JP2667752B2 - Vacuum control device in condenser in condenser and method of controlling vacuum in condenser in condenser - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a condenser for a nuclear power plant, for example, which increases the degree of vacuum in a condenser to a set value and sets the degree of vacuum in the condenser to a set value. The present invention relates to a control device and a control method for maintaining, in particular, a control device for controlling a degree of vacuum in a condenser in a condenser and a vacuum in a condenser in the condenser, which can save labor and stabilize plant operation. It relates to a degree control method.

[0002]

2. Description of the Related Art In a condensing device such as a nuclear power plant, for example, a condenser for condensing steam discharged from a steam turbine and an exhaust gas by extracting air such as non-condensable gas from the condenser. An air extractor to be sent to the processing device and an air extraction amount adjusting valve that is provided between the condenser and the air extractor and adjusts the amount of air extracted from the condenser are provided. In such a condenser, the air extractor is driven to extract air from the condenser, and the opening of the air extraction amount adjusting valve is adjusted to adjust the amount of air extracted from the condenser. The degree of vacuum in the condenser is controlled so that the degree of vacuum in the condenser is raised to a set value and the degree of vacuum in the condenser is maintained at the set value. Conventionally, the control device for the degree of vacuum in the condenser of the above-mentioned condensing device monitors the flow rate of exhaust gas in the exhaust gas treatment device before starting the turbine, and the exhaust gas flow rate does not exceed the set value. As described above, the opening degree of the air extraction amount adjusting valve is manually operated to adjust the air extraction amount from the condenser and raise the degree of vacuum in the condenser to a set value. After the turbine is started, the opening degree of the air extraction amount adjustment valve is manually operated so that the degree of vacuum or the like in the condenser falls within a range sandwiching the set value. The air extraction amount is adjusted, and the degree of vacuum in the condenser is controlled to a set value. Related devices related to the degree of vacuum control in this type of condenser include, for example,
There is one described in JP-A-2-26320.

[0003]

However, prior to the start of the turbine, the above-mentioned conventional vacuum degree control device in the condenser has an air extraction amount adjusting valve opened so that the exhaust gas flow rate does not exceed a set value. Since the degree adjustment must be manually and intermittently operated over a long period of time, the operation of adjusting the opening degree of the air extraction amount adjustment valve is troublesome. Also, before the above-described turbine startup, since the degree of vacuum in the condenser is not continuously monitored, the inside of the condenser may have a high degree of vacuum,
In that case, when the turbine is started, it is necessary to perform an unnecessary operation such as closing the air extraction amount adjusting valve until the degree of vacuum in the condenser reaches an appropriate value. Further, the above-described conventional vacuum degree control device in the condenser opens the air extraction amount adjusting valve so that the degree of vacuum in the condenser falls within a width sandwiching the specified value after the turbine is started. Since the degree adjustment must be manually operated, there are problems that the operation of adjusting the opening degree of the air extraction amount adjusting valve is troublesome and the plant operation is unstable. That is, after the turbine is started, if the air extraction amount adjustment valve is kept at a constant opening,
As the load increases, the degree of vacuum in the condenser decreases, and the plant efficiency decreases.In each case, manually operate the air extraction amount adjustment valve until the degree of vacuum in the condenser reaches an appropriate value. Open operation must be performed. On the other hand, when the turbine load drops, the degree of vacuum in the condenser rises with the load drop, and the turbine shaft vibration becomes large.
Manual closing must be performed until the degree of vacuum in the condenser reaches an appropriate value.

[0004] It is an object of the present invention to provide a method for controlling the degree of vacuum in a condenser in a condenser and a method for controlling the degree of vacuum in a condenser in the condenser which can save labor and stabilize plant operation. To provide.

[0005]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides a method for recovering steam discharged from a steam turbine.
Downstream of the water condenser and the air extracted from the condenser
Air extractor sent to the exhaust gas treatment equipment of
Installed between the gas extractor and the processing capacity of the exhaust gas treatment equipment
Not to waste the amount of air extracted from the condenser.
Condensing device with an air extraction amount adjusting valve for direct and direct adjustment
A detector for detecting the flow rate of the exhaust gas in the exhaust gas treatment device, and a control signal based on the output signal from the exhaust gas flow rate detector to the air extraction amount adjusting valve, and extracting the air based on the control signal. Means for controlling the opening degree of the amount regulating valve to control the exhaust gas flow rate or the like to a set value, a detector for detecting the degree of vacuum or the like in the condenser, and control based on an output signal from the vacuum degree detector Means for outputting a signal to the air extraction amount adjustment valve, and controlling the degree of vacuum or the like to a set value by adjusting the opening of the air extraction amount adjustment valve based on the control signal,
A control signal to be output to the air extraction amount adjusting valve when the degree of vacuum or the like in the condenser reaches the set value from less than the set value, from the control signal of the exhaust gas flow rate control means to the control signal of the vacuum degree control means And switching means for switching to.

[0006]

According to the present invention, a control signal from the exhaust gas flow control means is output to the air extraction amount adjusting valve until the degree of vacuum in the condenser reaches from 0 to the set value. Based on the control signal, the opening of the air extraction amount adjustment valve is automatically adjusted, and the exhaust gas flow rate and the like are controlled to the set values. As a result, the operation of adjusting the opening degree of the air extraction amount adjustment valve is simpler than that of the conventional vacuum degree control device in the condenser that manually adjusts the opening degree of the air extraction amount adjustment valve. Further, according to the present invention, when the degree of vacuum in the condenser reaches the set value, the control means outputs the control signal output to the air extraction amount adjustment valve from the control signal of the exhaust gas flow rate control means. It switches to the control signal of the vacuum control means, and,
After the degree of vacuum in the condenser reaches the set value, a control signal from the degree of vacuum control means is output to the air extraction amount adjustment valve, and the opening degree of the air extraction amount adjustment valve is determined based on the control signal. The adjustment is automatically performed, and the degree of vacuum or the like is controlled to the set value. As a result, the operation of adjusting the opening degree of the air extraction amount adjustment valve is simple compared to the vacuum degree control device in the conventional condenser that manually adjusts the opening degree of the air extraction amount adjustment valve,
Moreover, stable plant operation can be obtained. Further, the present invention controls the degree of vacuum in the condenser while continuously monitoring the degree of vacuum in the condenser with the above configuration, so that the degree of vacuum in the condenser is set when the turbine is started. The degree of vacuum in the condenser can be controlled so that the value is reached.
As a result, it is necessary to close the air extraction amount adjusting valve until the degree of vacuum in the condenser reaches an appropriate value when the turbine is started. There is no waste in the operation of adjusting the opening of the regulating valve. Therefore, the present invention can save labor and stabilize plant operation. In addition, the present invention uses the air extraction amount adjusting valve to exhaust gas.
Not to exceed the processing capacity of the wastewater treatment equipment.
Is the amount of air extracted directly adjusted without waste?
From the condenser with an air extractor
The air that has overflowed in the exhaust gas treatment system to the condenser.
No need for wasteful equipment such as recirculation system
You.

[0007]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of a condensate control apparatus according to an embodiment of the present invention; 1 is a system diagram showing a first embodiment of a vacuum degree control device in a condenser in a condenser of the present invention, FIG.
FIG. 2A is an explanatory diagram showing a change in the opening degree of the air extraction amount adjusting valve with respect to time in the case of the embodiment of FIG. 1, and FIG.
FIG. 3 is an explanatory diagram showing changes in the output of the proportional integrator of the vacuum degree control system, the output of the proportional integrator of the exhaust gas flow control system, and the output of the low value selector in the case of the embodiment of FIG.
FIG. 2C is an explanatory diagram showing the change of the exhaust gas flow rate with respect to time in the case of the embodiment of FIG. 1, and FIG. 2D is the change of the degree of vacuum and load in the case of the embodiment of FIG. FIG. In the figure, reference numeral 1 denotes a nuclear reactor. This reactor 1 is connected to a turbine 2 by a main steam pipe 100 and further connected to a condenser 3. On the other hand, the reactor 1 is connected to a first-stage air extractor 7 and a second-stage air extractor 8 by a driving steam pipe 6, respectively. The pressure regulating valve 4 and the pressure regulator 5 are arranged in the driving steam pipe 6. The pressure regulating valve 4 and the pressure regulator 5 are interconnected. The condenser 3 is connected to a first-stage air extractor 7 by an extraction air pipe 10, and further connected to a second-stage air extractor 8. This condenser 3
An air extraction amount adjusting valve 9 is provided in an extraction air pipe 10 between the first stage air extractor 7 and the first stage air extractor 7 and the second stage air extractor 8. An air extractor / condenser 11 is disposed in the extraction air pipe 10 in between. The second
The stage air extractor 8 includes an exhaust gas preheater 12 and a recombiner 13
, An exhaust gas condenser 14, an exhaust gas dehumidification tower 15, a rare gas hold-up tower 16, and an exhaust pipe 17 are connected to an exhaust gas treatment device arranged in series.

In FIG. 1, reference numeral 18 denotes a vacuum detector.
The vacuum degree detector 18 is attached to the condenser 3, detects the degree of vacuum in the condenser 3, and outputs the detection signal to an adder 20 described later. 19 is a vacuum degree setting device for setting the value of the degree of vacuum in the condenser 3. 20 is an adder. The vacuum degree detector 18, the vacuum degree setting device 19, and a proportional integrator 21 are connected to the adder 20, respectively. The proportional integrator 21 is connected to the air extraction amount adjusting valve 9 via a low value selector 26 described later. This vacuum degree setting device 19
Also, the adder 20 and the proportional integrator 21 constitute vacuum degree control means. An output signal from the vacuum detector 18 described above;
The vacuum degree set value from the vacuum degree setter 19 is input to the adder 20 and added. The added signal is input to the proportional integrator 21 and proportionally integrated.
The proportionally integrated signal is input to the low value selector 26 as a control signal, and further output from the low value selector 26 to the air extraction amount adjustment valve 9. Based on this control signal, the degree of opening of the air extraction amount adjusting valve 9 is automatically adjusted, and the degree of vacuum in the condenser 3 is controlled to a set value.

In the figure, reference numeral 22 is an exhaust gas flow rate detector. The exhaust gas flow rate detector 22 is installed between the exhaust gas treatment apparatus, for example, the exhaust gas condenser 14 and the exhaust gas dehumidifying tower 15, detects the exhaust gas flow rate in the exhaust gas treatment apparatus, and outputs the detection signal. This is output to an adder 24 described later. Reference numeral 23 is an exhaust gas flow rate setting device for setting the value of the exhaust gas flow rate in the exhaust gas treatment device. 24 is an adder. The adder 24 includes the exhaust gas flow rate detector 22, the exhaust gas flow rate setter 23, and the proportional integrator 25.
And are connected. The proportional integrator 25 is connected to the air extraction amount adjusting valve 9 via a low value selector 26 described later. The exhaust gas flow rate setting device 23 and the adder 24
And the proportional integrator 25 constitutes exhaust gas flow rate control means.
The output signal from the exhaust gas flow rate detector 22 and the exhaust gas flow rate set value from the exhaust gas flow rate setter 23 are added by the adder 2
4 are added to each other. The added signal is input from the adder 24 to the proportional integrator 25 and is proportionally integrated. The proportionally integrated signal is input to the low value selector 26 as a control signal, and further output from the low value selector 26 to the air extraction amount adjustment valve 9. Based on this control signal, the opening degree of the air extraction amount adjustment valve 9 is automatically adjusted, and the exhaust gas flow rate in the exhaust gas treatment device is controlled to a set value.

In the figure, reference numeral 26 denotes a low value selector. The low value selector 26 is connected to the proportional integrator 21 of the vacuum control system, the proportional integrator 25 of the exhaust gas flow control system, and the air extraction adjusting valve 9. The low value selector 26 is a proportional integrator 21 of the vacuum control system.
Is compared with the value of the control signal input from the proportional integrator 25 of the exhaust gas flow control system, and the lower control signal is output to the air extraction amount adjusting valve 9. Is what you do.

Hereinafter, the operation of the vacuum control device in the condenser in the condenser of the first embodiment of the present invention will be described with reference to FIG. The solid line in FIG. 2A indicates the opening of the air extraction amount adjusting valve 9 according to the device of the present invention.
The broken line in (A) is the opening of the air extraction amount adjusting valve by the conventional device, the solid line in FIG. 2 (B) is the output of the proportional integrator 25 of the exhaust gas flow control system, and the dashed line in FIG. 2 (B). Is the output of the proportional integrator 21 of the vacuum control system, the two-dot chain line in FIG. 2 (B) is the output of the low value selector 26, and the solid line in FIG. 2 (C) is the exhaust gas flow rate by the apparatus of the present invention. 2 (C) is the exhaust gas flow rate by the conventional device, the solid line in FIG. 2 (D) is the degree of vacuum by the device of the present invention, the broken line in FIG. 2 (D) is the degree of vacuum by the conventional device, FIG. (D) The dashed-dotted line in each shows load. First, a first stage air extractor 7 and a second stage air extractor 8
Start. Immediately after the activation of the air extractors 7 and 8, that is, immediately after the start of the increase in the degree of vacuum, the degree of vacuum in the condenser 3 is “0”. , The output of the adder 20 of the vacuum control system is +722/76.
0 × 100%, and the output of the proportional integrator 21 of the vacuum control system is almost 100%. On the other hand, the flow rate of the exhaust gas in the exhaust gas treatment device is proportional to that of the exhaust gas flow control system because the condenser 3 has a characteristic that the larger the degree of vacuum, the larger the degree of opening of the air extraction amount adjusting valve 9. The output of the integrator 25 has a low value. Therefore, the control signal output from the low value selector 26 is the proportional integrator 25 of the exhaust gas flow control system.
, And the opening of the air extraction amount adjustment valve 9 is automatically adjusted based on this control signal, and the exhaust gas flow rate in the exhaust gas treatment device is controlled to a set value (see FIG. 2 (from the air extraction start point A to the vacuum set point arrival point B)). As described above, until the degree of vacuum in the condenser 3 reaches the set value from 0, the control signal from the exhaust gas flow rate control means is output to the air extraction amount adjusting valve 9, and based on the control signal, The opening degree of the air extraction amount adjusting valve 9 is automatically adjusted, and the exhaust gas flow rate and the like are controlled to be constant. As a result, the operation of adjusting the opening degree of the air extraction amount adjustment valve is simpler than that of the conventional vacuum degree control device in the condenser that manually adjusts the opening degree of the air extraction amount adjustment valve.

By controlling the exhaust gas flow rate as described above,
Although the flow rate of the exhaust gas in the exhaust gas treatment device is controlled to be constant at a set value, since the air is extracted from the condenser 3, the degree of vacuum in the condenser 3 is increased (A in FIG. 2). (Refer to the air extraction starting point of (1) to the point where the vacuum degree specified value of B is reached).
When the degree of vacuum in the condenser 3 reaches the set value, the value of the output signal of the proportional integrator 25 of the exhaust gas flow control system becomes equal to the value of the output signal of the proportional integrator 21 of the vacuum degree control system ( (Refer to the point of reaching the specified vacuum degree value of B in FIG. 2). When the above-mentioned state continues, the exhaust gas flow rate is greatly reduced, so that the output of the proportional integrator 25 of the exhaust gas flow rate control system is greatly increased, and the value of the control signal of the proportional integrator 25 of the exhaust gas flow rate control system is the vacuum degree. It becomes larger than the value of the control signal of the proportional integrator 21 of the control system. As a result, the control signal output from the low value selector 26 becomes a control signal output from the proportional integrator 21 of the vacuum control system, and the opening of the air extraction amount adjustment valve 9 is adjusted based on the control signal. Then, the degree of vacuum in the condenser 3 is controlled to the set value (see the point after reaching the specified degree of vacuum B in FIG. 2). As described above, when the degree of vacuum in the condenser 3 reaches the set value, the low value selector 26 is operated and the control signal output to the air extraction amount adjusting valve 9 is changed from the control signal of the exhaust gas flow rate control means to the degree of vacuum. Since the control signal is switched to the control signal of the control means, after the degree of vacuum in the condenser 3 reaches the set value, the control signal from the degree of vacuum control means is output to the air extraction amount adjusting valve 9 and the control signal Based on the above, the opening degree of the air extraction amount adjusting valve 9 is automatically adjusted, and the degree of vacuum and the like are controlled to be constant. As a result, the operation of adjusting the opening degree of the air extraction amount adjustment valve is simpler than that of the conventional vacuum degree control device in the condenser that manually adjusts the opening degree of the air extraction amount adjustment valve.
Moreover, stable plant operation can be obtained.

As described above, after the degree of vacuum in the condenser 3 reaches the set value, the control target switches from exhaust gas flow rate control to vacuum degree control. After the degree of vacuum in the condenser 3 reached the set value, as the load on the turbine increased,
Although the degree of vacuum slightly changes from the set value, the exhaust gas flow rate is sufficiently smaller than the set value, so that the degree of vacuum is controlled to be constant at the set value between the load increase and the rated output (FIG. 2). Refer to C turbine starting point to rated output point of D). That is, in the present invention, the condenser
When the degree of vacuum in 3 reaches the set value, it is extracted from the condenser 3.
Exhaust gas flow rate is a set value (processing capacity of exhaust gas treatment equipment)
The air extraction amount adjusting valve 9
Control from exhaust gas flow control to vacuum control
Things. In this way, since the degree of vacuum in the condenser 3 is controlled while continuously monitoring the degree of vacuum in the condenser 3,
When the turbine is started, the degree of vacuum in the condenser 3 can be controlled so that the degree of vacuum in the condenser 3 has reached a set value. As a result, it is necessary to close the air extraction amount adjusting valve until the degree of vacuum in the condenser reaches an appropriate value when the turbine is started. There is no waste in the operation of adjusting the opening of the regulating valve.

FIG. 3 is a system diagram showing a second embodiment of the vacuum control device in the condenser of the condenser of the present invention. In the figure, the same reference numerals as those in FIG. In the figure, reference numeral 27 denotes a monitor switch provided on the output side of the vacuum detector 18. When the degree of vacuum in the condenser 3 reaches a set value, the monitor switch 27 detects this and outputs a detection signal to a changeover switch 28 described later. 28 is a changeover switch. This changeover switch 28
Is connected to the proportional integrator 21 of the vacuum control system, the proportional integrator 25 of the exhaust gas flow control system, the monitor switch 27, and the air extraction amount adjusting valve 9, respectively. When the degree of vacuum in the condenser 3 is less than the set value, the changeover switch 28 is in a state in which the contacts ac are in the ON state,
The control signal output from the proportional integrator 25 of the exhaust gas flow control system is output to the air extraction amount adjusting valve 9, and the condenser 3
When the degree of vacuum inside reaches the set value, the output signal from the monitor switch 27 causes the contact point a-c to the contact b-.
Then, the control signal is output from the proportional integrator 21 of the vacuum control system to the air extraction amount adjusting valve 9. Since the degree of vacuum control device in the condenser in this embodiment is configured as described above, during the period from when the degree of vacuum in the condenser 3 starts to rise to the set value, the changeover switch 28 Since the contacts ac are in the ON state and the control signal output from the proportional integrator 25 of the exhaust gas flow control system is output to the air extraction amount adjusting valve 9, the control signal is output based on the control signal of the exhaust gas flow control means. Thus, the opening degree of the air extraction amount adjusting valve 9 is automatically adjusted, and the flow rate of the exhaust gas in the exhaust gas processing device is controlled to the set value. Further, when the degree of vacuum in the condenser 3 reaches a set value, an output signal from the monitor switch 27 causes a contact a at the changeover switch 28.
-C is switched to the contact bc, the contact bc is turned on, and the control signal output from the proportional integrator 21 of the vacuum control system is output to the air extraction amount adjusting valve 9; After the degree of vacuum in the condenser 3 reaches the set value, the opening degree of the air extraction amount adjusting valve 9 is automatically adjusted based on the control signal of the degree of vacuum control means, and the vacuum in the condenser 3 is adjusted. The degree is controlled to a set value by the vacuum degree control means. Thus, in this embodiment, the first
It is possible to achieve the same effect as that of the embodiment.

FIG. 4 is a system diagram showing a third embodiment of the vacuum control device in the condenser in the condenser of the present invention. In the figure, the same reference numerals as those in FIG. In the figure, reference numeral 29 denotes a required valve opening calculator of the exhaust gas flow system for controlling the exhaust gas flow to a set value. The required valve opening degree calculator 29 is provided in the exhaust gas flow rate detector 22, the exhaust gas flow rate setting device 23, the vacuum degree detector 18, and the air extraction amount adjustment valve 9, and the current state of the air extraction amount adjustment valve 9 The valve opening degree detector 32 for detecting the opening degree of is connected to the low value selector 26. The required valve opening calculator 29 is provided with an output signal from the exhaust gas flow rate detector 22 and the exhaust gas flow rate setting device 2
3, an output signal from the vacuum detector 18, and an output signal from the valve opening detector 32, respectively, to input the current vacuum degree in the condenser 3, the exhaust gas flow rate, The exhaust gas flow rate after a certain time is calculated from the opening degree of the air extraction amount adjusting valve 9, the current exhaust gas flow rate is compared with the set value of the exhaust gas flow rate, and the above-mentioned constant time is calculated based on the deviation value. The required opening degree of the air extraction amount adjusting valve 9 after a certain period of time corresponding to the subsequent exhaust gas flow rate, that is, the required opening degree for controlling the exhaust gas flow rate to a set value, is obtained, and the control signal is sent to the low value selector 26 as a control signal. Output. Reference numeral 31 denotes a required valve opening calculator of a vacuum system for controlling the vacuum to a set value.
The required valve opening calculator 31 includes a vacuum detector 18 and
A vacuum degree setting unit 19, a turbine load schedule setting unit 30 for obtaining a turbine load after a certain time, a turbine load detector 39 provided in the turbine 2 and detecting the current load of the turbine, and a valve opening degree detection The device 32 and the low value selector 26 are connected to each other. The required valve opening degree calculator 31 outputs an output signal from the vacuum degree detector 18,
The output signal from the degree-of-vacuum setting device 19, the output signal from the turbine load schedule setting device 30, the output signal from the turbine load detector 39, and the output signal from the valve opening detector 32 are input, respectively. From the turbine load after a certain time, the current turbine load, the current vacuum degree in the condenser 3, and the current opening degree of the air extraction amount adjusting valve 9, the vacuum degree after a certain time is calculated. On the other hand, the current degree of vacuum is compared with the set value of the degree of vacuum, and based on the deviation value, the required opening degree of the air extraction amount adjustment valve 9 after a certain time corresponding to the above-mentioned degree of vacuum after the certain time, That is, the required opening degree for controlling the degree of vacuum to a set value is obtained, and the low value selector 2 is used as a control signal.
6 is output.

Since the vacuum degree control device in the condenser in this embodiment is constructed as described above, the degree of vacuum in the condenser 3 starts to rise as in the first embodiment. During the period from to reaching the set value, the output from the required valve opening calculator 29 in the exhaust gas flow system is smaller than the output from the required valve opening calculator 31 in the vacuum system, and When the degree of vacuum reaches the set value, the output from the required valve opening calculator 29 of the exhaust gas flow system becomes equal to the output from the required valve opening calculator 31 of the vacuum system, and After the vacuum degree reaches the set value, the output from the required valve opening degree calculator 31 of the vacuum degree system becomes smaller than the output from the required valve opening degree calculator 29 of the exhaust gas flow rate system. As a result, the control signal from the required valve opening calculator 29 of the exhaust gas flow control system is provided by the low value selector 26 during the period from when the degree of vacuum in the condenser 3 starts to rise to when the degree of vacuum reaches the set value. It is output to the air extraction amount adjustment valve 9, and the exhaust gas flow rate in the exhaust gas treatment device is controlled to a set value. After the degree of vacuum in the condenser 3 reaches the set value, a control signal from the required valve opening calculator 31 of the vacuum degree control system is output to the air extraction amount adjusting valve 9, and the condenser 3 The degree of vacuum in 3 is controlled to the set value. As described above, when the degree of vacuum in the condenser 3 reaches the set value, the control target is switched from the exhaust gas flow rate control to the degree of vacuum control, so that the same operation and effect as those of the above-described first embodiment are obtained. Can be achieved.

FIG. 5 is a system diagram showing a fourth embodiment of a vacuum degree control device in a condenser in a condenser of the present invention. In the figure, the same reference numerals as those in FIG. In the figure, reference numeral 45 denotes an exhaust gas flow rate change rate calculator provided between the exhaust gas flow rate detector 22 and the adder 24. The exhaust gas flow rate change rate calculator 45 is connected to a first adder 47 for correction. The first adder 47 includes a change rate setting unit 46.
And the correction proportional integrator 48 are connected to each other. The proportional integrator 48 is connected with a second correcting adder 49 provided between the proportional integrator 25 of the exhaust gas flow system and the low value selector 26. Since the vacuum degree control device in the condenser in this embodiment is configured as described above,
As in the case of the above-described first embodiment, the control signal from the proportional integrator 25 of the exhaust gas flow system is changed from the start of the rise of the degree of vacuum in the condenser 3 to the reaching of the set value. The output is output to the extraction amount adjustment valve 9, and the flow rate of the exhaust gas in the exhaust gas treatment device is controlled to the set value. Further, after the degree of vacuum in the condenser 3 reaches the set value, a control signal from the proportional integrator 21 of the degree of vacuum control system is output to the air extraction amount adjusting valve 9, and The degree of vacuum is controlled to the set value. As described above, when the degree of vacuum in the condenser 3 reaches the set value, the control target is switched from the exhaust gas flow rate control to the degree of vacuum control, so that the same operation and effect as those of the above-described first embodiment are obtained. Can be achieved. In particular, in this embodiment, since a means for correcting a change in the exhaust gas flow rate is provided, a constant set value control of the exhaust gas flow rate is performed from the start of the degree of vacuum to the reaching of the set value. Nevertheless, when the exhaust gas flow rate changes, a correction operation is performed so as to detect the change and correct the control signal to control the exhaust gas flow rate to a constant set value. That is, the change rate calculator 45 captures the above-described change in the exhaust gas flow rate, calculates the change rate, and outputs the calculated change rate to the first adder 47. This first adder 4
In 7, the output from the change rate calculator 45 is compared with the output from the change rate setter 46, and the deviation value is output to the proportional proportional integrator 48 for correction. In the proportional integrator 48, a correction value is calculated based on the above-described deviation value, and is output to the second adder 49. This second adder 4
In 9, the output from the proportional integrator 48 and the output from the proportional integrator 25 of the exhaust gas flow rate system are added and output to the low value selector 26. As a result, the change in the exhaust gas flow rate is corrected.

FIG. 6 is a system diagram showing a fifth embodiment of the vacuum degree control device in the condenser of the condenser of the present invention. In the figure, the same reference numerals as those in FIG. In FIG, 3 3 is a vacuum rate of change calculator provided between the vacuum degree detector 18 and an adder 20. This vacuum rate of change calculator 3 3, first adder 35 for correction is connected.
A change rate setting unit 34 and a correction proportional integrator 36 are connected to the first adder 35, respectively. A second correcting adder 37 provided between the proportional integrator 21 of the vacuum system and the low value selector 26 is connected to the proportional integrator 36. Since the degree of vacuum control device in the condenser in this embodiment has the above-described configuration, the degree of vacuum in the condenser 3 increases from the start of the rise to the set value in the same manner as in the first embodiment. Until it reaches, the control signal from the proportional integrator 25 of the exhaust gas flow rate system is output to the air extraction amount adjustment valve 9, and the exhaust gas flow rate in the exhaust gas treatment device is controlled to the set value. Further, after the degree of vacuum in the condenser 3 reaches the set value, a control signal from the proportional integrator 21 of the degree of vacuum control system is output to the air extraction amount adjusting valve 9, and The degree of vacuum is controlled to the set value. As described above, when the degree of vacuum in the condenser 3 reaches the set value, the control target is switched from the exhaust gas flow rate control to the degree of vacuum control, so that the same operation and effect as those of the above-described first embodiment are obtained. Can be achieved. In particular, in this embodiment, since a means for correcting the degree of vacuum change is provided, after the degree of vacuum reaches the set value, despite the fact that the set value control of the degree of vacuum is performed, When the degree of vacuum changes, a correction operation is performed so that the change is detected and the control signal is corrected to control the degree of vacuum to a constant set value. That is, the change rate calculator 33 captures the above change, calculates the change rate, and outputs the calculated change rate to the first adder 35. In the first adder 35, the output from the change rate calculator 33 is compared with the output from the change rate setter 34, and the deviation value is output to the proportional integrator 36 for correction. In this proportional integrator 36, a correction value is calculated based on the above deviation value and output to the second adder 37. In the second adder 37, the output from the proportional integrator 36 and the vacuum system proportional integrator 2
1 are added to the output and output to the low value selector 26. As a result, the change in the degree of vacuum is corrected.

FIG. 7 is a system diagram showing a sixth embodiment of the vacuum degree control device in the condenser of the condenser of the present invention, FIG.
(A) is an explanatory diagram showing a change in the opening degree of the air extraction amount adjusting valve with respect to time in the case of the embodiment of FIG. 7, and FIG.
FIG. 7 is an explanatory diagram showing changes in the output of the proportional integrator of the vacuum degree control system, the output of the proportional integrator of the exhaust gas flow rate control system, and the output of the low value selector in the case of the embodiment of FIG.
FIG. 8C is an explanatory diagram showing changes in the exhaust gas flow rate with respect to time in the case of the embodiment of FIG. 7, and FIG. 8D shows changes in the degree of vacuum and load in the case of the embodiment of FIG. FIG. 8 (A), (B),
The lines in (C) and (D) are shown in FIG. 2 (A), (B), (C),
(D) shows the same line as the line in. In the figures, FIGS. 1 and 2
The same reference numerals denote the same components. In the figure, 38 is a monitor switch for the exhaust gas flow rate provided between the exhaust gas flow rate detector 22 and the adder 24. The contact 44 of the monitor switch 38 is provided between the signal generator 40 and the low value selector 26 described later. 41 is a vacuum detector 1
It is a monitor switch for vacuum degree provided between 8 and the adder 20. The contact 43 of the monitor switch 41 is
It is provided between a signal generator 42 described later and the low value selector 26. When the exhaust gas flow rate or the degree of vacuum exceeds a preset abnormal value, the monitor switch 38 or 41 detects it and turns on the contact 44 or 43. When the contacts 44 and 43 of the monitor switches 38 and 41 are turned ON, the signal generators 40 and 42 output a low opening signal corresponding to the preset opening of the air extraction amount adjusting valve 9 to a low value. These are output to the selectors 26, respectively. Since the degree of vacuum control device in the condenser in this embodiment has the above-described configuration, the degree of vacuum in the condenser 3 increases from the start of the rise to the set value in the same manner as in the first embodiment. Is reached, the control signal from the proportional integrator 25 of the exhaust gas flow system is output to the air extraction amount adjusting valve 9, and the exhaust gas flow rate in the exhaust gas treatment device is controlled to the set value. Further, after the degree of vacuum in the condenser 3 reaches the set value, a control signal from the proportional integrator 21 of the degree of vacuum control system is output to the air extraction amount adjusting valve 9, and The degree of vacuum is controlled to the set value. As described above, when the degree of vacuum in the condenser 3 reaches the set value, the control target is switched from the exhaust gas flow rate control to the degree of vacuum control, so that the same operation and effect as those of the above-described first embodiment are obtained. Can be achieved. In particular, in this embodiment, since the exhaust gas flow rate abnormality detection means and the vacuum degree abnormality detection means are provided, when an abnormality occurs in the exhaust gas flow rate or the vacuum degree, the exhaust gas flow rate abnormality detection means or the vacuum degree abnormality detection means is provided. By operating, it is possible to eliminate the above-mentioned abnormality and prevent an accident. That is, if the exhaust gas flow rate exceeds a preset abnormal value during the exhaust gas flow control, the monitor switch 38 detects the abnormality and the contact 44 thereof is turned on, and the signal from the signal generator 40 selects the opening throttle signal to a low value. Then, the opening of the air extraction amount adjusting valve 9 is narrowed down to a preset opening, and the above-described abnormality is removed (see points E to F in FIG. 8). If the degree of vacuum exceeds a preset abnormal value during the degree of vacuum control, the monitor switch 41 detects the abnormality and the contact 43 is turned on, and the signal from the signal generator 42 selects the opening degree throttle signal to a low value. Then, the opening degree of the air extraction amount adjusting valve 9 is narrowed down to a preset opening degree, and the above-described abnormality is removed (see points G to H in FIG. 8).

[0020]

As is clear from the above description, the vacuum control apparatus of the present invention is based on the control signal of the exhaust gas flow control means until the vacuum in the condenser reaches from 0 to the set value. , Automatically adjusting the opening of the air extraction amount adjustment valve,
Since the exhaust gas flow rate and the like are controlled to the set values, the opening of the air extraction amount adjustment valve is compared with the conventional vacuum degree control device in the condenser that manually adjusts the opening of the air extraction amount adjustment valve. The operation of adjusting the degree is easy. Further, according to the present invention, when the degree of vacuum in the condenser reaches a set value, the switching means is activated to output a control signal to the air extraction amount adjusting valve from the control signal of the exhaust gas flow rate control means to the degree of vacuum control means. Since it is switched to the control signal, after the above-mentioned degree of vacuum in the condenser reaches the set value, the opening degree of the air extraction amount adjustment valve is automatically adjusted based on the control signal of the vacuum degree control means, Since the degree of vacuum is controlled to a set value, the air extraction amount adjustment valve is opened compared to the conventional vacuum degree control device in a condenser that manually adjusts the opening of the air extraction amount adjustment valve. The operation of the degree adjustment is simple, and stable plant operation can be obtained. further,
The present invention continuously monitors the degree of vacuum in the condenser,
Since the degree of vacuum in the condenser is controlled, the degree of vacuum in the condenser can be controlled so that the degree of vacuum in the condenser reaches the set value when the turbine is started. As a result, it is necessary to close the air extraction amount adjusting valve until the degree of vacuum in the condenser reaches an appropriate value when the turbine is started. There is no waste in the operation of adjusting the opening of the regulating valve. Therefore, the present invention can save labor and stabilize plant operation. And the book
The invention is to treat an exhaust gas treatment device by an air extraction amount adjusting valve.
The amount of air extracted from the condenser should be adjusted so as not to exceed the physical capacity.
Because it is directly adjusted without waste, the air extractor
Infinitely extract air from condenser to treat exhaust gas
The air that overflows in the system is purposely returned to the condenser again.
There is no need for waste equipment such as a recirculation system.

[Brief description of the drawings]

FIG. 1 is a system diagram showing a first embodiment of a vacuum control device in a condenser in a condenser of the present invention.

FIG. 2A is an explanatory diagram showing a change in an opening degree of an air extraction amount adjusting valve with respect to time in the case of the embodiment of FIG. 1,
(B) shows the change in the output of the proportional integrator of the vacuum degree control system, the output of the proportional integrator of the exhaust gas flow rate control system, and the output of the low value selector with respect to time in the embodiment of FIG. FIG. 1 (C) is an explanatory diagram showing the change of the exhaust gas flow rate with respect to time in the case of the embodiment of FIG. FIG.

FIG. 3 is a system diagram showing a second embodiment of the vacuum control device in the condenser in the condenser of the present invention.

FIG. 4 is a system diagram showing a third embodiment of the vacuum control device in the condenser in the condenser of the present invention.

FIG. 5 is a system diagram showing a fourth embodiment of the vacuum control device in the condenser in the condenser of the present invention.

FIG. 6 is a system diagram showing a fifth embodiment of the vacuum control device in the condenser in the condenser of the present invention.

FIG. 7 is a system diagram showing a sixth embodiment of the vacuum control device in the condenser in the condenser of the present invention.

8A is an explanatory diagram showing a change in the opening degree of the air extraction amount adjusting valve with respect to time in the case of the embodiment of FIG.
FIG. 7B is a diagram showing changes in the output of the proportional integrator of the vacuum degree control system, the output of the proportional integrator of the exhaust gas flow rate control system, and the output of the low value selector with respect to time in the embodiment of FIG. FIG. 7 (C) is an explanatory diagram showing changes in the exhaust gas flow rate with respect to time in the case of the embodiment of FIG. 7, and FIG. FIG.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Reactor, 2 ... Turbine, 3 ... Condenser, 4 ... Pressure regulating valve, 5 ... Pressure regulator, 6 ... Driven steam pipe, 7 ... 1st stage air extractor, 8 ... 2nd stage air extractor , 9 ... air extraction amount adjustment valve, 10 ... air extraction pipe, 11 ... air extraction condenser, 12 ...
Exhaust gas preheater, 13 ... Recombiner, 14 ... Exhaust gas condenser,
15 ... Exhaust gas dehumidifying tower, 16 ... Noble gas holdup tower,
17: Exhaust tower, 18: Vacuum detector, 19: Vacuum detector, 20: Adder, 21: Proportional integrator, 22: Exhaust gas flow detector, 23: Exhaust gas flow detector, 24: Adder, 2
5: proportional integrator, 26: low value selector, 27: monitor switch, 28: changeover switch, 29: required valve opening calculator, 30: turbine load schedule setting device, 31: required valve opening calculator, 32 ... A required valve opening detector, 33 ... Change rate calculator, 34 ... Change rate setter, 35 ... First adder, 3
6: proportional integrator, 37: second adder, 38: monitor switch, 39: turbine load detector, 40: signal generator, 41: monitor switch, 42: signal generator, 43
... Contact, 44 contact, 45 change rate calculator, 46 change rate setter, 47 first adder, 48 proportional integrator, 49
... second adder, 100 ... main steam pipe.

Claims (20)

(57) [Claims] 1. A condenser for condensing steam discharged from a steam turbine, an air extractor for extracting air from the condenser and sending the air to a downstream exhaust gas treatment device, and the condenser and air Installed between the extractor and the processing capacity of the exhaust gas treatment equipment
The amount of air extracted from the condenser without waste.
In a condensing apparatus provided with an air extraction amount adjusting valve for directly adjusting, a detector for detecting an exhaust gas flow rate or the like flowing through the exhaust gas processing device, and a control signal based on an output signal from the exhaust gas flow detector To the air extraction amount adjustment valve, means for adjusting the opening of the air extraction amount adjustment valve based on the control signal to control the exhaust gas flow rate or the like to a set value, and the degree of vacuum in the condenser And a control signal based on an output signal from the vacuum degree detector, and outputs the control signal to the air extraction amount adjusting valve, and adjusts the opening degree of the air extraction amount adjusting valve based on the control signal. Means for controlling the degree of vacuum or the like to a set value, until the degree of vacuum or the like in the condenser reaches the set value,
The exhaust gas flow rate control means controls the air extraction amount adjustment valve.
Exhaust gas flow rate is controlled via the
Etc. reach the set value, from the exhaust gas flow control means
The vacuum in the condenser is switched to the vacuum control means.
After the degree reaches the set value, the degree of vacuum control means
Because the degree of vacuum is controlled via the air extraction amount adjustment valve
And a switching means for controlling the degree of vacuum in the condenser in the condenser. 2. The switching means is provided between the exhaust gas flow rate control means and the vacuum degree control means and the air extraction amount adjusting valve,
A low value selection for inputting a control signal of the exhaust gas flow rate control means and a control signal of the vacuum control means, and outputting a control signal having a lower value of the control signals of the two control means to the air extraction amount adjusting valve. The vacuum degree control device in the condenser of the condenser according to claim 1, which is a condenser. 3. The switching means includes a detector for detecting that the degree of vacuum in the condenser has reached a set value from a value less than a set value, an exhaust gas flow rate control means, a vacuum degree control means, and an air extraction amount adjusting valve. Means for switching a control signal to be output to the air extraction amount adjusting valve from a control signal of the exhaust gas flow rate control means to a control signal of the vacuum degree control means according to an output signal from the vacuum degree set value reaching detector. The vacuum degree control device in the condenser of the condenser according to claim 1, comprising: 4. The exhaust gas flow rate control means, an exhaust gas flow rate detector, an exhaust gas flow rate setting device, an adder for adding an output signal from the exhaust gas flow rate detector and an output signal from the exhaust gas flow rate setting device, and 2. A degree of vacuum in the condenser in the condenser according to claim 1, further comprising a proportional integrator for proportionally integrating an output signal from the adder and outputting the proportional signal to the switching means as a control signal. Control device. 5. The vacuum degree control means includes a vacuum degree detector, a vacuum degree setting device, an adder for adding an output signal from the vacuum degree detector and an output signal from the vacuum degree setting device, and 2. A degree of vacuum in the condenser in the condenser according to claim 1, further comprising a proportional integrator for proportionally integrating an output signal from the adder and outputting the proportional signal to the switching means as a control signal. Control device. 6. The exhaust gas flow control means includes a vacuum detector, an exhaust gas flow detector, an opening detector of an air extraction amount adjusting valve, an exhaust gas flow setter, a current vacuum degree, an exhaust gas flow rate, The exhaust gas flow rate after a certain time is calculated from the opening of the air extraction amount adjustment valve, while the current exhaust gas flow rate and the exhaust gas flow rate set value are compared, and the exhaust gas flow rate after the certain time is corresponded based on the deviation value. 2. The condensing device according to claim 1, further comprising a required valve opening calculator for obtaining a required opening of the air extraction amount adjusting valve after a predetermined time and outputting the obtained opening as a control signal to the switching means. Vacuum control device in the condenser at 7. The vacuum control means includes a turbine load schedule setter, a turbine load detector, a vacuum detector, an opening detector of an air extraction amount adjustment valve, a vacuum setter, Calculate the degree of vacuum after a certain period of time from the turbine load after time, the current turbine load, the degree of vacuum in the condenser, and the opening of the air extraction control valve. The required opening degree of the air extraction amount adjusting valve after a certain time corresponding to the degree of vacuum after the certain time is obtained based on the deviation value, and the required opening degree is output to the switching means as a control signal. The vacuum controller in the condenser in the condenser according to claim 1, further comprising an arithmetic unit. 8. The exhaust gas flow rate control means detects a change in the exhaust gas flow rate and calculates a change rate thereof, a change rate setting device, an output signal from the change rate operation device, and a change rate setting device. Adder for comparing the output signal from the adder and outputting the deviation value, a proportional integrator for proportionally integrating the output signal from the adder, and an output from the proportional integrator and a normal exhaust gas flow control system An adder that adds the output from the proportional integrator to the exhaust gas flow rate control unit.If the exhaust gas flow rate changes during the exhaust gas flow rate control, the control signal is corrected according to the rate of change and the exhaust gas flow rate is set to a fixed set value. The vacuum controller in the condenser in the condenser according to claim 1, wherein the controller controls the degree of vacuum in the condenser. 9. The degree-of-vacuum control means includes a rate-of-change calculator that detects a change in degree-of-vacuum and calculates the rate of change, a rate-of-change setter, an output signal from the rate-of-change calculator, and a rate-of-change setting. Adder for comparing the output signal from the adder and outputting the deviation value, a proportional integrator for proportionally integrating the output signal from the adder, and an output from the proportional integrator and a normal vacuum control system And an adder for adding the output from the proportional integrator of, when the degree of vacuum changes during the degree of vacuum control,
2. The control signal is corrected according to the rate of change to control the degree of vacuum to a constant set value.
A vacuum degree control device in a condenser in the condenser described in 1. 10. A means for detecting an abnormality in an exhaust gas flow rate,
Means for reducing the opening of the air extraction amount adjusting valve to a preset opening by a detection signal from the exhaust gas flow rate abnormality detecting means,
2. The apparatus according to claim 1, further comprising means for detecting an abnormality in the degree of vacuum, and means for narrowing the opening of the air extraction amount adjusting valve to a preset degree of opening based on a detection signal from the means for detecting abnormality in the degree of vacuum. 5. A vacuum control device in a condenser in the condenser according to item 1. 11. A valve having a small Cv value and a small pressure loss when the flow rate-valve opening characteristic is at least a low opening, as the air extraction amount adjusting valve. 1. The vacuum degree control device in a condenser in the condenser device according to 1. 12. A condenser for condensing steam discharged from a steam turbine, an air extractor for extracting air from the condenser and sending it to a downstream exhaust gas treatment device, and a condenser and air Installed between the extractor and the processing capacity of the exhaust gas treatment equipment
Not to waste the amount of air extracted from the condenser.
In a condensing device provided with an air extraction amount adjusting valve that directly adjusts, before the degree of vacuum in the condenser reaches a set value,
Detects a flow rate of the exhaust gas flowing through the exhaust gas processing device, etc., outputs a control signal based on the detection result to the air extraction amount adjustment valve, and adjusts the opening of the air extraction amount adjustment valve based on the control signal. Controlling the exhaust gas flow rate and the like to a set value, increasing the degree of vacuum and the like in the condenser, and when the degree of vacuum and the like in the condenser reaches the set value, the control target is changed to the exhaust gas flow rate and the like. To the degree of vacuum, etc., after the degree of vacuum in the condenser reaches a set value, the degree of vacuum in the condenser is detected, and a control signal based on the detection result is sent to the air extraction amount. Condensate in a condensing device, characterized in that it is output to a regulating valve and the opening degree of the air extraction amount regulating valve is adjusted based on the control signal to control the degree of vacuum to a set value. How to control the degree of vacuum in the vessel. 13. A method for switching a control target includes:
A control signal of the exhaust gas flow rate control means and a control signal of the vacuum degree control means are respectively inputted, and a control signal having a lower value among the control signals of the two control means is outputted to the air extraction amount adjusting valve. 13. The method of controlling a degree of vacuum in a condenser in a condenser according to claim 12, wherein: 14. A method for switching a control target includes:
Detects that the degree of vacuum in the condenser has reached the set value from below the set value, and outputs a control signal to the air extraction amount adjustment valve,
13. The method for controlling the degree of vacuum in a condenser of a condenser according to claim 12, wherein the control signal of the exhaust gas flow rate control means is switched to the control signal of the degree of vacuum control means. 15. The method for controlling the exhaust gas flow rate includes:
13. The condensing device according to claim 12, wherein a flow rate of the exhaust gas is detected, the set value is added to the set value of the exhaust gas, a proportional integration is performed, and the integrated value is output to the switching means as a control signal. Method of controlling the degree of vacuum in the condenser in Japan. 16. A method for controlling the degree of vacuum is to detect the degree of vacuum, add the value to a set value of the degree of vacuum, perform a proportional integration, and output the result to the switching means as a control signal. The method for controlling the degree of vacuum in the condenser in the condenser according to claim 12, characterized in that: 17. The method for controlling the exhaust gas flow rate includes:
The exhaust gas flow rate after a certain time was calculated from the current degree of vacuum in the condenser, the exhaust gas flow rate, and the opening of the air extraction amount adjustment valve, while comparing the current exhaust gas flow rate with the exhaust gas flow rate set value. Determining a required opening degree of the air extraction amount adjustment valve after a predetermined time corresponding to the exhaust gas flow rate after the predetermined time based on the deviation value, and outputting the same to the switching means as a control signal. The method for controlling the degree of vacuum in the condenser in the condenser according to claim 12. 18. A method for controlling the degree of vacuum includes a turbine load after a certain time, a current turbine load, a current vacuum degree in the condenser, a current opening degree of the air extraction amount adjusting valve, and the like. From, the degree of vacuum after a certain time is calculated, on the other hand, the current degree of vacuum is compared with a set value of the degree of vacuum, and air extraction after a certain time corresponding to the degree of vacuum after the certain time is based on the deviation value. The required opening of the quantity adjusting valve is obtained and is output to the switching means as a control signal.
2. The method for controlling the degree of vacuum in a condenser in the condenser according to 2. 19. The method for controlling the exhaust gas flow rate includes:
During exhaust gas flow control, if the exhaust gas flow rate changes, the change can be detected so that the change is detected and the control signal is corrected to control the exhaust gas flow rate to a constant set value. The method for controlling the degree of vacuum in the condenser in the condenser according to claim 12. 20. As a method of controlling the degree of vacuum, when the degree of vacuum changes during the degree of vacuum control, the change is detected and the control signal is corrected to control the degree of vacuum to a constant set value. 13. The method for controlling the degree of vacuum in the condenser of the condenser according to claim 12, wherein the method is capable of performing correction as described above.