DE601585C - Single-casing steam turbine - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
AUGUST 18, 1934

REICH PATENT OFFICE

PATENT LETTERING

CLASS 14c GROUP

14c R 54.

5) r.-3ng. Karl Roder in Hanover Single-casing steam turbine

Patented in the German Empire on March 29, 1930

Relatively difficult ones arise in the case of the radially loaded counter-rotating turbine structural tasks when it comes to training the turbine so that steam taken from the expansion course or steam is to be introduced into the same. The extraction of steam from the The relaxation process can be used for reheating, but also for heating purposes be made. The introduction of steam into the relaxation process serves to achieve greater performance in case of overload. Nothing should be changed in the single housing design with its small space requirements.

To solve the problem, it has been proposed to cancel the counter-rotation behind the radially acted blading part and to introduce axially acted blading with a fixed guide device and to move the steam extraction point into the transition space from the radially acted part to the axially acted part. Since the axially acted upon blades sit on the blade carriers of the radially acted upon blading, only a relatively small number of steps can be accommodated on them. The decisive value Σ « ² is thereby reduced. However, the smaller this value, the lower the efficiency is known to be. If you want to increase this, you have to ensure that a sufficiently large number of stages can be accommodated. A certain improvement in this regard is promised by a design that has already been proposed, in which the radially acted counter-rotating blades are retained behind the extraction point, but this blade part is separated from the preceding one by a partition that serves to discharge the steam. But even with this type of construction, a number of stages are lost due to the interposition of the extraction point, ie a reduction in the value Σ κ ^{2 occurs} .

A high-quality design of a radially acted counter-rotating turbine with steam extraction from the expansion course or steam introduction into this according to the invention is achieved in that this steam extraction or steam introduction is provided at the point at which the amount of steam changes from the axial type of operation to the radial type of operation while maintaining the opposite direction . With this type of construction, there is no loss of steps, so the largest possible value Σ u ^{2 is} achieved.

An embodiment of the invention is shown in the figure. In this, the radially acted blading is limited to the medium-pressure part a. The high-pressure blades b are designed as axially loaded counter-rotating blades, the low-pressure blades c as normal axially loaded blades with a degree of reaction. The accommodation of the rotor blade rings is in this case with small

Performances on a drum, as shown, take place on wheels for high performances. The seals <e and / four prevent the direct passage of the steam from the axially loaded high pressure to the radially loaded medium pressure blading on the one hand and from this to the axially loaded low pressure blading on the other hand. The transfer of the steam from the axially

to beat high-pressure blading to the radially loaded one Medium-pressure blading takes place via an intermediate superheater, so that the intended sealing ^ only minimal, corresponding to the flow velocities and the shape of the flow path. Pressure differences is exposed.

The transition from the radially acted medium-pressure to the axially acted upon low-pressure blading can also take place via a control element, not shown, which maintains the pressure behind the medium-pressure blading at the same level and which, depending on the heat and energy demand, supplies a more or less large part of the steam volume flowing through the medium-pressure part to the low-pressure part flows in. The pressure difference that the labyrinths / have to seal between the medium and low pressure parts depends on the proportion of this amount of steam. The fixed part of this seal is accommodated on the exchangeable housing part m , which can be exchanged for a housing part η if the steam is to flow directly to the axially loaded low-pressure part without congestion. This exchange can be carried out, for example, in machines that are operated purely as condensation machines in summer and as heating steam machines in winter.

Claims (1)

Claim: Single-casing steam turbine, some of which are made up of counter-rotating, radially impinged There are stages, characterized in that the. radial impact on the counter-rotating part an axially loaded counter-rotating part is connected upstream and a steam ■ at the point between these two parts extraction from the expansion process or an introduction of steam into it is provided. 1 sheet of drawings