JP2008264714A - Method for adding flocculant - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for adding a flocculant which can improve the separation efficiency of a suspended solid contained in water to be treated. <P>SOLUTION: In this method, the suspended solid contained in the water to be treated is separated by spouting a flocculant in a powdery form to add the flocculant to the water which has been spouted in a misty form. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a method for adding a flocculant, and in particular, relates to a method for adding a flocculant that separates a suspended substance contained in the water to be treated by adding the flocculant to the water to be treated containing the suspended substance.

As a method for separating suspended substances (hereinafter referred to as “SS”) contained in the water to be treated, for example, a technique for adding a flocculant to the water to be treated to aggregate SS is already known. In this technique, first, water to be treated is poured into a stirring layer equipped with a stirrer, and a flocculant is introduced into the stirring tank and stirred by the stirrer. Thereafter, when the water to be treated is transferred from the agitation tank to the mixing tank and the floating tank and allowed to stand for a predetermined time, the SS contained in the water to be treated rises and the SS contained in the water to be treated is separated. Can do.
Japanese Patent Laid-Open No. 2006-82005

  However, in the above-described flocculant addition method, depending on the type of SS contained in the water to be treated, the separation efficiency may be poor, and an improvement in the separation efficiency has been demanded.

  The present invention is intended to solve such problems, and an object of the present invention is to provide a method for adding a flocculant with improved separation efficiency of suspended substances contained in water to be treated.

The present invention is for achieving the above object, and is configured as follows.
The invention according to claim 1 is a method for separating suspended substances contained in the water to be treated by adding a flocculant jetted in a powder form to the water to be treated sprayed in a mist form. is there.
According to this method, the flocculant sprayed in powder form from the nozzle is added to the water to be treated sprayed in a mist form from the nozzle. When added in this manner, the addition is performed in the air, so that the flocculant is uniformly mixed into the water to be treated. Therefore, it is possible to improve the separation efficiency of the suspended matter contained in the water to be treated.

The invention according to claim 2 is the method for adding the flocculant according to claim 1, wherein the ejection of the water to be treated and the ejection of the flocculant are each performed by air.
According to this method, since the amount of air sent to the nozzle can be adjusted, the amount of the flocculant ejected from the nozzle can be arbitrarily adjusted. Further, similarly to this, since the amount of air sent to the nozzle can be adjusted, the amount of water to be treated ejected from the nozzle can be arbitrarily adjusted. Therefore, the addition amount can be appropriately determined depending on the type of water to be treated.

Further, the invention according to claim 3 is the method for adding the flocculant according to any one of claims 1 to 2, wherein the jet of the water to be treated and the jet of the flocculant have a bowl-like inner surface. The method is carried out above the body formed in the above.
According to this method, after the flocculant is added to the water to be treated in the air, the water to be treated and the flocculant are further mixed inside the bowl. Therefore, the flocculant can be mixed more uniformly into the water to be treated.

  Hereinafter, the best mode for carrying out the present invention will be described with reference to FIGS. FIG. 1 is a conceptual diagram showing a method for adding a flocculant of the present invention. FIG. 2 is a configuration diagram of an addition system to which the flocculant addition method of the present invention is applied. FIG. 3 is a conceptual diagram showing a partition state inside the separation tank 42.

  First, the flocculant addition system will be described with reference to FIG. Reference numeral 10 denotes a nozzle that can eject the flocculant in powder form. 11 is a flocculant tank which can store the flocculant. A pipe 12 connects the nozzle 10 and the flocculant tank 11. The pipe 12 has a configuration in which two systems are arranged in parallel. That is, the pipe 12 includes a primary pipe 12 a that sends air from the nozzle 10 to the flocculant tank 11 and a secondary pipe 12 b that sends the flocculant from the flocculant tank 11 to the nozzle 10. 13 is a regulating valve. 14 is a pressure reducing valve. Reference numeral 15 denotes a compressor. Reference numeral 16 denotes an air hose. The air hose 16 connects the nozzle 10 and the compressor 15, and in the middle of the air hose 16, the pressure reducing valve 14 and the adjustment valve 13 are connected in series so as to interrupt from the compressor 15 side.

  The air sent from the compressor 15 to the nozzle 10 via the pressure reducing valve 14 and the regulating valve 13 is once sent to the flocculant tank 11 and then returned to the nozzle 10 together with the flocculant. By sending air to the flocculant tank 11 in this way, the flocculant inside the flocculant tank 11 can be sent to the nozzle 10 without the flocculant inside the flocculant tank 11 solidifying.

  Reference numeral 20 denotes a nozzle capable of ejecting water to be treated in a mist form. 21 is a to-be-treated water tank which can store to-be-treated water. This treated water contains SS. A pipe 22 connects the nozzle 20 and the water tank 21 to be treated. 23 is a regulating valve. 24 is a pressure reducing valve. Reference numeral 25 denotes a compressor. 26 is an air hose. The air hose 26 connects the nozzle 20 and the compressor 25, and is connected in series with the pressure reducing valve 24 and the regulating valve 23 from the compressor 25 side.

  Reference numeral 30 denotes a control device, and the control device 30 is electrically connected to the regulating valve 13, the compressor 16, the regulating valve 23, and the compressor 25, respectively. With this control device 30, the compressor 15 can be operated or stopped, and the regulating valve 13 can be opened to a preset opening degree. Thereby, since the quantity of the air sent to the nozzle 10 can be adjusted, the quantity of the flocculant ejected from the nozzle 10 can be adjusted arbitrarily. Further, similarly to this, since the amount of air sent to the nozzle 20 can be adjusted, the amount of water to be treated ejected from the nozzle 20 can be arbitrarily adjusted. Therefore, the addition amount can be appropriately determined depending on the type of water to be treated.

  Reference numeral 40 denotes a bowl, and the inner surface is formed in a bowl shape. And as shown in FIG. 1, the nozzle 10 and the nozzle 20 are arrange | positioned in the upper position of this enclosure 40. As shown in FIG. Thereby, the coagulant | flocculant ejected in the powder form from the nozzle 20 is added to the to-be-processed water ejected in the mist form from the nozzle 10. FIG. When added in this way, it becomes an addition in the air, so that the flocculant is uniformly mixed in the water to be treated. Therefore, the separation efficiency of SS contained in the water to be treated can be improved.

  Moreover, since both the nozzles 10 and 20 are arrange | positioned in the upper position of the bowl 40, after the flocculant is added to the to-be-treated water in the air, the inside of the bowl 40 is further treated with the to-be-treated water. The flocculant will be mixed. Therefore, the flocculant can be mixed more uniformly into the water to be treated.

  Reference numeral 42 denotes a separation tank connected to the enclosure 40 via a pipe 41. As shown in FIG. 3, the pipe 41 is connected below the separation tank 42. And the opening connected to the exterior is formed in the lower part and upper part of the side surface which opposes the side surface to which the piping 41 was connected, respectively. Further, inside the separation tank 42, partition walls 42a are provided at appropriate intervals in parallel with the side surface to which the pipe 41 is connected. The upper and lower ends of the partition wall 42a are notched so as not to block the flow of water to be treated.

  Then, the effect | action of the addition system mentioned above is demonstrated. First, the control device 30 sets the ejection amount of the flocculant ejected from the nozzle 10 and the ejection amount of the water to be treated ejected from the nozzle 20 to a desired numerical value. Next, the regulating valves 13 and 23 and the compressors 15 and 25 are operated so that the flocculant is ejected from the nozzle 10 and the water to be treated is ejected from the nozzle 20.

  Then, as already described, the flocculant is added to and mixed with the water to be treated above and inside the bowl 40, and the water to be treated with the flocculant mixed is sent to the separation tank 42 via the pipe 41. . The treated water thus sent is given an appropriate curing time in the separation tank 42. Then, since SS contained in this to-be-treated water floats up, SS contained in this to-be-treated water can be separated. And as shown in this FIG. 3, SS can be collect | recovered from the upper direction of the separation tank 42, and collection | recovery water can be collect | recovered from the downward direction.

  According to the above-described flocculant addition system, the amount of flocculant ejected from the nozzle 10 and the amount of water to be treated ejected from the nozzle 20 can be individually and finely adjusted. The amount of the flocculant added can be controlled to be optimum. Further, since the nozzles 10 and 20 are used, the spread angle of the flocculant and the water to be treated at the time of ejection can be set to be optimum. Moreover, it can set so that the mist-like state and powdery state at the time of ejection may become the optimum by the state of restriction of the nozzles 10 and 20. Further, since the pressure reducing valves 14 and 24 are used, the air amount and the pressure can be easily adjusted.

  In addition, since the space between the nozzle 10 and the compressor 15 is a closed space, moisture is difficult to enter from the outside. Further, if the flocculant tank 11 is of a cartridge type and is detachable from the pipe 12, the flocculant can be easily replenished.

The contents described above are only related to one embodiment of the present invention, and do not mean that the present invention is limited to the above contents.
In the embodiment, an example in which the compressors 15 and 25 are air sources has been described. However, the configuration is not limited to this, and an air pump may be used as an air source.

FIG. 1 is a conceptual diagram showing a method for adding a flocculant of the present invention. FIG. 2 is a configuration diagram of an addition system to which the flocculant addition method of the present invention is applied. FIG. 3 is a conceptual diagram showing a partition state inside the separation tank 42.

Explanation of symbols

10 Nozzle 20 Nozzle 40

Claims (3)

  A method for adding a flocculant that separates suspended substances contained in the water to be treated by adding the flocculant sprayed in a powder form to the water to be treated that has been sprayed in a mist form. A method for adding a flocculant according to claim 1,
The ejection of the water to be treated and the ejection of the flocculant are each performed by air, and the addition method of the flocculant. A method for adding a flocculant according to claim 1,
The ejection of the water to be treated and the ejection of the flocculant are performed by adding the flocculant, which is performed above the bowl body whose inner surface is formed in a bowl shape.

Images