far that the relative outflow velocity is less than the speed of sound.

This results in a shortening of the blades, which is indicated by the dashed boundary line G ₁ , djj e _x in FIG. 1.

A combination of several features is therefore required to achieve the best efficiency required, namely:

1. If the steam expands in one blade ring, it must also expand in all of the following;

2. Expansion is only allowed in such blade rings going on in which the relative entry velocity is less than the speed of sound is;

3. This expansion may only be driven so far that the relative exit velocity remains lower than the speed of sound;

4. The increase in the kinetic energy in the individual blade rings must be all the greater the smaller the relative entry velocity, or, in other words, must be of Wreath to wreath grow larger.

Claims (1)

Claim: Steam turbine pressure stage with speed gradation and slight overpressure effect (at most 10 to 15% reaction), with steam in one and all of the following Blade rings expanded, characterized in that in these blade rings the lower the relative entry velocity, the greater the increase in kinetic energy, with this increase but it is only chosen so large that the relative exit velocity remains below the speed of sound, 1 sheet of drawings , bridged in öer reishsdruckerei