TH18044A - "Mixtures and methods for use in aquaculture" - Google Patents

Abstract

Controlled release fertilizer Which releases fertilizers at the rate obtained Control over a long period of time is adopted in the method of processing. Aquaculture In this way, nutrients are released efficiently. And efficiency into In closed water ecosystems such as ponds, lakes, water bodies and other aquatic environments For a time To increase the growth of the phytoplankton algae population And in this way it is sent Can enhance the aquatic animal population

Claims (4)

1. Methods for promoting aquatic animal populations in closed water ecosystems. Which consists of using a mixture that It is a fertilizer that regulates regulated release of nutrients into the ecosystem. Fertilizers that release nutrients Such control arises from the particle core material. And substances that release nutrients react with Or coating on the said core material The core material can be selected from the group that includes Sources of phosphorus, nitrogen and potassium. And a mixture of these sources And mixtures that are fertilizers that release nutrients that are Such controls have been formulated. To provide the nutrient release of the core material from the Slowly release sufficient amounts of such nutrients into the closed water ecosystem. In the sole use of such regulated nutrient-releasing fertilizers to promote the uniform growth of algae, phytoplankton in such ecosystems. Without cause There is a constant growth of phytoplankton in this ecosystem. Without cause The dense growth of phytoplankton algae. But the population of aquatic animals in the aquatic ecosystem Such a closed system It is still preserved beyond the length of time it has been extended. 2. Method of claim 1 whereby the mixture It is a product of the urea-formaldehyde reaction. 3. Method of claim 2 whereby the product of such urea-formaldehyde reaction Selectable from groups containing urea, form, methylene, urea and mixtures MDU-DMTU. 4. Method of claim 1 where the mixture is selected from the isobutene-containing group. Lene diurea Crotonillidine, Diurea, Oxamid, Mellanine, Magnesium, Ammonium Phosphate, Magnesium, Potaxium-Phosphate, Guanylurea, and their mixtures. 5. Method of claim 1, whereby the substances that release such nutrients are polymer mixtures. 6. Method of claim 5 whereby such polymer mixtures Choose from polyvinyl-chloride, polyvinylidene chloride, polyethylene, polypropylene. Polyethylene terephthalate, polyurethane, poly-amide copolymer of dicyclopentadiene with vegetable oil. The copolymer mixture of vinyldikene chloride-moromers is mainly. With ethylene unsaturated comonomer Elastomers salts added to sulfonates And of these mixtures 7. Method of claim 5 where such polymer mixtures are Dicyclo Pentadi-Eco-polymers. That is formed by the reaction between that, vegetable oil and cyclic diene. 8. Method of claim 1, whereby the substances that release such nutrients are sulfur-based coatings. 9. Method of claim 8 whereby a polymore-type coating is applied over such a sulfur-containing coating. 1 0. Method of claim 1 where the oxidizing agent is combined with the fertilizing compound that effectively releases nutrients. Control it Such oxidizing materials can be chosen from a group containing peroxides, nitrates and of-mixtures of them. 1 1. Method of claim 10 whereby such oxidizing agents can be selected from the group consisting of Calcium peroxide, sodium peroxide Potassium peroxide, calcium nitrate Sodium Nitrate, Potassium-Nitrate, Ammonium Nitrate Magnesium nitrate And mixtures of these substances 1 2. Method of claim 1 where the nutrient content of the compound is combined with the nutrient-releasing fertilizer mixtures are such regulated. Such micronutrients can be selected from a group that includes iron, zinc, boron, calcium, magnesium, sulfur, manganese, copper, molybdenum, cobalt, and their mixtures. 1 3. Method of claim 12, where such micronutrients are chelates or salts of choice from groups containing nitrates, phosphates, oxides, chlorides, borate, molybdate, sulfate and their mixtures. . 1 4. Method of claim 1 whereby the nutrients released from the core material are coated at approximately 0.5 to 35 percent (by weight).