KR20060027631A - Automatic apparatus and method to diagnose and control water quality in boiler facilities - Google Patents

Abstract

A water quality diagnosis and automatic control apparatus and method of a boiler are disclosed. In a boiler system consisting of a water softener, a degasser, a boiler, and a steam drum, the boiler system samples the boiler water from pipes connected to the boiler and the steam drum, respectively, and the corrosion rate, adhesion, A water quality monitor that measures PH, conductivity, dissolved oxygen, etc. in real time, and whether the detected value is normal based on the detected water quality information connected to the water quality monitor, and if it is out of the normal reference value, the corresponding electrical signal And a chemical injector for supplying a predetermined chemical to the boiler water supplied to the boiler by receiving a signal from the controller connected to the controller and automatically controlling the entire boiler apparatus by a preset operation program. Water quality diagnosis and automatic control device of the boiler.

Boiler Water Quality Management, Real Time Control System, Corrosion Degree, Hydrogen Ion Concentration (PH), Conductivity, Dissolved Oxygen, Adhesiveness, Automatic Water Quality Control

Description

AUTOMATIC APPARATUS AND METHOD TO DIAGNOSE AND CONTROL WATER QUALITY IN BOILER FACILITIES}

1 is a schematic view showing a water quality diagnosis and automatic control apparatus of a boiler according to a preferred embodiment of the present invention.

Figure 2 is a schematic diagram showing in detail the water quality diagnosis and automatic control apparatus of the boiler according to an embodiment of the present invention.

3 is a screen explanatory diagram showing an operating state of the present invention through the display of the control unit provided in the water quality diagnosis and automatic control apparatus of the boiler shown in FIG.

Figure 4 is a schematic diagram showing the chemical injector provided in the water quality diagnosis and automatic control device of the boiler shown in FIG.

FIG. 5 is a flowchart sequentially illustrating a method for diagnosing and automatically controlling a water quality of a boiler shown in FIG. 1.

6 is a logic circuit diagram for implementing the water quality diagnosis and automatic control method of the boiler shown in FIG.

The present invention relates to an apparatus and method for automatically diagnosing and controlling water quality of a boiler, and more particularly, to corrosiveness, hydrogen ion concentration (PH), conductivity, dissolved oxygen, and adhesion of raw water for a boiler. The present invention relates to an improved water quality diagnosis and automatic control apparatus and method of the boiler to achieve stable water quality management by measuring and analyzing the measured data, injecting appropriate chemicals or automatically controlling the water supply system.

In general, a boiler is a device that generates steam having high temperature and pressure by burning fuel to transfer heat of combustion to water and the like. Such boilers are used to supply steam for thermal power plants and steam engines such as ships, and for work or heating in various factories.

In particular, in the industrial field, such as factories, the proportion of the boiler is considerable, and the repair and replacement frequency of the boiler has a great influence on factors such as productivity and manufacturing cost. Therefore, it is desirable to periodically check the boiler and use it for a long time without failure.

The boiler uses raw water such as purified water, industrial water, and groundwater, and the raw water includes foreign substances such as suspended solids, dissolved solids, and gas components. Therefore, when raw water is used as it is, such foreign matter causes serious obstacles not only to the boiler body but also to the attached equipment.

For example, boiler failures caused by such raw water include serious things such as scale adhesion, corrosion and carry over, in which foreign matter adheres to the inner wall of the pipe and the inside of the pipe.

Therefore, some boiler facilities use soft water in which raw water containing a hardness component is passed through a strong acid cation exchange resin to replace the hardness component with a component in the resin.

However, since the boiler is supplied with water, even in the case of using not only raw water but also soft water, inflow of a small amount of scale components is inevitable.

Therefore, in order to remove dissolved oxygen which greatly affects corrosion, it is used by passing through a degasser. However, due to the operational conditions, it is not possible to completely eliminate the influx of components causing corrosion and scale generation. Therefore, in order to suppress scale generation due to these components, it is necessary to rely on the chemical treatment method by continuous chemical input. none.

In addition, the conventional chemical raw water treatment method injects a predetermined amount of a cleansing agent mixed with a corrosion inhibitor, a deoxidizer, and a neutralizer into the boiler raw water, and measures the water quality of the boiler at a predetermined time and adjusts the chemical injection amount manually accordingly.

In addition, a blow down operation may be performed to discharge the concentrate concentrated in the boiler water. The discharge of these concentrates is carried out periodically on the basis of the conductivity measurements of the boiler water, and if necessary adjustments are made manually.

However, these conventional methods are difficult to timely respond to the rapidly changing water supply conditions and changes in the water quality due to boiler operating conditions, and thus can not effectively manage the water quality, and as a result, it is impossible to prevent the failure of the boiler equipment in advance. There is a problem that leads to a decrease in efficiency.

 The present invention is to solve the above-mentioned conventional problems, the purpose is to measure the water quality data of the boiler raw water in real time, by analyzing the measured data and automatically control the appropriate chemicals according to the respective codes or The present invention provides a method and method for diagnosing and automatically controlling the water quality of a boiler to control the discharge amount to achieve a stable boiler water quality management.

Another object of the present invention is to stably manage the water quality of the boiler to prevent failures that may occur in the boiler in advance, and to diagnose the water quality of the boiler and to improve the life and efficiency of the boiler. In providing.

In order to achieve the above object, the present invention provides a boiler system comprising a water softener, a degasser, a boiler, and a steam drum, wherein the boiler water is sampled from pipes connected to the boiler and the steam drum, respectively. A water quality monitor that measures in real time corrosion, adhesion, pH, conductivity, dissolved oxygen, etc. from the; It is connected to the water quality monitor to determine whether each detected value is normal based on the detected water quality information, and when it is out of the normal reference value, it transmits an electric signal corresponding to it, and the entire boiler device is set by a preset operation program. A controller for automatic control; And it is connected to the controller provides a boiler system comprising a water quality diagnosis and automatic control device of the boiler consisting of a chemical injector for receiving a signal of the controller to supply a predetermined chemical to the boiler water supplied to the boiler.

In addition, another embodiment of the present invention includes a start-up step of starting a boiler and driving a feed pump to supply water to the boiler; Sampling each fluid from the boiler, and measuring, in real time, corrosion degree, adhesion, PH, conductivity, dissolved oxygen, etc. through the sensor unit; If each of the measured values deviates from the normal reference value, selectively supplying the cleansing agent, the neutralizing agent or the deoxidizer to the boiler water according to preset operation codes in the controller to automatically control the measured value to match the reference value; And it provides a water quality diagnosis and automatic control method of the boiler comprising the step of repeating the measurement step and the automatic control step a predetermined number of times to manage the boiler water quality in real time.

Hereinafter, with reference to the accompanying drawings will be described in detail a boiler system and method according to a preferred embodiment of the present invention.

As shown in Figure 1 and 2, the water quality diagnosis and automatic control device 1 of the boiler proposed by the present invention is a boiler (Boiler) 10, the steam produced by being connected to the boiler (10) ) Is applied to an industrial boiler system providing steam required for an industrial facility by consisting of a steam drum 20 for temporarily storing and providing the place of use.

The boiler system is provided with a water softener 30, the softener 30 removes the hardness components, that is, calcium, magnesium, etc. contained in the raw water supplied to the boiler 10 by using an ion exchange resin method.

And, the water softener 30 is connected to the degasser 40 through a conduit 32. The degasser 40 removes and dissolves non-condensable gases such as oxygen and carbon dioxide in the soft water provided from the water softener 30, and supplies the treated water to the boiler 10.

The treated water from which the non-condensable gas is removed by the deaerator 40 is supplied to the boiler 10 through the conduit 42 and the pump 45. Therefore, it is possible to prevent the corrosion of the water supply system to prevent the life of the installation.

The water quality monitor 50 is provided between the degasser 40 and the boiler 10. The water quality monitor 50 is softened and detects the water quality of the boiler water in order to inject the chemicals necessary for the treated water in the process of supplying the boiler 10 with the treated water from which the non-condensable gas is removed.

In more detail, the water quality monitor 50 includes a sensor unit 60 that measures in real time the corrosion degree, scale adhesion degree, PH, conductivity, dissolved oxygen, etc. of the boiler.

In addition, the water quality monitor 50 is connected to the plurality of conduits 62 through the entire boiler system to sample the boiler water, and in this process, the soft water discharged from the water softener 30 and the degasser 40. The water quality of the treated water discharged from the steam drum 20, the condensed water recovered from the steam drum 20 to the boiler 10, and the steam concentrate discharged from the steam drum 20 to the outside is monitored. The terms water and condensate are collectively referred to as boiler water except where necessary.)

In addition, the water quality monitor 50 is a filter 54 for filtering foreign substances from the steam samples in order to measure the steam samples in real time, and reduced the filtered steam samples to 1-2 bar (80 ~ 150 ℃) The cooler 56 which cools the high temperature sample at 25-35 degreeC is provided.

The cooler 56 is a coolant is introduced into the coolant to exchange heat to condense the steam.

In addition, steam condensate samples cooled to reduced pressure and low temperature can be measured in real time by the sensor units 60, and the water quality monitor 50 has a plurality of sensors of various types for detecting the water quality of the boiler condensate. .

That is, the water quality inspector 50 includes a PH sensor 66a, a conductivity sensor 66b, an adhesion sensor 66c, a corrosion degree sensor 66d, and a dissolved oxygen (water supply DO) sensor 66e.

To describe each of these sensors in more detail, the PH sensor 66a is a sensor for detecting the hydrogen ion concentration (PH) present in the treated water to be supplied. The measuring range of the PH sensor 66a corresponds to PH 0-14, the measuring accuracy is ± 0.02PH, the transmitter operating temperature is -20 to 55 ° C, and the sensor 66a operating temperature is -10 to 130 ° C. to be. In the present invention, 11.0 to 11.8 is set as the PH reference value for the measured value by the PH sensor 66a as described above.

In addition, the conductivity sensor 66b is a sensor for measuring the degree to which the treated water supplied to the boiler can carry current, which is an item that can quickly evaluate the ionic strength of the boiler water. The conductivity range of the conductivity sensor 66b is 0-10,000 mW / cm, the measurement accuracy is ± 1%, the transmitter use temperature is -10 to 55 ° C, and the maximum use capacity is 17 bar and 140 ° C. In the present invention, 1,500 ± 500 mW / cm is set as the reference value with respect to the value measured by the conductivity sensor 66b.

In addition, the adhesion sensor 66c is attached to the high temperature heat transfer surface when impurities such as hardness components, solid materials, corrosion products, etc. are contained in the boiler water to hinder heat transfer. Display.

The measuring range is from 0 to 30.0 cm 2 / W, and the sensor's maximum capacity is 10 bar and 150 ° C.

Regarding the measured value obtained by such an adhesion sensor 66c, the reference value is 1.0 cm 2 / W (cleanness: 99.95%).

In addition, the corrosion sensor 66d measures mdd (mg / dm ² day), which is a weight reduction amount for a predetermined period, and mpy (mils per year), which is a thickness decreased for a certain period.

The corrosion sensor 66d has a measurement range of 0.01 to 20.00 mpy, and the maximum use capacity of the sensor 66d is 105 bar and 280 ° C.

In addition, the criterion of the corrosion value measured from the corrosion sensor 66d measured as described above is 0.9 mpy or less (5mdd or less), where 1 mpy = 5.48 mdd.

The dissolved oxygen (water DO) sensor 66e detects a molecular oxygen content dissolved in the boiler water.

The value measured by the dissolved oxygen sensor 66e corresponds to a measurement range of 0 to 20,000 ppb, the measurement accuracy is ± 2 ppb, the transmitter operating temperature is -10 to 40 ° C, and the sensor 66e is used. The temperature is 2 to 60 ° C. In the present invention, the measured value of the dissolved oxygen sensor 66e is controlled at 500ppb or less, where 1ppm = 1,000ppb.

Meanwhile, the water quality diagnosis and automatic control device 1 of the boiler includes a controller 70 to automatically control the entire boiler device according to a preset operation program.

The controller 70 is composed of a computer, preferably a microcomputer, and operates the entire boiler system in the automatic operation mode, in the manual operation mode of the operator's intervention, or by the preset program. When an abnormality occurs in the system, it can be operated in the adjustment operation mode. For example, a logic circuit as illustrated in FIG. 7 is combined with the program to achieve the control of the present invention.

The controller 70 is electrically connected to the water quality monitor 50, and connected to receive a signal to determine whether each detected value is normal based on the water quality information detected by the water quality monitor 50, and the measured value. If it is out of this reference value, the corresponding electrical signal is sent to the drug injector 80 to be described later.

2 and 3, the controller 70 can inform the operator of the current operating state of the entire system through a separate display and the like, and the system situation that the driver should know in the current situation. The operator can be notified via the message window 72.

In addition, the present invention includes a chemical injector 80 for receiving a signal from the controller 70 to supply a predetermined chemical to the boiler treated water of the boiler 10.

2 and 4, the chemical injector 80 is connected by the injection pipe 82 on the treated water supply pipe 42 for connecting the degasser 40 and the boiler 10. . Therefore, the drug injector 80 supplies the necessary medicine by the signal of the controller 70.

Such a drug injector 80 is, as shown in Figure 4, the chemical storage tank 84 of a predetermined size, the injection tank 86 is connected to the chemical storage tank and stored in the cleansing agent, neutralizing agent, deoxidizer, respectively, The pump 88 is provided in each of the injection tank (86) to discharge the stored chemicals to the treated water supply pipe (42).

Therefore, the chemical injector 80 having such a structure supplies the necessary chemicals according to the control signal of the controller 70.

In the medicine injected by the medicine injector 80, the cleansing agent removes scale and rust formed on the metal surface by synergy of each component constituting the composition without being affected by the acidity and temperature of water. It disperses corrosion factors contained in water and suppresses the activity of ions.

Therefore, by forming a strong chemical film on the metal surface to maintain the anticorrosion and anti-corrosion state, it is put into water handling devices such as various boilers, heat exchangers, circulation coolers, water pipes, etc. I can keep it clean.

Such chemicals include a mixture of silica powder, sodium carbonate anhydrous (Na2CO3), sodium pyrophosphate, sodium tripolyphosphate (Na5P3O10) and sodium hexametaphosphate (NaPO3). Is melted at a high temperature above the melting point to obtain a crystal substance, and a silica-based detergent or a phosphate-based cleanser may be used.

In addition, it is preferable that such a cleansing agent does not cause eutrophication of rivers, is not concerned about water pollution, and is colorless, odorless, and nontoxic, and does not elute metals such as lead, zinc, and copper when used.

In addition, the neutralizing agent or deoxidizer is used to dissolve NaOH or Mg (OH) 2 in a liquid in order to neutralize the acidified boiler treated water to a neutralizer and / or deaerator from the treated water supplied to the boiler ( After passing through 40), deoxidizers are supplied to further completely remove dissolved oxygen not removed.

Each of these neutralizers and / or deoxidizers may be added to the treated water from the drug injector 80 alone, or they may be mixed and mixed at an appropriate ratio. In addition, since these neutralizing agents and / or deoxidizers may be collectively used as a clearing agent in the art and they may be commercialized as a substance in the form of a mixture, the following will simply refer to them as a clearing agent, and the individual division thereof will be omitted. do.

Reference numeral 22 denotes an exhaust water control valve, in the case where excessive steam concentrate is present in the steam drum 20, it is opened by remote operation by the controller 70 to discharge the steam concentrate to the outside. .

As shown in FIG. 2, the water quality diagnosis and automatic control apparatus 1 of the boiler according to the present invention configured as described above is applied to the ion exchange resin method while the raw water supplied to the boiler 10 passes through the water softener 30. By removing the hardness components such as calcium and magnesium contained.

Then, the produced soft water is supplied to the deaerator 40 to be treated water in which non-condensable gases such as dissolved oxygen and carbon dioxide are removed, and the treated water is supplied to the boiler 10 through the treated water supply pump 45. Supplied. In the boiler 10, steam is produced using the treated water supplied as described above, and the steam is transferred to the steam drum 20 to be temporarily stored and supplied to a place of use.

In this process, impurities contained in the supply of treated water and injected chemicals are concentrated in the boiler 10 and the steam drum 20.

At this time, various water quality is collected through the water quality inspector 50 from each pipe connected to the boiler 10 and the steam drum 20, and the water quality is analyzed by the water quality monitor 50. Then, the water quality is diagnosed by sending the analyzed signal to the controller, and the controller 70 automatically optimizes the water quality by inputting appropriate chemicals by outputting a signal to the medicine injector 80 when the concentrate is within the reference range. .

On the other hand, if the concentrate exceeds the reference value, the effluent control valve 22 is opened remotely by the controller 70 so that the concentrate is discharged from the steam drum 20.

Hereinafter, a water quality diagnosis and automatic control method of a boiler according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 5, the water quality diagnosis and automatic control method of the boiler proposed by the present invention starts the operation of the boiler, starting step (S204) for supplying the boiler treated water to the boiler, and the boiler ( 10) each of the fluids are sampled, and the measurement step (S 206) of measuring the corrosion, adhesion, PH, conductivity, dissolved oxygen, etc. in real time through the sensor unit 60, and the measured values respectively Off, the controller 70 supplies the chemicals selectively to the boiler water to automatically control the measured values to match the reference values (S208, S216), and the measuring step (S206) and the automatic control steps (S208, S216). ) Repeating the predetermined number of times) to manage the boiler water quality in real time (S218, S222).

In the water quality diagnosis and automatic control method of the boiler consisting of these steps, first, when the boiler equipment is operated in the starting step (S204), the feed water pump 45 is driven to supply the treated water to the boiler (10).

The starting step (S204) is a step of removing the hardness components contained in the raw water supplied to the boiler 10 by the water softener 30, the water softening treatment, and after the soft water treatment is included in the soft water by the degasser 40 Removing the treated non-condensable gas to produce treated water.

When the production of the treated water is completed as described above, the water quality measuring step S206 by the water quality monitor 50 is performed.

In this water quality measurement step (S206) through the sensor unit 60 to measure the respective data of the boiler water.

That is, the soft water, the treated water, the condensed water of the steam drum, and the steam discharged water are respectively sampled, and these samples are sampled through the sensor unit 60 to corrode, adhesion, PH, conductivity, dissolved oxygen, etc. in real time. Measure

Such water quality measurement is made in various parts such as boiler water supply system, boiler watering, discharge water piping, more specifically, the soft water discharged from the water softener 30, the treated water discharged from the degasser 40, the steam drum Condensed water recovered from the boiler 20 to the boiler 10 and vapor concentrate discharged to the outside from the steam drum 20.

These samples enter the water quality monitor 50 through the sampling pipes 62 for water quality analysis, and in the process, the samples are filtered by the filter 54 in the foreign matter in the steam.

And, the steam maintained at a high temperature of 160 ℃ or more is cooled to approximately 20 ~ 40 ℃ through the cooler 56 built in the water quality monitor 50 is converted to condensed water, the sensor unit 60 of the water quality monitor 50 Corrosion, scale adhesion, pH, conductivity, dissolved oxygen are measured.

In addition, the measured values are compared with each other in the first determination step S208 to determine whether they are within the range of the reference value by the controller 70.

In this case, it is determined whether each reference value is kept within the range of 11.0 to 11.8 for the PH item or 1500 to 500 mW / cm for the conductivity as described above.

In the case of dissolved oxygen content, it is 500 ppb or less, in the case of corrosion degree, it is below (5mdd or less), and the adhesion degree is 1.0 cm <2> / W (cleanness: 99.95%) or less.

If the measured values are compared to the reference value and judged, if the measured value satisfies each of the reference values, in the first check step S210, the controller 70 includes the sensor unit 60 and the pump provided in the entire boiler installation. (45) Check that the flow meter (not shown) is working properly.

In this process, a technique for automatically checking the control system such as the sensor unit 60, the pump 45, and the flow meter may use existing inspection techniques used in the field of general instrumentation equipment. Since the technology is obvious to those skilled in the art, it will not be described in detail here.

And, if it is determined that the sensor unit 60, the pump 45, and the flow meter are all normal, the boiler installation proceeds to normal automatic operation to smoothly produce steam.

On the other hand, if it is determined that the sensor unit 60, the pump 45, the flow meter, and the like is defective in the first check step (S210), the controller 70 is a separate alarm (not shown) in the alarm step 212, etc. The alarm is issued by using and the recovery work is performed by the workers.

On the other hand, when the respective measured value by the sensor unit 60 does not meet the reference range in the above, in the second check step (S214), the controller 70, the sensor unit 60, the pump ( 45) and check that the flow meter, etc. is operating normally.

If it does not operate normally, as described above, the controller 70 issues an alarm using a separate alarm (not shown), etc. in the alarm step S212, so that the recovery work of the corresponding part is performed by the workers. do.

On the other hand, if it operates normally, the adjustment step (S216) for automatically controlling the measured value to match the reference value by supplying the cleansing agents to the boiler water in accordance with a preset operation program in the controller 70 is made.

In this adjusting step (S216), a predetermined cleaning agent or the like is introduced into the treated water supply pipe 42 using the chemical injector 80, and the controller 70 sets a reference value and a measured value set for each sensor unit 60. If the measured value and the reference value are different, the operation codes that can solve the difference value are selected and operated according to the preset program.

In more detail, in the case of dissolved oxygen content, it is detected whether the measured value is 500 ppb or less, in the case of corrosion degree or less (5mdd or less), or the adhesion degree is 1.0 cm 2 / W (cleanness: 99.95%) or less. In the case of PH, it is determined whether it is maintained within the range of 11.0 to 11.8 or in the case of conductivity, within 1500 ± 500 1500 / ㎝.

In addition, the pump 45 of the drug injector 80 is properly operated in order to achieve the insufficient value by comparing the measured value with the reference value, and the corresponding cleaning agent is replenished.

After this process, the water quality measurement through the water quality monitor 50 is once again performed in the second determination step S218, and the boiler water quality is managed by repeating the measuring step and the automatic control step a predetermined number of times. .

That is, it is determined whether the measured values satisfy each reference value, and if the reference values are satisfied, normal operation is performed, but if the reference values are not satisfied, the process returns to the adjustment step (S216), and the injection of the cleansing agent is not performed again. The low down is automatically adjusted, and at the same time, the controller 70 sends an adjustment operation status alarm message in the next emergency operation step (S220) and simultaneously enters the adjustment operation state set in the control program to perform the operation.

In addition, while the adjustment operation is performed in this way, the water quality is measured again in the next third determination step S222, and the operation is automatically controlled and repeatedly maintained until the measurement value satisfies the reference value.

The water quality diagnosis and automatic control method (S200) of the boiler according to the present invention as described above is implemented through the automatic control logic circuit 300 as shown in FIG. 6 in the controller 70.

That is, as shown in FIG. 6, after the operation of the boiler installation 302, if the feed pump 45 is started 304, the temperature of the boiler water is detected (306).

At this time, if the temperature of the boiler water is not 100 ° C. or more, codes 1 and 2 of the emergency operation state and code 14 of the operation standby state are executed.

For reference, Table 1 below shows the working conditions for each code.

If the temperature of the boiler water is lower than 100 ° C. in the temperature detection step 306, it is determined whether the pH of the boiler water is maintained within 11.8 in the next step 308.

If so, then code 1 is executed in the next step 310 to return to normal operation. As shown in Table 1, the code 1 is a hot water production process, for example, by opening the discharge water control valve 22 of the steam drum 20 to open the valve for 5 seconds during the 10-minute operation of the boiler installation. Continuously, 0.50 L / Hr of the cleansing agent is supplied from the chemical injector 80 and the feed pump 45 is operated, the steam withdrawal pressure is 9Kg / cm 2 or less, the temperature of the boiler water is 100 ° C. or less, the feed water pump Return to the start-up step 304.

And, if the PH is greater than 11.8 in the step 308, it is determined in the next step 312 whether the conductivity is less than 2000 ㎲ / cm.

If the conductivity in this step 312 is greater than 2000, then code 2 is executed in the next step 314 to continue hot water production, at which time no cleansing agent is required and the drain control valve 22 of the steam drum 20 is opened to The operation of opening the valve for 5 seconds during a 10 minute run of the boiler plant is continuous.

In addition, if the conductivity is 2000 mW / cm or less in step 312, code 14 is executed.

On the other hand, if the temperature of the boiler water in step 304 is above 100 ° C., the water quality measurement is made in the next step 320, and the corrosion degree is then measured in step 322.

If the corrosion degree in the step 322 is higher than the reference value, it is determined in the next step 326 soft water conductivity, and if the conductivity of the soft water exceeds 95 kW / cm, the adjustment operation of the code 17 is made.

Code 17 indicates that both the corrosion rate and the soft water conductivity exceed the reference values, and the operation of opening the discharge control valve 22 of the steam drum 20 to open the valve for 7 seconds during the 10 minute operation of the boiler plant is continuously performed. . Then, a cleansing agent for lowering the corrosion and soft water conductivities from the chemical injector 80 is supplied with 1.10 L / Hr, the feed pump 45 is operated, the withdrawal pressure of the steam is 9Kg / cm 2 or more, and the temperature of the boiler water is 100 It is maintained at or above and returned to the feed pump starting step (304).

On the other hand, if the soft water conductivity is determined to be 95 mW / cm or less in step 326, then in step 328, a determination is made as to whether the PH exceeds 11.8.

If the soft water conductivity exceeds pH 11.8, then in step 330, a determination is made as to whether the dissolved oxygen in the feed water exceeds 500 ppb, and if exceeded, the adjustment operation in the next step 332. Step 16, code, is executed.

Code 16 shows that the soft water conductivity is within the reference value, but the corrosiveness, PH, and feed water dissolved oxygen are higher than the reference value, so that a cleanser for controlling this is supplied at 0.7 L / Hr.

Then, the operation of opening the discharge control valve 22 of the steam drum 20 to open the valve 22 for 7 seconds during the 10-minute operation of the boiler installation is made continuously, the feed pump 45 is operated, the steam The withdrawal pressure of is 9Kg / ㎠ or more, the temperature of the boiler water is maintained at 100 ℃ or more, and returns to the feed water pump starting step (304).

However, if the dissolved oxygen of the feed water in step 330 does not exceed 500 ppb, it is determined whether the PH sensor 66a, the chemical pump 88, and the discharge water C / V (drain water discharge valve) 22 are normal (step 334). ) Is determined.

If the devices are not normal in this step 334, this will generate an alarm in the next step 336, continue normal operation for a certain time in step 338, and then return to the feed pump start-up step 304.

If the PH sensor 66a, the chemical pump 88, and the discharge water C / V 22 are normal in step 334, then code 10, which is an adjustment operation, is executed in step 340. FIG.

Code 10 indicates that soft water conductivity and water supply dissolved oxygen are maintained within a reference value, and corrosion and pH exceed the reference value. In the code 10, the operation of opening the discharge control valve 22 of the steam drum 20 to open the valve 22 for 6 seconds during the 10-minute operation of the boiler installation is continuously performed, and the degree of corrosion and PH from the chemical injector 80 is A cleansing agent to adjust the pressure was supplied at 0.7 L / Hr. Then, the feed pump 45 is operated, the withdrawal pressure of the steam is 9Kg / ㎠ or more, the temperature of the boiler water is maintained at 100 ℃ or more, the chemical injection amount is adjusted in the next step 342, the steam drum 20 Condensate is blown down.

On the other hand, if the PH is kept smaller than 11.8 at step 328, then it is detected whether the PH is greater than 11.0 (344), and if the PH is less than 11.0 at this step 344, step 346 Code 15 is executed in.

Code 15 is a step of adjustment operation, where soft water conductivity remains within the criterion, but the corrosiveness and PH criteria are not met. Therefore, in the code 15, the cleansing agent is supplied at 1.1 L / Hr, and the operation of opening the discharge water control valve 22 of the steam drum 20 to open the valve for 5 seconds during the 10-minute operation of the boiler plant is performed continuously. Feed pump 45 is activated. Then, the withdrawal pressure of the steam is 9Kg / ㎠ or more, the temperature of the boiler water is maintained at 100 ℃ or more, and returns to the feed water pump starting step (304).

On the other hand, if the pH in step 344 is greater than 11.0, then in step 348 a determination is made as to whether the dissolved oxygen of the feedwater exceeds 500 ppb.

If the dissolved oxygen exceeds 500 ppb, it is determined in step 350 whether the dissolved oxygen sensor 66e, the chemical pump 88 and the effluent C / V 22 are normal.

And if the devices are not normal in this step 350, it generates an alarm in the next step 336, the normal operation is continued for a certain time (approximately 10 minutes) in the next step 338, and then the feed water pump Return to the start-up step 304.

If the PH sensor 66a, the chemical pump 88 and the discharge water C / V 22 are normal in step 350, then code 9, which is an adjustment operation, is executed in the next step 352.

Code 9 indicates that soft water conductivity and PH are maintained within a reference value, and corrosion and water supply dissolved oxygen exceed a reference value, and the valve is operated for 10 minutes in a boiler installation by opening the discharge control valve 22 of the steam drum 20. Opening operation for 6 seconds is performed continuously.

Then, the chemical agent for adjusting the degree of corrosion and water dissolved oxygen from the chemical injector 80 is supplied with 0.9 L / Hr, the feed pump 45 is operated, the withdrawal pressure of the steam is 9Kg / ㎠ or more. In addition, the temperature of the boiler water is maintained at 100 ℃ or more, the chemical injection amount is adjusted in the next step 342, and blow-down of the condensate from the steam drum (20).

In addition, if the dissolved oxygen of the feed water does not exceed 500 ppb in step 348, a determination is made in the next step 354 whether the conductivity of the boiler water is maintained within 2000 mW / cm.

If the conductivity exceeds 2000 mW / cm, then in step 356, it is determined whether the conductivity sensor 66b, the chemical pump 88 and the discharge water C / V 22 are normal.

And if the devices are not normal in this step 356, this will generate an alarm in the next step 336, continue normal operation in step 338 for a certain time (approximately 10 minutes), and then start the feed pump Return to step 304.

On the other hand, if the conductivity sensor 66b, the chemical pump 88 and the discharge water C / V 22 are normal in step 356, then code 8, which is an adjustment operation, is executed in step 358.

Code 8 indicates that the pH and feed water dissolved oxygen are maintained within the reference value, and the corrosion and electrical conductivity exceed the reference value.

Therefore, in the case of code 8, the operation of opening the discharge water control valve 22 to open the valve for 6 seconds during the 10-minute operation of the boiler installation is continuously performed, and for controlling the corrosion and electrical conductivity from the chemical injector 80. The cleansing agent is fed at 0.9 L / Hr. Then, the feed pump 45 is operated, the withdrawal pressure of the steam is 9Kg / ㎠ or more, the temperature of the boiler water is maintained at 100 ℃ or more, in the next step 342 the chemical injection amount is adjusted, the steam drum 20 Condensate is blown down.

In addition, if the conductivity is maintained within 2000 kW / cm in step 354, it is determined whether the corrosion sensor 66d, the chemical pump 88, and the discharge water C / V 22 are normal in the next step 360. Determine.

If the devices are not normal in this step 360, this will generate an alarm in the next step 336, continue normal operation in step 338 for a period of time (approximately 10 minutes), and then start the feed pump start step ( Return to 304).

On the other hand, if the corrosion sensor 66d, the chemical pump 88 and the discharge water C / V 22 are normal in step 360, then code 7, which is an adjustment operation, is executed in step 362.

Code 7 indicates that PH, conductivity and water supply dissolved oxygen are maintained within the reference value, and the corrosion degree exceeds the reference value.

Therefore, in the case of code 7, the operation of opening the discharge water control valve 22 of the steam drum 20 to open the valve 22 for 5 seconds during the 10-minute operation of the boiler installation is continuously performed, and the chemical injector 80 ) Is supplied at 0.9 L / Hr to control the degree of corrosion. Then, the feed pump 45 is operated, the withdrawal pressure of the steam is 9Kg / ㎠ or more, the temperature of the boiler water is maintained at 100 ℃ or more, in the next step 342 the chemical injection amount is adjusted, the steam drum 20 Blow down the condensate.

On the other hand, in the step 322, if the corrosion degree is maintained within 0.9mpy, in the next step 324 it is determined whether the adhesion is maintained within 1.0 cm 2 / W.

If the adhesion is higher than this, a determination is made in the next step 370 whether the conductivity of the boiler water is maintained within 2000 mW / cm.

If the conductivity exceeds 2000 mW / cm, then in step 372, it is determined whether the conductivity sensor 66b, the chemical pump 88 and the discharge water C / V 22 are normal.

If the devices are not normal in this step 372, this will generate an alarm in the next step 336, continue normal operation in step 338 for a period of time (approximately 10 minutes), and then start the feed pump. Return to step 304.

On the other hand, when the conductivity sensor 66b, the chemical pump 88, and the discharge water C / V 22 are normal in the step 372, it is determined in the next step 374 whether the feed water conductivity exceeds 110. .

If the feedwater conductivity exceeds 110, then in step 376 it is determined whether the soft water conductivity remains within 95 kW / cm.

If the water conductivity exceeds 95 mW / cm, the next step 378 displays a soft water quality error message and proceeds to step 380 of code 11 with the condition not exceeding.

Step 380 of the code 11 is an adjustment operation step, where the adhesion, conductivity, feedwater conductivity, etc., exceed a reference value. This is a continuous operation of opening the drain water control valve 22 of the steam drum 20 to open the valve for 8 seconds during the 10-minute operation of the boiler plant, and the cleaning agent for adjusting these values from the chemical injector 80. Is fed at 0.95 L / Hr.

Then, the feed pump 45 is operated, the withdrawal pressure of the steam is 9Kg / ㎠ or more, the temperature of the boiler water is maintained at 100 ℃ or more, in the next step 342 the chemical injection amount is adjusted, the steam drum 20 Blow down the condensate.

On the other hand, if the feedwater conductivity does not exceed 110 in step 374, then step 382 of code 12 proceeds.

Step 382 of code 12 is an adjustment operation step in which corrosion, water supply conductivity, etc. are within a reference value, but adhesion and boiler water conductivity exceed the reference value.

The operation of opening the effluent control valve 22 of the steam drum 20 to open the valve for 8 seconds during 10 minutes of operation of the boiler plant is performed continuously, and for adjusting these excess values from the chemical injector 80. The cleansing agent is fed at 0.90 L / Hr.

Then, the feed pump 45 is operated, the withdrawal pressure of the steam is 9Kg / ㎠ or more, the temperature of the boiler water is maintained at 100 ℃ or more, in the next step 342 the chemical injection amount is adjusted, the steam drum 20 Blow down the condensate.

On the other hand, if the conductivity of the boiler water is maintained within 2000 kW / cm in step 370, then in step 384 it is determined whether the chemical pump 88 and the discharge water C / V 22 are normal.

If the devices are not normal in this step 384, this will generate an alarm in the next step 336, continue normal operation in step 338 for a period of time (approximately 10 minutes), and then start the feed pump start step ( Return to 304).

On the other hand, if the chemical pump 88 and the effluent C / V 22 are normal in step 384, then code 13, which is an adjustment operation, is executed in step 386.

Code 13 is for the case that the corrosion and conductivity are maintained within the control reference value, the adhesion exceeds the reference value.

Therefore, in the case of code 13, the operation for opening the discharge water control valve 22 to open the valve for 6 seconds during the 10-minute operation of the boiler installation is continuously performed, and the cleaning agent for adjusting the adhesion from the chemical injector 80 is performed. Is fed at 0.9 L / Hr.

Then, the feed pump 45 is operated, the withdrawal pressure of the steam is 9Kg / ㎠ or more, the temperature of the boiler water is maintained at 100 ℃ or more, in the next step 342 the chemical injection amount is adjusted, the steam drum ( 20) Blow down the condensate.

If the adhesion is maintained within 1.0 cm 2 / W in step 324, then in step 390 a determination is made as to whether the pH exceeds 11.8.

If the PH exceeds 11.8, then in step 392, it is determined whether the PH sensor 66a, the chemical pump 88, and the effluent C / V 22 are normal.

If the devices are not normal in this step 392, this will generate an alarm in the next step 336, continue normal operation in step 338 for a period of time (approximately 10 minutes), and then start the feed pump start step ( Return to 304).

On the other hand, if the PH sensor 66a, the chemical pump 88 and the discharge water C / V 22 are normal in step 392, code 5, which is an adjustment operation, is executed in step 394.

Code 5 is the case that the corrosion and adhesion is within the control standard, PH is above the reference. Therefore, in the case of code 5, the cleansing agent is supplied at 0.7 L / Hr for adjustment, and the discharge water control valve 22 of the steam drum 20 is opened to open the valve for 5 seconds during the 10-minute operation of the boiler installation. This is done continuously.

Then, the feed pump 45 is operated, the withdrawal pressure of the steam is 9Kg / ㎠ or more, the temperature of the boiler water is maintained at 100 ℃ or more, in the next step 342 the chemical injection amount is adjusted, the steam drum 20 Blow down the condensate.

If the PH is maintained within 11.8 in step 390, then a determination is made in the next step 396 whether the PH is kept above 11.0.

If the PH is 11.0 or less in this step 396, it is determined in the next step 392 whether the PH sensor 66a, the chemical pump 88 and the discharge water C / V 22 are normal.

If the devices are not normal in this step 392, this will generate an alarm in the next step 336, continue normal operation in step 338 for a period of time (approximately 10 minutes), and then start the feed pump start step ( Return to 304).

On the other hand, when the PH sensor 66a, the chemical pump 88, and the discharge water C / V 22 are normal in step 392, code 4, which is an adjustment operation, is executed in step 398.

Code 4 is the case that the corrosion and adhesion is within the control standard, the pH is below the standard. Therefore, in the case of code 4, the cleansing agent is supplied at 0.95 L / Hr for the adjustment, and the discharge water control valve 22 of the steam drum 20 is opened to open the valve for 5 seconds during the 10-minute operation of the boiler installation. This is done continuously.

Then, the feed pump 45 is operated from the chemical injector 80, the withdrawal pressure of the steam is 9Kg / ㎠ or more, the temperature of the boiler water is maintained at 100 ℃ or more, the chemical injection amount is adjusted in the next step 342 The condensed water is blown down from the steam drum 20.

In addition, if the PH is 11.0 or more in the step 396, it is determined in the next step 400 whether the conductivity of the boiler water is maintained within 2000 mW / cm.

If 2000 mW / cm or more, it is determined in step 392 whether the conductivity sensor 66b, the chemical pump 88 and the discharge water C / V 22 are normal.

If the devices are not normal in this step 392, this will generate an alarm in the next step 336, continue normal operation in step 338 for a period of time (approximately 10 minutes), and then start the feed pump start step ( Return to 304).

On the other hand, if the conductivity sensor 66b, the chemical pump 88 and the discharge water C / V 22 are normal in step 392, code 6, which is an adjustment operation, is executed in step 402.

The code 6 is the case that the corrosion and adhesion is within the control standard, the conductivity is above the standard, the operation of opening the discharge control valve 22 to open the valve for 7 seconds during the 10 minutes operation of the boiler equipment is made continuously From the drug injector 80, the cleansing agent is supplied at 0.85 L / Hr for its adjustment.

Then, the feed pump 45 is operated, the withdrawal pressure of the steam is 9Kg / ㎠ or more, the temperature of the boiler water is maintained at 100 ℃ or more, in the next step 342 the chemical injection amount is adjusted, the steam drum 20 Blow down the condensate.

If the conductivity of the boiler water is maintained within 2000 kW / cm in step 400, then in step 404 it is determined whether the dissolved feed water oxygen is maintained within 500 ppb.

If it exceeds 500 ppb, it is determined in the next step 392 whether the feed water dissolved oxygen sensor 66e, the chemical pump 88 and the discharge water C / V 22 are normal. If the devices are not normal in this step 392, this will generate an alarm in the next step 336, continue normal operation in step 338 for a period of time (approximately 10 minutes), and then start the feed pump start step ( Return to 304).

On the other hand, when the water supply dissolved oxygen sensor 66e, the chemical pump 88 and the discharge water C / V 22 are normal in step 392, code 3, which is an adjustment operation, is executed in step 406.

Code 3 is the case that the corrosion degree and adhesion degree is within the management standard, the water supply dissolved oxygen is above the standard.

Therefore, in the case of code 3, the operation of opening the discharge water control valve 22 of the steam drum 20 to open the valve for 5 seconds during the 10-minute operation of the boiler facility is performed continuously for the adjustment, and the chemical injector ( 80) is supplied at 0.85 L / Hr.

Then, the feed pump 45 is operated, the withdrawal pressure of the steam is 9Kg / ㎠ or more, the temperature of the boiler water is maintained at 100 ℃ or more, in the next step 342 the chemical injection amount is adjusted, the steam drum 20 Blow down the condensate.

In addition, if the water supply dissolved oxygen is maintained within 500 ppb in step 404, then in step 408, it is determined whether the water supply Do sensor 66e, the chemical pump 88, and the discharge water C / V 22 are normal. .

If the devices are not normal in this step 408, this will generate an alarm in the next step 336, continue normal operation in step 338 for a period of time (approximately 10 minutes), and then start the feed pump start step ( Return to 304).

On the other hand, when the water supply dissolved oxygen sensor 66e, the chemical pump 88 and the discharge water C / V (22) is normal in step 408, the normal operation is carried out in step 410, and during the normal setting cycle Therefore, the process returns to the feed pump start step 304 and the above steps are repeated.

The normal operation step 410 in the above corresponds to code 0, which means that the water quality of the boiler 10 is within the management standard.

In the state of code 0, the operation of opening the discharge water control valve 22 of the steam drum 20 to open the valve for 5 seconds during the 10-minute operation of the boiler equipment is continuously performed, and the cleaning agent is discharged from the chemical injector 80. Feed at 0.80 L / Hr. Then, the feed pump 45 is operated, the withdrawal pressure of the steam is 9Kg / ㎠ or more, the temperature of the boiler water is a normal state maintained at 100 ℃ or more.

On the other hand, after the adjustment of the chemical injection amount and the discharge of condensate in the step 342 respectively, the adjustment according to the codes 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 In the next step 420, it is detected repeatedly that the water quality criteria are satisfied.

If the water quality standard converges to the reference value after three iterations, the flow returns to the feed pump starting step 304.

If the water quality criteria are not satisfied, an alarm is issued in the next step 422, water quality monitoring is performed in the next step 424, and again in step 426 it is determined whether the water quality management standard is satisfied.

If the water quality management criteria are satisfied, the flow returns to the feed water pump starting step 304, but if the water quality management criteria are not satisfied, the next step 428 is to check the operation of the boiler facility and check the abnormality together with the alarm sound.

Meanwhile, in the diagram of FIG. 7, various operation methods operable in the boiler installation process of the present invention as described above are exemplarily illustrated as codes 0 to code 17 for each code. It should be noted that such codes are provided by way of example only.

As described above, the present invention measures water-related data in real time in the process of continuously producing steam, analyzes the measured data, and applies corresponding codes to the measured values that meet each water quality control standard, thereby selecting a suitable drug. It is possible to achieve stable water quality management by inputting or automatically controlling the water supply system.

On the other hand, while the specific structure and operation method for the preferred embodiments of the present invention has been described, the present invention is not limited to this, the modifications thereof without departing from the spirit and scope of the present invention by those skilled in the art The structure can be presented in various ways. For example, the simple shape and material change of various mechanical parts, the use of mechanical equivalents, and the specification change of the mechanical parts are all easily changeable through the present invention. It is obvious that all such modified structures, such as a change or a change in the opening time of the discharge water control valve, fall within the scope of the present invention.

As described above, the boiler water diagnosis and control apparatus and method according to a preferred embodiment of the present invention measures the water quality-related data in real time during the continuous production of steam, and analyzes the measured data to inject appropriate chemicals or Automatic control of the water supply system has the advantage of achieving stable water quality management.

In addition, the stable management of the water quality of the boiler to prevent in advance the failure that can occur in the boiler, and greatly improve the durability of the boiler, there is an advantage that can greatly improve the steam production and boiler operation efficiency.

Claims (13)

In the boiler system which consists of a water softener, a deaerator, a boiler, and a steam drum, A water quality monitor for sampling boiler water from pipes connected to the boiler and the steam drum, and measuring corrosion, adhesion, PH, conductivity, and dissolved oxygen in real time from the boiler water; It is connected to the water quality monitor to determine whether each detected value is normal based on the detected water quality information, and when it is out of the normal reference value, it transmits an electric signal corresponding to it, and the entire boiler device is set by a preset operation program. A controller for automatic control; And And a water quality diagnosis and automatic control device of the boiler comprising a chemical injector connected to the controller and receiving a signal from the controller and supplying a predetermined chemical to the boiler water supplied to the boiler. The method of claim 1, The water quality monitor includes a sensor unit, wherein the sensor unit includes a PH sensor for detecting the concentration of hydrogen ions contained in the boiler water, a conductivity sensor for measuring the ionic strength of the boiler water, and a molecular state dissolved in the boiler water. Dissolved oxygen (water supply Do) sensor for detecting oxygen content, corrosiveness sensor 66d for measuring weight loss or thickness reduction for a certain period of time, and hardness components, solid materials, corrosion products, etc. Boiler system, characterized in that it comprises at least one of the adhesion sensors for measuring what contains impurities. The method of claim 2, The water quality monitor includes a filter for filtering foreign substances from steam samples to supply the filtered steam condensed water to the sensor unit. The method of claim 3, wherein The water quality monitor further comprises a cooler for depressurizing and cooling the steam condensate passing through the filter to supply the cold condensed water cooled to the sensor unit. The method of claim 2, The water quality monitor includes soft water discharged from the water softener, treated water discharged from the degasser, condensed water recovered from the steam drum to the boiler, and steam concentrates discharged from the steam drum to the outside. Boiler water sampling through the incoming conduit, characterized in that for supplying the sensor unit. A start-up step of starting a boiler and driving a feed pump for supplying boiler water to the boiler; Sampling each fluid from the boiler, and measuring, in real time, corrosion degree, adhesion, PH, conductivity, dissolved oxygen, etc. through the sensor unit; If each of the measured values deviates from the normal reference value, selectively supplying the cleansing agent, the neutralizing agent or the deoxidizer to the boiler water according to preset operation codes in the controller to automatically control the measured value to match the reference value; And Water quality diagnosis and automatic control method of the boiler comprising the step of repeating the measuring step and the automatic control step a predetermined number of times to manage the boiler water quality in real time. The method of claim 6, The starting step is to remove the hardness components contained in the raw water supplied to the boiler by the water softener for soft water treatment, and after the soft water treatment to remove the non-condensable gas contained in the soft water by the deaerator to produce the treated water. Water quality diagnosis and automatic control method of the boiler further comprising a step. The method of claim 6, The automatic control step of the water quality diagnosis and automatic control method of the boiler further comprises a first step of checking whether the sensor unit, the pump and the flow meter is operating normally. The method of claim 6, The automatic control step compares and analyzes the reference value set for each sensor of the sensor unit and the measured values, and if the measured value and the reference value are different, selects operation codes that can solve the different values by a preset program. Method of diagnosis and automatic control of water quality of boilers supplying the corresponding cleaning agent. The method of claim 9, The operation code is classified into steps of 0 to 17, and the discrimination reference value used in the operation code is 500 ppb or less in the case of dissolved oxygen content, or less (5mdd or less) in the case of corrosion, and the adhesion degree is 1.0 cm 2 / W or less, at least one of the pH range, 11.0 ~ 11.8, and the conductivity of 1500 ± 500 kW / cm at least one of the water quality diagnosis and automatic control method of the boiler. The method of claim 8, If the sensor unit, the pump and the flow meter does not operate normally in the checking step, the alarm transmission step is made and the water quality diagnosis and automatic control method of the boiler to return to the feed water pump start step through the normal operation step of a predetermined time. The method of claim 9, The control operation used in the operation codes 0 to 17 includes at least one of opening the discharge water control valve of the steam drum, injecting the cleansing agent from the chemical injector, operating the feed pump, detecting the discharge pressure of the steam, and detecting the temperature of the boiler water. Water quality diagnosis and automatic control method of the boiler comprising any one. The method of claim 12, The opening operation of the discharge water control valve of the steam drum includes a 5 to 8 seconds opening operation of the discharge water control valve during the 10 minutes operation of the boiler installation.

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