DE2042254A1 - Dispensing device for the chemical treatment of a liquid - Google Patents

Description

"AVcNT A Ν VA '.TE

dr. w. Schalk dipl.-ing. p. Wjrth · dipl.-ing.p. Dannenberc

DR. V. SCHMJED-KOWARZJK DR. P. WEINHOLD 2042254

6 FRANKFURT AM MAIN CR. ESCHENHEIMEK STR. 39

SK / SK

Fisons Limited

Harvest Hourse,

Felixstovij Suffolk, Fngland

Dispensing device for the chemical treatment of a liquid

The present invention relates to a device for slow Dispensing, particularly for dispensing chlorine donor materials into circulating water systems such as swimming pools.

In many water circulation systems, chemical treatment is necessary to sterilize or purify the water, or to make it more suitable for use under the conditions encountered in the system. Thus the water circulating through a swimming pool is treated with chlorine to kill the organisms present in it; it can also be treated with an algicide or an anti-mucus agent. Where the treatment is carried out using chemicals such as trichlorocyanuric acid or its salts, it has been proposed to incorporate the active chemical in a sustained release tablet which releases the chemical into the water over an extended period of time. However, the tablets for the delayed Fxvag & B ("sustained rBleasa tablets") are proportionally

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moderately expensive to manufacture and tear during shipping easily, making them unsuitable for the consumer. Since the material continues to be brought into solution by erosion of the tablet surface, the rate of dissolution of the material depends on the available surface area of the tablet, which decreases as the tablet rises eroded. The concentration of the material in the circulating water therefore "decreases with time. It would be desirable to increase the active chemical alone use and to be able to guarantee its dissolution over a longer period in order to achieve a practically uniform dissolution rate of the material to surrender over time; however, this has so far proven impossible.

In accordance with the present invention, a dispensing device has now been made for use in treatment of liquids with chemicals that are soluble in them, which reduces the rate of dissolution of the chemical in the liquid and therefore allows a delayed release of the chemical over a relatively long period of time into the liquid, without the chemical with an agent to be formulated as a "sustained release agent" needs. It is also possible to achieve a practically constant concentration of the dissolved chemical in the surrounding liquid flow. aside from that the dispensing device according to the invention, due to its construction, inherently adjusts the rate of dissolution of the chemical to the flow rate of the liquid around the device, or it adapts them to one another at.

According to the invention there is provided a dispensing device for use in the treatment of chemicals created by liquids, which consists of a container with a wall of a liquid-permeable material, which restricts the passage of liquid through the same, but does not prevent, the

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Container the liquid-soluble treatment chemical in solid form contains.

The liquid-permeable material for making the container wall is

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preferably suitable for transporting the liquid by capillary action /.

If the dispensing device according to the invention is placed in the liquid, so if liquid is likely to penetrate through the container wall and form a layer of a solution of the chemical against the wall. That dissolved in the solution Chemical diffuses through the wall into the liquid outside the container j further chemical inside the container dissolves into the solution in an attempt to persuade a saturated solution; more chemical diffuses through the wall, and this cycle repeats itself. Because the chemical is transported from the container into the liquid outside by diffusion or osmosis occurs, is the rate of release of the chemical from the container for a given flow rate of the liquid at the container by practically constant after creating the layer of saturated solution once inside the container, until practically all of the chemical is solved, provided that the surface of the liquid-permeable Wall or walls does not change significantly. It has been found that the dispensing devices according to the invention after introduction into the liquid are inflated, and that flexible and unreinforced containers, such as bags, during the entire life of the dispenser ane relatively take on stable, bloated form; therefore, the change in surface area over the life of such devices is small, and so is the rate of release of the chemical is practically uniform for all practical considerations at a given flow rate of the liquid.

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Therefore, if the solution of the chemical inside the container due to the Once diffusion from a concentrated solution into a very weak solution has taken place, the speed of dissolution depends on the speed with which the dissolved chemical is removed from the vicinity of the container, i.e. from the flow of the liquid around the container. The inventive The dispenser therefore releases a chemical at a rate that increases with any change in the flow rate of the surrounding environment Liquid varies so that a virtually uniform concentration of the chemical in the liquid is maintained.

The container for the chemical can be of any suitable shape, e.g. a tube or bag, which can be pliable or hard. The container can have an open end, optionally provided with a stopper and can emerge from the surface of the liquid during use, as is the case with a pipe immersed in a flow of water open end. It is clearly not necessary that all of the container walls be made of the liquid permeable material, and where this is the case the other walls should of course consist of a material impervious to the liquid. So the container can the In the form of a tube, the open ends of which are covered with a liquid-permeable Material are closed. However, it is preferred that the container be a completely closed bag or plate which is completely enclosed the liquid to be treated can be immersed.

The material used to manufacture part or all of the container walls must be Have the ability to slow liquid transport, e.g. by capillary action, so that the saturated solution of the chemical within the The container retained in the same and is not washed out of the same by the liquid flowing around the container. This is how it will be

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Chemical due to diffusion through a standing solution and not through Erosion solved by a stream of liquid. The material must therefore be included. relatively fine openings or pores can be provided which the liquid passage and allow diffusion of the contents of the container. The material can be porous, such as a woven or knitted polyester fabric, such as that used e.g. as "Terylene" is on the market. The material can also be a film that is provided with slots or has punched openings. Another suitable form of material is a woven or connected mesh of a Material with small openings. Optionally, a number of layers of material can be used to build the container wall.

The size of the pores or openings in the container wall and the wall thickness affect the rate at which the liquid penetrates through the container wall in the initial stages of container use. The smaller the The pore size and the thicker the wall, the longer it takes before the dispensing device according to the invention reaches its steady operating speed and the slower is the rate of release of the chemical. Also the The rate of flow of the liquid around the container affects the rate of release of the chemical, and by changing the flow rate of the liquid, pore or opening size and wall thickness different results can be achieved. The optimal values can easily be determined in any given case. Of course you have to the openings in the material be small enough to retain the chemical to be held in the container made from the material.

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As a general guideline, the size was found to be the largest
The dimension of the openings in the container walls should expediently not be more than about 1.5 mm, for example less than 0.3 mm. A particularly useful material for making a pouch container for use in a water flow of 91 l / min is a woven synthetic fabric of maximum
Openings less than 0.15 mm.

The container walls are made of a material that is below the
Influence of chemical or liquid does not decompose quickly. Suitable materials are extruded or molded ceramic substances and synthetic resins such as polyacrylamides, polyalkylenes, polyesters, phenol-formaldehyde resins, etc. The container can be equipped with reinforcing members, struts and
other accessories and means that correspond to the intended use.

The chemical used in the present invention can be any chemical for treatment
of liquids. So it can be used in treating water
Algicide, an anti-slime agent,

a water softener such as sodium hexameta-phosphate or a corrosion inhibitor. However, the present invention is particularly useful
for the sterilization of water using chlorine or other halogen-releasing compounds, such as chlorocyanuric acids, for example trichlorocyanuric acid
or dichlorocyanuric acid and its salts; Calcium hypochlorite; Bromchlorodimethylhydantoin; Dichlorodimethylhydantoin and dibromodimethylhydantoin.
Optionally, a mixture of chemicals can be present in the container, for example a mixture of a halogen donor and a control agent that improves the effectiveness of the halogen in the water, such as
for example cyanuric acid or a salt thereof. There can also be other ingredients

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be present according to the intended use of the container. Where intended to treat water in a water closet cistern is, therefore, can use perfumes, dyes, detergents and water softeners to be present.

The chemical in the container can be in any suitable form, e.g. as a solid block of chemical, as crystals or as finely divided Powder. Optionally, the chemical can be mixed with a binder to better make a solid block or with others, usually in treatment formulations ingredients used for liquids. For example, a block can contain the chemical as another soluble material, e.g. salt, which dissolves before the chemical and thus forms a porous mass of the chemical that dissolves more easily. The presence this soluble material can also be beneficial where the chemical easily solidifies upon wetting, such as trichlorocyanuric acid. In terms of The fact that the container regulates the rate at which the chemical dissolves in the container means that it is not necessary to use intien formulations for the dispensing device according to the invention a means for delayed » Share to be used. Since the release of the chemical continues from Depending on the liquid-permeable surface area of the container, that can Chemically within the container can have any particle size and even be in the form of tablets. By enclosing the tablets in the container you will the decreasing dissolution speed of the tablets overcome.

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The dispensing device according to the invention can be used to achieve the desired Rate of release of chemical be of any suitable size; possibly For example, several dispensing devices according to the invention can be used in one system, each device being the same or different Contains chemical. So can a number of containers on a carrier or Magazine mounted or contained in a mesh pouch, which can then be inserted into the Be warned liquid. The number of containers in use at any given time depends on the amount of chemical that should be dissolved in the liquid. So it is to maintain 3 parts per million chlorine in a system necessary to use a series of 12 containers, each 0.25 Parts per million chlorine can be maintained in this system.

It has been found useful that the container is slightly larger than that Minimum size necessary to accommodate the desired chemical load should be so that the chemical can expand freely after wetting and the formation of a solution layer on the inner walls of the container is possible is.

The dispensing containers of the present invention find wide use wherever desired is to handle fluids for long periods of time. So they can in chemical plants in the water to regulate the pH value or to prevent corrosion, for the inhibition of algae or sludge growth in cooling towers or Reservoirs, used to treat the water supply to boilers to prevent scale build-up. However, as noted above, the dispensers of the present invention are particularly useful in the chlorination of Water, e.g. in a swimming pool or in the cistern of a water closet. When used in this way, it is expedient that the dispensing device within the water circulation system for the bath, e.g. as a closed pack or bag of the chemical within the main water flow in the area of the Filters for the circulating water or in the area of the water inlet for

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a W.C. cistern is mounted. The dispensing devices according to the invention are also suitable for treating liquids other than water, e.g. when adding chlorine to organic halogenated hydrocarbon solvents, which are used in the wool treatment for shrink-proofing, i.e. e.g. Chlorine addition to perchlorethylene and / or tetrachlorethylene, which may contain non-ionic, surface-active agents and a small amount of water.

The present invention therefore provides in another embodiment preferably a system for circulating a liquid provided with the dispensing device according to the invention.

The present invention is also directed to a method of treatment a liquid, which is characterized in that one with the liquid-

(at least) speed brings a container into contact whose / one wall is made of a liquid-permeable Material is made that restricts but does not prevent liquid passage, the container containing a chemical contains solid form. The liquid to be treated is preferably agitated or circulating water, and of course the container can be in Relation to the liquid are moved instead of vice versa.

The following examples illustrate the present invention, οππβ them to restrict. Unless otherwise stated, all parts and percentages are quoted Parts by weight and wt .- ^.

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Example 1

A polyester fabric was simply made from yarn with 30 fibers per thread and at 80 '

Wsbt 2.5 threads per 2.5 cm in the warp and 60 threads per / cm in the weft. The fabric had weaving openings of 0.1 0.01 mm and was 0.15 mm thick. Became one of them Spreading cloth over the opening of an inverted glass of water, he held back the water and allowed only a slow moistening, which showed that the water was transported through the weaving openings by capillary action.

Bags were made from the above fabric by sealing three edges of 2 W 12.9 10.2 cm rectangles of the fabric; the bag was filled with 184.3 g of the trichloroisocyanuric acid sold as "Fichlor 91" and 14.2 g of the sodium dichloroisocyanurate sold as "Fichlor 60 (S)", whereupon the fourth edge was sealed to completely close the bag.

Then the bag was placed in the water surface skimmer of a swimming pool 109 000 1 of water at a temperature of 21-23 C. given. The water ran at about 91 1 / min through the skimmer to the filter. The bag was completely submerged in the stream of water and completely inflated in shape.

During the life of the bag, which lasted about 3 days, the usual Method measured the combined total chlorine residues; after an initial period during which the more soluble "Fichlor 60 (S)" was dissolved between 0.6-1.0 parts per mill, present when the bath in addition to the usual wind-blown dirt was used by 20 people a day. These values were maintained as this and a subsequent one The sachet was replaced with a fresh sachet after it was used up.

ORlGWAU 109810/1657.

The water in the bath was initially in the amount of 30 parts per mill Cyanuric acid was treated and remained at a constant pH of 7.6 over the 9 day test period. The above test shows the prolonged release effect of the bag and the uniform concentration of chlorine that the bag maintains in the water. This is in contrast to one in retail sustained release tablet available that is excessively high initially Releases amounts of chlorine that decrease with the consumption of the tablet.

To prove this, a bag identical to the above bag was used, but the contents of which consisted of 198.5 g of "Fichlor 91"; this bag and mim aajähMn Mi * two / -

The usual tablets of 8 cm in diameter and 3 cm in height, the 200 g of trichloroisocyanuric acid and containing a binder were placed in separate equal velocity streams of water at the same temperature. Following the usual thiosulfate titration procedure, the one present in each stream was determined Measured amount of chlorine; the results are given in Table 1. As a further test, 3 bags were hung in a similar stream of water; like out As can be seen from Table 1, the available chlorine from 3 bags was uniformly about 3 times as much as from one bag. In contrast, decreased the chlorine release from 2 half tablets from 2 thirds to less than half the amount released from 2 tablets, which shows that the amount of chlorine release depends on the surface area of the tablet.

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Table 1 Units of available chlorine

bag 3 bags Time; hours 12th 0.34 0.96 21st 0.28 1.10 28 37 0.26 0.80 45 60 0.25 0.94 69 78 0.52 0.92 81 103 126 130 150 0.30 0.77 165 178 0.28 0.72 240 0.44 1.10 357

3.28 2.18

2.80 1.65 2.37 1.36 2.18 1.07 1.87 0.81 1.32 0.46 1.11 0.47 0.77 _ *

0.36 - *

* = the available chlorine quantities were too small for an exact measurement

Another advantage of the bags according to the invention is that they after consumption of their contents swim to the surface, what a simple

and is an effective indicator of bag replacement.

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Example 2

Made from a plastic tube 5 cm long and 7.5 cm in diameter with an open At the end a dispenser was made. Each end was fitted with a snap-on cap with a hole cut into it that was marked with a Piece of the fabric used in Example 1 was covered. The holes for the upper and lower tube caps were 3.2 and 3.2 in diameter, respectively. 4.4 cm. The tube contained 170 grams of trichloroisocyanuric acid. When using instead of the pouch in Example 1, such a device delivers chlorine at a uniform, slightly slower rate over time from 7 days.

Example 3

2 As in Example 1, a single weave was made from a 110.22 g / m 2 Polyester fabric made from a 72 fiber 150 denier yarn. and 90 warp threads per 2.5 cm with 5 twists per 2.5 cm and 70 weft threads per 2.5 cm without a twist Bag made. The fabric had weave openings of less than 0.15 mm, was 0.22 mm thick and had an air permeability of 22 + 5 cuft./min/ft. at 2.5 cm excess water pressure. The pouch was 8.5 14.5 cm in size and contained 198.5 g of "Fichlor 91".

Two of these bags were placed in a plastic net, and one such Mesh was placed in each of 3 water inlet tubes 5.1 cm in diameter a swimming pool with a capacity of about 360,000 liters of water.

The water in the bath was through a filter at a total of about 243 l / min and a temperature of 17-20 ° C. is circulated to the inlet pipes.

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..μ - 2Ü42254

The swimming pool was used by an average of 120 people per day, and there was still a strong need for chlorine due to the blown, cut Grass. The bags had an average lifespan of 48 hours and were replaced with fresh ones over a total testing period of 1 week Bag replaced. The free chlorine present in the circulating water was measured at random intervals and was consistently between 1.25 and 2.0 Parts per million

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Claims (13)

Claims / 1 \ - Dispensing device for the chemical treatment of a liquid, consisting of *-' (at least) from a container with / one made of a liquid-permeable f.'material Wall that restricts but does not prevent the passage of liquid, the container containing a chemical in solid form. 2.- Dispensing device according to claim 1 _f, characterized in that the liquid-permeable material is one with a maximum pore or opening dimension of less than 1.5 mm. 3. - Dispensing device according to claim 1 and 2, characterized in that the Container made entirely from the liquid-permeable material Bag is. 4. Dispensing device according to claim 1 to 3, characterized in that the liquid permeable material is a woven synthetic fabric. 5. Dispensing device according to claim 1 to 4, characterized in that the Is chemically mixed with another soluble material. 6, - Dispensing device according to claim 1 to 5, characterized in that the Container content is in the form of one or more solid blocks. 7, - dispensing device according to claim 1 to 6, characterized in that the Chemically comprises a halogen donating compound. 8, - dispenser according to claim 7 _f, characterized in that the halogen dispenser is a cyanuric acid or a salt thereof, calcium hypachlorite, dibromodimethylhydentoin, dichlorodimethylhydantoin or bromochlorodimethylhydantoin. 109810/1657 9, - Dispensing device according to claim 1 to 6, characterized in that the chemical an algicide, an agent that prevents the formation of slime Water softening agent, a preparation for buffering the pH value and / or is a corrosion inhibitor. 10.- Method of treating a liquid with a chemical, thereby characterized in that a container is brought into contact with the liquid, the (at least) one wall of which is made of a liquid-permeable Material is made that restricts the fluid passage, however not prevented, the container containing a chemical in solid form. 11.- The method according to claim 10, characterized in that the chemical is a halogen emitter. 12 · - Method according to claim 10 and 11, characterized in that the to the liquid being treated is moving or circulating water. 13.- The method according to claim 12, characterized in that the to be treated Water circulates through a swimming pool. 14, - Method according to claim 10, characterized in that the liquid the water is in a water closet cistern. 15. Method according to claim 10 to IA, characterized in that the container is a dispenser according to claims 2-8. The patent attorney: 109810/1657