JP2007090278A - Sewage disposal system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To control the concentration of residual chlorine in water to be treated within a specified value not to adversely affect environment by preventing the occurrence of excess chlorine injection either when a rainfall at an average level continues for a long time or when the rainfall occurs semi-continuously. <P>SOLUTION: When the rainfall occurs semi-continuously, the flow rate of confluence sewage flowing into a rain water pump well 3 through a sewage inflow gate 2 is reduced and a rain water discharge pump 4 is temporarily terminated, during a confluence sewage determination part 7a determines it as a similar rainfall, the time-based operation of a timer is continued by a chlorine injection controller 9a and a control target value (hypochlorous acid injection ratio which is decreased stepwise as time passes) corresponding to the lapse time of the rainfall obtained by the timer is used. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a sewage treatment system for treating combined sewage such as sewage and rainwater.

  In the sewage treatment system, the combined sewage such as sewage discharged from ordinary households, stormwater taken from rainwater, etc. is first guided to a settling basin, etc., and solids are settled, then wastewater treatment such as activated sludge method Purified by law. The treated water after purification is discharged directly into a river, or after being sterilized by being guided to a rainwater pump well 100 as shown in FIG. 4, it is discharged into a river or the like.

  In this case, in the sewage treatment system 101 having the rainwater pump well 100, the combined sewage is guided to the rainwater pump well 100 via the sewage inflow tank 102 and temporarily stored. The chlorine injection rate (control target value) set in the control target set value unit 105 by the chlorine injection controller 106 in which a control program corresponding to the chlorine injection amount constant control method or the chlorine injection rate constant control method is installed. Then, the hypochlorous acid injection pump 108 is controlled, and hypochlorous acid is supplied through a path of hypochlorous acid tank 107 → hypochlorous acid injection pump 108 → hypochlorous acid flow meter 109 → rain pump well 100. It injects and disinfects the treated water (combined sewage) of the rainwater pump well 100. Further, the rainwater drainage pump 103 is driven, pumped up from the rainwater pump well 100, and discharged into a river or the like while measuring the flow rate with a discharge rainwater flow meter 104.

At this time, according to the Enforcement Ordinance of the Sewerage Law, the BOD discharged into the river from the sewage inflow basin 102 of the pump station and the sewage treatment plant will be reduced to “70 mg / L” or less, The chlorine injection rate (control target value) is adjusted in the control target set value unit 105 so that the number is equal to or less than “3000 / mL”.
JP 2003-121431 A JP 2003-10857 A

  By the way, in such sewage treatment, the concentration of pollutants in the treated water exceeds the standard during the first rush immediately after the rain starts, but after a certain amount of time has passed since the rain started, Thus, it is expected that the pollutant concentration in the treated water is diluted. In addition, regarding the number of E. coli, the number of E. coli in sewage is as high as “100,000 / mL”, so that a large number of E. coli remains even after dilution by rain and is expected to exceed the reference value.

  Therefore, as a control method using such characteristics, conventionally, a method of determining the chlorine injection rate based on the number of sewage E. coli and turbidity (for example, Patent Document 1), and E. coli of sewage flowing in. A method of determining the chlorine injection rate based on the number (for example, Patent Document 2) has been proposed.

  Furthermore, since the concentration of pollutants that consume chlorine such as organic substances increases in rainy weather overflow water as shown in FIG. 5 (a), the chlorine injection rate as shown in FIG. 5 (b). A control method for preventing excessive chlorine injection by reducing the chlorine injection rate step by step as the organic matter decreases with the passage of time has been proposed.

  However, when such a control method is used, as shown in FIG. 6, when the moderate rainfall continues for a long period of time or when the rain occurs semi-continuously, the operation of the rainwater drainage pump 103 is semi-continuous. Every time when the operation of the rainwater drainage pump 103 is started even though a considerable amount of time has passed since the start of rainfall, the organic matter has decreased and the required chlorine injection amount has become low, A control target value such as a hypochlorous acid injection rate set in the control target value setting unit 105 is used by the injection controller 106, and hypochlorous acid is injected at a high chlorine injection rate and discharged into a river or the like. As a result, the residual chlorine concentration in the treated water is increased, which may adversely affect the surrounding environment.

  In view of the above circumstances, the present invention prevents excessive chlorine injection and prevents residual chlorine concentration in treated water even when moderate rainfall continues for a long period of time or when rainfall occurs semi-continuously. The purpose is to provide a sewage treatment system that can be stored within the specified value and that does not adversely affect the environment.

  In order to achieve the above object, according to the present invention, in claim 1, sewage and rainwater are taken in, temporarily stored as treated water in a pump well, disinfected with a disinfectant, and then discharged by a drainage pump. In the sewage treatment system, an inflow condition input unit that calculates an inflow condition regarding sewage and rainwater flowing into the pump well based on observation data output from observation devices arranged in various places, and an output from the inflow condition input unit And a combined sewage determination unit that determines the continuity of rainfall based on the inflow conditions, and a timer when a flow rate of sewage and rainwater flowing into the pump wells satisfies a predetermined timing start condition due to the rain. It starts up and starts measuring the rainfall continuation time, and corresponds to the rainfall continuation time obtained by the timer while the combined sewage determination unit determines that the rainfall is continuous. Is characterized in that a disinfectant injection controller for injecting a disinfecting agent into the pump well with disinfectant injection rate.

  Further, in claim 2, in the sewage treatment system according to claim 1, the disinfectant injection controller determines that the timing start condition is satisfied when the drain pump is activated, and is obtained by the timer. The disinfectant injection rate is decreased stepwise in accordance with the duration of rain, the drain pump is stopped, and the timer is reset when the combined sewage determination unit determines that the rain has stopped.

  According to claim 3, in the sewage treatment system according to claim 1, the inflow condition input unit is based on observation data output from observation devices arranged in various places, the rainfall amount upstream of the pump well, the pump At least one of sewage flowing into the well, the predicted inflow amount of rainwater, the sewage flowing into the pump well, or the predicted water quality of rainwater is calculated, and the combined sewage determination unit is obtained at the inflow condition input unit. Further, it is characterized in that the continuity of rainfall is determined using any one of the upstream rainfall amount, the predicted inflow amount, and the predicted water quality.

  In claim 4, in the sewage treatment system in which sewage and rainwater are taken in and temporarily stored as treated water in a pump well and then disinfected by injecting a disinfectant and then discharged by a drainage pump, the combined sewage of the pump well Based on the opening and closing contents of the pump well gate arranged on the inflow side, based on the inflow condition input unit for calculating the inflow condition regarding the sewage and rainwater flowing into the pump well, and the inflow condition output from the inflow condition input unit, A combined sewage determination unit that determines the continuity of rainfall, and when a flow rate of sewage and rainwater flowing into the pump well satisfies a predetermined timing start condition due to rainfall, a timer is started and While measuring the time and while the combined sewage determination unit determines that the rainfall is continuous, the disinfectant injection rate corresponding to the rainfall continuation time obtained by the timer It is characterized in that a disinfectant injection controller for injecting a disinfectant pump well.

  In claim 5, in a sewage treatment system that takes in sewage and rainwater, temporarily stores it as treated water in a pump well, injects a disinfectant and disinfects it, and then discharges it by a drainage pump. Based on the observation data output from the installed observation devices installed in various places, the inflow conditions for sewage and rainwater flowing into the pump well are calculated, and the calculation result is transmitted to the pump well side via a communication line. An inflow condition input unit that receives the inflow condition transmitted from the inflow condition input unit via the communication line, and a combined sewage determination unit that determines continuity of rainfall based on the inflow condition; Due to this, when the flow rate of sewage and rainwater flowing into the pump well satisfies a predetermined timing start condition, the timer is started to start counting the duration of rainfall, and A disinfectant injection controller that injects a disinfectant into the pump well at a disinfectant injection rate corresponding to the rain duration obtained by the timer while it is determined by the flowing water determination unit that the rainfall is continuous; It is characterized by having prepared.

  According to the present invention, even when moderate rainfall is continuous for a long period of time or when rainfall is semi-continuous, the concentration of residual chlorine in treated water is prevented so that excessive chlorine injection does not occur. Can be kept within the specified value, and the environment can be prevented from being adversely affected.

<< First Embodiment >>
FIG. 1 is a block diagram showing a first embodiment of a sewage treatment system according to the present invention.

  A sewage treatment system 1a shown in this figure takes a storm water, sewage and other combined sewage from a sewage inflow trough 2, and stores a rainwater pump well 3 for storing the treated water, a hypochlorous acid tank 10 for storing hypochlorous acid, and the like. The hypochlorous acid is pumped from the hypochlorous acid tank 10 according to the input chlorine injection rate, and hypochlorous acid injection pump 11 is injected into the rainwater pump well 3; A hypochlorous acid flow meter 12 for measuring the flow rate of chloric acid (hypochlorous acid flow rate value) is provided. In addition, the rainwater drain pump 4 that pumps the treated water stored in the rainwater pump well 3 and discharges it to the river, etc., and the flow rate of the treated water discharged to the river by the rainwater drain pump 4 (discharged water flow value) is measured. Stormwater flow meter 5 to be released, rainfall gauges installed in various locations, rainfall amounts obtained by rainfall radar devices, etc., predicted inflows obtained by prediction calculations using weather data, etc. (inflow into rainwater pump well 3 Inflow condition input that captures inflow conditions such as predicted water quality (predicted water quality of the combined sewage flowing into the rainwater pump well 3) obtained by prediction calculation using meteorological data, past water quality data, etc. Part 6a. Furthermore, based on the inflow conditions taken into the inflow condition input unit 6a, a combined sewage determination unit 7a that determines whether rainwater in the combined sewage flowing into the rainwater pump well 3 is caused by the same rainfall, and hypochlorous acid injection A control target value setting unit 8 for setting a control target value such as a rate, a timer, the determination contents of the combined sewage determination unit 7a, the discharge water flow value obtained by the discharge rainwater flow meter 5, and the control target value setting unit 8 The chlorine injection rate is calculated based on the control target value set in FIG. 1, the hypochlorous acid flow rate value obtained by the hypochlorous acid flow meter 12, the elapsed time obtained by the timer, etc., and the chlorite injection pump 11 And a chlorine injection controller 9a for injecting hypochlorous acid into the rainwater pump well 3.

  In the sewage treatment system 1a having the above-described configuration, the inflow condition input unit 6a has a predicted inflow amount obtained by a prediction calculation using rainfall amounts, weather data, and the like obtained in each region by a rain gauge, a precipitation radar device, and the like. (Predicted flow rate of combined sewage flowing into the rainwater pump well 3), predicted water quality obtained by prediction calculation using weather data, past water quality data, etc. (predicted water quality of the combined sewage flowing into the rainwater pump well 3), etc. Inflow conditions are always collected and calculated. Based on the rainfall amount, the predicted inflow amount, the predicted water quality, and the like in these places, the combined sewage determination unit 7a determines the continuity of the rainfall.

  After this, when it rains and the flow rate of the combined sewage flowing into the rainwater pump well 3 through the sewage inflow trough 2 increases and the water level of the rainwater pump well 3 increases, the rainwater drainage pump 4 is activated and the rainwater The treated water stored in the pump well 3 is pumped out and discharged into a river or the like while the discharge water flow value is measured by the discharge rainwater flow meter 5.

  In parallel with this operation, when the rainwater drainage pump 4 is started, a timer is started by the chlorination controller 9a to obtain the elapsed time from the start of rainfall and is set in the control target value setting unit 8. Among the control target values, the control target value (high hypochlorous acid injection rate) set as the initial value is used to control the chlorous acid injection pump 11, and the hypochlorous acid tank 10 → Hypochlorous acid is injected into the rainwater pump well 3 through the route of the chloric acid injection pump 11 → the hypochlorous acid flow meter 12 → the rainwater pump well 3 to disinfect the treated water.

  Then, while the treated water stored in the rainwater pump well 3 is pumped out by the rainwater drain pump 4 and discharged into the river, the timer operation is continued by the chlorine injection controller 9a and the control is performed. Among the control target values set in the target value setting unit 8, the control target value (hypochlorous acid injection rate that gradually decreases with the passage of time) corresponding to the elapsed time of rainfall obtained by the timer is used. Then, the chlorous acid injection pump 11 is controlled, and the injection rate of hypochlorous acid injected into the rainwater pump well 3 is reduced stepwise.

  After this, when the amount of rainfall decreases, the flow rate of the combined sewage flowing into the storm water pump well 3 via the sewage inflow trough 2 decreases, and the water level of the storm water pump well 3 falls below a preset specified value. The rainwater drain pump 4 is stopped, and the pumping of the treated water stored in the rainwater pump well 3 is stopped.

  In parallel with this operation, when the discharge water flow value output from the discharge rainwater flow meter 5 becomes “0”, the chlorite injection pump 11 is stopped by the chlorine injection controller 9a, and the rainwater pump well The injection of hypochlorous acid for 3 is stopped. In addition, it is checked whether or not the combined sewage determination unit 7a indicates the same rainfall. When the combined sewage determination unit 7a indicates the same rainfall, the timer operation is continued.

  And while the combined sewage determination part 7a shows the same rainfall, even if the amount of rainfall turns to increase again and the flow rate of the combined sewage flowing into the rainwater pump well 3 through the sewage inflow tank 2 increases, The chlorine injection controller 9a injects hypochlorous acid into the rainwater pump well 3 at the control target value (low hypochlorous acid injection rate) set in the control target value setting unit 8 to disinfect the treated water. .

  Further, when the discharge water flow value output from the discharge rainwater flow meter 5 becomes “0” and the combined sewage determination unit 7a indicates that the rain has stopped, the timer is stopped by the chlorine injection controller 9a, and the rain has passed. Time is initialized.

  Thereby, when the next rainfall occurs, the storm water drain pump 4 is activated, the treated water stored in the storm water pump well 3 is pumped out and discharged into a river or the like, by the chlorine injection controller 9a, The control target value (high hypochlorous acid injection rate) set as an initial value in the control target value setting unit 8 is used to control the chlorous acid injection pump 11, and the hypochlorous acid tank 10 → chlorous acid. Hypochlorous acid is injected into the rainwater pump well 3 through the route of the acid injection pump 11 → the hypochlorous acid flow meter 12 → the rainwater pump well 3 to disinfect the treated water.

  As described above, according to the first embodiment, even when moderate rainfall continues for a long period of time or when the rain occurs semi-continuously, excessive chlorine injection is prevented and the treatment is performed. Residual chlorine concentration in water can be kept within the specified value, and it can be prevented from adversely affecting the environment.

  Further, in this first embodiment, when the combined sewage such as sewage and rainwater flowing into the storm water pump well 3 increases rapidly and the storm water drain pump 4 is activated, chlorine injection is started immediately, While preventing the treated water from being discharged, even if moderate rainfall continues for a long period of time, or if it occurs semi-continuously, excessive chlorine injection should not occur, Residual chlorine concentration in treated water can be kept within the specified value.

  Further, in the first embodiment, the flow rate of rainwater flowing into the rainwater pump well 3 and the change in water quality are predicted to accurately determine the continuity of the rain, and the moderate rain has continued for a long time. Even in the case where the rainfall occurs semi-continuously, it is possible to keep the residual chlorine concentration in the treated water within a specified value by preventing excessive chlorine injection.

<< Second Embodiment >>
FIG. 2 is a block diagram showing a second embodiment of the sewage treatment system according to the present invention. In this figure, the same parts as those in FIG. 1 are denoted by the same reference numerals.

  In the sewage treatment system 1b shown in this figure, the combined sewage for determining the continuity of the combined sewage flowing into the rainwater pump well 3 based on the opening / closing operation signal of the rainwater pump well gate 21 output from the rainwater pump well gate operating unit 22. A determination unit 7b is provided.

  In the second embodiment, when it rains, the rainwater pump well gate operation unit 22 generates an opening operation signal for the rainwater pump well gate 21 and the combined sewage determination unit 7b determines that it has started raining. The rainwater pump well gate 21 is opened, and the combined sewage is supplied to the rainwater pump well 3 through the path of the sewage inflow trough 2 → rainwater pump well gate 21 → rainwater pump well 3, and the water level of the rainwater pump well 3 increases. Then, the rainwater drainage pump 4 is activated, the treated water stored in the rainwater pump well 3 is pumped, and the discharged water flow meter 5 discharges the discharged water to the river or the like while measuring the discharged water flow value.

  In parallel with this operation, when the rainwater drainage pump 4 is activated, a timer is activated by the chlorine injection controller 9b, and the elapsed time from the start of rainfall is obtained. In addition, among the control target values set in the control target value setting unit 8, the control target value (high hypochlorous acid injection rate) set as the initial value is used, and the chlorous acid injection pump 11 is Controlled, hypochlorous acid tank 10 → chlorous acid injection pump 11 → hypochlorous acid flow meter 12 → rainwater pump well 3, hypochlorous acid is injected into rainwater pump well 3, and treated water is disinfected. Is done.

  Then, while the treated water stored in the rainwater pump well 3 is pumped out by the rainwater drain pump 4 and discharged into the river, the timer operation is continued by the chlorine injection controller 9b. In addition, among the control target values set in the control target value setting unit 8, the control target value corresponding to the elapsed rainfall time obtained by the timer (the hypochlorous acid injection rate that gradually decreases with the passage of time) ) Is used to control the chlorous acid injection pump 11 and the injection rate of hypochlorous acid injected into the rainwater pump well 3 is reduced stepwise.

  After this, the amount of rainfall decreases, and the flow rate of the combined sewage flowing into the rainwater pump well 3 decreases along the route of the sewage inflow well 2 → rainwater pump well gate 21 → rainwater pump well 3 and the water level of the rainwater pump well 3 is reduced. When the value falls below the preset specified value, the rainwater drainage pump 4 is stopped, and the pumping of the treated water stored in the rainwater pump well 3 is stopped.

  In parallel with this operation, when the discharge water flow value output from the discharge rainwater flow meter 5 becomes “0”, the chlorite injection pump 11 is stopped by the chlorine injection controller 9b, and the rainwater pump well 3 is stopped, and whether or not the combined sewage determination unit 7b indicates the same rainfall is checked. When the combined sewage determination unit 7b indicates the same rainfall, Will continue.

  And while the combined sewage determination unit 7b indicates the same rainfall, the rainfall amount starts to increase again and the flow rate of the combined sewage flowing into the rainwater pump well 3 through the sewage inflow tank 2 increases. The chlorine injection controller 9b injects hypochlorous acid into the rainwater pump well 3 at the control target value (low hypochlorous acid injection rate) set in the control target value setting unit 8, and disinfects the treated water. .

  Further, after the rainfall amount becomes zero or almost zero and the discharge water flow value output from the discharge rain water flow meter 5 becomes “0”, a considerable time has passed, and the rain water pump well gate operation unit 22 When the rainwater pump well gate 21 is closed and no combined sewage is supplied to the rainwater pump well 3, the combined sewage determination unit 7b determines that the rain has stopped, and based on this determination result, the chlorine The injection controller 9b stops the timer and initializes the elapsed rain time.

  Thereby, when the next rainfall occurs, the storm water drain pump 4 is activated, the treated water stored in the storm water pump well 3 is pumped out and discharged into a river or the like, by the chlorine injection controller 9b, The control target value (high hypochlorous acid injection rate) set as an initial value in the control target value setting unit 8 is used to control the chlorous acid injection pump 11, and the hypochlorous acid tank 10 → chlorous acid. Hypochlorous acid is injected into the rainwater pump well 3 through the route of the acid injection pump 11 → the hypochlorous acid flow meter 12 → the rainwater pump well 3 to disinfect the treated water.

  As described above, in the second embodiment, the sewage flowing into the rainwater pump well 3 is made unnecessary while observing data from the observation devices provided in various places is not required, and the facility cost and operation cost of the entire system are kept low. Based on the flow rate of rainwater, it is judged whether moderate rainfall has continued for a long time, whether rain has occurred semi-continuously, etc. In addition, even when rainfall occurs semi-continuously, excessive chlorine injection does not occur, and the residual chlorine concentration in the treated water can be kept within the specified value, so that the environment is not adversely affected. can do.

<< Third Embodiment >>
FIG. 3 is a block diagram showing a third embodiment of the sewage treatment system according to the present invention. In this figure, the same parts as those in FIG. 1 are denoted by the same reference numerals.

  In the sewage treatment system 1 c shown in this figure, an inflow condition input unit 6 c is arranged in the remote center 31.

  In this case, the inflow condition input unit 6c of the remote center 31 has a predicted inflow amount (e.g., a precipitation calculation obtained using a rain gauge, a rain radar device, or the like provided in various places, a prediction calculation using weather data, etc.) Predicted water quality (predicted flow rate of combined sewage flowing into the storm water pump well 3 at each sewage treatment plant), weather data, past water quality data, etc. (inflow into the storm water pump well 3 at each sewage treatment plant) Inflow conditions such as the predicted sewage quality of the combined sewage) are always collected and calculated, and are supplied to the combined sewage determination unit 7c through the path of the inflow condition input unit 6c → the communication line 32 → the combined sewage determination unit 7c of each sewage treatment plant. The continuity of rainfall is determined.

  After this, when it starts to rain on the upstream side of the sewage treatment plant side, the flow rate of the combined sewage flowing into the storm water pump well 3 through the sewage inflow well 2 increases, and the water level of the storm water pump well 3 increases. The rainwater drainage pump 4 is activated, the treated water stored in the rainwater pump well 3 is pumped out, and discharged into a river or the like while the discharge water flow rate value is measured by the discharge rainwater flow meter 5.

  In parallel with this operation, when the rainwater drainage pump 4 is activated, a timer is activated by the chlorine injection controller 9c, and the elapsed time from the start of rainfall is obtained. In addition, among the control target values set in the control target value setting unit 8, the control target value (high hypochlorous acid injection rate) set as the initial value is used, and the chlorous acid injection pump 11 is Controlled, hypochlorous acid tank 10 → chlorous acid injection pump 11 → hypochlorous acid flow meter 12 → rainwater pump well 3, hypochlorous acid is injected into rainwater pump well 3, and treated water is disinfected. Is done.

  While the treated water stored in the rainwater pump well 3 is pumped out by the rainwater drain pump 4 and discharged into the river, the timer operation is continued by the chlorine injection controller 9c, and the control is performed. Among the control target values set in the target value setting unit 8, the control target value (hypochlorous acid injection rate that gradually decreases with the passage of time) corresponding to the elapsed time of rainfall obtained by the timer is used. Then, the chlorous acid injection pump 11 is controlled, and the injection rate of hypochlorous acid injected into the rainwater pump well 3 is reduced stepwise.

  After this, when the amount of rainfall decreases, the flow rate of the combined sewage flowing into the storm water pump well 3 via the sewage inflow trough 2 decreases, and the water level of the storm water pump well 3 falls below a preset specified value. The rainwater drain pump 4 is stopped, and the pumping of the treated water stored in the rainwater pump well 3 is stopped.

  In parallel with this operation, when the effluent flow rate value output from the effluent stormwater flow meter 5 becomes “0”, the chlorite injection pump 11 is stopped by the chlorinator controller 9c, and the stormwater pump well 3 is stopped, and whether or not the combined sewage determination unit 7c indicates the same rainfall is checked. When the combined sewage determination unit 7c indicates the same rainfall, Will continue.

  And, while the combined sewage determination unit 7c shows the same rainfall, even if the rainfall amount starts to increase again and the flow rate of the combined sewage flowing into the rainwater pump well 3 through the sewage inflow tank 2 increases, The chlorine injection controller 9c injects hypochlorous acid into the rainwater pump well 3 at the control target value (low hypochlorous acid injection rate) set in the control target value setting unit 8, and disinfects the treated water. .

  Further, when the discharge water flow value output from the discharge rainwater flow meter 5 becomes “0” and the combined sewage determination unit 7c indicates that the rain has stopped, the timer is stopped by the chlorine injection controller 9c, and the rain has passed. Time is initialized.

  Thereby, when the next rainfall occurs, the storm water drain pump 4 is activated, the treated water stored in the storm water pump well 3 is pumped out and discharged into a river or the like, by the chlorine injection controller 9c, The control target value (high hypochlorous acid injection rate) set as an initial value in the control target value setting unit 8 is used to control the chlorous acid injection pump 11, and the hypochlorous acid tank 10 → chlorous acid. Hypochlorous acid is injected into the rainwater pump well 3 through the route of the acid injection pump 11 → the hypochlorous acid flow meter 12 → the rainwater pump well 3 to disinfect the treated water.

  As described above, according to the third embodiment, the observation data from the observation devices provided in various places are centrally processed in the remote center 31 and the like, and the rainwater is kept down while keeping the facility cost and operation cost of the entire system low. Based on the flow rate of sewage and rainwater flowing into the pump well 3, it is determined whether moderate rainfall is continuous for a long time, whether it is semi-continuous, and so on. Regardless of whether it is continuous over the long term or when the rainfall occurs semi-continuously, it is possible to keep the residual chlorine concentration in the treated water within the specified value by preventing excessive chlorine injection. Can be prevented from being adversely affected.

1 is a block diagram showing a first embodiment of a sewage treatment system according to the present invention. The block diagram which shows 2nd Embodiment of the sewage treatment system by this invention. The block diagram which shows 3rd Embodiment of the sewage treatment system by this invention. The block diagram which shows an example of the sewage treatment system known conventionally. The graph which shows the example of a relationship between the contaminant density | concentration of the combined sewage which flows in into the rainwater pump well shown in FIG. 4, and a chlorine injection rate. The graph which shows the example of a relationship of the inflow amount of the rainwater which flows into the sewage treatment system shown in FIG. 4, the amount of pump drainage, a pollutant density | concentration, chlorine injection amount, and required chlorine injection amount.

Explanation of symbols

1a to 1c Sewage treatment system 2 Sewage inflow dredge 3 Rainwater pump well (pump well)
4 Rainwater drainage pump (drainage pump)
5 Discharged stormwater flow meters 6a and 6c Inflow condition input units 7a to 7c Combined sewage determination unit 8 Control target value setting units 9a to 9c Chlorine injection controller (disinfectant injection controller)
10 Hypochlorous acid tank 11 Hypochlorous acid injection pump 12 Hypochlorous acid flow meter 21 Rainwater pump well gate 22 Rainwater pump well gate operation unit 31 Remote center 32 Communication line

Claims (5)

In a sewage treatment system that takes in sewage and rainwater, temporarily stores it as treated water in a pump well, injects a disinfectant and disinfects it, and then discharges it with a drainage pump.
Based on observation data output from observation devices arranged in various places, an inflow condition input unit that calculates inflow conditions related to sewage and rainwater flowing into the pump well,
Based on the inflow conditions output from the inflow condition input unit, a combined sewage determination unit that determines the continuity of rainfall,
Due to rainfall, when the flow rate of sewage and rainwater flowing into the pump well meets a predetermined timing start condition, a timer is started to start counting the duration of rainfall, and the combined sewage determination unit Disinfectant injection controller for injecting disinfectant into the pump well at a disinfectant injection rate corresponding to the rain duration obtained by the timer,
A sewage treatment system comprising: The sewage treatment system according to claim 1,
The disinfectant injection controller is
When the drain pump is activated, it is determined that the timing start condition is satisfied, and the disinfectant injection rate is gradually reduced according to the rain duration obtained by the timer,
When the drainage pump is stopped and the combined sewage determination unit determines that the rain has stopped, the timer is reset.
A sewage treatment system characterized by that. The sewage treatment system according to claim 1,
The inflow condition input unit is based on observation data output from observation devices arranged in various places, the rainfall amount upstream of the pump well, the sewage flowing into the pump well, the predicted inflow amount of rainwater, the pump well Calculate at least one of the predicted water quality of inflowing sewage or rainwater,
The combined sewage determination unit determines the continuity of rainfall using any of the upstream rainfall, the predicted inflow, or the predicted water quality obtained by the inflow condition input unit.
A sewage treatment system characterized by that. In a sewage treatment system that takes in sewage and rainwater, temporarily stores it as treated water in a pump well, injects a disinfectant and disinfects it, and then discharges it with a drainage pump.
Based on the opening and closing contents of the pump well gate arranged on the combined sewage inflow side of the pump well, an inflow condition input unit for calculating an inflow condition regarding sewage and rainwater flowing into the pump well,
Based on the inflow conditions output from the inflow condition input unit, a combined sewage determination unit that determines the continuity of rainfall,
Due to rainfall, when the flow rate of sewage and rainwater flowing into the pump well meets a predetermined timing start condition, a timer is started to start counting the duration of rainfall, and the combined sewage determination unit Disinfectant injection controller for injecting disinfectant into the pump well at a disinfectant injection rate corresponding to the rain duration obtained by the timer,
A sewage treatment system comprising: In a sewage treatment system that takes in sewage and rainwater, temporarily stores it as treated water in a pump well, injects a disinfectant and disinfects it, and then discharges it with a drainage pump.
Based on the observation data output from the observation devices installed outside the pump well and arranged in various places, the inflow conditions regarding the sewage and rainwater flowing into the pump well are calculated, and the pump well is obtained via a communication line. An inflow condition input unit for transmitting a calculation result to the side,
The inflow condition transmitted from the inflow condition input unit via the communication line is taken in, and based on this inflow condition, a combined sewage determination unit that determines the continuity of rainfall,
Due to rainfall, when the flow rate of sewage and rainwater flowing into the pump well meets a predetermined timing start condition, a timer is started to start counting the duration of rainfall, and the combined sewage determination unit Disinfectant injection controller for injecting disinfectant into the pump well at a disinfectant injection rate corresponding to the rain duration obtained by the timer,
A sewage treatment system comprising:

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