DE329669C - Injection condenser - Google Patents

Description

Injection condenser. To improve the effect of injection capacitors various suggestions have been made. Apparatus has also been proposed in which the steam is treated in cocurrent and countercurrent to get the benefits in the . To gain types of influence.

The invention proposes a new way to increase the efficiency of the Injection capacitors increase .. The steam is countercurrent to all its way treated, but the cooling water is distributed in such a way that the deficiencies of the countercurrent are eliminated and the voltage drop in the steam line and condenser is as low as with direct current.

Figures i and 2 illustrate two embodiments of the invention.

The cooling water is supplied through the pipe i. This is shown in Fig. i equipped with two ring showers 2, which are under correspondingly high pressure Splash water upwards. 'The rays 3 hit against baffles 4, which Atomize the water again. Thereupon the water is collected by collecting trays 5, which again dissolve it into two rains 6 and 7. Serve to deflect the steam Sheet metal rings B.

The steam enters at 9, penetrates the rain 6 and then the rain 7. The arrows in Fig. I indicate how steam and air successively with the cooling water come into contact. The lower jet 3 is last hit by steam and air, therefore remains the coldest, and consequently the temperature of the rain is also 7 lower than that of rain 6; it therefore occurs after the entry of steam and A very energetic cooling occurs through the rain 6 in the rain 7.

The parts of the air, which are already relatively deeply cooled, so striving to sink, instead of going to @ .f.le, won't go through the whole Inflow area raised, but can, as indicated by the branched arrow is, already in the area of the lower jet 3 from the inflow space into the outflow space step over, and only the parts that have not yet cooled down sufficiently rise to the upper end to step over here for further cooling. The pipe io leads to the air pump.

The fact that = the water jets 3 are directed upwards is also countercurrent achieved in the outflow space.

In Fig. 2, the water supply line i i with a larger number, z. B. seven ring showers 12 equipped. The rays 13 are relatively short, so that they hit the baffles 14 with great force and between them a strong atomization of the water occurs. The shells 15 are for example arranged so that the veil of water they emit becomes a closed one Summarize torrential rain 16 with a downward expansion.

Since the lowermost jet 13 remains the coldest, the torrential rain 16 is in the innermost Coldest zone; its temperature is gradually increasing to the outside. The effect is the same as in Fig. I. The ones already cooled enough Air parts have the opportunity between each two impact surfaces i4., I.e. here six times, to pass from the inflow space into the outflow space.

The steam enters through the nozzle 17 and penetrates the rain 16, whereby it is cooled more and more deeply the further it gets into the interior of the rain. Then it flows upwards, constantly increasing its content of frozen air gives off the interior. This air is created by the water dust between the baffles further cooled and finally "through the rays 13 the last deep freezing, so that there is also a countercurrent effect here. The condensate is through pipe 18 fed to the air pump.

Claims (3)

PATENT CLAIMS: i. Injection capacitor, characterized in that that the cooling water is sprayed upwards under pressure in the steam outflow space and on the baffles opposing the jets is atomized. -a: injection capacitor according to claim i, characterized in that the atomized at each impact surface Water is captured by a bowl and in the form of rain to the steam inflow space is delivered. 3. Injection capacitor according to claim i and 2, characterized in that that between the baffles there is free passage for the already deeply cooled Air parts is created to pass into the outflow space.