DE726939C - Raised condenser against the flow of water - Google Patents

Description

Upright condenser with a flow against it The invention relates on condensers with horizontal tubes and upright narrow tube plate, which is suitable for direct attachment to turbines in such a way that the condenser is applied from the side with steam.

The previously known capacitor designs reveal very different ones Building principles. It is almost exclusively about capacitors, the ones below the associated turbine are arranged and in which therefore the steam inlet of is done above. The shape is cylindrical, sometimes pear-shaped. These Capacitors usually have an approximately circular pipe plan in which the pipes are distributed differently depending on the types. With these from above Condensers, a radiation-like division of the steam inflow is known, the air is sucked off at the lowest point of the condenser. the The direction of the steam flow and that of the dripping condensate are therefore the same. In another design, the air suction takes place in the middle of the tube bundle. The underneath the air extraction point by separating plates, which are also the water drainage serve, separate pipe packages here have a completely inadequate Steam supply with passage cross-sections that are much too small between the condenser wall and dividers. The steam that is not condensed in the upper tube stacks becomes thereby passed through a water veil, which causes an increase in resistance will.

It is also still an upright capacitor that is with horizontal tubes, but high, narrow tube plate, became known. Also at In this case, the steam enters only from one side and within it Side, the long side of the condenser, only in the upper part. For the The lower part of the pipe stacks is therefore particularly important with regard to the pressure loss quite unfavorable conditions. A special water system used for the construction of Capacitors that meet high requirements are not provided.

In contrast, the invention relates to an upright flow against the side Condenser with a large steam inlet surface and high, narrow pipe plan, which in particular is suitable for direct attachment to turbines or turbine gears and at which the steam entry in three directions after that in the middle of the opposite Side provided air suction takes place so that it is in the upper part of the condenser a co-flow, in the middle a cross-flow and in the lower part a counter-flow part results and in which the management of the outflowing condensate by inclined Catch plates in the upper part in the direction of the steam and in the opposite direction in the lower part the direction of steam takes place.

Such a capacitor has particular advantages in terms of assembly with the other parts of the engine and with regard to good heat transfer on. It can be particularly close to the other parts of the turbine and where appropriate be assembled with a gearbox. It is made possible by the fact that the steam is fed to the condenser by the shortest route. Furthermore, there is the possibility of the steam is distributed over a very large area with large inflow cross-sections in to allow the condenser to enter. The vapor paths in the condenser itself will be in short, the pressure loss is low. That of guiding the steam flow in the three Plates serving as condenser parts are simultaneously used to discharge the condensate of the two upper parts used, which is collected in collecting troughs and through pipes is derived, so that the formation of a water veil in front of the air extraction point or the inflow to the lower part of the condenser is avoided.

In the figure, the subject matter of the invention is shown for example.

The associated turbine has been left out, as has any transmission wall that may be present. The steam enters the cooling surface of the condenser in the direction of the arrows i ', i "and i on the upper side, lower side and one long side lead it away without hindering the steam entering the tube bundle underneath. The condensate collected by the catch plate 2 is guided to the catch plate 4 via a gutter and pipes 7, for example, as is the condensate collected by the catch plate 3 via a gutter 8 and pipes 9 as well on the catch plate 4. The condensate flows together with the condensate, which accumulates in a large part of the lower half of the condenser, to the outside on a catch plate. Here it is again caught in channels and passed through pipes into the sump 12 of the condenser 13 and 14 are further, only partially continuous catch plates in the tube bundles against which the condensate flows perpendicularly to the dripping direction 22 and 23. The condensate collected here is either directly (pipes 1 5) to the cone via pipe 15 or 16. condenser sump or first on an underlying catch plate (tubes 16). The air is sucked off at 17, through openings 1s, i9, 2o to each of the three tube bundles of the condenser. The catch plates 2, 3 and 4 simultaneously divide the steam flow approximately in the ratio of the cooling surface of the individual tube bundles 2 i, 22, 23, 24. In the figure, a two-flow condenser is shown. In the example shown, the pipe division is selected radially in the condenser part first acted upon by steam and uniformly in the other condenser part. Box-shaped internals are denoted by 25, which prevent the unimpeded flow of steam on the catch plates.

Claims (1)

PATEN TAINSPRUCH: High-standing surface condenser with a large steam inlet surface and high, narrow pipe plan, especially for direct attachment to turbines or turbine gears, characterized in that the steam inlet in three directions, namely in the upper part mainly from above, in the middle part of the side and in the lower part mainly from below to the air suction point provided in the middle of the opposite side, so that there is a cocurrent flow in the upper part of the condenser, a cross flow flow in the middle and a counter flow flow in the lower part, and that the The outflowing condensate is guided by inclined catch plates in the upper part (2, 13) in the direction of the steam and in the lower part (4, 14) opposite to the steam direction.