JP3690539B2 - Transportation equipment for low fluidity liquid - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a transportation facility for pumping a low fluidity liquid containing a large amount of gas such as paper pulp solution and concentrated sewage sludge with a centrifugal pump.
[0002]
[Prior art]
Conventionally, positive displacement pumps have been used to stably transport a low-flowing liquid containing a large amount of gas. However, the positive displacement pump wears wetted parts quickly and the frequency of parts replacement increases, which requires time and maintenance. Moreover, there is a problem that an installation space is large and an electric motor with a large output is required.
[0003]
Therefore, a low-fluidity liquid containing a large amount of gas is also transported using a centrifugal pump. In this case, the gas in the low-fluidity liquid is separated from the liquid, and this gas accumulates at the impeller blade inlet portion, so that the pump action is hindered, causing problems such as vibration of the centrifugal pump and inability to pump water. In order to deal with such problems, a centrifugal pump is provided as a deaeration device behind the impeller of the centrifugal pump, and the vacuum pump is configured to suck and discharge the gas separated from the low-flowing liquid to the outside. Is used.
[0004]
[Problems to be solved by the invention]
However, the properties of the low-fluidity liquid and the gas content vary greatly, and if the capacity of the vacuum pump is small, the performance deteriorates when the gas content is large. Bulky. Therefore, it is difficult to stably transport a low flow liquid containing a large amount of gas stably with a centrifugal pump only by providing a vacuum pump.
[0005]
An object of the present invention is to provide a low-fluidity liquid transport facility that enables a low-fluidity liquid containing a large amount of gas to be stably and continuously transported using a centrifugal pump.
[0006]
[Means for Solving the Problems]
In order to solve the above-described problems, the low-fluid liquid transport facility according to the present invention includes a centrifugal pump that pumps the low-fluid liquid, a deaeration device that discharges the gas separated from the low-fluid liquid from the centrifugal pump, and a centrifugal pump. A flow meter for detecting the discharge flow rate of the pump and a control device for controlling the deaeration device based on a flow rate signal from the flow meter are provided.
[0007]
Corresponding to the change in the discharge flow rate of the centrifugal pump, the control device performs ON / OFF of the deaeration device and the deaeration amount control, so that the gas in the centrifugal pump separated from the low-flowing liquid is appropriately discharged, Centrifugal pumps can stably transport a low-flowing liquid continuously.
[0008]
When an ejector device is used as the deaeration device, it is possible to prevent troubles in the vacuum pump due to suction of solid matter or the like from the low-fluidity liquid discharged along with the gas at the time of deaeration.
[0009]
In addition, by providing a cleaning water pipe that supplies cleaning water to the exhaust pipe of the degassing device and a dilution water pipe that supplies dilution water to the discharge destination of the exhaust pipe, it is discharged along with the gas at the time of deaeration. It is possible to prevent the solid matter from the low fluidity liquid being clogged in the exhaust pipe or solidifying at the discharge destination of the exhaust pipe.
[0010]
Further, after the centrifugal pump starts operating, when the discharge flow rate of the centrifugal pump becomes less than the specified flow rate, deaeration by the deaerator and supply of dilution water from the dilution water pipe are started, and the washing water from the washing water pipe is started. Stop supply, and when the discharge flow rate of the centrifugal pump recovers to the specified flow rate or higher, stop the deaeration by the deaeration device and start the supply of the wash water from the wash water pipe. When the dilution water supply and the washing water supply from the washing water pipe are stopped and the centrifugal pump is stopped, when the deaeration by the deaerator and the dilution water supply from the dilution water pipe are performed. Stops deaeration by the deaerator and starts supplying cleaning water from the cleaning water pipe. After a predetermined time has elapsed since the centrifugal pump was stopped, the diluted water supply from the dilution water pipe and the cleaning from the cleaning water pipe Control to stop water supply By providing a control device, the water supply cleaning from the wash water piping to the exhaust piping and the dilution of the feed water from the dilution water piping to the discharge destination of the exhaust piping are automatically performed in conjunction with the control of the deaeration device. Can do.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a system diagram showing the configuration of a low fluidity liquid transportation facility according to an embodiment of the present invention, and FIG. 2 is a flowchart showing its basic control procedure.
[0012]
This low-fluidity liquid transport facility is provided with a centrifugal pump 3 and a deaeration device 4 for pressure-feeding the low-fluidity liquid from the pressure source 1 to the pressure destination 2. A suction pipe 5 is provided from the pressure source 1 to the centrifugal pump 3, and a pressure feed pipe 6 is provided from the centrifugal pump 3 to the pressure destination 2. The pressure feed pipe 6 is provided with a flow meter 7 for detecting the discharge flow rate of the centrifugal pump 3.
[0013]
The centrifugal pump 3 is provided with a deaeration pipe 8 for discharging the gas separated from the low-flowing liquid from the centrifugal pump 3, and this deaeration pipe 8 is connected to an ejector 9 of the deaeration device 4. Yes. An air pipe 11 is connected from the compressor 10 to the ejector 9, an exhaust pipe 13 is provided from the ejector 9 to the discharge destination 12, a deaeration valve 14 is provided in the deaeration pipe 8, and an air supply valve 15 is provided in the air pipe 10. A deaeration device 4 is provided. The deaeration valve 14 and the air supply valve 15 are electric valves, and the opening and closing thereof can be remotely controlled.
[0014]
In this low-fluid liquid transport facility, control is performed to control opening and closing of the deaeration valve 14 and the air supply valve 15 of the deaeration device 4 based on a flow signal from a flow meter 7 that detects the discharge flow rate of the centrifugal pump 3. A device 16 and a pump activation board 17 for starting and stopping the centrifugal pump 3 are provided. The control device 16 can set conditions for controlling the deaeration device 4, for example, a prescribed flow rate of the centrifugal pump 3.
[0015]
When transporting a low fluidity liquid containing a large amount of gas, the pump starter 17 is operated to send a pump operation signal to the control device 16. This pump operation signal is sent from the control device 16 to the centrifugal pump 3, and the centrifugal pump 3 starts operation. Accordingly, the low fluidity liquid is sucked into the centrifugal pump 3 from the pressure source 1 through the suction pipe 5, pressurized by the centrifugal pump 3, discharged to the pressure feed pipe 6, and pumped to the pressure destination 2. The discharge flow rate of the centrifugal pump 3 is detected by a flow meter 7.
[0016]
When the gas separated from the low fluidity liquid increases, the discharge flow rate of the centrifugal pump 3 decreases. When the discharge flow rate of the centrifugal pump 3 falls below the specified flow rate, the control device 16 opens the deaeration valve 14 and the air supply valve 15 based on the flow rate signal from the flow meter 7. When the air supply valve 15 is opened, air is supplied from the compressor 10 and injected by the ejector 9, and negative pressure is generated in the deaeration pipe 8. Therefore, the gas in the centrifugal pump 3 is extracted and passed through the exhaust pipe 13. A deaeration action of discharging to the discharge destination 12 is performed.
[0017]
When the gas is discharged, the discharge flow rate of the centrifugal pump 3 is restored. When the discharge flow rate of the centrifugal pump 3 recovers to the specified flow rate or higher, the control device 16 closes the deaeration valve 14 and the air supply valve 15. In this way, the centrifugal pump 3 can stably pump the low fluidity liquid. The deaeration valve 14 and the air supply valve 15 can be adjusted not only for opening / closing control but also for opening adjustment.
[0018]
When stopping the operation of the centrifugal pump 3, the pump starting board 17 is operated to send a pump stop signal to the control device 16. If the deaeration by the deaeration device 4 has been performed, the control device 16 closes the deaeration valve 14 and the air supply valve 15 to stop the deaeration by the deaeration device 4 and operate the centrifugal pump 3. Stop.
[0019]
If the deaeration by the deaeration device 4 is not performed, the operation of the centrifugal pump 3 is stopped as it is.
FIG. 3 is a system diagram showing a configuration of a low fluidity liquid transportation facility according to another embodiment of the present invention, and FIG. 4 is a time chart showing an example of the operation state thereof.
[0020]
This low-fluidity liquid transport equipment includes a centrifugal pump 3, a deaeration device 4, a suction pipe 5, a pressure feed pipe 6, a flow meter 7, a control device 16, and a pump starter 17 in the same manner as the transport equipment shown in FIG. Furthermore, a cleaning water pipe 20 that supplies cleaning water to the exhaust pipe 13 of the deaeration device 4 and a dilution water pipe 21 that supplies dilution water to the discharge destination 12 of the exhaust pipe 13 are provided. An exhaust valve 18 is provided between the ejector 9 and the position where the cleaning water pipe 20 of the exhaust pipe 13 is connected.
[0021]
The washing water pipe 20 and the dilution water pipe 21 are connected to a water source 22 such as a pump shaft sealing water pump. The washing water pipe 20 has a washing water valve 23, and the dilution water pipe 21 has a dilution water valve 24. Is provided. The exhaust valve 18, the washing water valve 23, and the dilution water valve 24 are also electric valves, and the opening / closing thereof can be remotely controlled from the control device 16.
[0022]
Usually, when the gas in the centrifugal pump 3 is discharged, the low-fluidity liquid is also discharged to some extent along with the gas. The low fluidity liquid contains a large amount of solids, which may cause clogging in the exhaust pipe 13 or solidify at the discharge destination 12. In order to prevent such troubles, this low-fluid liquid transportation facility opens the dilution water valve 24 to supply dilution water from the dilution water pipe 21 to the discharge destination 12 when deaeration is performed by the deaeration device 4. To do. When the deaeration by the deaeration device 4 is finished, the cleaning water valve 23 is opened and cleaning water is supplied from the cleaning water pipe 20 to the exhaust pipe 13 to clean the inside of the exhaust pipe 13.
[0023]
The control device 16 can control the transportation facility for the low fluidity liquid as shown in the time chart of FIG. Here, after the operation of the centrifugal pump 3 starts, when the discharge flow rate of the centrifugal pump 3 becomes less than the specified flow rate, the deaeration by the deaeration device 4 and the supply of the dilution water from the dilution water pipe 21 are started. The supply of cleaning water from the cleaning water pipe 20 is stopped.
[0024]
When the discharge flow rate of the centrifugal pump 3 is restored to the specified flow rate or higher, the deaeration by the deaeration device 4 is stopped and the supply of the cleaning water from the cleaning water pipe 20 is started. The control device 16 includes a timer (not shown) that can be set as appropriate, and after a predetermined time has elapsed since the deaeration stop time, supply of dilution water from the dilution water pipe 21 and supply of washing water from the washing water pipe 20 Is stopped.
[0025]
When the operation of the centrifugal pump 3 is stopped, if the deaeration by the deaeration device 4 and the dilution water supply from the dilution water pipe 21 are performed, the deaeration by the deaeration device 4 is stopped and the washing water is stopped. Supply of cleaning water from the pipe 20 is started. After a predetermined time has elapsed since the operation of the centrifugal pump 3 was stopped, the dilution water supply from the dilution water pipe 21 and the cleaning water supply from the washing water pipe 20 are stopped.
[0026]
If the deaeration by the deaeration device 4 is not performed, the operation of the centrifugal pump 3 is stopped as it is.
By this control device 16, in conjunction with the control of the deaeration device 4, the feed water cleaning from the wash water pipe 20 to the exhaust pipe 13 and the feed water dilution control from the dilution water pipe 21 to the discharge destination 12 of the exhaust pipe 13 are controlled. It can be done automatically.
[0027]
Accordingly, it is possible to prevent the solid matter or the like from the low-fluidity liquid discharged along with the gas during deaeration from clogging the exhaust pipe 13 or solidifying at the discharge destination 12 of the exhaust pipe 13.
[0028]
FIG. 5 is a system diagram showing the configuration of a low fluidity liquid transportation facility according to still another embodiment of the present invention.
In this low fluidity liquid transport facility, a vacuum pump 30 is used as a deaeration device. Other configurations are the same as those of the low-fluidity liquid transportation facility shown in FIG. 3, and the control device 16 can perform the same control.
[0029]
【The invention's effect】
As described above, according to the low flow liquid transportation facility of the present invention, the gas can be effectively discharged from the centrifugal pump that pumps the low flow liquid containing a large amount of gas and having a large pipe resistance. Can be transported stably and continuously.
[0030]
When an ejector is used for the deaeration device, it is possible to prevent troubles in the vacuum pump due to suction of solids or the like from the low fluidity liquid discharged along with the gas at the time of deaeration.
[0031]
In addition, by providing a cleaning water pipe that supplies cleaning water to the exhaust pipe of the degassing device and a dilution water pipe that supplies dilution water to the discharge destination of the exhaust pipe, it is discharged along with the gas at the time of deaeration. It is possible to prevent the solid matter from the low fluidity liquid being clogged in the exhaust pipe or solidifying at the discharge destination of the exhaust pipe.
[0032]
Further, after the centrifugal pump starts operating, when the discharge flow rate of the centrifugal pump becomes less than the specified flow rate, deaeration by the deaerator and supply of dilution water from the dilution water pipe are started, and the washing water from the washing water pipe is started. Stop supply, and when the discharge flow rate of the centrifugal pump recovers to the specified flow rate or higher, stop the deaeration by the deaeration device and start the supply of the wash water from the wash water pipe. When the dilution water supply and the washing water supply from the washing water pipe are stopped and the centrifugal pump is stopped, when the deaeration by the deaerator and the dilution water supply from the dilution water pipe are performed. Stops deaeration by the deaerator and starts supplying cleaning water from the cleaning water pipe. After a predetermined time has elapsed since the centrifugal pump was stopped, the diluted water supply from the dilution water pipe and the cleaning from the cleaning water pipe Control to stop water supply By providing a control device, the water supply cleaning from the washing water pipe to the exhaust pipe and the dilution of the feed water from the dilution water pipe to the discharge destination of the exhaust pipe are automatically performed in conjunction with the control of the deaeration device. Can do.
[Brief description of the drawings]
FIG. 1 is a system diagram showing the configuration of a low fluidity liquid transportation facility according to an embodiment of the present invention.
FIG. 2 is a flowchart showing a basic control procedure of the low fluidity liquid transportation facility of the present invention.
FIG. 3 is a system diagram showing the configuration of a low fluidity liquid transportation facility according to another embodiment of the present invention.
4 is a time chart showing an example of an operating state of the low fluidity liquid transportation facility of FIG. 3; FIG.
FIG. 5 is a system diagram showing the configuration of a low fluidity liquid transportation facility according to still another embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Pressure source 2 Pressure destination 3 Centrifugal pump 4 Deaeration device 5 Suction piping 6 Pressure feeding piping 7 Flow meter 8 Deaeration piping 9 Ejector 10 Compressor 11 Air piping 12 Destination 13 Exhaust piping 14 Deaeration valve 15 Air supply valve 16 Control device 18 Exhaust valve 20 Washing water piping 21 Dilution water piping 22 Water source 23 Washing water valve 24 Dilution water valve

Claims (4)

Based on centrifugal pump that pumps low-flowing liquid, deaeration device that discharges gas separated from low-flowing liquid from centrifugal pump, flowmeter that detects the discharge flow rate of centrifugal pump, and flow signal from flowmeter A low fluidity liquid transport facility comprising a control device for controlling the deaeration device. The low-fluid-liquid transport facility according to claim 1, wherein the deaeration device is an ejector device. 3. The low-fluidity liquid according to claim 1, further comprising a cleaning water pipe for supplying cleaning water to an exhaust pipe of a deaeration device and a dilution water pipe for supplying dilution water to a discharge destination of the exhaust pipe. Transport equipment. When the discharge flow rate of the centrifugal pump becomes less than the specified flow rate after the operation of the centrifugal pump starts, deaeration by the deaeration device and the supply of dilution water from the dilution water pipe are started. When the discharge flow rate of the centrifugal pump recovers to the specified flow rate or higher, stop the deaeration by the deaeration device and start supplying the cleaning water from the cleaning water pipe. When stopping the water supply and the cleaning water supply from the cleaning water pipe and stopping the operation of the centrifugal pump, if the deaeration by the degassing device and the dilution water supply from the dilution water pipe are performed, Stops degassing by the deaerator and starts supplying cleaning water from the cleaning water pipe. After a predetermined time has elapsed after stopping the centrifugal pump, supply of dilution water from the dilution water pipe and supply of cleaning water from the cleaning water pipe Control device for controlling Transport equipment of low flow liquid according to claim 3, further comprising.

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