JPS614996A - Leakage detection system by sump pump - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of the Invention) The present invention relates to a leak detection system, and more particularly, it is a leak detection system used in waste liquid treatment equipment of various facilities such as nuclear power plants. This invention relates to a leak detection system using a sump pump that monitors the amount of water.

(Background of the Invention) Conventionally, a leak detection system in a treatment facility for waste liquid discharged from various facilities within a nuclear power plant, etc., has been developed by assuming the flow rate of waste liquid into a sump tank during normal operation based on the design value, The system calculates the maximum operating time for each pump and the time from the end of operation to restart, sets this as a reference value in the timer, and issues an abnormality alarm when the set value is exceeded. It is being

However, the system described in Section 2 can detect leakage only within the range of a predetermined value of JΩ, and cannot follow fluctuations in the inflow amount during steady state.

In addition, in light of the radioactive waste fluid spill accident at a nuclear power plant,
In 1982, the technical standards for nuclear power IIQ liff were revised, making it necessary to monitor the start and stop of sump pumps in equipment design, but a leak detection system that meets these standards has not yet been established. Therefore, the development of an effective leakage detection system is expected from the viewpoint of early detection.

(Purpose of the Invention) The present invention has been made in view of the above-mentioned problems, and is designed to quickly detect leakage accidents of waste liquid discharged from various facilities such as nuclear power plants in response to the actual situation of the facilities, and The purpose is to provide a leakage detection system that prevents leakage.

The object of the present invention is achieved by the following configuration.

(Structure of the Invention) First, the present invention is a leakage detection system using a sump pump attached to a sump tank, in which the operating time of the sump pump per operation (g, lower, r T onJ) ) and the time from the end of operation to restart (hereinafter referred to as [To
ffJ) in a storage device; means for calculating respective average values and standard deviations σ from data of Ton and Toff accumulated in the storage device and setting respective reference values; This is a leak detection system using a sump pump, characterized in that it is equipped with means for comparing Ton or Toff, which is input each time the pump is operated, with the reference value to determine whether or not to output an alarm signal.

In order to monitor the inflow waste liquid m by focusing on the operation of the sump pump, it is possible to use three elements: T on, T off, and the number of operations within a certain period of time (hereinafter referred to as FNJ). A detailed study reveals that it has the following characteristics.

■ Ton is effective in detecting a relatively large amount of leakage that occurs during pump operation, but cannot be expected to detect a small amount of leakage.

(2) T off is inversely proportional to the inflow amount and changes by -C for leaks that occur when the pump is stopped, so it is effective in detecting leaks of relatively small orders of magnitude.

■N is unsuitable for monitoring the inflow amount because the influence of fluctuations due to leakage is small compared to fluctuations during normal operation.

The present invention stores the Toll and ToH data separately in order to effectively utilize the advantages of the 1-on T Off described above, and sets the respective reference values from the respective M-product data. This system is based on the concept of comparing this reference value with Ton or Toff, which is input each time the sump pump is operated, to determine whether or not to issue an alarm. With such a system, it is possible to distinguish between steady state changes and leakage accidents based on the lower On and Toff values.

Further, if desired, data regarding N can also be stored in the storage device, a reference value can be set, changes in N can be monitored, and an alarm can be issued.

(Explanation of Examples) Hereinafter, the present invention will be explained in detail based on the drawings.

FIG. 1 shows a system 70- of a leak detection system using a sump pump according to the present invention.

In the figure, 1 is the waste liquid flowing into the sump tank, 2 is the sump tank, 3 is the sump pump attached to the sump tank, 4a is the low level switch, 4b is the high level switch, 4C is the high/high level switch, and 5 is the input device, 6 is a storage device, 7 is an arithmetic device, 8 is a comparison device, 9 is an output device, 1
0 is an alarm circuit and 11 is a waste liquid treatment device.

The sump tank 2 unconditionally receives waste liquid 1 that flows in irregularly from everywhere in the facility, and includes a sump pump 3 and level switches 4a and 4b.

4C is provided. In this sump tank 2, by actuation of high and low level switches 4a and 4b,
When the liquid level reaches a high level, the sump pump 3 is activated and the waste liquid 1 is discharged to the waste liquid treatment device 11.

When the liquid level becomes <low>, the sump pump 3 is stopped. Two sump pumps 3 are installed, and normally they are operated alternately each time they are started or stopped, but when the liquid level reaches <high bulk>, the high-high level switch 4C is activated and the sump pump 3
Two units are operated at the same time, and an alarm is issued to warn of the risk of sump tank overflow. This starting or stopping of the sump pump 3 is repeated continuously for 24 hours.

This has been done in conventional leakage detection systems, but in addition to this, the present invention uses a computer to process Ton and Toff by storing, calculating, comparing, etc. By detecting abnormal fluctuations in the amount of inflow of water, it is possible to early and accurately predict the occurrence of a leakage accident within the INOM facility.

Ton and Toff are input from the input device 5 to the storage device 6 each time the sump pump 3 is operated, and are stored as data for calculating respective reference values. Here, the accumulated data is automatically replaced with the oldest data when the latest data is input, so that the data is always at least two of the latest.
It is preferable to store Ton and Toff data for 0 times. By constantly updating the data accumulated in M in this way, the standard values are sequentially updated to the most appropriate values, and leaks can be detected accurately in response to the actual situation of the equipment. I can do it.

The data stored in the storage device 6 is processed by the arithmetic device 7'
, on and Toff, and at the same time calculate the standard deviation σ in order to know the dispersion of the data. Furthermore, based on these values, Ton and Tof
Calculate the reference value for f]-.

In this case, it is preferable to set the reference value for TOn to be a time longer than the average value of Ton by 3C or more, and for Toff to be a time shorter than the average value of Toff by 3C or more. The jq reference value is set in the comparison device 8, and the 7on value is input from the input device 5 every time the sump pump is operated.
and Toff, and if Ton is larger than the reference value for 1-on or Toff is “l”o
If N is smaller than the reference value, an alarm signal is output to the output device 9. Furthermore, the alarm signal is output device 91)+
The signal is sent to the Iro alarm circuit 10 and issues an alarm.

(Effects of the Invention) As explained above, the leak detection system of the present invention monitors actual inflow m fluctuations and constantly sets new reference values, so leak detection that can immediately respond to the actual situation of the equipment is possible and reliability is improved. Very expensive. Therefore, it is possible to detect leakage accidents of waste liquid discharged from various facilities such as nuclear power plants at an early stage and prevent leakage outside the facility, and as a leak detection system method that complies with the revised technical standards for nuclear equipment. The best.

Further, the present invention is not limited to equipment using a pump tank equipped with a sump pump, but can be widely applied to equipment having a receiving tank equipped with an automatically controlled pump.

[Brief explanation of the drawing]

FIG. 1 is a system flow of a leak detection system using a sump pump according to the present invention. 1... Waste liquid, 2... Sump tank, 3... Sump pump, 4a... Low level switch, 41)... High level switch, 4C... High/high level switch, 5... device,
6... Storage device, 7... Arithmetic device, 8... Comparison device, 9-... Output device, 10... Alarm circuit, 11.
...Waste liquid treatment equipment.

Claims (1)

[Claims] 1. A leakage detection system using a sump pump attached to a sump tank, which stores the operating time of the sump pump per operation and the time from the end of operation to restarting in a storage device. Calculate the average value and standard deviation σ from the data of the sump pump's operation time per operation and the time from the end of operation to restart, which are stored in the storage device and the storage device, and determine the respective reference values. 1 of the sump pump, which is input each time the sump pump is operated.
A leak detection system using a sump pump, comprising means for comparing the operating time per operation or the time from the end of operation to restart with the reference value to determine whether or not to output an alarm signal. 2. The leak detection system using a sump pump according to claim 1, wherein the reference value is set based on at least 20 latest data. 3. The leak detection system using a sump pump according to claim 1 or 2, wherein the reference value for the operating time is a time longer than the average value of the operating times by 3σ or more. 4. The reference value for the time from the end of the operation to the restart is a time shorter than the average value of the time from the end of the operation to the restart by 3σ or more.
A leak detection system using a sump pump according to any one of paragraphs.