NL1017129C2 - Composition for increasing the oxygen content of water, especially for transporting fish, comprises a peroxy compound, a bicarbonate and a peroxide-neutralizing enzyme - Google Patents

Abstract

Composition for increasing the oxygen content of water comprises: (a) a peroxy compound selected from metal percarbonates, urea peroxide and polyvinylpyrrolidone/hydrogen peroxide adducts; (b) a metal bicarbonate; and (c) a peroxide-neutralizing enzyme.

Description

Composition for increasing the oxygen content in water

The present invention relates to a composition for increasing the oxygen content in water. In particular, the invention relates to a composition which can be used for increasing the oxygen content in water in which living organisms, such as fish, but also plants and the like, are kept and / or transported.

In practice, it is known to increase the oxygen content of water in which fish are kept by bubbling air therein. For this purpose a jet of water is injected into the water in ponds and similar public waters, for example under pressure. For smaller private ponds, an aeration pump is often used to increase the oxygen content in the water. A disadvantage of these methods is that extensive means are required to obtain the oxygen supply, such as the lines for supplying air, the pumping means and the energy supply, for example electricity supplies.

Specific problems are encountered in the transport of fish. In practice, the transport of fish takes place in sealed containers. These containers contain a certain amount of water into which the fish are introduced. Subsequently, the transport must take place as quickly as possible, since up to now it has not been possible to maintain the level of oxygen in a simple and economic manner. In practice, there is also a large mortality of fish.

The invention now has for its object to provide a composition which can be added to water in order to increase the oxygen content, without additional devices being necessary for this purpose. In particular, the invention has for its object to provide a composition with which the oxygen content of water in which fish is transported can be kept at a desired level. To this end, the invention provides 1017129 "2 a composition as mentioned in the preamble, which is characterized in that it comprises: a) an oxygen-forming compound selected from a percarbonate compound of the formula Mxx (CO 3) 2 · zH 2 O 2, 5 from urea · zH 2 O 2 or from polyvinylpyrrolidone - zH 2 O 2, b) a bicarbonate compound of the formula MIIyH (CO 3), and c) a peroxide neutralizing enzyme, wherein M1 and M11 are the same or different and consist independently of each other of a positively charged ion, in which x and y are dependent on the charge of M1 and M11 respectively and in which z is freely selected The composition according to the invention is particularly suitable for increasing the oxygen content in water in which living organisms, such as for instance fish, are located Because the enzyme to be used according to the invention breaks down any peroxide formed, no harmful substances are introduced into the water. moreover, it is not necessary to add extra resources to the water.

A very big advantage of the composition according to the invention is that it dissolves completely clear in water. No residue is left at all. Also with the present composition an iso-osmolar solution is obtained, which is also pH neutral and leaves no peroxides.

According to a preferred embodiment, the composition also comprises an acid, as a result of which the bicarbonate compound will disintegrate somewhat, compared to the case where no acid is present. This results in an effervescent tablet. The composition will then be able to release oxygen to the solution faster.

The acid particularly preferably consists of an organic acid or boric acid. These acids are non-toxic to aquatic life and have no harmful influence on the water system. In this case too, a completely clear solution is obtained.

According to a preferred embodiment, the positively charged ion is selected from a monovalent positively charged alkali metal ion, preferably sodium or potassium. In that case, x stands for 2 and y stands for 1.

According to a further preferred embodiment, the composition is in the form of a tablet. To that end, the composition may contain suitable means for forming a tablet. These agents are preferably biodegradable and well soluble in water.

According to a further preferred embodiment, the tablet is coated with an agent that protects the active substances of the composition against atmospheric moisture. For example, this can be a cellulose derivative.

According to another preferred embodiment, the composition is in the form of a powder in a container, for example a sachet or a capsule. The capsule is preferably water-soluble or water-degradable, and may therefore preferably be made from hydroxypropyl methylcellulose or gelatin. Optionally, the composition may be in the form of a capsule or tablet and packaged separately in a sachet, for example in the case of large tablets.

The invention further provides a method for increasing the oxygen content in water, wherein the composition according to the invention is used.

Finally, the invention relates to a method for transporting fish, comprising providing a container which contains water and placing the fish to be transported in the water, and which method is characterized by adding a composition to the water according to the invention. According to a preferred embodiment thereof, the oxygen content of the water is measured, and the composition according to the invention is added to the water when the oxygen content of the water is lower than a predetermined value. According to another embodiment, the composition is added to the water at predetermined times. Finally, before introducing fish into the solution, it is possible to add a certain amount of the composition, regardless of the current oxygen value. 1 Η 1 ^ ° 4

The invention will now be explained with reference to an example.

The composition used to increase the oxygen content of water can be present in many forms. According to a first embodiment, the composition is present in a unit dose form, for example a tablet or a sachet. The advantage of a unit dose form is that each unit dose contains a known amount of active agent, whereby it is easy to calculate to what extent the water to which the unit dose is added will be enriched with oxygen. Depending on the amount of water, it is then easy to determine how many unit doses must be added in order to obtain a certain increase in the oxygen content.

If the composition is used in the form of a tablet, it should preferably comprise one or more tablets 1 or more 1 psof substances. The adjuvants generally known in the art can be used for this purpose. are used. These auxiliaries should be non-reactive towards the active compounds, such as the percarbonate or bicarbonate compound, or with the organic acid. Nor may the excipients be harmful to the living organisms present in the water.

Because the active compounds are sensitive to water, it is preferred that the composition is not accessible to moisture. To this end, the tablets may be provided with a protective layer, which protects the active substances against moisture from the air, so-called atmospheric moisture, and which layer may, for example, consist of a cellulose derivative.

If the composition is stored in a container that can be opened regularly, it should preferably be provided with a hygroscopic means to capture atmospheric moisture.

According to another preferred embodiment, the composition according to the invention is provided in a unit dose form in separate containers. These containers can for example consist of so-called capsules or sachets. Preferably, the capsules are water-soluble or degradable. The capsules can be added to the water, the oxygen content of which must be increased. If the capsules are water-soluble or degradable, the composition comes into contact with the water almost immediately. The sachets must be easy to open to bring the active substances of the composition according to the invention into contact with water.

It is preferred that the tableting aids or the container material, such as the capsules, be biodegradable.

In particular, the composition according to the invention is suitable for increasing the oxygen content of water in which fish are transported. Namely, the present composition provides a very good and direct increase in the oxygen content of the water, without thereby releasing harmful substances of any kind. This is mainly caused by the enzyme, which immediately breaks down any possibly formed peroxide. This enzyme can for example be catalase. The enzyme catalase is an enzyme that is common in living plant and animal tissues. It breaks down peroxide into water and oxygen.

According to a preference, the enzyme is obtained from a non-animal source. In particular, a microbial source is very suitable, for example Corynebacterium or Aspergillus. As a result, specific animal diseases are not transmitted to the fish and the like, so that contamination of people, for example when consuming the fish and the like, is ultimately very effectively prevented.

When the composition contains no acid, a tablet which weighs about 5 grams in total, and has the following composition: 25% percarbonate compound, 5% bicarbonate compound, and a small amount (up to 0.1%) of enzyme, in about Dissolve for 50 - 60 minutes. The percentages are based on the total weight of the composition. The exact amounts can be varied widely without losing the advantages of the composition.

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However, if, for example, up to 10% acid is included in this composition, the dissolution time is only 10-30 minutes.

By adding a tablet of approximately 100 mg.5, the oxygen content in 0.25 liters of oxygen-free water will be increased to saturation, or 9 mg of dissolved oxygen.

According to the invention it is possible, prior to and during the transport of fish, to bring the oxygen content of the water to a sufficiently high level and to keep it respectively by adding the composition to the water. This can be done during transport, for example, at predetermined times. The interval at which the composition is added, for example in tablet form, will depend on the amount of fish, the amount of water, and the amount of the composition that is added in each case. The time interval can therefore be easily determined in advance. The addition can be made automatically, but it is also possible to add the composition manually.

According to another embodiment, it is possible to measure the oxygen content of the water, on the basis of which the composition is added. When the oxygen content falls below a predetermined value, a certain amount of the composition can be added, depending on the aforementioned factors. This results in a sufficient oxygen content in the water at all times. It has been found that this can reduce fish mortality to a minimum.

According to a preferred embodiment, the composition according to the invention comprises as active agents sodium percarbonate, sodium bicarbonate and citric acid or boric acid, as well as catalase. As adjuvants, the composition may include, for example, sodium sulfate, lactose or any other adjuvant known in the art.

The invention is not limited to the aforementioned embodiment. The invention is only limited by the appended claims.

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Claims (18)

Composition for increasing the oxygen content in water, characterized in that it comprises: a) an oxygen-forming compound selected from a percarbonate compound of the formula 2. Composition according to claim 1, characterized in that it also comprises an acid. Composition according to any one of the preceding claims, characterized in that the oxygen-forming compound is selected from a percarbonate compound of the formula Mix (CO 3) 2 -H 2 O 2. Composition according to any one of the preceding claims, characterized in that the acid is selected from an organic acid or boric acid. 5. A composition according to any one of the preceding claims, characterized in that M1 and M11 are selected from monovalent alkali metals, preferably from Na or K. MIX (CO 3) 2 * zH 2 O 2, from urea · ZH 2 O 2 or from polyvinylpyrrolidone · zH 2 O 2; b) a bicarbonate compound of the formula MIIyH (CO 3); and c) a peroxide neutralizing enzyme, wherein M1 and M11 are the same or different and consist independently of each other of a positively charged ion, wherein x and y are dependent on the charge of M1 and M11, respectively, and wherein z is freely selected. Composition according to any one of the preceding claims, characterized in that the organic acid is citric acid. 7. Composition as claimed in any of the foregoing claims, characterized in that it is in the form of a tablet and comprises suitable carrier means. 7! Composition according to claim 7, characterized in that it comprises biodegradable carriers or carriers of biological origin. 9. Composition according to claim 7 or 8, characterized in that it is in the form of a tablet. <1 .0. .λ * ".. ·· Composition according to claim 9, characterized in that the tablet is coated with an atmospheric moisture protecting agent, for example a cellulose derivative. Composition according to any one of claims 1 to 6, characterized in that it is in the form of a powder, preferably in a container. 11 U (i i _ ^ Λ A composition according to claim 11, characterized in that it comprises biodegradable aids. Composition according to claim 11 or 12, characterized in that it comprises a water-soluble or water-degradable container. 14. A method for increasing the oxygen content in water, characterized in that it comprises adding to the water a composition according to any one of the preceding claims. Method according to claim 14, characterized in that the composition is added in the form of a tablet. 16. Method for transporting fish, comprising providing a container containing water, and placing the fish to be transported in the water, characterized by adding a composition according to any one of claims 1 to the water 13. 17. Method according to claim 16, characterized by measuring the oxygen content of the water, and adding the composition to the water when the oxygen content of the water is lower than a predetermined value. 18. Method according to claim 16, characterized by adding the composition to the water at predetermined times. 1017129 "COOPERATION TREATY (PCT) REPORT ON NEWNESS RESEARCH OF INTERNATIONAL TYPE IDENTIFICATION OF THE NATIONAL APPLICATION FEATURE OF THE APPLICANT OR OF THE AUTHORIZED NL 44693-MP / co Dutch application no. Date of filing 1017129 16 January 2001 Prior name invoked. of the request for an investigation of an international type by the International Investigation Authority (ISA) granted the request for an investigation of an international type No. SN 36605 EN I. CLASSIFICATION OF THE SUBJECT (if different classifications are applied, specify identification symbols) According to the international classification (fPC) lnt.CI.7: C01B13 / 02 A01K63 / 04 C02F1 / 72 II TECHNICAL FIELDS EXAMINED Minimum Documentation Classification System CJassification Symbols lnt.CI.7: C01B A01K C02F Documentation examined other than minimum documentation, to the extent that such documents are in the on areas surveyed are included 1 □ NO RESEARCH POSSIBLE FOR CERTAIN CONCLUSIONS (comments on supplement sheet) / fj * IV. Q LACK OF UNIT OF INVENTION (comments on supplement sheet) Form PCT / 1SA 201 a (11/2000)