KR100809554B1 - Hydrated lime dosing plant for freshwater system - Google Patents

Abstract

A lime-dosing plant of a desalting system is provided to reduce the loss of chemicals and the disposal amount of sludge, by recycling the sludge generated from a lime saturator. A lime-dosing apparatus comprises a distilled water-supplying line(10), a chemical-supplying line(20) for supplying a lime solution, a lime saturator(30) for forming a saturation solution by using the distilled water and the lime solution, and a lime water-discharging line(40) for discharging the lime water generated from the lime saturator. A distilled water-recycling line(50) recycles the water, which is to be removed when maintaining and repairing the lime saturator, to the distilled water-supplying line. Further, an emptying lime pump is installed at the distilled water-recycling line.

Description

Lime dosing device in desalination system {HYDRATED LIME DOSING PLANT FOR FRESHWATER SYSTEM}

Figure 1 shows a picture of a lime saturator (Lime Saturator) installed in a conventional lime dosing device.

2 is a photograph of the inside of the lime saturator of FIG. 1.

3 is a block diagram of a lime dosing device according to a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: distilled water supply line 20: chemical supply line

30: lime saturator 40: lime water discharge line

50: distilled water recycling line 60: sludge recycling line

DW: distilled water LW: lime water

The present invention relates to a lime dosing device of a desalination system, and more particularly, by installing a distilled water recycling line for recycling water that can be drained from a lime saturator, and a sludge recycling line for separating and recycling water from the sludge solution. The present invention relates to a lime dosing device of a desalination system which can prevent the loss of drinking water produced in the desalination process and reduce the related costs by reducing the amount of sludge waste and chemicals (calcium hydroxide).

In general, desalination systems use multistage distillation, where potabe water produced is close to distillate water. At this time, the produced drinking water is in contact with the atmosphere in the process of being accommodated in the storage tank to dissolve the carbon dioxide (CO ₂ ) in the atmosphere. As a result, the produced drinking water has a low pH value and also corrodes the pipe lines during the transfer from the fresh water system to the city. As a result, the produced drinking water has a low pH value and contains an oxide produced by corrosion in the pipe line and thus cannot be used as drinking water, so the produced drinking water should have a positive value of LSI as the corrosion index. . For this purpose, calcium hydroxide (Hydrated Lime, Ca (OH) ₂ ) is injected into generally produced drinking water, that is, distilled water, and carbon dioxide is further added to increase the alkalinity so that the content of calcium carbonate (CaCO ₃ ) is about 50-60 ppm. Keep the value constant to about 8 to keep the LSI value positive.

In the desalination system, a lime dosing plant is provided as a facility for injecting calcium hydroxide into the drinking water (distilled water) produced as described above. The calcium hydroxide used as a chemical for increasing alkalinity has a very low solubility in water. It has a solubility of about 1,200 ppm at an operating temperature of approximately 40 ° C. In the desalination system, various kinds of chemical dosing plants are provided. Calcium hydroxide (Hydrated Lime) has low solubility as described above when using a general chemical dosing apparatus (chemical concentration of about 20-10% by weight), Calcium hydroxide (Hydrated Lime) will remain as a suspended solid in the chemical inlet pipe, and may eventually remain as a suspended solid in drinking water. Accordingly, the lime dosing device for injecting calcium hydroxide (Hydrated Lime) has a lime saturator for saturating calcium hydroxide in a solution of 1,200ppm unlike other dosing devices. 1 shows a photograph of a conventional lime saturator.

The lime saturator as described above requires maintenance, which requires emptying the water in the lime saturator for maintenance. However, in the related art, the maintenance of the lime saturator does not take any means for recycling the water to be emptied, and drains the water as it is, resulting in a loss of drinking water produced in the desalination process.

In addition, in general, the efficiency of the lime saturator is 87% and 6% by weight of calcium hydroxide (Hydrated Lime) is composed of impurities insoluble in water, the sludge is inevitably generated in the lime saturator during operation. FIG. 2 is a photograph of a conventional lime saturator, and as shown in FIG. 2, it can be seen that a large amount of sludge is accumulated in the lime saturator.

However, conventionally, in treating the sludge as described above, the waste is treated as it is, containing calcium hydroxide (Hydrated Lime), there is a problem in that the amount of chemical (calcium hydroxide) loss is large, and the cost of waste disposal is high. And the sludge generated as above contains calcium hydroxide (Hydrated Lime).

Typically, the amount of sludge generated per day on the basis of 100 MIGD (Million Imperial Gallons per Day) is 42 m 3 / hr. At this time, considering that the sludge treatment company's truck tank capacity is usually 45 ton, and the one-time treatment cost is 6000 Dhs (diharam), it costs $ 578,000 per year for sludge treatment. In addition, considering that the efficiency of the lime saturator is 87%, 13 wt% of calcium hydroxide (Hydrated Lime) of the total requirement on the 100 MIGD basis is discarded together with the sludge. This results in 111 kg / hr of calcium hydroxide loss per day, which translates to $ 185,000 annually. In addition, when the sludge is disposed of, the treatment company and the driver have to treat the sludge daily in the presence of the waste, which leads to manpower, inconvenience, and very expensive disposal costs.

The present invention is invented to solve the problems of the prior art as described above, in the construction of a lime dosing device, to prevent the loss of drinking water produced in the desalination process, and to reduce the amount of chemicals (calcium hydroxide) and the amount of waste of sludge The aim is to provide a lime dosing device of a desalination system that can reduce the associated costs.

The present invention to achieve the above object, Distilled water supply line for supplying distilled water; A medicine supply line for supplying a lime solution; A lime saturator receiving the distilled water and a lime solution and mixing the mixture with a saturated solution; In the lime dosing device of the desalination system including; lime water discharge line for introducing and discharge the lime water generated in the lime saturator,

It provides a lime dosing device of the desalination system; the distilled water recycling line for recycling the water to be removed during the maintenance of the lime saturator to the distilled water supply line.

According to a preferred embodiment, the lime dosing device according to the present invention is provided with a sludge recycling line for separating water from the sludge generated in the lime saturator and recycling it to the distilled water supply line or the lime saturator.

Hereinafter, with reference to the accompanying drawings will be described the present invention in more detail. 3 is a block diagram of a lime dosing device according to a preferred embodiment of the present invention.

Referring to Figure 3, the lime dosing device (Lime Dosing Plant) according to the present invention is a distilled water supply line 10, the chemical supply line 20, lime saturator 30, lime water discharge line ( At least 40), which are in communication with each other by piping.

The distilled water supply line 10 supplies distillate water (DW), that is, drinking water produced in a fresh water process to the lime saturator 30, which is branched from the main pipe 12 and the main pipe 12. It is connected to the lower side of the lime saturator 30 has an auxiliary pipe 14 for supplying distilled water (DW).

The chemical supply line 20 supplies a lime solution (LS, Li ( ₂ ) aqueous solution of Ca (OH) ₂ ) into the lime saturator 30, and preferably, a lime in a center where a turbine in the lime saturator 30 is installed. The solution LS is supplied. At this time, the lime solution LS supplied to the lime saturator 30 is supersaturated as an aqueous Ca (OH) ₂ solution of approximately 10% by weight. That is, the lime solution LS is in a state in which a supersaturated lime (Lime: Ca (OH) ₂ ) is present in the solution and is not suitable for drinking water.

The lime saturator 30 mixes the distilled water (DW) supplied from the distilled water supply line 10 and the supersaturated lime solution (LS) supplied from the chemical supply line 20 to form a saturated solution of lime water (LW, Lime). Water) to produce approximately 1,280 ppm of lime water (LW, Lime Water). The lime saturator 30 may use a conventional one with a built-in stirrer, and may be installed in the dosing device two or three or more. 3 illustrates a state in which three lime saturators 30 are installed in parallel.

The lime water discharge line 40 discharges the lime water LW generated by the lime saturator 30 to the outside, and includes a lime water dosing pump 42 and the lime water dosing. Lime Water Buffer Tank (44) for accommodating the incoming lime water (LW) is installed to prevent the idling of the pump 42, the lime water buffer tank 44 is a dosing pump 42 It is located at the tip of. Reference numeral 46 in FIG. 3 denotes a controller for controlling the amount of lime water (LW) discharged.

The lime saturator 30 is in need of maintenance in the process, but the lime saturator 30 in need of maintenance is stopped and the rest is operated. In the maintenance of the lime saturator 30, water should be removed. In this case, distillate water recycling line 50 for recycling the water to be removed at the time of maintenance according to the present invention to the distilled water supply line 10 is used. Recycle Line) is installed. The distilled water recycling line 50 has an emptying lime pump 52 that sucks water and discharges it to the distilled water supply line 10 only when the distilled water recycling line 50 is removed from the lime saturator 30. Such a distilled water recycling line 50 is shown as a thick dotted line in FIG.

According to the present invention, the waste water (drinking water produced in the desalination process) of the lime saturator 30 is recycled by the distilled water recycling line 50 as in the related art, thereby reducing the loss of drinking water.

In addition, since the efficiency of the lime saturator 30 is 87%, the purity of the lime is always 94% by weight of 13% by weight of the lime sludge and the remaining 87% by weight, of which 6% by weight is composed of an insoluble substance, 87% by weight. Sludge composed of 5.22 wt% impurities, which is 6 wt% of Mg, is accumulated in the lime saturator 30. Accordingly, sludge of 13% by weight (lime) + 5.22% by weight (impurity) = 18.22% by weight relative to the total drug requirement is always generated.

Sludge composed of 13% by weight lime generated due to lime saturator 30 performance will consume 13% more lime in operation, resulting in increased operating costs and also 71.4 of the total sludge 18.22% by weight. Owing to the weight percentage, the sludge accumulates frequently, which increases the cost of the sludge treatment.

Accordingly, if the above-mentioned emptying lime pump 52 is continuously operated not only during the maintenance of the lime saturator 30 but also during operation, the amount of lime supplied during operation and the sludge treatment cost may be reduced. .

In addition, the lime saturator 30 includes a sludge calcium hydroxide (Hydrated Lime) and a large amount of water, wherein the sludge solution to recycle the water contained in the sludge according to a preferred form of the present invention A sludge recycle line 60 is installed to separate and circulate water from the sludge recycle line. Such sludge recycling line 60 is shown as a thick solid line in FIG. 3. The sludge recycling line 60 communicates with the lower end of the lime saturator 30, and the separated water is supplied to the distilled water supply line 10 or to the lime saturator 30. 3 illustrates a state in which the separated water is supplied through the main pipe 12 of the distilled water supply line 10.

At this time, the sludge recycling line 60 is a separator 62 for separating solids (sludge) and liquid (water) by sedimentation of sludge introduced from the lime saturator 30, and a lower portion of the separator 62. Sludge Basin (not shown) for storing the solids (sludge) sedimented in the suction and the liquid (water) floating on the upper side of the separator 62 to suck the distilled water supply line 10 or lime saturator ( The recycling pump 64 which discharges to 30 is provided. The sludge stored in the sludge basin is disposed of by the To Truck.

Therefore, the water that can be disposed together with the sludge by the sludge recycling line 60 as described above is recycled by recirculation to reduce the loss of drinking water, and also the amount of sludge to be treated by the To Truck is significantly reduced. The cost of sludge treatment can be reduced. In addition, potassium hydroxide is dissolved in the water separated from the separator 62, that is, the water discharged through the recycle pump 54. The potassium hydroxide is also distilled water supply line 10 or the lime saturator 30 together with the water. Can be recycled to reduce the loss of chemicals, namely potassium hydroxide.

As described above, the present invention reduces the loss of chemicals (calcium hydroxide) and waste of sludge by recycling the sludge generated in the lime saturator 30, and the drinking water and chemicals (calcium hydroxide) produced by recovering the water in the saturator. The amount of waste and sludge waste can be reduced, which reduces the related costs.

Claims (3)

A distilled water supply line for supplying distilled water; A medicine supply line for supplying a lime solution; A lime saturator receiving the distilled water and a lime solution and mixing the mixture with a saturated solution; In the lime dosing device of the desalination system including; lime water discharge line for introducing and discharge the lime water generated in the lime saturator, Lime dosing device of the desalination system, characterized in that installed; distilled water recycling line for recycling the water to be removed during maintenance of the lime saturator to the distilled water supply line. The method of claim 1, The recycling line is a lime dosing device of the desalination system, characterized in that the installed lime pump. The method according to claim 1 or 2, The lime dosing device, the lime dosing device of the desalination system, characterized in that; further comprises a sludge recycling line for separating the water from the sludge generated in the lime saturator, recycle to the distilled water supply line or lime saturator.

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