JPH07100473A - Water quality improving agent and its preparation - Google Patents

Abstract

PURPOSE:To provide a water quality improving agent with which free chlorine in a chlorine-treated water can be simply removed at any time. CONSTITUTION:A water quality improving agent is an agent for removing free chlorine existing under the conditions of hypochlorous acid and hypochlorite ion in a chlorine-treated water and consists of an ingredient neutralizing the free chlorine in water and a binder for shaping and is shaped into a small shape.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a molded water quality improving agent (generally referred to as a water quality improving agent) for removing free chlorine remaining in chlorinated water and a method for producing the same.

[0002]

2. Description of the Related Art Normally, tap water is treated with chlorine for disinfection, sterilization and decolorization. When chlorine dissolves in water, it reacts with water to form hypochlorous acid and hydrochloric acid, and part of the hypochlorous acid is further dissociated into hypochlorite ion and hydrogen ion. This hypochlorous acid and hypochlorite ion are called free chlorine, which is excellent in oxidizing power and sterilizing power, and the Water Supply Law Enforcement Regulation stipulates that free chlorine will detect 0.1 ppm from the water tap.

As described above, chlorine treatment is effective as a treatment method such as disinfection of water, but it is not necessarily suitable as drinking water or water for breeding animals and plants because of free chlorine remaining in the water. Specifically, drinking water is regarded as bad water due to the so-called chlorine disinfecting odor, and as water for breeding, it has a bad influence on keeping freshness of plants (fresh flowers etc.).
For this reason, there is a conventional one for removing free chlorine in tap water. For example, for drinking water, there is a stationary water purifier that uses activated carbon filtration, and for water for fresh flowers, there is a liquid agent.

[0004]

However, for drinking water, there is no free chlorine removing agent that can be used easily and for selecting a place, and it is not always possible to drink delicious water at work or while traveling. Was not. Further, the liquid agent used for cut flowers has been troublesome to add a predetermined amount each time water is added or replaced.

Therefore, an object of the present invention is to provide a water quality improving agent which eliminates the above conventional problems and can remove free chlorine easily and anywhere in chlorinated water. Another object of the present invention is to provide a water quality improver that can remove free chlorine in chlorinated water and that does not require time and effort when used for cut flower water. Further, it is an object of the present invention to provide a method capable of producing a molded water quality improving agent which is easy to use and convenient to carry.

[0006]

As a technical means for solving the above-mentioned problems, the present inventor has proposed that free chlorine existing in the state of hypochlorous acid and hypochlorite ion in chlorinated water. We have created a water quality improving agent characterized in that it is formed into a small shape and is composed of a component for neutralizing free chlorine in water and a binder for molding. Further, the water quality improving agent composed of an adsorbent for metal ions dissolved in water was created. Further, the water quality improving agent was created, wherein the component that neutralizes free chlorine in the water is calcium sulfite. Further, for removing free chlorine existing in the state of hypochlorous acid and hypochlorite ion in chlorinated water, calcium sulfite, thermoplastic resin, polysaccharides, zeolite, polyvinyl alcohol and A water quality improving agent was created, which is characterized in that it is formed into small particles. Further, the present inventor has found that a component for neutralizing free chlorine existing in the state of hypochlorous acid and hypochlorite ion in chlorinated water, an adsorbent for a metal ion dissolved in water, and a thermoplastic binder. To form a raw material powder, (2) a step of adding a water-soluble binder solution to the raw material powder to form a molded body, and (3) heating and drying the molded body to form the thermoplastic binder. And a step of curing the molded body by cooling the molded body to solidify the melted thermoplastic binder, and a method for producing a water quality improving agent is created. Further, in the step (2), the method for producing the water quality improving agent is created by spraying the water-soluble binder solution onto the raw material powder and drying the raw material powder to obtain a granulated molded body. Also,
In the step (1), 77% by weight of calcium sulfite as a component for neutralizing the free chlorine, 5% by weight of zeolite as the adsorbent, 8% by weight of ethylene-vinyl acetate resin as the thermoplastic binder, and cornstarch 1
A raw material powder was mixed with 0% by weight, and in the step (2), a polyvinyl alcohol aqueous solution was used as the water-soluble binder solution, and a method for producing the water quality improving agent was created.

The components for neutralizing free chlorine in the water include sodium sulfite (Na ₂ SO ₃ ) and sodium thiosulfate.
_{(Na 2 S 2 O 3 ·} 5H 2 O), calcium sulfite (Ca SO _3), and the like. These components supply sulfite ions in water, and as a result, chlorine present in the state of free chlorine is removed as chlorides (eg, NaCl, CaCl ₂ etc.). As the adsorbent for metal ions dissolved in the water,
Examples thereof include kaolin, ceramics, activated carbon, alumina, silica gel, zeolite, talc, perlite, synthetic aluminum silicate, acid clay, bone charcoal, activated clay and diatomaceous earth.

[0008] The binder for molding is an inorganic binder or an organic binder used for molding powder,
In particular, water as the inorganic binder, as the organic binder, a water-soluble binder, a thermoplastic binder is desirable, as the water-soluble binder, casein, glue, agar, gum arabic, tragane gum, alginic acid, carrageenin, pectin, Examples thereof include starch, carboxymethyl cellulose, methyl cellulose, hydroxymethyl cellulose, polyvinyl alcohol, polyethylene glycol and the like. Further, as the thermoplastic binder, ethylene-vinyl acetate resin,
Examples thereof include modified ethylene-vinyl acetate resin, low density polyethylene resin, polyester resin, polyamide resin and the like.

Examples of the above-mentioned polysaccharides include starches such as corn starch and cellulose derivatives such as cellulose carboxymethyl cellulose. Examples of the method for forming the molded body include a granulation method and a compression molding method.
Further, a known preservative can be appropriately added to the water quality improver.

[0010]

According to the water quality improving agent of the present invention, the component for neutralizing free chlorine in water and the adsorbent remove the free chlorine in tap water to remove the disinfecting odor. The adsorbent adsorbs magnesium ions and calcium ions in water. Further, since it is formed in a small shape, it is easy to carry and handle.
Polysaccharides are excipients at the time of molding, are absorbed from the stems of fresh flowers, and are supplied as nutrients. The water-soluble binder makes it possible to mold the raw material powder together with water, and retains the shape of the molded body until the heating and drying step. The thermoplastic binder is
After the raw material powder is molded, it is hardened by heating to harden the molded body so that the predetermined shape can be maintained.

[0011]

Embodiments Next, embodiments embodying the present invention will be described. The present invention is by no means limited to the following examples. [Example 1] This example is a small particulate water quality improving agent that can easily remove free chlorine in tap water in a container.

The chlorine-removing material of this example is calcium sulfite (CaSO ₃ ) as a component capable of supplying sulfite ions in water to neutralize free chlorine, zeolite and aluminum silicate as an adsorbent, and a binder. As water, polyvinyl alcohol (hereinafter simply referred to as PVA), and an ethylene-vinyl acetate resin (hereinafter simply referred to as EVA resin) which is a thermoplastic binder. Of these, a predetermined amount of calcium sulfite, zeolite, aluminum silicate and EVA resin (in powder form) is uniformly mixed to produce a raw material powder for granulation.

The blending amounts of the above components in the granulating raw material powder are shown below.

Next, the wet granulation apparatus is used to perform granulation molding while simultaneously or alternately performing the spraying operation and the drying operation of the aqueous solution of PVA for the raw material powders having the above-mentioned composition.
In this granulation molding, the PVA aqueous solution added to the raw material powder by a spraying operation acts as a glue to bond the blending components of the raw material powder, and the raw material powder is granulated and shaped in a substantially spherical shape in the granulating device. And form a molded body.

After that, when the raw material powder compacted granules (compacted compact) are about 10 mm, the compacted granules are taken out of the granulating apparatus and left standing in a predetermined drier, 110-130.
Heat dry in the range of ° C. In this drying temperature range,
EVA resin melts in the molding particles by heating and P
Each compounding component forming the shaped particles shaped by VA is brought into close contact with each other. After a further predetermined time has elapsed, the EVA resin is cooled and solidified by taking it out from the dryer and allowing it to cool, thereby hardening the molding particles to form a strong water quality improving agent.

The water quality improving agent thus formed has a smooth, substantially spherical shape on the surface of a diameter of about 10 mm and weighs about 1 g.
Met. Further, this water quality improving agent is hard and strong so that it will not be broken by vibration during carrying or transportation by an automobile or the like, and will sink to the bottom of the container when placed in water.

The effect of this water quality improving agent on the removal of free chlorine in tap water was confirmed by the following method. [Confirmation method of free chlorine removal] 200m from tap water
1 is put in a container, one free chlorine removing material is immediately added, and the mixture is stirred for 30 seconds with a stirring rod, and the residual free chlorine after stirring is tested by the orthotolidine colorimetric method.

When the effect of removing free chlorine was tested by this method, it was confirmed that free chlorine was completely removed from tap water after stirring. When the same test was repeated 50 times with the same water quality improver, the effect of rapid removal of free chlorine in tap water was confirmed in the 50th test as in the first test.

This water quality improver does not easily disintegrate in water, and the above-mentioned test is applied.
Even after going round, the diameter was small, but the shape was almost spherical. That is, it gradually peels off from the surface of the grain, and the component dissolves and flows out to further reduce the grain size. In addition,
Since the water treated with the present water quality improving agent does not become cloudy or colored, the supernatant can be directly used for drinking without filtration.

Example 2 Next, a water quality improving agent suitable for water for cut flowers will be described. The water quality improver of this example is composed of the following components.

Component Amount (% by weight) Calcium sulfite 77 EVA resin 8 Corn starch 10 Zeolite 5 (above, raw material powder for granulation) PVA (as an aqueous solution) Appropriate amount

Of the above components, calcium sulfite, corn starch, EVA resin, and zeolite are uniformly mixed in a predetermined amount to form a raw material powder for granulation, and the raw material powder for granulation is put into a granulating apparatus to obtain PVA. Drying while spraying an aqueous solution,
Granulate to a spherical shape with a diameter of about 10 mm. The cornstarch in this example is a excipient and also works as a nutrient supplement for plants in the water quality improving agent.

After granulation, take out from the apparatus and
Heat to 10 to 130 ° C to melt and soften the EVA resin,
The raw materials are closely attached within the grain. Then, the EVA resin is solidified by allowing to cool, and the particles are hardened.

The water quality improving agent for cut flowers thus formed is strong like the water quality improving agent of Example 1 and settles in water. Then, the removal effect of the free chlorine was tested by the same method as in Example 1, and thus the same chlorine removal effect as the initial one could be confirmed even in the 50 times repeated test as in Example 1. It was

Further, the effect of maintaining the freshness of cut flowers is remarkable because it can remove chlorine and contains cornstarch, which is also a nutritional supplement to cut flowers, and it is possible to maintain freshness about twice that of ordinary tap water. I was able to confirm.

When ceramic powder is used as an adsorbent in the water quality improving agents of Examples 1 and 2, water having a more suitable adsorbability, deodorizing effect, and more suitable for drinking or animals and plants can be obtained due to the antibacterial and deodorant effects of ceramics. Become. The same applies to the case of using ceramic granules together with the water quality improver. In the water quality improving agents of Examples 1 and 2, zeolite or the like is used as the adsorbent, but the effect as the free chlorine removing agent does not change even if the adsorbent is not mixed, It can be used as a water quality improver.

[0027]

According to the present invention, free chlorine contained in tap water or the like can be removed by a simple operation, and tap water can be obtained as water more suitable for drinking. Further, since it has a small shape that does not require a machine or the like and can be easily carried, it is possible to remove free chlorine at any place and at any time. INDUSTRIAL APPLICABILITY The present invention is a solid free chlorine removing material, and since the chlorine removing component is gradually released and can be used repeatedly, it is not necessary to add it every time the cut flowers are replaced with water. Further, according to the method of the present invention, in the molding step, a water-soluble binder is used to mold and retain a predetermined shape,
After that, the molded body is heated to melt the thermoplastic binder, and further cooled and solidified, so that the raw material powder containing the powder component such as calcium sulfite for neutralizing free chlorine can be molded firmly and firmly.

Continuation of the front page (51) Int.Cl. ⁶ Identification number Office reference number FI technical display area C02F 1/58 L

Claims (7)

[Claims] 1. A component for removing free chlorine existing in the form of hypochlorous acid and hypochlorite ion in chlorinated water, the component neutralizing free chlorine in water, and molding. A water quality improving agent, which is characterized by comprising a binder for use in forming a small shape. 2. A component for removing free chlorine existing in the form of hypochlorous acid and hypochlorite ion in chlorinated water, which component neutralizes free chlorine in water, and water. A water quality improving agent comprising a metal ion adsorbent dissolved in a sol and a binder for molding, which is molded into a small shape. 3. The water quality improver according to claim 1 or 2, wherein the component that neutralizes free chlorine in the water is calcium sulfite. 4. A method for removing free chlorine existing in the form of hypochlorous acid and hypochlorite ion in chlorinated water, which comprises calcium sulfite, a thermoplastic resin, a polysaccharide, a zeolite, A water quality improver comprising a polyvinyl alcohol and formed into small particles. 5. (1) A component for neutralizing free chlorine existing in the state of hypochlorous acid and hypochlorite ion in chlorinated water and an adsorbent of a metal ion dissolved in water and a thermoplastic bond. Mixing the materials into a raw material powder, (2) adding a water-soluble binder solution to the raw material powder to form a molded body, and (3) heating and drying the molded body to form the thermoplastic bond. A step of melting the material, and further cooling the molded body to solidify the melted thermoplastic binder, thereby curing the molded body, and a method for producing a water quality improving agent. 6. The water quality improving agent according to claim 5, wherein in the step (2), the raw material powder is dried while being sprayed with the water-soluble binder solution to obtain a granulated molded body. Manufacturing method. 7. In the step (1), 77% by weight of calcium sulfite as a component for neutralizing the free chlorine, 5% by weight of zeolite as the adsorbent, and ethylene-vinyl acetate resin 8 as the thermoplastic binder. % And further 10% by weight of corn starch are mixed to obtain a raw material powder, and in the step (2), an aqueous polyvinyl alcohol solution is used as the water-soluble binder solution. A method for producing the water quality improver described.