Reclosing apparatus for auxiliary systems

Electricity: electrical systems and devices – Safety and protection of systems and devices – Automatic reclosing

Reexamination Certificate

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Details

C361S078000

Reexamination Certificate

active

06385023

ABSTRACT:

TECHNICAL FIELD
The invention relates to the field of electrical and control systems, in particular power station control systems.
PRIOR ART
Such a reclosing apparatus is known, for example, from the product documentation “BBC Reclosing Device”, D KWL 6309 94 E 04/95.
FIG. 1
a
shows an example of an arrangement in which a reclosing apparatus according to the prior art is used. The figure shows an electrical network for supplying auxiliary systems in a power station plant, for example a gas turbine or combined power station. Such auxiliary systems are preferably used for supplying cooling water, fuel, lubricating oil, hydraulic oil or cooling air. A high-voltage busbar which is connected to a high-voltage network uses an auxiliaries transformer
11
to supply a plurality of busbars
2
,
3
,
4
,
5
,
6
,
7
, and uses medium-voltage transformers
24
to supply a plurality of medium-voltage and low-voltage drives (
23
a
,
23
b
,
33
,
53
a
,
53
b
,
63
,
73
for the auxiliary systems. A single voltage monitoring device
21
is connected to the high-voltage busbar.
FIG. 1
b
shows components that are relevant in this context relating to control systems associated with
FIG. 1
a
. Each drive is assigned a drive module
81
. A plurality of drive modules are connected to a reclosing device
84
. The reclosing device comprises a plurality of reclosing modules
82
, each of which is connected to a plurality of drive modules, as well as a coupling module
83
. The coupling module is connected to the one voltage monitoring device, and to each of the reclosing modules.
Such reclosing apparatuses are intended to prevent the power station from being disconnected if a brief voltage interruption (of up to 2 seconds) that is to say a significant drop in the operating voltage, occurs on the high-voltage network, or when a busbar is being switched over to a different supply. Such a transient fault causes, for example, a sudden voltage drop on the high-voltage busbar. This voltage drop is transformed to the medium-voltage and low-voltage levels, and can lead to disconnection of the auxiliary systems.
In order to prevent the entire plant from being shut down, reclosing apparatus according to the prior art have the voltage monitoring device mentioned above. This monitors the voltage on a single busbar, for example at the medium-voltage level. As soon as the voltage monitoring device detects a drop in the voltage below a lower threshold value UU (FIG.
3
), the reclosing modules are activated via the coupling module. These reclosing modules switch off the drives associated with them. If the monitored voltage exceeds an upper threshold value UO within a predetermined time window TW, the reclosing modules switch the drives associated with them on again.
If the monitored voltage does not exceed the upper threshold value UO within the predetermined time window TW, the switched-off drives are definitively no longer switched on. Instead of this, an alarm is output and, in some circumstances, the entire power station is shut down.
The drives are generally reconnected staggered in time, in order to prevent the starting currents from overloading the auxiliaries transformer: in the plant design, the drives for auxiliary systems are preferably characterized on the basis of their fault time. The fault time is the maximum time period during which a drive for a specific auxiliary system may remain switched off without it being necessary to shut down the entire power station plant, or a major part of the plant. With regard to the rest of the design of the plant, the drives having the shortest fault time are combined to form a first reclosing group, also called sequence, and are assigned to a reclosing module. In the same way, the other drives are grouped on the basis of their fault times to form further reclosing groups, and each reclosing group is assigned to a further reclosing module. In this case, the reclosing modules have different reclosing times. These reclosing times are determined and matched to one another during the design of the plant, for example on the basis of simulations of various disturbance situations.
The coupling module coordinates the sequence of reclosing the reclosing groups as a function of the voltage monitoring device and reports from the individual reclosing modules.
The unavoidable inaccuracies in the simulation of disturbance situations mentioned above lead to an excessively conservative protection response and thus to the entire plant being shut down unnecessarily. Owing to the complexity of the coupling module, it is very difficult to reconfigure the reclosing device on the basis of measured disturbance situations.
DESCRIPTION OF THE INVENTION
The object of the invention is therefore to provide a reclosing apparatus of the type mentioned initially, which overcomes the disadvantages mentioned above.
In the reclosing apparatus according to the invention, a dedicated reclosing module is assigned to a drive module for each drive for which reclosing is desired.
In consequence, it is possible to set the reclosing time individually for each drive. There is no coupling module between different reclosing modules, leading to considerable simplification of the design complexity and eliminating fault sources.
The reclosing module is designed as a functional module which is separate from a drive module, so that drives in which there is no need for reconnection can be operated with the same drive modules.
In one preferred embodiment of the subject matter of the invention, drive groups are defined in order to limit overloading of the auxiliaries transformers as well as voltage transients during reclosing. A drive group is defined by setting the reclosing modules assigned to the drives in a group of the drives to have the same reclosing time. A drive is thus assigned to a drive group purely by the setting of the reclosing time. Typically, various disturbance situations are simulated for this purpose during the design of the plant, analysing how the voltages rise again on the various busbars, and thus optimizing the reclosing times.
The actual response of the plant in a disturbance situation is observed during commissioning. Adaptations of the parameters for the reclosing modules, in particular the reclosing time, are adapted and optimized in the process. In this way, even the association with a drive group can be changed without further effort.
A major advantage of the reclosing apparatus of the type described above is that there is no longer any need for a coupling module. This eliminates a significant design effort and a major fault source.
In one preferred embodiment of the subject matter of the invention, each busbar which supplies a drive provided with a reclosing module is assigned a dedicated voltage monitoring device.
The voltage monitoring device advantageously contains a microprocessor. This is used, for example, to measure and evaluate the voltage.
Furthermore, the voltage monitoring device preferably contains at least one converter for cyclic sampling and evaluation of the voltage. The converter sampling time is preferably shorter than 100 ms. In consequence, the fact that an upper voltage threshold value has been exceeded is also detected correspondingly quickly and accurately.
As a result of the above fact, and since each relevant busbar has a dedicated voltage monitoring device, it is possible to react more quickly than in the past to the rise in the busbar voltage. This also avoids the influence of the inaccuracies of the simulations used during design. For example, consideration is also given to the influence of the motors which, depending on their load, act as generators when the supply fails. This provides increased protection against a shutdown of the plant.
A further major advantage is that the reclosing apparatus can reclose individual non-critical drives in a disturbance situation even though the predetermined time window has already been exceeded for other, critical drives. In this case, although disconnection of the critical drives initiates a shutdown of the enti

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