JP2006052865A - Circulating water system, circulating water system control method, computer program and flow rate measurement method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a control technique for a circulating water system for increasing efficiency of daily maintenance of the circulating water system in a power generation unit. <P>SOLUTION: An ultrasonic flowmeter is installed on the downstream side of a backwash valve to measure the flow rate of the circulating water in a timely manner. The measurement value thereof is compared with a discharged water quantity from a circulating water pump estimated from the output value of the circulating water pump. When the result of the comparison is larger than a predetermined difference, it is determined that trouble occurs in the circulating water pump and an alarm signal to the operation of the pump is outputted. When the difference of the comparison is smaller than the predetermined value, the backwashing valve is changed over to clean a condenser. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a technique for controlling and maintaining a circulating water system including a condenser in a power generation facility.

  A power generation turbine condenser is installed in a power generation unit of a nuclear power plant or a thermal power plant. The condenser is cooled by cooling water (for example, seawater taken from the sea) fed by a circulating water pump. Since the cooling performance of the condenser, that is, the amount of cooling water greatly affects the efficiency of the turbine system, the QH performance curve on the design specifications of the circulating water pump or the motor current value of the circulating water pump is used. Circulating water flow is calculated as needed.

  When seawater is used as the circulating water, there is a problem of performance degradation due to marine organisms. For example, marine organisms adhere to equipment or piping or grow after attachment, resulting in a decrease in the amount of water supplied or a decrease in the performance of the heat exchanger. Various techniques are provided as techniques for preventing this. For example, there is a technique disclosed in Patent Document 1 as a technique for supplying marine water to a seawater circulation system to suppress marine organisms.

Japanese Patent Laid-Open No. 2-16340

  Also, as a technology to enhance the removal effect of marine organisms by early uniformization of the circulating hot water flow, the remaining cooling water is discharged to the unit that stopped power generation, and then hot water at the lethal temperature of marine organisms is supplied. There is a technique disclosed in Patent Document 2. The technique disclosed in Patent Document 2 will be effective during maintenance with power generation stopped.

Japanese Patent No. 2985628

However, the technique disclosed in Patent Document 2 has a demerit that it can be used only in a unit in which power generation is stopped.
On the other hand, there is not a small demand that maintenance can be performed on a daily basis, rather than during a large-scale maintenance after power generation is stopped. In addition, if the attachment of marine organisms is in the initial stage, the problem can often be solved by switching the backwash valve to reverse the flow of seawater to the condenser and eliminating clogging.

In routine maintenance, for example, the backwash valve switching timing is obtained by grasping the power supplied to the circulating water pump and the pressure measurement generated by the circulating water pump.
However, when the capacity of the circulating water pump is reduced for some reason, the problem of switching the backwash valve does not solve the problem. In other words, in the method of grasping the power supplied to the circulating water pump and the pressure measurement generated by the circulating water pump, is the condenser clogged, or is the performance deteriorated due to deterioration of the circulating water pump damage, etc. There is a problem that it cannot be uniquely identified. For this reason, it is an inefficient maintenance work in which the backwash valve is switched to clean the condenser and the circulating water pump is inspected when it is not possible. That is, the deterioration diagnosis of the circulating water pump cannot be performed immediately.

The problem to be solved by the present invention is to improve the efficiency of daily maintenance of the circulating water system in the power generation unit.
The object of the invention described in claims 1 to 3 is to provide a circulating water system capable of improving the efficiency of daily maintenance of the circulating water system in the power generation unit.
An object of the invention described in claims 4 to 6 is to provide a control method for a circulating water system capable of improving the efficiency of daily maintenance of the circulating water system in the power generation unit.
An object of the invention described in claims 7 to 9 is to provide a control program for a circulating water system capable of improving the efficiency of daily maintenance of the circulating water system in the power generation unit.
An object of the invention of claim 10 is to provide a flow rate measuring method that contributes to efficiency in daily maintenance of a circulating water system in a power generation unit.

In order to solve the above-described problems, the present invention measures the flow rate of the circulating water system instead of the pressure measurement generated by the circulating water pump, and obtains data necessary for maintaining the performance of the circulating water system at a constant level. Provide technology that can.
Piping used for circulating water is a large-diameter pipe of 1 meter to several meters, and the flow rate is large, so it is practically impossible to perform factory experiments with technologies that require a flow rate correction coefficient such as a time difference type ultrasonic flowmeter. Can not be employed. Therefore, an ultrasonic flowmeter that can perform accurate measurement without a “flow rate correction coefficient” is employed.

(Claim 1)
The invention according to claim 1 includes a condenser, a backwash valve that converts the direction of water flow with respect to the condenser, an ultrasonic flowmeter and a circulating water pump installed downstream of the outlet of the backwash valve. The present invention relates to a circulating water system.

(Glossary)
The circulating water system in which the present invention is adopted is a circulating water system including a condenser for a power generation turbine, such as a power generation unit of a nuclear power plant or a thermal power plant.
The ultrasonic flowmeter employed in the present invention includes a general Doppler ultrasonic flowmeter and an ultrasonic flowmeter using a correlation method. The ultrasonic flow meter using the correlation method is, for example, an ultrasonic flow meter as disclosed in JP-A-2003-344131.
As for the Doppler type ultrasonic flowmeter, an ultrasonic transmission means for causing an ultrasonic pulse of a required frequency to enter a measured fluid in a fluid (for example, water) pipe along a measurement line from an ultrasonic transducer, and a measured fluid Based on the fluid velocity distribution measuring means for receiving the ultrasonic echo reflected from the measurement region among the ultrasonic pulses incident on the measurement region and measuring the flow velocity distribution of the fluid under measurement in the measurement region, and the flow velocity distribution of the fluid under measurement And a flow rate calculation means for calculating the flow rate of the fluid to be measured in the measurement region, to measure the flow rate of the fluid to be measured. For example, it is disclosed by Unexamined-Japanese-Patent No. 2000-97742.
The ultrasonic flow meter was installed “downstream from the outlet of the backwash valve” because the water pressure was high and the flow was unstable immediately after the circulating water pump, or the water pressure was high. For this reason, it has been empirically found that there are cases where the bubbles to be a reflector for reflecting the ultrasonic echoes are scarce.

(Claim 2)
The invention according to claim 2 limits the circulating water system according to claim 1,
The flow rate comparison means for comparing the flow rate calculated using the ultrasonic flowmeter and the discharge water amount of the circulating water pump estimated from the output value of the circulating water pump, and the comparison result by the flow rate comparison means is less than a predetermined difference. In the case where it is large, it is characterized by comprising pump warning output means for outputting an operation warning signal of the circulating water pump.

The “output value of the circulating water pump” is a value representing the output of the circulating water pump, and specifically, the current value of the circulating water pump or the discharge pressure of the circulating water pump.
The “discharge water amount of the circulating water pump estimated from the output value of the circulating water pump” includes, for example, a discharge water amount estimation data table for estimating the discharge water amount of the circulating water pump from the current value of the circulating water pump. And based on the data table. The same applies when measuring the discharge pressure of the circulating water pump. In addition, the timing which calculates | requires the discharge water amount of a circulating water pump is substantially simultaneous with the moment which an ultrasonic flowmeter measures.

As the “predetermined difference” by the flow rate comparing means, for example, a numerical value set in advance as a value exceeding an allowable flow rate error is adopted. When the comparison result by the flow rate comparison means is larger than the predetermined difference, there is a high possibility that a trouble that cannot be solved by conversion of the water flow direction by the reverse valve has occurred, and in this application it is a trouble of the circulating water pump. I am going to make a judgment.
The “pump warning output means” is a means for issuing an output signal indicating that there is a possibility that an abnormality has occurred in the circulating water pump. Specifically, an output signal for gradually decreasing the operation output of the power generation unit, a signal for operating the spare pump when a spare circulating water pump is prepared in the circulating water system, and the like.

(Function)
An ultrasonic flow meter is installed downstream of the outlet of the backwash valve in the circulating water system, and the flow rate is calculated using the ultrasonic flow meter. On the other hand, the discharge water amount of the circulating water pump is estimated from the output value of the circulating water pump, and the flow rate comparing means compares it with the flow rate calculated using the ultrasonic flowmeter. When the comparison result by the flow rate comparing means is larger than the predetermined difference, the pump warning output means outputs an operation warning signal for the circulating water pump.
As described above, the fact that the trouble has occurred in the specific circulating water pump can be systematically output based on the comparison result by the flow rate comparing means, which contributes to efficient maintenance of the circulating water system.

(Claim 3)
The invention according to claim 3 limits the circulating water system according to claim 1 or claim 2.
That is, with a condenser pressure sensor that measures the internal pressure of the condenser,
When the measurement result by the condenser pressure sensor is larger than the reference pressure, and the comparison result by the flow rate comparing means is smaller than a predetermined difference, a valve switching output for outputting a valve switching signal for the backwash valve Means are provided.

(Function)
In this system, when the measurement result by the condenser pressure sensor is larger than the reference pressure and the comparison result by the flow rate comparison means is smaller than a predetermined difference, the condenser is clogged. to decide. And in order to eliminate clogging of the condenser, the valve switching output means outputs a valve switching signal for the backwash valve to reverse the circulation path of the circulating water system.
As described above, using the measurement result by the condenser pressure sensor and the comparison result by the flow rate comparison means, the fact that the condenser is clogged is output and the maintenance of the circulating water system is made more efficient. Contribute.

(Claim 4)
The invention described in claim 4 includes a condenser, a backwash valve and a circulating water pump for converting the direction of water flow with respect to the condenser, and an ultrasonic flowmeter installed downstream of the outlet of the backwash valve. Related to the control method of the circulating water system.
That is, the flow rate calculation procedure for calculating the flow rate using an ultrasonic flowmeter, and the output value of the circulating water pump is measured at the time of measurement of the flow rate by the flow rate calculation procedure, and the discharge water amount of the circulating water pump is estimated from the output value If the comparison result of the discharge water amount estimation procedure, the flow rate calculation procedure comparing the calculation flow rate calculated by the flow rate calculation procedure and the estimated discharge water amount by the discharge water amount estimation procedure, and the comparison result by the flow rate comparison procedure is greater than the predetermined difference, the circulating water A circulating water system control method including a pump warning output procedure for outputting a pump operation warning signal.

(Claim 5)
The invention according to claim 5 includes a condenser, a backwash valve and a circulating water pump for converting the water flow direction with respect to the condenser, and an ultrasonic flowmeter installed downstream of the outlet of the backwash valve. Related to the control method of the circulating water system.
That is, the output value of the circulating water pump is measured and the discharge water amount estimation procedure for estimating the discharge water amount of the circulating water pump from the output value, and the flow rate at the time of estimation of the discharge water amount by the discharge water amount estimation procedure is calculated using an ultrasonic flowmeter. The flow rate calculation procedure to be used, the flow rate comparison procedure to compare the calculated flow rate by the flow rate calculation procedure and the estimated discharge water amount by the discharge water amount estimation procedure, and the comparison result by the flow rate comparison procedure is greater than a predetermined difference A circulating water system control method comprising a pump warning output procedure for outputting an operation warning signal for the circulating water pump.
The difference from claim 4 is that the order of the discharge water amount estimation procedure and the flow rate calculation procedure is switched.

(Claim 6)
The invention according to claim 6 limits the circulating water system control method according to claim 4 or claim 5.
First, the condenser of the circulating water system is equipped with a condenser pressure sensor that measures the internal pressure.
Then, an internal pressure measurement procedure for measuring the internal pressure by the condenser pressure sensor, a pressure comparison procedure for comparing the internal pressure measured in the internal pressure measurement procedure with a reference pressure, and the pressure comparison procedure And a valve switching output procedure for outputting a valve switching signal for the backwash valve when the comparison result by the flow rate comparison procedure is smaller than a predetermined difference when the measurement result by This is a water system control method.

(Claim 7)
The invention according to claim 7 includes a condenser, a backwash valve and a circulating water pump for converting a water flow direction with respect to the condenser, and an ultrasonic flowmeter installed downstream of the outlet of the backwash valve. Related to the control program of the circulating water system.
The control program calculates the flow rate using a storage procedure that pre-stores a discharge water amount estimation data table for estimating the discharge water amount of the circulating water pump from the output value of the circulating water pump and an ultrasonic flowmeter. The flow rate calculation procedure, the output value of the circulating water pump at the time of measurement of the flow rate by the flow rate calculation procedure, and the discharge water amount estimation procedure for estimating the discharge water amount of the circulating water pump from the output value, and the calculated flow rate by the flow rate calculation procedure A flow rate comparison procedure for comparing the estimated discharge water amount by the discharge water amount estimation procedure, and a pump warning output procedure for outputting an operation warning signal for the circulating water pump if the comparison result by the flow rate comparison procedure is greater than a predetermined difference, Is a computer program for causing a computer to execute.

(Claim 8)
The invention according to claim 8 includes a condenser, a backwash valve and a circulating water pump for converting a water flow direction with respect to the condenser, and an ultrasonic flowmeter installed downstream of the outlet of the backwash valve. Related to the control program of the circulating water system.
The control program measures the output value of the circulating water pump as well as the storage procedure for preliminarily storing the discharge water amount estimation data table for estimating the discharged water amount of the circulating water pump from the output value of the circulating water pump. According to the discharge water amount estimation procedure for estimating the discharge water amount of the circulating water pump from the output value, the flow rate calculation procedure for calculating the flow rate at the time of estimation of the discharge water amount by the discharge water amount estimation procedure using the ultrasonic flowmeter, and the flow rate calculation procedure A flow rate comparison procedure that compares the calculated flow rate with the estimated discharge water amount according to the discharge water amount estimation procedure, and a pump warning that outputs an operation warning signal for the circulating water pump if the comparison result by the flow rate comparison procedure is greater than a predetermined difference A computer program for causing a computer to execute an output procedure.

(Claim 9)
The invention according to claim 9 limits the computer program according to claim 7 or claim 8.
First, the condenser of the circulating water system is equipped with a condenser pressure sensor that measures the internal pressure.
Then, an internal pressure value reception procedure for receiving the internal pressure value measured using the condenser pressure sensor, and a pressure comparison for comparing the internal pressure measured in the internal pressure value reception procedure with the reference pressure When the measurement result of the procedure and the pressure comparison procedure is greater than the reference pressure, and the comparison result of the flow rate comparison procedure is smaller than a predetermined difference, the valve switching that outputs a valve switching signal for the backwash valve A computer program that causes a computer to execute an output procedure.

The computer program according to claims 7 to 9 can be provided by being stored in a recording medium. Here, the “recording medium” is a medium that can carry a program that cannot occupy space by itself, such as a flexible disk, a hard disk, a CD-ROM, an MO (magneto-optical disk), a DVD- ROM, PD, etc.
It is also possible to transmit from a computer storing a program according to these inventions to another computer through a communication line.

(Claim 10)
The invention according to claim 10 relates to the process invention of the circulating water system according to claim 1.
That is, a method for measuring the flow rate of circulating water in a circulating water system having a condenser and a backwash valve that converts the water flow direction with respect to the condenser, wherein an ultrasonic flowmeter is connected to the outlet of the backwash valve. And a measurement procedure for measuring the flow rate of circulating water at the installation location.
According to this flow rate measuring method, the flow rate of the circulating water system in the power generation unit can be measured extremely accurately and in a timely manner, contributing to the efficiency of daily maintenance.

According to invention of Claim 1-Claim 3, the circulating water system which can improve the daily maintenance of the circulating water system in an electric power generation unit can be provided.
According to invention of Claim 4 to Claim 6, the control method of the circulating water system which can improve the daily maintenance of the circulating water system in an electric power generation unit was able to be provided.
According to the seventh to ninth aspects of the present invention, it is possible to provide a circulating water system control program capable of improving the efficiency of daily maintenance of the circulating water system in the power generation unit.
According to the invention described in claim 10, it is possible to provide a flow rate measuring method that contributes to the efficiency of daily maintenance of the circulating water system in the power generation unit.

Hereinafter, the present invention will be described in more detail based on embodiments and drawings. The drawings used here are FIGS. 1 to 3.
(Figure 1)
FIG. 1 is an overall configuration diagram in which a circulating water system of the present invention is adopted in a condenser cooling system using seawater in a thermal power plant.
It has a circulating water pump (P) from the intake channel leading to the sea to the condenser through the backwash valve, and a water outlet from the condenser through the backwash valve and the condenser outlet valve. The piping route to The seawater taken from the sea is sent to the circulating water pump (P) after removing foreign substances such as sand and shells in the dust removal equipment.
An ultrasonic flow meter (D) is installed downstream of the outlet of the backwash valve. In addition, the condenser is provided with a pressure sensor (S) for measuring the pressure in the condenser.
Furthermore, although not shown in the figure, a thermometer that measures and acquires the seawater temperature (Ts) before water intake, a thermometer that measures and acquires the drainage temperature (To) discharged from the outlet, and a circulating water pump (P), A control computer for controlling the backwash valve is provided.

  The circulating water pipe has a large diameter of 1 to 3 meters in inner diameter, and the flow rate is a large flow rate of several tens to several million liters / minute. As an ultrasonic flowmeter (D) used for flow measurement under such conditions, an ultrasonic pulse having a required frequency is made incident from the ultrasonic transducer along the measurement line into the measured fluid in the fluid piping. A sound velocity transmitting means, a fluid velocity distribution measuring means for receiving an ultrasonic echo reflected from the measurement area among the ultrasonic pulses incident on the fluid to be measured, and measuring a flow velocity distribution of the fluid to be measured in the measurement area; A Doppler type ultrasonic flowmeter that measures the flow rate of the fluid to be measured is provided that includes a flow rate calculation unit that calculates the flow rate of the fluid to be measured in the measurement region based on the flow velocity distribution of the fluid to be measured.

  About ultrasonic flowmeters, “Installed downstream from the outlet of the backwash valve” is because the water pressure is high and the flow is unstable immediately after the circulating water pump, or the water pressure is high. For this reason, it was empirically found that bubbles that should become a reflector for reflecting ultrasonic echoes were crushed and sometimes lacked.

The above-described ultrasonic transducer employs a receiver having higher receiving sensitivity than the transducer used in a general ultrasonic flowmeter. The oscillation frequency is 0.5 to 1.0 MHz. The oscillation frequency employed here is different from the generally used value of around 2 MHz.
If the dimensions of the circulating water pipe (two or more of the outer diameter, wall thickness, and inner diameter), the material of the pipe, the type of fluid, etc. are known in advance, the ultrasonic incident angle α (see Fig. 3) Can be specified. The incident angle α varies depending on the dimensions of the circulating water pipe, the speed of the fluid, and the like, but in the case of this embodiment, there are many ranges of 8 to 15 degrees.

The echo signal (longitudinal ultrasonic wave) from the reflector (bubble) in the fluid to be measured (seawater) passes through the pipe from the fluid to be measured and is switched to the reception mode (transducer). Received. The received ultrasonic echo is received by a reflected wave receiver and converted into an echo electric signal by the reflected wave receiver. The echo electric signal is amplified by an amplifier and then digitized through an AD converter. Then, the digitized digital echo signal is input to a flow velocity calculation device provided with a flow velocity distribution measuring circuit.
The flow velocity calculation device receives the digital signal of the fundamental frequency from the oscillation amplifier and measures the flow velocity using the change in flow velocity based on the Doppler shift or the cross-correlation value of both signals from the frequency difference between the two signals. The flow velocity distribution in the measurement area along the measurement line is calculated. The flow rate (q) is calculated using the flow velocity distribution.

(Figure 2)
Based on FIG. 2, the control process of the circulating water system which concerns on this embodiment is demonstrated.
In advance, the control computer measures and acquires the seawater temperature (Ts) before water intake and the temperature of the drainage water (To) discharged from the outlet, the amount of heat (Qf) converted from the fuel of the thermal power plant, and the measured amount of released heat. (Qo) is received and stored. Also, a data table for converting the reference pressure (Pc (Ts)) with respect to the seawater temperature and a data table for converting the pump discharge flow rate (q (i)) estimated from the output value of the circulating water pump are stored. Yes.

The condenser is provided with a pressure sensor (S) for measuring the pressure (Pc) in the condenser, and the pressure (Pc) in the condenser and the reference pressure (Ps) are compared. If the pressure (Pc) in the condenser is larger than the reference pressure (Ps), it is determined that maintenance of the circulating water system has occurred.
If the flow rate (q) measured by the Doppler flow meter is equal to the pump discharge flow rate (q (i)) estimated from the output value of the circulating water pump (exactly within the allowable range), circulation The control computer determines that there is no abnormality in the water pump, switches the backwash valve (sends an output signal to switch the backwash valve), reverses the flow of the circulating water, and condensates Wash the instrument tube.

If the flow rate (q) measured by the Doppler flow meter and the pump discharge flow rate (q (i)) estimated from the current value of the circulating water pump are different (exactly beyond the allowable range), the circulation The control computer determines that an abnormality has occurred in the water pump. Then, an operation warning signal for the circulating water pump is output. Preparations are made for checking whether the impeller (impeller) of the circulating water pump is damaged or worn.
As described above, the fact that the trouble has occurred in the specific circulating water pump can be systematically output based on the comparison result by the flow rate comparing means, which contributes to efficient maintenance of the circulating water system.

The Doppler type ultrasonic flowmeter, which is excellent for measuring the flow rate that changes every moment, is adopted, and the flowmeter is installed in an appropriate position including bubbles suitable for stable flow and ultrasonic reflection. Timely flow measurement is possible. The measured flow rate and the flow rate calculated from the output of the circulating water pump should be the same value if there is no abnormality in the pump.
Therefore, as the maintenance when the equivalent value is obtained, the cleaning of the condenser tube by switching the backwash valve is selected. Moreover, since the probability that it is more than a circulating water pump as a maintenance when an equivalent value is not obtained, the maintenance with respect to pump deterioration based on damage, abrasion, etc. of a pump impeller can be selected.
As described above, it is possible to provide technology that can automate the deterioration diagnosis of circulating water pumps that have relied on the insight of field staff based on experience and the judgment based on the fact that switching by backwashing valve does not solve it. did it.

The present invention can be employed in a condenser cooling system using natural water such as seawater or lake water in a thermal power or nuclear power plant.
It is also used in plant maintenance industries such as condensers and circulating water pumps.

In the condenser cooling system using seawater in a thermal power plant, it is the whole block diagram which adopted the circulating water system of the present invention. It is a flowchart of a control system. It is a schematic diagram for showing the incident angle α regarding the ultrasonic flowmeter.

Claims (10)

In a circulating water system with a condenser and a backwash valve that converts the direction of water flow to the condenser,
A circulating water system characterized by comprising an ultrasonic flow meter installed downstream of the outlet of the backwash valve. A flow rate comparing means for comparing the flow rate calculated using an ultrasonic flowmeter with the amount of water discharged from the circulating water pump estimated from the output value of the circulating water pump;
The circulating water system according to claim 1, further comprising a pump warning output means for outputting an operation warning signal of the circulating water pump when the comparison result by the flow rate comparing means is larger than a predetermined difference. With a condenser pressure sensor that measures the pressure inside the condenser,
When the measurement result by the condenser pressure sensor is larger than the reference pressure, and the comparison result by the flow rate comparing means is smaller than a predetermined difference, a valve switching output for outputting a valve switching signal for the backwash valve The circulating water system according to claim 1 or 2, further comprising means. A control method for a circulating water system comprising a condenser, a backwash valve and a circulating water pump for changing the water flow direction with respect to the condenser, and an ultrasonic flowmeter installed downstream of the outlet of the backwash valve. There,
A flow rate calculation procedure for calculating a flow rate using an ultrasonic flow meter;
A discharge water amount estimation procedure for measuring the output value of the circulating water pump at the time of measurement of the flow rate by the flow rate calculation procedure and estimating the discharge water amount of the circulating water pump from the output value;
A flow rate comparison procedure for comparing the calculated flow rate by the flow rate calculation procedure and the estimated discharge water amount by the discharge water amount estimation procedure;
A circulating water system control method comprising: a pump warning output procedure for outputting an operation warning signal of the circulating water pump when a comparison result by the flow rate comparison procedure is larger than a predetermined difference. A control method for a circulating water system comprising a condenser, a backwash valve and a circulating water pump for changing the water flow direction with respect to the condenser, and an ultrasonic flowmeter installed downstream of the outlet of the backwash valve. There,
Discharge water amount estimation procedure for measuring the output value of the circulating water pump and estimating the discharge water amount of the circulating water pump from the output value;
A flow rate calculation procedure for calculating the flow rate at the time of estimation of the discharge water amount by the discharge water amount estimation procedure using an ultrasonic flowmeter;
A flow rate comparison procedure for comparing the calculated flow rate by the flow rate calculation procedure and the estimated discharge water amount by the discharge water amount estimation procedure;
A circulating water system control method comprising: a pump warning output procedure for outputting an operation warning signal of the circulating water pump when a comparison result by the flow rate comparison procedure is larger than a predetermined difference. The condenser of the circulating water system is equipped with a condenser pressure sensor that measures the internal pressure.
An internal pressure measurement procedure for measuring the internal pressure by the condenser pressure sensor,
A pressure comparison procedure for comparing the internal pressure measured in the internal pressure measurement procedure with a reference pressure;
A valve switching output procedure for outputting a valve switching signal for the backwash valve when the measurement result by the pressure comparison procedure is larger than a reference pressure and the comparison result by the flow rate comparison procedure is smaller than a predetermined difference; The circulating water system control method according to any one of claims 4 and 5, comprising: A control program for a circulating water system comprising a condenser, a backwash valve and a circulating water pump for converting the direction of water flow to the condenser, and an ultrasonic flowmeter installed downstream of the outlet of the backwash valve. There,
The control program includes a storage procedure for preliminarily storing a discharge water amount estimation data table for estimating the discharge water amount of the circulating water pump from the output value of the circulating water pump,
A flow rate calculation procedure for calculating a flow rate using an ultrasonic flow meter;
A discharge water amount estimation procedure for measuring the output value of the circulating water pump at the time of measurement of the flow rate by the flow rate calculation procedure and estimating the discharge water amount of the circulating water pump from the output value;
A flow rate comparison procedure for comparing the calculated flow rate by the flow rate calculation procedure and the estimated discharge water amount by the discharge water amount estimation procedure;
A computer program for causing a computer to execute a pump warning output procedure for outputting an operation warning signal of a circulating water pump when a comparison result by the flow rate comparison procedure is larger than a predetermined difference. A control program for a circulating water system comprising a condenser, a backwash valve and a circulating water pump for converting the direction of water flow to the condenser, and an ultrasonic flowmeter installed downstream of the outlet of the backwash valve. There,
The control program includes a storage procedure for preliminarily storing a discharge water amount estimation data table for estimating the discharge water amount of the circulating water pump from the output value of the circulating water pump,
Discharge water amount estimation procedure for measuring the output value of the circulating water pump and estimating the discharge water amount of the circulating water pump from the output value;
A flow rate calculation procedure for calculating the flow rate at the time of estimation of the discharge water amount by the discharge water amount estimation procedure using an ultrasonic flowmeter;
A flow rate comparison procedure for comparing the calculated flow rate by the flow rate calculation procedure and the estimated discharge water amount by the discharge water amount estimation procedure;
A computer program for causing a computer to execute a pump warning output procedure for outputting an operation warning signal of a circulating water pump when a comparison result by the flow rate comparison procedure is larger than a predetermined difference. The condenser of the circulating water system is equipped with a condenser pressure sensor that measures the internal pressure.
An internal pressure value reception procedure for receiving the internal pressure value measured using the condenser pressure sensor,
A pressure comparison procedure for comparing the in-machine pressure measured in the internal pressure value reception procedure with a reference pressure;
A valve switching output procedure for outputting a valve switching signal for the backwash valve when the measurement result by the pressure comparison procedure is larger than a reference pressure and the comparison result by the flow rate comparison procedure is smaller than a predetermined difference; 9. The computer program according to claim 7, wherein the computer program is executed by a computer. A method for measuring the flow rate of circulating water in a circulating water system comprising a condenser and a backwash valve that converts the direction of water flow to the condenser,
An installation procedure for installing an ultrasonic flowmeter downstream of the outlet of the backwash valve;
And a measurement procedure for measuring the flow rate of the circulating water at the installation location.

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