KR101469890B1 - Total corrotion controll system for detecting corrotioning water pipe - Google Patents

Abstract

Disclosed is an integrated corrosion management system for preventing the corrosion of a water supply pipe, the system comprising a filtration basin for filtering water having solid impurities flocculated and precipitated in a sedimentation basin; a carbon dioxide injection unit installed on a water transfer path from the filtration basin to a water purification basin to inject carbon dioxide into the water that has gone through the filtration basin; a liquefied slaked lime injection unit for injecting liquefied slaked lime into the water having carbon dioxide having carbon dioxide injected therein; a dissolving tank for dissolving in water the liquefied slaked lime injected by the liquefied slaked lime injection unit; a diluting and stabilizing tank for accommodating the water that has gone through the dissolving tank; a first pH sensor for measuring the pH of the water before the injection of carbon dioxide; a second pH sensor for measuring the pH of the water accommodated in the diluting and stabilizing tank; an application pH detection part for measuring the pH of tap water that is the water supplied from the diluting and stabilizing tank to the water purification basin and is supplied through water supply pipeline facilities for connecting the water purification basin to tap water applications; and a control part for controlling the injection amounts of carbon dioxide and liquefied slaked lime by controlling the carbon dioxide injection unit and the liquefied slaked lime injection unit based on the detection result of the application pH detection part.

Description

TECHNICAL FIELD [0001] The present invention relates to an integrated corrosion management system for corrosion prevention of a water pipe,

The present invention relates to a corrosion management system for corrosion prevention of a water pipe.

The water supply pipe of the water supply pipe is a very important component both quantitatively and qualitatively in order to supply the tap water treated to the home consumer after the water treatment. In the 21st century, as the society develops and the national economy develops and becomes urbanized, the life style of the home is being improved, and the pattern of usage of tap water in general households also changes, demanding clean, delicious and high quality tap water. As consumers' demands for tap water have changed, the cause of water quality deterioration and interest in management have increased. The deterioration of tap water quality caused by the internal corrosion of the drain pipe leading to tap water consumers is the biggest cause of distrust of tap water.

Internal corrosion of the water pipe may cause a rejection of aesthetic drinking water such as the generation of turbid water and taste odor as well as the leaching of heavy metals. Furthermore, it may cause a problem of leaching of heavy metals harmful to the human body such as iron, manganese, copper and lead.

In order to solve this problem, the government has established and implemented a plan to invest about 3.8 trillion won in budget from 1997 to 2011 as a replacement project for aged 16 years or more. However, the problem of corrosion of the water pipe is that if the pipe replacement business is promoted without taking a fundamental measure of corrosion control, the water quality of the tap water will be deteriorated and the life of the water distribution facility will be shortened. There is no.

The measures to prevent internal corrosion of water pipes can not help but emphasize the major responsibility for supplying the tap water which is delicious and safe to the consumers along with introduction of the advanced water treatment and membrane filtration process at the water purification plant. Unfortunately, currently, most domestic water treatment plants have no concrete solution to the internal corrosion problems of water pipes at the water treatment plant level.

Methods for controlling the internal corrosion of water pipes include pH and alkalinity control methods considering pipe and water quality characteristics, rust preventive injection method, regular water pipe cleaning method, and rehabilitation and replacement method of old pipe. In Korea, where the quality of tap water is less concerned than advanced countries, there are few studies or researches on the internal corrosion control in the domestic water supply pipe. Recently, there has been an intermittent study on the metal leaching and water quality changes in the water supply pipe, but there is little study on the internal corrosion control method of the systematic and comprehensive water supply pipe. Among the internal corrosion control methods in the water pipe, the methods that can be preferentially selected in Korea are pH, hardness, and alkalinity control method. In this method, calcium hydroxide (Ca (OH) ₂ ) and carbon dioxide gas (CO ₂ ) are injected into a water purification plant to regulate pH, hardness and alkalinity to form a calcium carbonate (CaCO ₃ ) It is a way of achieving water stabilization.

The problems caused by the internal corrosion of the water pipe can be roughly classified into three types. Safety issues, aesthetic and economic problems. First, the safety problem is that harmful heavy metals such as lead and chromium are contained in the material of the pipe, and the safety of the tap water is threatened due to the elution in the internal corrosion process of the pipe. Aesthetic problems cause aesthetic problems such as taste, smell, and color when the aesthetic effect substances such as copper, iron, and zinc are eluted from the water pipe and exceed the allowable concentration, thereby causing distrust to the tap water. Economic problems are caused by water leakage caused by corrosion, such as grooves, holes and nodules, and deterioration of water transportation capacity due to corrosion products and scales, which causes hydraulic problems, and in severe cases, Weighted. The pipe replacement work is consistent with the road traffic network, which causes potential economic loss because it causes construction congestion and traffic congestion due to replacement work.

In order to solve this problem, advanced countries have been studying iron, zinc and lead pipes which have relatively easy internal corrosion from the 1930s. In the study of Eilen et al. (1996), lime, quick lime, soda ash, Were injected into the target water to study the corrosion control by controlling the alkalinity and pH simultaneously. Schorts et al. (1981) and Doublas et al. (1996) pointed out changes in pH and alkalinity due to cement lining materials. Edwards et al. (1996) and Korshin et al. (1996) And the control direction of corrosion.

However, in Korea, basic researches for solving internal corrosion problems of waterworks pipes are under way, but they are not systematic and coherent. Especially, in the water supply pipe which supplies tap water by treating raw water and purified water with low hardness and alkalinity as in Korea, the pH due to the injection of carbon dioxide gas and the lime lime according to the water quality, hydraulic condition, It is absolutely necessary to study the control of internal corrosion by stabilizing the water quality by controlling the alkalinity simultaneously. Water treatment chemicals such as calcium hydroxide, quick lime and soda ash were added as coagulant in domestic water purification plant, but they were not used for internal corrosion control of water supply pipes.

Therefore, this demonstration project is a method to control the corrosion problem inside the water pipe considering the water quality characteristics of the highly corrosive water source in Korea, and it has already been proposed that the liquid pumped lime suitable for the automation of the input facilities We will develop corrosion prevention technology of water pipe based on optimized water quality stabilization technique applied to demonstration scale plant.

Korean Patent Publication No. 2003-0068056 (Water Quality Control Method in Water Treatment Process for Corrosion Reduction of Water Supply Pipeline)

The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a method for preventing corrosion by appropriately controlling the corrosion index L1 of a water pipe by injecting carbon dioxide gas and liquid slaked lime into tap water, The present invention provides an integrated corrosion management system for preventing corrosion of a water supply pipe.

In order to accomplish the above object, the present invention provides an integrated corrosion management system for preventing corrosion of a water pipe, comprising: a filter paper for filtering water in which precipitated solid impurities are precipitated in a settler; A carbonic acid gas injection unit installed on the transfer path of the water transferred from the filter paper to the purified water to inject carbon dioxide gas into the water having passed through the filter paper; A liquid lime lime injecting unit for injecting liquid lime into the carbon dioxide-injected water; A dissolution tank for dissolving the liquid slaked liquor injected by the liquid slaked lime injecting unit into water; A dilution-stabilizing tank for receiving the water passed through the dissolution tank; A first pH sensor for measuring a pH of water before the carbonic acid gas is injected; A second pH sensor for measuring the pH of the water contained in the dilution stabilization tank; A pH sensor for measuring a pH of tap water supplied through a water supply piping system connecting the purified water to the purified water in the dilution stabilization tank; And a controller for controlling the carbonic acid gas injection unit and the liquid slug injection unit to control the carbonic acid gas and the liquid slug injection amount based on the result detected by the use site pH sensor.

Here, it is preferable that the used pH detecting unit is installed in a meter installed for each use place of the tap water.

The water piping system may further include: a main water supply pipe for supplying a large amount of tap water from the purified water; A branch pipe branching from the main water pipe and supplying tap water to each divided area; And a tap water line branched from the branch pipe by the tap water use place, wherein the use place pH sensor is installed in the tap water line.

The water treatment plant may further include an electric conductivity measuring sensor for measuring an electric conductivity of water supplied to the water treatment plant for each use place of the tap water.

In addition, when the measured value of the second pH sensor and the used pH sensor are out of the predetermined error range, the control unit determines that an abnormality has occurred in the water pipe of the use place where the used vehicle pH sensing unit is installed, It is preferable to control the management center or the manager to transmit an abnormality occurrence signal.

In addition, the controller may be configured to control the pH of the carbonic acid gas injecting unit and the liquid slug lysing unit, respectively, so as to maintain the pH measurement range of 7.5 to 8.0 in the used pH sensing unit and maintain the calcium carbonate hardness of 100 to 200 mg / It is advisable to control the amount of gas and liquid slag.

According to the integrated corrosion management system for corrosion prevention of the water pipe of the present invention, based on the result of comparing the pH value in the dilution stabilization tank with the pH in the use point pH sensing unit installed in each tap water use site, , The carbonic acid gas injection unit and the liquid slaked lime injection unit can be controlled to maintain the corrosion evaluation index in an appropriate range.

Based on the pH detected by the branch line of the user using the tap water, it is possible to detect an abnormality such as water leakage and to provide it to the manager and the management center so that the follow-up can be performed quickly.

1 is a schematic view showing an integrated management system for preventing corrosion of a water pipe according to an embodiment of the present invention.
2 is a schematic view showing a description of the water pipe installation.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an integrated corrosion management system for preventing corrosion of a water pipe according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, an integrated corrosion management system for preventing corrosion of a water pipe according to an embodiment of the present invention includes a filter paper 10 for filtering water in which condensed and precipitated solid impurities are precipitated in a settler, The carbon dioxide gas is supplied from the carbon dioxide gas dissolving facility 20 installed on the transfer path 1 of the water to be transferred from the water recovery tank 10 to the recovery paper 80 so that the water and the carbonic acid gas are mixed, (40) for injecting a liquid slaked lime into the carbonic acid gas-injected water, a liquid slaked lime injecting unit (40) injected by the liquid slaked lime feeding unit A first pH sensor 71 for measuring the pH of water before the carbonic acid gas is injected into the dilution stabilization tank 60, a dilution stabilization tank 60 for storing the water passed through the dissolution tank, Lt; RTI ID = 0.0 > p < / RTI > H sensor 73 and the pH of the tap water supplied through the water piping facility 100 connecting the purified water 80 and the water use place 90 to the purified water 80 from the dilution stabilization tank 60, And a control unit for controlling the carbonic acid gas injection unit 30 and the liquid lime slip injection unit 40 based on the result detected by the usage location pH sensing unit 210, And a controller 230 for controlling the amount of liquid slaked lime injected.

The carbonic acid gas injection unit 30 includes a carbonic acid gas storage tank 31 and a valve 34 installed in an injection pipe 33 for injecting carbon dioxide gas of the carbonic acid gas storage tank 31 into the carbonic acid gas dissolving facility 20 And a flow meter 35, and the operation of the valve 34 is controlled by the control unit 230. [ The measurement information of the flow meter 35 is transmitted to the controller 230.

The liquid lime lime feed unit 40 includes a liquid lime lime storage tank 41 and a pump 43 and a flow meter 41 installed in an injection pipe 42 connecting the liquid lime storage tank 41 to the water feed path 1 44). The operation of the pump 43 is controlled by the controller 230, and the measured value of the flow meter 44 is transmitted to the controller 230. The use of liquid slaked lime makes it easy to store for a long time because it has no effect on temperature compared with solid lime slurry, and it is easy to handle and precisely control the injection amount.

In other words, such liquid slaked lime is easier to install, easier to handle, and does not require additional equipment such as powder storage, input equipment, dissolving facility, and is liquid, so it is easier to store than a solid phase Storage tank capacity is significantly reduced. In addition, impurities are sufficiently removed in terms of water quality, and it is possible to use high-purity, high-quality calcium hydroxide, and excellent in chemical wet-milled (micro) slaked lime reactivity. In addition, since it is liquid in operation aspect, there is no scattered dust and work environment is very good, nozzle clogging phenomenon does not occur, maintenance personnel are unnecessary, work is easy and safe, manpower and time can be saved, There is no settling phenomenon, no cleaning is required, the reduction of the amount of secondary waste (sediment) is reduced, and the rate of wear of pump nozzles and lines is significantly reduced.

An agitator 52 may be provided in the liquid slaked lime dissolving tank 50 and a stirrer 62 and a second pH sensor 73 are also provided in the dilution stabilization tank 60. The water in the dilution stabilization tank 60 is pumped to the purified water 80 by the pump 65 and supplied.

The water supply piping system 100 includes a main water supply pipe 110 for supplying a large amount of tap water from the purified water 80 to the main water supply pipe 110; And a water supply branch 130 branched from the branch pipe 120 to the user 90 for tap water use.

The use site pH sensing unit 210 is installed in the water supply line 130 and can be selectively installed in only one or two predetermined zones (copper, apartment complex, block, etc.).

The use-point pH sensing unit 210 is installed in a meter installed in the user 90 and may be installed in the meter.

The electric conductivity measuring sensor 220 may further include an electric conductivity measuring sensor 220 for measuring the electric conductivity of water supplied to the user 90 from the purified water 80. The electric conductivity measuring sensor 220 may be integrated with the meter . The information measured by the application pH sensing unit 210 and the electrical conductivity measurement sensor 220 is transmitted to the controller 230.

When the measured values of the second pH sensor 73 and the used pH sensor 210 are out of the predetermined error range, the controller 230 controls the water supply pipe And it is possible to control to transmit an abnormality occurrence signal to the management center or the manager through the warning signal.

The control unit 230 controls the carbonic acid gas injection unit 30 and the carbonic acid gas supply unit 30 such that the pH measurement range in the usage location pH sensing unit 210 is maintained at 7.5 to 8.0 and the calcium carbonate hardness is maintained at 100 to 200 mg / And controls the amount of carbonic acid gas and liquid slug injection in each of the liquid slug injection units 40.

Of course, the controller 230 may calculate the water pipe corrosion evaluation index L1 based on the measured values of the first and second pH sensors 71 and 73, and if the corrosion evaluation index L1 is in the range of -0.5 to 0.5 The injection amount of the carbonic acid gas and the injection amount of the liquid slaked lime can be controlled.

By controlling the injection amount of the carbonic acid gas and the liquid slaked lime by the control unit to maintain the corrosion index within the range of -0.5 to 0.5, the water stabilization that can form the calcium carbonate (CaCO ₃ ) .

By measuring the pH and hardness of calcium carbonate in the water pipe, it is possible to accurately control the injection amount of carbon dioxide gas and liquid slaked lime as well as to check the problems such as water leakage in the water pipe through measurement values at the place where the water is used, It is possible to take action. Therefore, it is not necessary to provide a separate leak detection device for detecting the leakage of water from the water supply pipe, and the maintenance cost can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Those skilled in the art will readily appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims.

10 .. Filter paper 20 .. Carbon dioxide gas dissolving facility
30. Carbonic acid gas injection unit 40. Liquid molten lime injection unit
50 .. Liquid slaked lime melting tank 60 .. Dilution stabilization tank
71, 73 .. The first and second pH sensors 80,
90 .. Water use place 100 .. Water supply piping facility
210 .. Usage pH sensing part 220 .. Electrical conductivity sensor
230.

Claims (6)

A filter paper for filtering water in which precipitated solid impurities are precipitated in the sedimentation basin;
A carbonic acid gas injection unit installed on the transfer path of the water transferred from the filter paper to the purified water to inject carbon dioxide gas into the water having passed through the filter paper;
A liquid lime lime injecting unit for injecting liquid lime into the carbon dioxide-injected water;
A dissolution tank for dissolving the liquid slaked liquor injected by the liquid slaked lime injecting unit into water;
A dilution-stabilizing tank for receiving the water passed through the dissolution tank;
A first pH sensor for measuring a pH of water before the carbonic acid gas is injected;
A second pH sensor for measuring the pH of the water contained in the dilution stabilization tank;
A pH sensor for measuring a pH of tap water supplied through a water supply piping system connecting the purified water to the purified water in the dilution stabilization tank; And
And a controller for controlling the carbonic acid gas injection unit and the liquid slug injection unit to control the carbonic acid gas and the liquid slug injection amount based on the result detected by the use site pH sensing unit,
The control unit determines that an abnormality has occurred in the water pipe of the use place where the used pH sensor unit is installed when the measured value of the second pH sensor and the used pH sensor unit are out of the set error range, Or an abnormality occurrence signal is transmitted to the manager. The method according to claim 1,
Wherein the use place pH sensing unit is installed in a meter installed for each use place of the tap water. The method according to claim 1,
The water piping system includes:
A main water supply pipe for supplying a large amount of tap water from the purified water;
A branch pipe branching from the main water pipe and supplying tap water to each divided area; And
And a water supply branch branched from the branch pipe by the use place of the tap water,
Wherein the use-point pH sensing unit is installed on the water supply line. 4. The method according to any one of claims 1 to 3,
Further comprising an electric conductivity measuring sensor for measuring the electric conductivity of water supplied to the purified water by each use place of the tap water. delete The method according to claim 1,
The control unit controls the carbonic acid gas injecting unit and the liquid lime lime injecting unit so that the pH measurement range of the used pH sensing unit is maintained at 7.5 to 8.0 and the calcium carbonate hardness is maintained at 100 to 200 mg / Wherein the amount of the liquid slaked lime is controlled.

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