KR20050043855A - Self controlling sewage or wastewater treatment process - Google Patents

Abstract

The present invention relates to a water treatment process in which influent and effluent are automatically controlled.

The present invention is to improve the water treatment process by improving the water treatment process by allowing the influent to be quantitatively and qualitatively inflowed by the automatic control system in the water treatment facility with fluctuations in the influent quantity and the quality of the water and to ensure that the effluent always meets the water quality standards In addition to reducing costs, the growth conditions of microorganisms required for biological water treatment can be stably maintained, resulting in stable and efficient operation by increasing treatment efficiency.

Description

Self Controlling Sewage or Wastewater Treatment Process

The present invention relates to an automatic controlled water treatment process, that is, a water treatment process having a system for automatically controlling the flow rate and water quality in the equalization tank and the discharge tank which are most important in the biological water treatment process.

The main treatment target facility of the present inventors automatic control water treatment process is the source of sewage in the outskirts of the city where the fluctuations in inflow quantity and water quality are severe. For example, highways, national road rest areas, elementary, middle and high schools in the suburbs, recreational facilities, training centers and restaurants and lodgings located in the vicinity. These facilities vary greatly depending on the daytime and nighttime hours of the day, weekdays and weekends or holidays, peak seasons (holidays) and off-peak seasons, school vacations and semesters, and recreational facilities depending on the season. Such fluctuations in inflow water quality and water quality impede the operation of a stable water treatment facility, so that high treatment efficiency of the water treatment facility cannot be expected, and there is a problem in that the discharge water quality is fluctuated so that water quality standards cannot always be satisfied.

In addition, geographically, it is located in a mountain valley that is far from the downtown area, so that the area is often a clean area, and nearby water systems are often highly necessary to conserve clean water quality such as a water supply protection area or an interstitial water collection area. It is a problem.

Therefore, the sewage generated from these facilities is treated in such a way that a storage tank with a storage capacity of about 1 day in front of the water treatment facility is not expected, and high treatment efficiency of the water treatment facility cannot be expected and always does not satisfy the discharge water quality standards. In the downtown area within the sewage treatment area, the time required for the sewage to reach the treatment plant is long and the sewage is generated from various facilities. However, in the case of the pollutant in the outskirts of the region, due to geographical conditions, the sewage is mainly treated in its own treatment plant, not in the process of collecting the pipe through the pipeline. Therefore, the discharge time of the sewage is short and the sewage is generated from a single facility, and the quantitative and qualitative fluctuations of the sewage are transmitted directly to the sewage treatment plant as an impact load.

In water treatment facilities, the main process is almost all biological treatments using microorganisms to treat sewage. In biological treatment processes, equal supply of sewage is very important. This is because the treatment efficiency is closely related to the microbial activity and the microbial activity is related to the stable supply of the substrate (mainly organic matter) of the influent sewage that feeds the microorganisms.

BACKGROUND ART Conventionally, biological water treatment facilities have a very important amount of substrate supplied as a facility for purifying sewage by allowing microorganisms to consume contaminants such as organic matter, nitrogen, and phosphorus contained in sewage. In other words, if the amount of organic matter supplied is excessive compared to the amount of organic matter decomposed in the aeration tank at a unit time, the processing efficiency is lowered because the organic matter cannot be decomposed for a limited residence time. On the contrary, if the amount of organic matter in the inflowing water is too small, the lack of influence of the microorganisms living in the aeration tank persists, which slows down the activity of the microorganisms or kills all the microorganisms in severe cases. In other words, the treatment efficiency is lowered as in the case where the amount of organic matter is excessive.

In addition, even if the flow rate of the incoming raw water is not constant and fluctuates from time to time, the microorganisms will be stressed (Stress) can not be expected to be active activity and will also reduce the treatment efficiency.

A conventional water treatment process that replaces an equalization tank with a simple storage tank and a conventional equalization tank that mainly use an air-lift pump as an inflow pump are shown in FIGS. 3 and 4, respectively. As can be seen in Figures 3 and 4, the conventional equalization tank 100 is connected to the motor (M) for the homogenization of the influent sewage by stirring the propeller 116 to mix the sewage, for generating small air bubbles It is composed of an air conditioner 113 connected to a blower (Blower) to be installed, Air-Lift-Pipe 114 to guide the air supplied from the blower to the water treatment facility (400). In addition, the conventional equalization tank 100 is open at the top and mainly installed with a capacity to store about 24 hours of sewage, and equalizing tank 100 by piggybacking on the lifting force of the air bubbles 115 when blowing air. It consists of Air-Lift-Pump that is formed by the structure of the enemy with. This pump is widely used in small and medium sewage treatment facilities because of its simple structure and low mechanical parts.

The diffuser 113 is installed to make the air bubbles 115 supplied through the blower small, and the air-lift pipe 114 is simply the air bubbles 115 leaked out through the air diffuser 113. ) Serves to transfer up to the top of the water treatment facility (400).

The equalization tank 100 mainly used in the conventional water treatment process has a structure in which the raw water of the equalization tank 100 comes up by piggybacking on the lifting force of the air supplied through the blower as described above. The flow rate supplied to the water treatment facility 400 is changed according to the depth of water. That is, the greater the depth of the equalization tank 100, the greater the hydrostatic pressure is directly proportional to the depth, so that the flow rate per unit time that is piggybacked on the air droplets 115 and supplied to the water treatment facility increases, and when the depth decreases, the flow rate per unit time decreases. You lose.

In addition, in the case of the conventional water treatment process, the discharge tank is discharged as it is, the discharged water flowing through the water treatment facility 400 as it is not installed separately. Therefore, if the discharged water quality deteriorates temporarily due to changes in operating conditions of the water treatment facility 400, for example, clogging of the acid generator 113, blower failure, pump failure, sludge settling failure, and filter clogging in the case of the membrane method, The contaminated effluent water is discharged to the natural water system as it is, causing nearby river pollution and sometimes water treatment facility operators to receive direct or indirect economic losses due to administrative measures such as penalties or business suspension.

Therefore, in order to obtain stable treatment efficiency in water treatment facilities with fluctuations in inflow quantity and water quality, it is required to develop a water treatment process that can supply inflow quantity and water quality evenly at all times and satisfy the discharged water quality standards in any case.

The technical problem to be achieved by the present invention is to solve the problems as described above, even when the amount of sewage generation changes rapidly, it is possible to obtain a stable treatment efficiency by supplying the inflow flow rate and water quality evenly all the time, and the discharged water in any case by automatically controlling the discharge water quality It is to provide a water treatment process that can satisfy the water quality standards.

In the present invention, in the automatic control water treatment process for achieving the above technical problem, the flow rate sensor 1 installed to prevent the water level from rising anymore, the flow rate sensor 2 installed to prevent the water level from falling further, the equalization of the inflow water quality A buffer storage tank including an agitated propeller installed for the purpose of installation, and an Air-Lift Pump installed to supply sewage to the water treatment facility; A variable storage tank having a resilient shape and a flexible material that serves to temporarily store filthy water in the buffer storage tank or to supply when the flow rate of the buffer storage tank is insufficient; A water treatment facility including an initial settler mainly installed for precipitation of inorganic matters, an aeration tank for allowing microorganisms to ingest organic matters, and a final settler for finally removing suspended solids from the effluent; A discharge tank including a BOD sensor capable of detecting organic concentration, an SS sensor capable of sensing solid concentration, and a discharge opening and closing device made to block the discharge port; A pump including a conveying pump 1 serving to pump the sewage of the buffer storage tank, a conveying pump 2 serving to supply the sewage to the buffer storage tank, and a conveying pump 3 serving to convey the discharged water; Equalizing automatic control system to operate the pump 1 and pump 2 by sensing the flow rate, discharge automatic control system to operate the discharge opening and closing device and pump 3 by detecting the water quality, MCU (Micro Controller) to collectively control all the automatic control devices It provides an automatic control water treatment process comprising a; automatic control system comprising a unit.

Automatic control water treatment process of the present invention by using an automatic control system to maintain the inflow water quantity and water quality evenly to increase the treatment efficiency of the water treatment facility and to be a stable operation and to automatically control the discharge water to always meet the water quality standards It is characterized by.

Water treatment process of the present invention is characterized in that it comprises a buffer storage tank with a flow sensor and a variable storage tank, a discharge tank with a water quality sensor and the discharge opening and closing device. Buffer storage tanks and variable storage tanks play a role in maintaining a constant flow rate and water quality flowing into a water treatment facility, and a discharge tank plays a role in ensuring that the discharge water always meets the water quality standards. If the sewage generation increases due to a large change in sewage generation and the water level of the buffer storage tank rises above the High Water Level, the flow sensor 1 detects this and operates the pump 1 to transfer the sewage from the buffer storage tank to the variable storage tank. On the other hand, if the sewage generation decreases and the water level of the buffer storage tank falls below the low water level, the flow sensor 2 detects this and operates the pump 2 to return the sewage stored in the variable storage tank to the buffer storage tank. This ensures that the water level in the buffer reservoir is always constant between the high and low water levels. Since the water level of the buffer storage tank is kept constant, the amount of sewage flowing into the water treatment facility from the buffer storage tank can be maintained evenly even if the existing Air-Lift-Pump is used as it is without using a separate high-cost metering pump. In addition, unlike the flow rate sensor 1 and the flow rate sensor 2 for the equalization of the flow rate, the equalization of the water quality is achieved by mixing the sewage in the buffer storage tank by rotating the stirring propeller to the motor. Sewage supply to water treatment facilities uses existing Air-Lift-Pumps. However, as described above, the water level in the buffer storage tank is kept constant to maintain a constant hydrostatic pressure by the water depth, and by mixing the sewage in the buffer storage tank by a stirring propeller, the inflow flow into the water treatment facility can achieve a quantitative and qualitative equalization.

In order to ensure that the discharged water flowing out of the water treatment facility always satisfies the water quality standards, the organic matter or the solid concentration may be installed by installing a BOD sensor that detects the concentration of organic matter at a suitable depth of the discharge tank and an SS sensor that detects the concentration of solids. When the water quality standard is exceeded, it is immediately detected and the discharge port is shut off. At the same time, the pump 3 is operated to pump the sewage from the discharge tank to the variable storage tank.

The flow sensor 1 and the flow sensor 2 of the buffer storage tank, the pump 1 and the pump 2, the BOD sensor and SS sensor of the discharge tank and the discharge opening and closing device, the pump 3, etc. are all controlled automatically by an automatic control system connected to the MCU.

In conclusion, to summarize the measures to improve the treatment efficiency of the water treatment facilities performed in the automatic control water treatment process of the present invention and the measures to secure the effluent water quality standards at all times, the level of the buffer storage tank is kept constant by the automatic control system connected to the MCU and is introduced into the water treatment facility. It is possible to equalize the quantity and quality of the sewage, thereby increasing the treatment efficiency of the water treatment plant. In addition, a discharge tank equipped with a BOD sensor and an SS sensor is installed at the end of the water treatment facility. As described above, when the discharged water quality exceeds the water quality standard by the automatic control system connected to the MCU, the discharge opening and closing device is blocked and the pump 3 is operated. By returning the discharged water to the variable storage tank, the automatic control water treatment process of the present invention can always satisfy the discharged water quality standard, and can be applied to various water treatment facilities.

Hereinafter, with reference to the accompanying drawings, to describe the present invention in more detail, of course, the present invention is not limited thereto.

In addition, in order to prevent confusion with a conventional apparatus, the same code | symbol is used for the same apparatus.

1 is a process chart showing an automatic control water treatment process according to the present invention and FIG. 2 is a schematic diagram of an automatic control system. As shown in FIG. 1, a detailed process includes an equalization tank including a buffer storage tank 110 and a variable storage tank 120. Water treatment facility (400), which mainly handles contaminants by microorganisms, automatic discharge control (300), equalization tank (100) and discharge tank (300) made to ensure that the discharged water always meets the water quality standards Control system 200 or the like.

Raw water introduced after passing through the immersion site, screen, etc. in the existing water treatment facility 400 is introduced into the buffer storage tank 110 to which two flow sensors are attached. When the amount of inflowing water is increased and the water level of the buffer storage tank 110 becomes higher than the high water level, the flow sensor 1 111 detects this and gives a signal to the MCU 230, and then returns it according to the command of the MCU 230. The pump 1 121 is operated so that the sewage of the buffer storage tank 110 is transferred to the variable storage tank 120. On the other hand, if the amount of raw water decreases and the water level of the buffer storage tank 110 becomes lower than the low water level, the flow sensor 2 112 detects this and gives a signal to the MCU 230 in the same manner. The transfer pump 2 122 is operated according to the command, and the sewage of the variable storage tank 120 is transferred to the buffer storage tank 110. As a result, the water level of the buffer storage tank 110 is always kept constant between the high water level and the low water level regardless of the flow rate of the incoming raw water. In addition, by connecting the stirring propeller 116 for the equalization of water quality used in the existing water treatment facility 400 to the motor to mix the sewage in the equalization tank 100 or the water treatment facility 400 in the equalization tank (100) The use of Air-Lift-Pump for the supply of sewage to the furnace is also used in the automatic control water treatment process of the present invention. Thus, the sewage flowing into the water treatment facility 400 can be maintained quantitatively and qualitatively regardless of time, which can greatly contribute to stable operation or treatment efficiency improvement regardless of the type of water treatment method.

Effluent quantitatively and qualitatively by the automatic storage buffer storage tank 110 and the variable storage tank 120 regardless of time passes through the water treatment facility 400, and after passing through the water treatment facility 400, the organic matter concentration BOD sensor 310 that can be detected and SS sensor 320 that can detect the solid concentration is introduced into the discharge tank 300 is attached. The discharge tank 300 senses the organic matter concentration and solids concentration of the effluent and, when the water quality standard is exceeded in advance, this signal is given to the MCU 230 and then the discharge opening and closing device according to the command of the MCU 230 ( 330 is used to shut off the outlet and at the same time operate the transfer pump 3 123 to pump the sewage above the water quality standard in the discharge tank 300 to be transferred to the variable storage tank 120. As a result, the effluent water that has passed through the water treatment facility 400 can always satisfy the effluent water quality standards.

As described above, the automatic control water treatment process according to the present invention can satisfy the water quality standards that are differentially provided according to the region and the type of wastewater discharge facility, regardless of the treatment facility to which any water treatment method is applied. In spite of changes in quantity and quality of influent sewage, applied water treatment methods, various operating factors, changes in pollutant sources and treatment facility conditions, and failures or abnormalities of various large and small accessories, Effluents can always meet the water quality standards, thereby conserving the water quality in nearby waters.

The present invention is to automatically control the influent and effluent in the water treatment facility with fluctuations in the influent flow rate so that the influent can be quantitatively and qualitatively and the effluent meets the water quality standards at all times, thereby innovatively improving the treatment process. The cost can be reduced and stable operation can improve the treatment efficiency of water treatment facilities.

1 is an automatic control water treatment process diagram of the present invention.

2 is a schematic diagram of an automatic control system of the present invention.

3 is a conventional water treatment process chart.

Figure 4 is a detailed view of a conventional equalizer and Air-Lift-Pump.

<Explanation of symbols for the main parts of the drawings>

100: equalization tank 110: buffer storage tank 111: flow sensor 1

112: flow sensor 2 113: diffuser 114: Air-Lift-Pipe

115: air bubbles 116: stirring propeller 120: variable storage tank

121: conveying pump 1 122: conveying pump 2 123: conveying pump 3

200: Automatic control system 210: Uniform tank automatic control system

220: discharge tank automatic control system 230: MCU 300: discharge tank

310: BOD sensor 320: SS sensor 330: discharge opening and closing device

400: water treatment facility 410: initial settler 420: aeration tank

430: final settler

Claims (3)

In the automatic control water treatment process Flow sensor 1 installed to prevent the water level from rising anymore, flow sensor 2 installed to prevent the water level from falling further, stirring propeller installed to equalize the incoming water quality, and air installed to supply sewage to the water treatment facility. A buffer storage tank including a lift pump; A variable storage tank having a resilient shape and a flexible material that serves to temporarily store filthy water in the buffer storage tank or to supply when the quantity of the buffer storage tank is insufficient; Water treatment facilities including first settler, aeration tank, and final settler; A discharge tank including a BOD sensor capable of detecting organic concentration, an SS sensor capable of sensing solid concentration, and a discharge opening and closing device made to block the discharge port; And Equalizing automatic control system to operate the pump 1 and pump 2 by sensing the flow rate, discharge automatic control system to operate the discharge opening and closing device and pump 3 by detecting the water quality, MCU (Micro Controller) to collectively control all the automatic control devices Automatic control system comprising a; automatic control water treatment process comprising a. The water level is detected by the flow sensor and the MCU which receives this signal operates the pump to transfer the sewage from the buffer storage tank to the variable storage tank or from the variable storage tank to the buffer storage tank to maintain the water level in the buffer storage tank at a constant range. How to equalize the influent of this very large water treatment plant. When the water quality sensor detects the discharge water quality and exceeds the water quality standard, the MCU receives this signal to operate the discharge opening and closing device to shut off the discharge port and operate the pump to transfer the sewage in the discharge tank to the temporary storage tank. A method of controlling the effluent to ensure that the effluent meets the water quality standards at all times.