DE407076C - Process and device for removing heating steam from normal steam turbines - Google Patents

Description

Process and device for the removal of heating steam from normal steam turbines. It is known to damp normal turbines at some stage, e.g. B. for heating purposes, refer to. However, this auxiliary tap has the disadvantage that the pressure on the Tapping point fluctuates depending on the load and amount of tapping, which is an uneven Temperature of the heating steam. In order to circumvent this disadvantage, it is proposed depending on the heating steam pressure, the load on the heating steam emitting normal turbine to be controlled by an additional pressure regulator so that a constant heating steam pressure with variable tapping volume results. Which With this solution, changes in performance resulting from the network must be replaced by a second parallel running machine can be taken over, which is why this solution _ only is possible where several prime movers work on the same network.

According to the present invention, these disadvantages are eliminated in normal steam turbines remedied by the fact that both the amount of bleed steam and a live steam additive for the heating steam line regulated as a function of the heating steam pressure and also this line is automatically switched off by the turbine when the pressure on the The turbine tapping point is equal to or less than the heating steam pressure.

An embodiment of the invention is shown schematically in the drawing illustrated. The pressure in the heating line H is controlled by a connecting line A transferred to the diaphragm of a pressure regulator B. This pressure regulator B regulates the Pressure of the control oil under the piston C and thus controls the throttle valve D, which more or less heating steam can pass into the heating line H. For example, it sinks the load, the pressure at the extraction point E decreases with it; the pressure in the heating cable wants to take off something for the time being, whereby the membrane of the pressure regulator B is relieved and the effect of the control oil pressure under piston C is increased, which then lifts valve D, thereby reducing the pressure drop created by this valve is reduced until the heating steam pressure again corresponds to the required level.

If the output drops even more or if there is a larger amount of heating steam is required, the pressure regulator continues to work in the sense described above until the throttle valve D completely is open. From this point on, more has to be done required heating steam drawn directly from the main steam line «- earth. this happens in that the same oil pressure line L next to the piston C of the extraction valve also the piston F of the live steam addition valve G is connected. The pen of this the latter is more tense than that of the former; the oil pressure which this Piston F is able to lift, must therefore also be larger, so that an open this Additional valve is only possible if the heating steam pressure continues to drop the pressure regulator B increases the oil pressure in the line L even further. The one mentioned Control thus initially enables full utilization of the bleed steam, which has already done work in the high pressure stage of the normal turbine and an automatic connection of live steam only when the bleed steam is not sufficient to maintain the heating steam pressure.

You can also connect the valves D and G so that the valve G is only indirectly controlled by the pressure regulator, as its drive is controlled by the Valve D takes place.

Because the .Druck in the turbine at the tap E at low load drop to the level of the heating steam pressure and even become smaller than this backflow of heating steam from the heating steam line to the turbine must be avoided will. This is done by switching off the heating steam line from the turbine of shut-off valve J, which is closed by piston I (as soon as the The pressure at the tapping point E becomes equal to or less than that in the heating cable, H. This shut-off valve J is controlled by means of pressure oil as a function the difference in pressures at the tapping point and in the heating steam line a second pressure regulator ill, on whose membrane both the pressure in the heating steam line H (from below) as does the pressure at tapping point E (from above). Is the The pressure at tapping point E in the turbine is greater than in the heating line, so is the pressure above the membrane is also greater than below it, i.e. the discharge of the pressurized oil is blocked and piston I (and shut-off valve J are opened. However, if the pressure at the Entnalunstelle E falls, the heating steam pressure can be combined with the adjustable spring N to lift the diaphragm, thereby releasing the oil drain and the shut-off valve J is closed. The sensitivity of the pressure regulator M enables the shut-off valve J to be adjusted quickly and thus ensures a perfect closure of the heating cable from the turbine.

Instead of the specially; controlled shut-off valve J, an ordinary one can also be used Check valve can be used.

Claims (6)

PATENT CLAIMS 'e.g. Procedure for maintaining constant heating steam pressure when removing heating steam from an intermediate stage of a normal steam turbine, characterized in that both the amount of bleed steam and a live steam additive for the heating steam line regulated depending on the heating steam pressure and the heating line depending on your difference in pressures at the tapping point and in the heating steam line is automatically switched off by the turbine when the pressure is equal. 2. Establishment for carrying out the method according to claim r, characterized by the arrangement Control organs controlled by the heating steam pressure for the amount to be drawn off and for about one necessary live steam addition in the heating cable and one depending on the pressure difference Between the tapping point of the turbine and the heating steam pipe acting device for the automatic shutdown of the latter by the turbine. 3. Set up after Claim z, characterized in that the regulating organs for the amount of tapping and the amount of live steam added can be controlled by a common pressure regulator. 4 .. Device according to claim 2 and 3, characterized in that the controller by means of pressure oil, which is taken from the normal oil circuit of the turbine. 5. Device according to claim 2 to 4, characterized in that the regulating member for the addition of live steam is only controlled indirectly by the pressure regulator by it is driven by the control element for the bleed steam. 6. Set up after Claim 2 to 5, characterized in that a shut-off valve in the heating steam line is arranged and controlled by a special pressure regulator.