JPS59215599A - Operation of ball_cleaning apparatus - Google Patents

Abstract

PURPOSE:To always collect a predetermined number of cleaning balls efficiently in a short time, as well as to monitor the state of collecting of cleaning balls, as to the method of operating a ball-cleaning apparatus by circulating sponge balls to clean the heat transfer pipes of a heat exchanger of multi-pipe type used in a condenser for a steam turbine or the other. CONSTITUTION:A ball counter 8 is provided on the upstream side of a ball collector 5 on a ball cleaning line to monitor the state of collecting cleaning balls 25. That is, the first and the second signals of completion of collecting balls are set to be put out from the ball counter 8 when the detected rate of collection (a) or (b) reaches the same rate as a certain predetermined rate of collection or more than that. At the same time, the counting of cleaning balls 25 is set to be counted from the starting time of the first collection. The rate of collection of balls is set so that the first collection is around 90% while the second collection is to be 100% in order to shorten the ball collecting time to perform the collecting operation efficiently.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention provides a ball cleaning device for cleaning heat transfer tubes of a multi-tubular heat exchanger such as a steam turbine condenser by circulating sponge balls. l! Conversion method (related to 1.

[Technical background of the invention and its problems]

For example, a shell-and-tube heat exchanger is incorporated in a steam turbine condenser. Cooling water systems of such heat exchangers (2, 9, etc., such as water covers that use seawater as cooling water) may contain aquatic organisms, etc.
Water scale accumulates, and as time passes, the heat transfer efficiency ≧ the food deteriorates.

As one of the countermeasures against this problem, there is a ball cleaning device that passes sponge cleaning balls through the heat exchanger tubes to clean the inner surfaces of the heat exchanger tubes without stopping the condenser.

In other words, this ball cleaning device is operated as follows! During normal operation, the cleaning balls are placed in the ball collector (squared). When cleaning heat transfer tubes (7-P), the cleaning balls are transferred from the ball collector to the ball extraction head. The injected cleaning balls pass through the inner surface of the heat transfer tube together with the cooling water, and the inside of the tube is quenched. Afterwards, the ball collector (2) is captured. The cleaned balls after being captured are returned to the ball collector again by the ball '1XJ ring pump.

Therefore, the ball cleaning operation in this ball cleaning device (-) is carried out by the following sequence (2).
will be carried out. This is to make the subsequent bowl cleaning easier, since cooling water flows back into the condenser's heat exchanger, weakening the ability of limescale to stick to it. ” after a certain period of time, “ball circulation”
will be carried out. In ``1 ball circulation'', the cleaning ball is submerged in cooling water (2 times) and the ball is cleaned for a certain period of time.

After this "ball circulation" continues for a certain period of time, the ball moves to "first collection". In this "first recovery", many cleaning balls extracted into the cooling water system are collected again into the ball recovery device in the system.
When a certain amount of ball collection is completed at a certain time during the "first collection", the "second backwash" is executed. This "second backwashing" is carried out by backwashing the heat exchanger tubes (two-chain constant cleaning balls) which are once collected into the ball inlet group screen in the system, followed by the "second collection". This is a sequence to increase the collection rate to the ball collector.

When the "second collection" is completed, each device is returned to its normal state and the ball cleaning operation is completed.

However, in the conventional ball cleaning operation method described above, the ball collection time is determined empirically and the collection end signals for "first collection" and "second collection" are set using a timer, so this is unnecessary. Since cleaning balls are collected over a long period of time, and the state of collection of cleaning balls is unknown, it has been impossible to keep collection of cleaning balls constant.

[Purpose of the invention]

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for operating a ball cleaning device that monitors the state of the cleaning ball circulation section and can always collect cleaning balls in a constant manner in a short time and efficiently.

[Summary of the invention]

The fourth method of the ball washing fJ" device according to the present invention is to install a ball counting device that measures the number of passing balls at the ball collecting device entrance (2), and to measure the number of balls from the time when the cleaning operation is switched to the ball collecting operation (2). 1. From the beginning, a predetermined set number of balls collected - or set collection rate (when two consecutive balls are collected,
This system is characterized by two controls so that the ball counting device issues a collection completion signal.

[Embodiments of the invention]

The following will explain FIG. 1, which shows a ball cleaning device to which the control method according to the present invention is applied. In the embodiment shown in FIG. 1 (2), a double water tank having a built-in multi-tubular heat exchanger of a steam turbine is shown as an object of ball cleaning. A cooling water system including a container 2, a ball collector 3 and a backwash valve 4, and a ball collector 5.
Ball '4h 3S including circulation cutter 6, collector population valve 7, ball counting device 8 and collector bypass valve 9
It is composed of a combination of one system and λt.

Inside the condenser 1 (2 is a multi-tubular heat exchanger tube 10, heat exchange is performed by one medium inside and outside of it. Inside the ball inlet group 2 (2 is a pole inlet group screen) 11 is cut off, and its upstream side is connected to one opening of the backwash valve 4 through piping 12, and its downstream side is connected to the upstream header 1 of the condenser 1 through piping 13.
It is connected to 4. This ball extraction group screen 11 is made of a known combination of, for example, two wire mesh plates. is configured so that the water flow is parallel (1 closed and fully open (2). Inside the pole jIu collector 3 (2 is the ball collector screen 15 is provided,
The upstream side thereof communicates with the downstream header 17 of the condenser 1 through a pipe 16, and the downstream side thereof communicates with the opening of the backwash valve 4 through a pipe 18. As shown in the figure, when it opens, it is in the recovery state, and when it is closed and parallel to the water flow, it is in the non-recovery state.The backwash valve 4 is connected to the pipe 12,
1.8, the water intake 19 and the discharge channel are switched between the forward washing state shown by the solid line and the backwashing state shown by the dotted line.

In addition, the circulation pump 6, the collection group population valve 7, and the ball counter device 8 of the ball circulation system are arranged in two series (= piping 2) connecting the ball collector 3 and the ball collector 5. 8 is, for example, made of a transparent material such as glass for the inlet piping of the recovery device 5, and an optical (- rough) device that counts the number of balls passing through, for example, a device that emits a signal when all the balls are counted, or 90 Recovery rate of 10
It is configured to emit a signal with a 0% recovery rate. Inside the ball collection group 5 (the second one is 9 with a collection group switching valve 21)
When this switching valve 21 is opened as shown in the figure (2), the balls and water flow from the piping 22 through the nozzle O to the ball extractor 2.
When the switching valve 2 is closed, the ball is blocked by the screen and only water flows out (
It consists of two. Further, the outlet side of the circulation QA pump 6 and the ball inlet nozzle are communicated with each other through a recovery machine bypass pipe having a bypass valve 9.

Figure 1 (1) Operate the ball cleaning system as shown (- indicates normal operation (2 ball cleaning system is in a stopped state). During this normal operation (2 indicates condenser 1 The cooling water enters the water intake 19 and is guided from the ball extractor 2 to the condenser 1 via the backwash valve 4. When this cooling water passes through the heat transfer tube 10, it exchanges heat. , after that, it is discharged to the 42-ball collector 3, and again to the discharge channel 20 via the backwash valve 4.

When performing ball cleaning on the heat transfer tubes 10 of the condenser 1, during normal operation, the cleaned ball parts collected in the ball collector 5 (2) are sent from the ball collector 5 to the ball extractor 2. The inserted cleaning balls 5 pass through the heat transfer tube 10 together with the cooling water to purify the inner surface of the tube, and then are captured by the ball collector 3.

After being captured (2), the washed balls 5 are returned to the ball circulation pump 13 (=therefore, again to the ball collector 5).

The specific control method for the ball cleaning operation is carried out according to the procedure diagram shown in FIG. 11 is in the fully open state as shown in the diagram, and the inside of the condenser (1) prevents water organisms from getting mixed in with the cooling water. In this state, the ball cleaning system (2) is activated. When the first
"Backwashing" is a procedure for setting the backwashing valve 4 to the backwashing state indicated by the dotted line and allowing the cooling water to flow backwards to weaken the adhesion of limescale and the like, thereby facilitating subsequent ball cleaning. And at this time (-Screen 1 of ball extractor 2
Fully open 1 (2) and backwash (=thus peeling off scale and releasing it into the drain water.

After the ``first backwash'' has been carried out for a certain period of time, the ``one ball circulation'' is started. 1-Ball Circulation", after the screen 15i of the ball collector 3 is set to the recovery state shown in the figure, the switching valve 21 installed in the ball collector 9 is set to the illustrated circulation state, and the cleaning balls 2! '5 into the cooling water. Then, the ball is washed in this state for a certain period of time.

After this "ball circulation" (second ball cleaning) is carried out for a certain period of time, the recovery device cutoff valve 21 is closed and the state shifts to "first recovery."In the "first recovery," During "pole circulation" (2 cooling water systems), the purpose is to collect the drawn balls 2 again into the ball collector 5. In this ball collection, the screen 15 of the ball catcher 3 is shown in the figure. ``'41 lL!''
When a certain amount of ball recovery is completed after carrying out ``recovery'' for a few minutes, the ``recovery valve'' 9 of the recovery device is fully opened, and the recovery stealth entry row yf7 is fully opened to perform ``second backwash''.

This "second backflow" is performed by once collecting the two clogged cleaning balls 6 in the heat transfer material 10 of the double water container 1 into the screen 1 of the ball extractor 2 by backwashing, and then drawing the With the aim of collecting the balls into the ball collecting device 5 in the second collection, it is possible to increase the 1lJj yield of the washed balls δ.When the 1st to 22nd collection is completed by the above steps, Each ball bowl is returned to its original state, and the ball rolling operation is completed.

However, non-invention (fii of ball cleaning device according to two: J
(In the wholesale method, the first stream 1111 of the ball cleaning machine and the ball collecting device 5 is connected to the ball counting device 1., □!'
, 8τ is provided, and the collection state of the cleaning ball 25 L't'l:
'rIt is like a child to praise someone. That is, the second
``First collection'' as shown in the ``-j prefecture map''? The collection of the ``2nd collection'' has been completed, and the ball count/device 8 outputs the total d! i1 It is assumed that the light is turned on when the recovery rate a or b is equal to or greater than a certain set recovery rate (2).

At this time, the count of Ko, '+ Paul 5 is 1, the first collection.''
It is set to occur from the start of the process.

In addition, the setting of the ball recovery rate is [1st recovery J? f-90
%8 degrees and the "second collection" to 100% (2) It is expected that the collection time will be shortened and collection will be carried out efficiently.

FIG. 3 shows the experimental results showing the recovery state of the cleaned ball station in the ball cleaning device shown in FIG. 1.

According to the recovery rate characteristic X shown in FIG.
In the 0th attack, collection was carried out in the first few minutes t from the start of collection, but as time progressed (the number of cleaning balls z5 collected per unit time decreased significantly). The reason for this is that the ice chamber of the condenser 1 and the heat transfer tubes 10 (two cleaning balls Z5) are clogged.
In order to collect such a washed d1 ball (second is "second
Once the cleaning balls 2!5 are removed from the ball extractor 2 by
The cleaning balls 5 can be completely collected by collecting them on the side and performing "?A2 collection" again. Also"
The collection completion signal for “1st collection” and “2nd collection” is
Instead of the overall collection rate (2), the collection rate per unit time may be used, or the number of collections may be counted and a collection end signal may be issued when a predetermined number (2 speeds) has been reached.

Another embodiment shown in FIG. In this case, the collection end signal for the "first collection" and "second collection" is to issue a command when the difference between the downstream ball counter (8b) and the upstream ball counting device 8a is below a certain value (C2). In this case, the counting of cleaning poles B starts from the four starting points of "ball circulation".

〔Effect of the invention〕

As described above, according to the present invention (method of operating a ball cleaning device according to 2), a ball counting device is provided at the inlet of the ball recovery device of the ball circulation system, and the ball recovery operation is changed from +7'c cleaning operation to ball recovery operation (two-side switching). The ball counting device starts counting the number of balls from the point when the ball count reaches a predetermined number of collections or collection rate (2), and outputs a collection end signal to stop the cleaning operation (2mljiIgI (from 2nd). The stationary control (1) that collects a certain amount of money from cleaning balls, which had been carried out empirically, has been revised, and the operation time has been shortened and efficiency has been improved by controlling the collection state of cleaning balls (1). The cleaning balls can be collected in a timely manner.

[Brief explanation of the drawing]

FIG. 1 is a system diagram showing an embodiment of a ball cleaning device to which the operating method of the ball cleaning device according to the present invention is applied, FIG. 2 is a procedure diagram showing the 1jlJ control method of the present invention, and FIG. The recovery rate shows the relationship between the recovery rate of the cleaning balls used and the recovery time! Figure 4 is a system diagram showing another embodiment of the ball cleaning device to which the operating method of the present invention is applied. 1... Condenser 2... Ball extractor 3...
・Ball collector 4. ... Backwash valve 5 ... Ball recovery device 6 ... Circulation pump 7 ... Recovery type artificial valve 8
... Ball counting device 9 ... Collector bypass valve
10... Heat exchanger tube 11... Ball extractor screen
12,13.16.18...Cooling water piping 21...Collector switching valve n...Ball circulation piping...Ball intake nozzle Sae...Collector bypass pipe 5...Cleaning ball (8733) Agent: Yoshiaki Inomata, patent attorney (and 1 others)
Name) Figure 3 Convention A, t$fl J Figure 4

Claims (4)

[Claims] (1) In a ball cleaning device that circulates and cleans balls inside an internal heat transfer tube such as a steam turbine condenser, the number of balls passing through the ball collection group inlet of the ball circulation system f:
A ball counting device is installed to measure the number of balls, and when the cleaning operation switches to the ball collection operation, the number of balls is counted, and when the predetermined number of balls collected or the set collection rate (= reached), the balls are collected from the ball counting device. A method of operating a ball washing device in which a signal indicating a stop of the washing 71i process is indicated by issuing an end signal. (2) In a ball cleaning device where the ball recovery operation is performed twice before and after the 01 flow of cooling water during normal operation and the backwash operation in which the cooling water flows in the opposite direction, the first recovery setting value and the second recovery setting value A method for operating a ball washing device according to claim 1, wherein the values are different from each other. (3) A method of operating a ball cleaning device according to claim 2, characterized in that the first collection set value is set to a 90% collection rate, and the second collection set value is set to a 100% collection rate. . (4) A ball counter device is provided at the inlet and outlet of the ball recovery device of the ball circulation system, and a recovery end signal is output when the ball count difference between the two ball counter devices is equal to or less than a predetermined value. A method of operating a ball cleaning device according to claim 1.