DE2708844B2 - Protection device for a generator-turbine unit against overloading of the WeUe - Google Patents

Description

The invention relates to a protective device for a generator-turbine unit against overloading of the shaft when voltage returns after a mains short-circuit, with an undervoltage measuring device, via a comparison device to a switch between the generator-turbine unit and the network acts in the triggering sense if> at the same time the triggering condition for a second, the Comparison device upstream measuring device is fulfilled

If a short circuit occurs in the electrical network near a power station, the syn-

Ki chronizing moments of working in parallel Generators get very small. If this condition - due to a delayed response of the grid protection - if it lasts for a long time, the rotors of the generators can differ from one another

i ") adopt phase position. This allows after switching off the mains short-circuit when the voltage returns, very high torques on the rotor a generator and thus on the shaft sections and couplings between adjacent turbine sections or act between the turbine and generator.

In the DT-OS 2415448 there is a protective device described for a generator-turbine unit against overloading of the shaft. Here is the one Block switch on the one hand from the occurrence of a voltage

2'y voltage decrease and on the other hand on a measured angle difference between the voltage of the generator and the network affected by the disturbance.

In the case of short circuits close to the generator where the

If the mains voltage drops very far, the phase position difficult to determine the mains voltage. In these incidents, therefore, the switch is generally between Generator turbine unit and the connected electrical network open.

) "i The object of the present invention is to create a protective device in which, even when the generator is close to the generator Short circuits only then the switch between the generator-turbine unit and the network is opened, if, when the short circuit is switched off, the shaft and the winding heads of the Generator is to be expected.

This object is achieved according to the invention in that the second, upstream of the comparison device Measuring device constructed as follows

a) A time step triggered when a change in performance occurs and a device for Measurement of the power difference occurring within the runtime of the timer (differential element

")» With analog value memory and switching transistor) downstream of a power meter.

b) The device for measuring the power difference and the time stage is a comparison device Connected downstream, the fixed-

Vi sets whether before the timer expires

the specified adjustable value for the measured power difference is exceeded.

c) The comparison device (AND element) is followed by a timer whose delay

W) time approximately the allowable time for the return corresponds to the mains voltage.

d) The output of the timer is connected to the second input of the second comparison device (AND element) connected.

b5 From DT-OS 2 448 635 it is also for reduction the stress of a turbine generator well known, the individual poles of the switch, after the occurrence of a three-pole short circuit

closes again, so control that first two of the three switch poles and only then the third Switch pole is closed. This measure also prevents the WeMe from being overstrained reduce, but not exclude in all cases.

It is also known from DT-OS 2 503 034 to prevent the generator voltage from diverging and mains voltage to the switch between generator and mains in the event of a short circuit To connect resistor in parallel. With such a device, the torque load can theoretically when the power is restored to a large extent, but it is necessary to use the To switch the resistor on and off at very specific times depending on the fault, otherwise there may be fluctuations between the grid and the generator.

In contrast to these known devices, the protective device according to the invention enables a decision is made depending on the cause of the divergence of generator and mains voltage, whether the generator-turbine unit is disconnected from the mains by the associated switch or not. This provides a protective device that only switches off selectively depending on the fault undertakes if this takes into account the expected overloading of the turbine generator shaft necessary is.

An embodiment of the invention is shown in a basic circuit in the drawing.

The protection device shown protects the shaft 1 between turbine 2 and generator 3 by a Switch 4 between a transformer 5 connected to the generator 3 and the electrical one Network 6 disconnects if, as a result of a short circuit lasting a certain minimum time in network 6, the There is a risk of overloading shaft 1. The turbine 2 is preceded by a valve 7 which regulates the steam supply to the turbine 2. This can also be done via a connection 8 shown in dashed lines Valve influenced by the protective device according to the invention simultaneously with the triggering of the switch will.

The protection device is connected to a power meter 9, which has a current transformer 3.3 and a Voltage converter 14 with the electrical line between transformer 5 and generator 3 connected is. In addition, an undervoltage measuring device is connected to the voltage converter 14 via a line 16 10 connected, the output of which is led via an OR element 36 to an AND element 32. The power meter has two output lines 17 and 18, one of which is proportional to the respective power Lead direct voltage. The output line 18 is through a differentiating capacitor 27 and a limit monitor 28 is led to the input of a timer 29. The output of the limit monitor 28 also acts on the control connection of a switching transistor 20, which is inserted into line 17 the power meter 9 and an analog value memory 21 are switched on. From the exit line 17, to which a smoothing capacitor 19 is connected, a line 22 goes off, which leads to a Difference element 23 leads. The second input of the differential element 23 is via a line 24 with the Output of the analog value memory 21 connected. The difference element 23 is a measuring device 41 and a Limit monitor 25 connected downstream. The output of the limit indicator 25 leads to an AND element 26. The second input of the AND element 26 is connected to the output of the timer 29 via a line 30 tied together; the output of the AND element 26 is via a second time stage 40 to an input of the AND element 32 led. The AND element 32 is connected to the trip coil 12 of the switch 4 via a line 34. One between measuring device 41 and the

Line 42 switched on i <> time stage 40 serves to influence the delay time of the time stage 40. This allows for large performance jumps specify a shorter permissible time for switching off the mains short-circuit.

ι ^r> The operation of this circuit is as follows: As soon as the temperature measured by the power meter 9 power changes so fast that the limit value of the limit indicator is exceeded 28, is produced at its output a signal which keeps itself and

2i) on the one hand the timer 29 triggers and on the other hand the switching transistor 20 turns off. During the runtime of the timer 29, the lower input receives of the AND element 26 a signal. After timer 29 has elapsed, the self-preservation of the signal at the output

- '"> transition of the limit monitor 28 canceled and thus the switching transistor 20 is switched on again.

The analog value memory 21 connected downstream of the switching transistor 20 is designed so that it is switched on when the Switching transistor 20 has an output voltage

iii outputs voltage that is equal to the input voltage and that it maintains its output voltage unchanged when the switching transistor 20 is switched off. To Switching off the switching transistor 20, the lines 22 and 24 therefore have the same potential, so that

r> the output of the differential element 23 has the value zero Has. After triggering timer 29, which has an adjustable running time in the order of 50 ms, is' the potential on the line 22 according to the respective momentary output

4 »Adjust power while the potential is on the Line 24 no longer changes.

At the output of the differential element 23 there is therefore a voltage that corresponds to the power difference before and after switching off the switching transistor 20 proportio-

4i nal is. If this power difference is the threshold of the limit indicator 25, a signal is present at the upper input of the AND element 26. The AND condition of the AND element 26 is therefore fulfilled if within the duration of the time stage 29

-> () the power difference measured by the difference element 23

■ ~ renz the adjustable threshold value of the limit monitor Exceeds 25.

After the protective device has been activated by the differentiating capacitor 27 and the limit value

v> the 28 is checked whether within an adjustable short time (delay time of timer 29) a noticeable drop in performance (differential element 23) occurs. If this is the case, if the AND condition of the AND element 26 is met, then this output signal becomes

bo is held, and the one connected downstream of the AND element 26 is used Time stage 40 triggered. The time stage 40 is set to a time which corresponds approximately to the time that for the return of voltage with regard to the load capacity of shaft 1 is still considered permissible is viewed (e.g. 150 ms). After this time has elapsed, the AND element receives 32 at its upper input a signal, the lower input always receives a signal when the voltage of at least one phase

21 08 844

is even lower than a minimum value set in the undervoltage measuring device 10.

Instead of the undervoltage measuring device or in addition, an input of the AND element 32 also the output of another measuring device can be connected, which is suitable to determine whether the network short-circuit still exists or not. For this purpose, for example, the power output can also be used of the turbo generator or the current flowing in each case as a criterion. It is also conceivable that the Query the switching status of the main switches in the network 6 in order to obtain a criterion for whether a Network short circuit still exists.

If the error has been eliminated after the delay time of timer 40 has elapsed, the AND condition is des AND element 32 is not fulfilled and the generator-turbine unit remains connected to the network 6. Is to this time z. B. at least one voltage of the * network 6 so far below the mains voltage, that from the undervoltage measuring device 10 and the downstream OR element 36 emitted a signal is, then the AND condition of the AND element 32 is fulfilled and the trip coil 12 is caused, turn off switch 4. At the same time, the valve 7 can also be closed or automatically switched to one smaller flow values can be set. It would also be conceivable to have this valve dependent on the output of the measuring device 41 to control. This allows the generator to oscillate after the return of the Decrease tension.

1 sheet of drawings

Claims (4)

Patent claims: 1. Protection device for a generator-turbine unit against overloading of the shaft Voltage recovery after a mains short-circuit, with an undervoltage measuring device, via a comparison device to a switch between the generator-turbine unit and the network acts in the triggering sense, if at the same time the triggering condition for a second, the measuring device upstream of the comparison device is fulfilled, characterized in that that the second measuring device connected upstream of the comparison device (AND element 32) is structured as follows: a) A timer (29) triggered when a change in performance occurs and a device for measuring the power difference occurring during the running time of the timer (29) [difference element (23) with analog value memory (21) and switching transistor (20)] is connected downstream of a power meter (9). b) The device for measuring the power difference and the timer (29) is another Downstream comparison device (AND element 26), which determines whether before the expiry the time of the timer (29) a predetermined adjustable value for the measured difference in power is exceeded. c) The further comparison device (AND element 26) is followed by a timer (40), their delay time is approximately the permissible time for the return of the mains voltage is equivalent to. d) The output of the time stage (40) is connected to the second input of the comparison device (AND element 32) connected. 2. Protection device according to claim 1, characterized in that the comparison device (AND gate 32) additionally dependent on a device for measuring the power output is. 3. Protection device according to claim 1 or 2, characterized in that between the comparison device (AND element 32) and one of the turbine (2) upstream of the generator-turbine unit Valve (7) there is a connection (8). 3. Protection device according to claim 1 or 2, characterized in that between the comparison device (AND element 32) and one of the turbine (2) upstream of the generator-turbine unit Valve (7) there is a connection (8). 4. Protection device according to claim 1, characterized in that the permissible time for the shutdown the mains short circuit (delay time of time stage 40) on the level of the measured power difference (measuring device 41) is dependent.