JP4005155B2 - Coated granular fertilizer - Google Patents

Description

【００６２】
［実施例２］
図１に示すような被覆層形成装置を使用して、粒状肥料の供給ライン３から平均粒径２．３ｍｍの粒状尿素１ｋｇを投入し、６０℃の熱風（流動層用空気）を流動層用気体の供給ライン８及びそのノズル９から送風して粒状尿素を流動化すると共に８０℃に加温し、一方、参考例２で調製した被膜層形成液（噴霧液ｂ）を供給ライン５、６経由にて供給速度６０ｇ／分で供給し、その噴霧液ｂを窒素ガスと共に噴霧ノズル７から流動化している粒状尿素に向かって噴霧して、粒状尿素を被覆してその噴霧液ｂを付着させ、一部乾燥した。
【００６３】
前記操作に連続して、参考例１で調製した噴霧液ａ（供給速度約３０ｇ／分）と参考例２で調製した噴霧液ｂ（供給速度約３０ｇ／分）とを供給ライン４及び５経由でそれぞれ供給し、供給ライン６で両液を混合し、その混合液を窒素ガスと共に噴霧ノズル７から流動化している粒状尿素に向かって噴霧して、約５５℃の被覆温度で粒状尿素に混合液を付着させ、一部乾燥した。
【００６４】
前記操作に連続して、参考例２で調製した被膜層形成液（噴霧液ｂ）を供給ライン５、６経由にて供給速度６０ｇ／分で供給し、その噴霧液ｂを窒素ガスと共に噴霧ノズル７から流動化している粒状尿素に向かって噴霧して、粒状尿素にその噴霧液ｂを付着させ、十分に乾燥して、単層被覆層（最表面層部分の厚さ：約４０μｍ、中央部分の厚さ：約２０μｍ、最内層部分の厚さ：約１０μｍ、及び単層被覆層全体の厚さ：約７０μｍ、並びに単層被覆層の被覆率：約７重量％）を有する、図３に示すような単層被覆粒状尿素Ｂを製造した。
【００６５】
得られた被覆粒状肥料Ｂは、尿素１００重量部当たり、単層被覆層が７重量部であり、また、単層被覆層内において、アルカリ物質とアルカリ水可溶性高分子物質の重量比（消石灰／ＳＭＡレジン）は、５０／１００であった。
また、実施例２で得た単層被覆粒状肥料Ｂを中央部で切断して尿素成分をすべて溶出させて、単層被覆層を電子顕微鏡写真で撮影した結果、その単層被覆層の断面には、最表面層部分と中央部分と最内層部分の樹脂層の境界面を判別できる状態でなく、消石灰がほぼ一定の厚さの中央部分に均一に分散して偏在している状態が確認できた。
【００６６】
得られた被覆粒状肥料Ｂについて、尿素の溶出試験法に準じて、そのまま第１の溶出試験を行った。その結果を表２に示す。
得られた被覆粒状肥料Ｂを５０℃で３６日間、恒温槽に保管した後、被覆粒状肥料（前記の恒温槽での保管は２年間の虐待試験を受けたことに相当する）を取り出して前述と同様に第２の溶出試験を行って、溶出率を測定した。その結果を表２に示す。
それらの溶出試験によって得られた各溶出曲線を、図５に示す。
第２の溶出試験の結果は、第１の溶出試験の結果と特性が異なることが見られなかった。
【００６７】
【表２】

【００６８】
なお、実施例１及び２の粒状尿素の被覆操作において、流動層形成用気体は流動層形成装置１の下部のノズル９から約８０℃に維持されて一定の供給割合で連続して供給され粒状尿素を流動層を維持し、一方、流動層の形成に使用された後の気体は溶媒と共に排ガスとして流動層形成装置の上部の排ガス出口温度を５５〜６０℃に維持された状態で排出され、更に、排ガスを冷却器１０で常温付近にまで冷却して溶媒を液化し分離回収した後、大気中に排出した。
【００６９】
【発明の効果】
本発明の被覆粒状肥料は、一回の連続被覆操作で工業的に製造することが可能で、公知の二層被覆層を有する被覆粒状肥料と異なり、単層被覆層内に樹脂の境界面における空隙部分（隙間）を全く有しておらず、被覆層全体が一体不可分の連続被覆層からなる単層被覆層として肥料粒子の周囲に形成されていて、必要なアルカリ物質及びアルカリ水可溶性高分子物質が内層部分に偏在しているので、樹脂の境界面の空隙によって被覆層が剥離したり、肥料成分の溶出が早期起こったりすることが無く、施肥効果を十分に得ることができる品質が極めて安定している被覆粒状肥料である。
そして、前記の被覆粒状肥料の製法によれば、前記の単層被覆粒状肥料を、その単層被覆層全体の厚さのバラツキもなく、品質が十分に安定している優れた被覆粒状肥料を工業的に容易に製造することができる。
【図面の簡単な説明】
【図１】本発明の被覆粒状肥料の製造に有利に利用できる流動層形成装置（被覆装置）を閉めす。
【図２】本発明の被覆粒状肥料の構造の例を示す図である。
【図３】本発明の被覆粒状肥料の構造の他の例を示す図である。
【図４】実施例１で得た被覆粒状肥料Ａの溶出試験による溶出曲線である。
【図５】実施例２で得た被覆粒状肥料Ｂの溶出試験による溶出曲線である。
【符号の説明】
１ 流動層形成装置
２ 粒状肥料のホッパー
３ 粒状肥料供給ライン
４ 噴霧液ａの供給ライン
５ 噴霧液ｂの供給ライン
６ 噴霧液供給ライン
７ 噴霧ノズル
８ 流動層用気体の供給ライン
９ 流動層用気体の供給ノズル
１０ 排ガスクーラー
１１ 排ガスライン
１２ 多孔板
１３ 被覆肥料の抜き出しライン
２０ 尿素粒子
２１ 単層被覆層
２２ 内層部分
２３ 表面層部分[0001]
BACKGROUND OF THE INVENTION
The present invention is capable of adjusting the elution start time of the fertilizer component in the water-containing medium or water, in particular, it can be adjusted so that the fertilizer component starts to elute after a relatively long period from the time of fertilization. The present invention relates to a coated granular fertilizer having good storage stability and a method for producing the same.
[0002]
[Prior art]
In recent years, agriculture in Japan has become increasingly vulnerable to agricultural labor due to the aging of farmers and the depopulation of rural areas. Therefore, as one of the labor-saving of farm work, mechanization of fertilizer application and the use of slow-release fertilizer are attempted.
[0003]
For example, as a slow-acting fertilizer, a fertilizer coated with a coating material mainly composed of a mixture of an α-olefin resin and an ethylene-vinyl acetate copolymer (refer to Japanese Patent Publication No. 60-21951), an olefin resin Fertilizer (see Japanese Examined Patent Publication No. 60-37074) coated with a coating material containing a mixture of styrene and ethylene-vinyl acetate copolymer as a main component and further containing a surfactant, and a polyolefin polymer as a binder And a coated fertilizer coated with a coating containing 50 to 80% by weight of water-insoluble or hardly water-soluble inorganic powder (see Japanese Patent Publication No. 60-3040), an olefin polymer, a vinylidene chloride polymer, A granular fertilizer coated with a mixture of film materials such as diene polymers, waxes, petroleum resins, and other agricultural materials such as fertilizers, soil improvers, fertilizers, and agricultural chemicals. Such as agricultural materials coated granular fertilizer is coated with a film material (see JP-A 3-60486) have been proposed.
[0004]
These coated fertilizers all use pinholes and cracks resulting from coating imperfections, or pinholes made intentionally by adding various additives, or the water permeability or moisture permeability of the coating. In this type, the fertilizer component is gradually adjusted to be eluted, and the fertilizer component dissolution rate is controlled.
[0005]
By the way, in the growth process of a plant, the fertilizer component and its quantity which are required differ with time. For example, in paddy rice cultivation, it is necessary to apply fertilizer 4 to 5 times according to the growth of rice from the original fertilizer to the hot manure. That is, at each specific stage of the growth process of each plant, the necessary amount of fertilizer is applied at that time, the fertilizer is not given after that time has passed, and the same is done at another time thereafter. It is desirable to apply only the necessary amount of fertilizer components.
[0006]
However, the conventional coated fertilizer as described above is a type in which the elution rate of the fertilizer component is controlled, and the elution rate of the fertilizer component is merely changed. When all the fertilizer is applied as fertilizer, for example, the nitrogen component gradually elutes even when the nitrogen component is not needed, and therefore, it is insufficient when the nitrogen component is required in large quantities, so additional fertilization is necessary. Therefore, when conventional coated fertilizer is used, the method of applying all fertilizers necessary for plant growth only once as the original fertilizer is the appropriate amount of appropriate fertilizer components at each time suitable for plant growth. Cannot be applied sequentially.
[0007]
Recently, as a coated fertilizer for solving the above-mentioned problems, a first coating layer (inner layer) containing an alkaline substance is formed on the surface of fertilizer particles, and then the surface of the first coating layer is coated with an olefin-based heavy fertilizer. A coated granular fertilizer having a two-layer coating layer in which a second coating layer (outer layer) made of a mixture of a polymer and an alkaline water-soluble polymer substance such as a maleic anhydride-based copolymer has been proposed (Japanese Patent Laid-Open No. Hei 4). -See 202078).
Also, a first coating layer (inner layer) containing an alkali substance is formed on the surface of the granular carrier containing the agrochemical component, and a mixture of the condensation polymer and the alkaline water-soluble polymer substance is formed on the surface of the first coating layer. A coated granular pesticide having a two-layered coating layer in which a second coating layer (outer layer) made of is formed has also been proposed (Japanese Patent Laid-Open No. 6-72805).
[0008]
[Problems to be solved by the invention]
The former coated granular fertilizer having a two-layer coating layer using an alkaline water-soluble polymer substance and an alkaline substance obtains a coated granular fertilizer with stable quality because the coating operation is performed twice in the production. And the obtained coated granular fertilizer has an inner layer and an outer layer, and it is difficult to adjust the thickness of the entire coating layer. And the gap between the layers is likely to be generated, and moisture can enter the gap (gap) to accelerate the elution of fertilizer components, and the product can be separated between the layers. It was difficult to obtain a coated granular fertilizer with sufficiently stable quality.
[0009]
Moreover, the coated granular fertilizer having the latter two-layer coating layer covers the individual coated granular fertilizer products so that the above voids (gap) are not substantially formed, or the generation of voids (gap). It is extremely difficult to inspect and remove the coated granular fertilizer, which is a problem in quality control when industrial production is performed.
[0010]
[Means for Solving the Problems]
The inventor of the present invention has a continuous covering layer structure (also referred to as a single layer covering structure) in which the voids (gap) are not substantially formed between the layers of the multi-layer structure, and an alkali is contained inside. The present invention was completed as a result of intensive studies on a method for industrially producing a coated granular fertilizer having a coating layer in which an inorganic material such as a substance is unevenly distributed in a part in the thickness direction.
[0011]
In the present invention, the fertilizer particles are Alkaline water containing an alkali substance selected from the group consisting of calcium hydroxide, sodium carbonate and sodium silicate, and water containing no alkali substance A surface layer made of a polymer substance insoluble in any of the above And free of the alkaline substance Slightly soluble in water and low swelling The Polymeric material soluble in alkaline water The Alkaline water In Insoluble polymeric substances, as well as Alkaline substance selected from the group consisting of calcium hydroxide, sodium carbonate and sodium silicate Three The coated granular fertilizer is characterized in that an inner layer containing a component as a main component is coated with a coating layer (hereinafter sometimes referred to as a single coating layer) that is inseparably continuous.
[0012]
That is, the single-layer coating layer of the coated granular fertilizer of the present invention is particularly suitable for an inner layer portion (referring to a portion close to the granular fertilizer surface) having an appropriate thickness of the alkaline water-soluble polymer substance and the alkaline substance (powder). The outermost surface layer portion is formed of a polymer substance that is unevenly distributed and does not include both, and the outermost surface layer part and the inner layer part are inseparable from the continuous covering layer by the polymer substance used as the coating material. It is characterized by being in the state of a single-layer coating layer in which a clear boundary surface (boundary line) between the outermost surface layer portion and the inner layer portion does not substantially exist.
As an example of a specific configuration of the coated granular fertilizer of the present invention, in addition to the configuration in which the alkaline substance is localized in the region in contact with the fertilizer particles in the coating layer, A structure in which the substance is localized in a layered manner in a region sandwiched between the region on the side of the coating layer that contacts the fertilizer particles and the outer surface region, and the region in which the alkaline substance is in contact with the fertilizer particles in the coating layer A configuration in which the layer is localized in a region sandwiched between the outer surface region and the outer surface region does not contain a polymer substance soluble in alkaline water can be given.
[0013]
The fertilizer particles used for the coated granular fertilizer of the present invention may be any conventionally known fertilizer particles, but the configuration of the coating layer of the present invention is left in the air at a temperature near room temperature. This is particularly advantageous for fertilizer particles which have a very low or almost no ammonia release rate. However, when using ammonia-releasing fertilizer particles, the single-layer coating layer of the present invention is a region where the alkaline substance is sandwiched between the region on the side in contact with the fertilizer particles in the coating layer and the outer surface region. The layer is localized in a layered manner, and the alkaline substance is layered in a region sandwiched between the region on the side of the coating layer that contacts the fertilizer particles and the outer surface region, and in the outer surface region. May be any one that does not contain a polymer substance soluble in alkaline water. When coating ammonia-releasing fertilizer particles, a polymer substance soluble in alkaline water alone or other polymer substance (eg, water) is used between the coating layer of the present invention and the fertilizer particles. In addition, a shielding layer made of a mixture with a high-molecular substance that does not dissolve in alkaline water can also be provided.
Specific examples of fertilizer particles used in the production of the coated granular fertilizer of the present invention include nitrogenous fertilizers such as urea, sodium nitrate, aldehyde condensed urea, isobutyraldehyde condensed urea, molten fertilizer, calcined phosphorous fertilizer, processed phosphoric fertilizer Phosphoric fertilizers such as mixed phosphate fertilizer and corrosive acid fertilizer, potassium fertilizer such as potassium sulfate, potassium chloride, potassium potassium sulfate, potassium carbonate, potassium silicate fertilizer such as potassium phosphate, potassium phosphate, potassium nitrate, etc. Examples thereof include chemical fertilizers, organic fertilizers, and fertilizer particles obtained by granulating a mixture of these fertilizers by a method known per se. The particle diameter of these fertilizer particles is not particularly limited, but generally 1 to 4 mm is preferable.
[0014]
The alkaline water-soluble polymer substance used in the present invention includes an alkaline water-soluble rosin modified product and a co-polymerization of an unsaturated compound having a carbon-carbon unsaturated group (such as an ethylene group) and an unsaturated carboxylic acid. It is preferably at least one alkaline water-soluble polymer substance selected from the group consisting of a coalescence or a derivative thereof.
[0015]
As said unsaturated compound, an aliphatic unsaturated compound or a styrene-type monomer etc. can be mentioned suitably, As an example of the aliphatic unsaturated compound, ethylene, propylene, n-butene, isobutylene, etc. Examples of the styrenic monomer include styrene or styrene having a substituent such as alkyl, halogen, or nitro group on the benzene ring, and particularly isobutylene and styrene. preferable.
[0016]
The copolymer of an unsaturated compound having an unsaturated group having carbon-carbon and an unsaturated carboxylic acid or a derivative thereof includes 30 to 70 mol%, particularly 40 to 60 mol% of an ethylenically unsaturated compound, and an unsaturated carboxylic acid. It is preferable that it is a copolymer with 70-30 mol% of acid, especially 60-40 mol%, or its derivative (s). The alkaline water-soluble polymer substance has a part of other monomer components (butadiene, isoprene, etc.) in place of both monomer components (preferably 10 mol% or less, particularly preferably based on all monomer components). May be used in a proportion of 5 mol% or less).
[0017]
The alkaline water-soluble polymer substance preferably has a solubility in ammonia water (ammonia concentration: 8% by weight) of 5 to 80% by weight, particularly about 10 to 60% by weight, and is easy for water (neutral). That does not dissolve in water or hardly swells even when in contact with water, prevents early elution of fertilizer components from the inside of the coated granular fertilizer and ensures long-term storage stability Preferred above.
[0018]
Examples of the derivatives of the respective copolymers include those in which the carboxylic acid (or dicarboxylic acid) in the copolymer forms a salt such as an alkali metal, or the carboxylic acid (or dicarboxylic acid) is partially or partially formed by a lower alcohol. Those that are all esterified, those that are partially amidated or maleimidized with an amine compound, or those in which the dicarboxylic acid in the copolymer is dehydrated are included.
Examples of the unsaturated carboxylic acid include carboxylic acid compounds having a carbon-carbon unsaturated group such as acrylic acid, methacrylic acid, maleic acid, and maleic anhydride, and in particular, maleic acid and maleic anhydride. Is preferred.
[0019]
As the alkaline water-soluble rosin resin, rosin resin (containing 80-97% resin acid) obtained by steam distillation of raw pine ani is esterified with aliphatic alcohol or unsaturated alcohol. The rosin resin esterified product or a copolymer of an unsaturated carboxylic acid compound such as carboxylic anhydride and acrylic acid and an olefin (for example, ethylene, propylene, isobutylene, etc.) was partially modified with the rosin resin. Rosin-modified resins (for example, rosin-modified maleic acid-based resins), especially rosin-modified maleic acid-based resins in which a carboxylic anhydride copolymer has been modified with a rosin resin (product of “Marquide” from Arakawa Chemical Industries, Ltd.) Sold by name) is preferred.
[0020]
In the present invention, as the alkaline water-soluble polymer substance, an alkaline water-soluble rosin-modified maleic acid resin, a copolymer of styrene and maleic anhydride, or a derivative thereof is particularly preferable.
[0021]
In the coating layer of the coated granular fertilizer of the present invention, the blending amount (blending ratio) of the alkaline water-soluble polymer substance contained in the inner layer portion is the polymer material (alkaline water-soluble polymer substance and water in the inner layer portion). And 0.1 to 50% by weight, particularly 0.2 to 30% by weight, and further 0.5 to 20% by weight based on the total amount of the polymer and the high-molecular substance not dissolved in alkaline water). Preferably there is.
In the present invention, if the amount of the alkaline water-soluble polymer substance is too small, the period until the fertilizer component elutes from the coated granular fertilizer tends to be too long, and the time when the fertilizer component is required tends to be lost. Moreover, when the said compounding quantity increases too much, there exists a tendency for the elution of a fertilizer component to become too early.
[0022]
Examples of polymer materials that are used in combination with the above-mentioned alkaline water-soluble polymer materials and are not soluble in water and alkaline water include olefin polymers, copolymers containing olefins, diene polymers, waxes, petroleum resins , Natural resins, oils and fats, and modified products thereof can be preferably mentioned. In the present invention, the polymer substance that does not dissolve in water and alkaline water is at least 3 even if the polymer substance is formed into a film and left in contact with water or alkaline water (such as the ammonia water). A month, especially 6 months, means a polymer substance that does not undergo a shape change such as collapse.
[0023]
Examples of the olefin polymer include polyethylene, polypropylene, ethylene-propylene copolymer, polybutene, butene-ethylene copolymer, butene-propylene copolymer, polystyrene, and the like. Can include ethylene-vinyl acetate copolymer, ethylene-ethyl acrylate copolymer, ethylene-ethyl methacrylate copolymer, propylene-ethyl acrylate copolymer, and diene series Examples of the polymer include polybutadiene, polyisoprene, polychloroprene, butadiene-styrene copolymer, EPDM polymer, and isoprene-styrene copolymer.
[0024]
As the waxes, waxes having a melting point of 50 to 100 ° C., particularly about 60 to 90 ° C. are preferable, and examples thereof include beeswax, wood wax, paraffin, crystallin wax, and oxidized wax. Examples of the resin include natural rubber and rosin. Further, examples of the oil and fat and modified products thereof include hardened oil, solid fatty acid, and metal salts thereof.
[0025]
In the present invention, the alkaline substance to be blended in the coating layer may be any inorganic or organic compound that exhibits alkalinity in an aqueous solution. In particular, the alkaline substance is solid at room temperature (the average particle size of the solid alkaline substance is 0.00). 5-10 [mu] m, especially about 0.8-5 [mu] m powder is preferred), and alkaline substances that react gently with water are preferred, for example, alkaline earth metal carbonates, hydroxides or oxidations And inorganic compounds such as alkali metal carbonates, phosphates or silicates, organic compounds such as alkali metal organic acid salts, and alkylamides.
Specific examples of the alkaline substance include calcium carbonate, calcium oxide, calcium hydroxide, magnesium carbonate, magnesium oxide, magnesium hydroxide, sodium carbonate, potassium carbonate, tripotassium phosphate, sodium silicate, sodium acetate, and the like. Can be listed.
[0026]
In the coated granular fertilizer of the present invention, the blending amount (blending ratio) of the alkaline water-soluble polymer substance contained in the coating layer is the polymer material (alkaline water-soluble polymer substance, water and alkaline water) in the coating layer. 0.1 to 50% by weight, in particular 0.2 to 30% by weight, and further 0.5 to 20% by weight, based on the total amount of polymer substances not soluble in any of the above It is preferable that
[0027]
In the present invention, if the blending amount of the alkaline water-soluble polymer substance is too small, the period until the fertilizer component elutes from the coated granular fertilizer may become too long, and the blending amount becomes too large. And fertilizer components may be eluted too quickly.
[0028]
In the coated granular fertilizer of the present invention, the use amount (blending amount) of the alkaline substance contained in the coating layer is 0.05 to 5 times the blending amount of the alkaline water-soluble polymer substance contained in the coating layer. The amount is preferably 0.1 to 3 times by weight, more preferably 0.1 to 1 times by weight.
In the present invention, when the blending amount of the alkaline substance with respect to the blending quantity of the alkaline water-soluble polymer substance decreases, the alkaline water-soluble polymer substance is not sufficiently dissolved, so that the elution start time of the fertilizer becomes too late, or the fertilizer There is a tendency that the elution rate of the fertilizer after starting elution becomes too small.
[0029]
Moreover, when the blending amount (blending ratio) of the alkaline substance relative to the blending amount of the alkaline water soluble polymer substance increases, the elution rate of the fertilizer after the start of the fertilizer elution increases. The elution rate is not increased, and the content of fertilizer components in the coated granular fertilizer is relatively lowered.
[0030]
In the coated granular fertilizer of the present invention, the coating amount of the entire coating layer is 0.5 to 30% by weight, particularly 1 to 20% by weight, more preferably about 2 to 15% by weight with respect to each coated granular fertilizer ( It is preferable that the amount is a coverage ratio. In the coated granular fertilizer of the present invention, it is preferable that the entire coating layer has a thickness of about 30 to 300 μm, particularly about 50 to 150 μm.
[0031]
In the coated granular fertilizer of the present invention, for example, as shown in FIG. 2, the outermost surface layer portion 23 of the single-layer coating layer 21 covering the fertilizer particles (eg, urea particles) 20 is substantially water and It is formed of a polymer substance that is not soluble in any of alkaline water, and all or part of the inner layer portion 22 of the coating layer (in the cross section of the coated granular fertilizer, in the thickness direction of the inner layer portion 22 of the single layer coating layer 21) The whole or a part of the thickness direction) is formed of a coating material of an alkaline water-soluble polymeric substance and an alkaline substance in addition to the polymeric substance that does not dissolve in any of the above water and alkaline water, Furthermore, the coating layer 21 is a continuous coating layer (single layer coating layer) in which the outermost surface layer portion 23 and the inner layer portion 22 are inseparable.
[0032]
The coated granular fertilizer of the present invention is a single layer in which a continuous coating layer (the coating layer does not have a multilayer coating structure and does not have a gap between layers or a gap between layers) is inseparable. Since the outermost surface layer portion 23 is formed of a polymer material that does not dissolve in water or alkaline water, moisture in the outside air or a basic gas such as ammonia gas is The inner layer portion is not easily contacted with the alkaline water-soluble polymeric substance and the alkaline substance in a short time, and both are not easily dissolved in a short time, and the components of the granular fertilizer are eluted in a short period of time. Can be surely prevented, and is excellent in long-term storage stability.
[0033]
In the coated granular fertilizer of the present invention, as shown in FIG. 3, the outermost surface layer portion 35 of the single-layer coating layer 31 covering the fertilizer particles (eg, granular urea) 30 is converted into the above water or alkaline water. And the central portion 34 of the single-layer coating layer is formed of an alkaline water-soluble polymeric substance and an alkaline substance coating material in addition to the insoluble polymeric substance, The innermost layer portion 33 is formed of the insoluble polymer substance, and the single-layer coating layer 31 is a continuous coating layer (single-layer coating layer) in which the outermost surface layer portion 35 and the inner layer portion 32 cannot be integrated. It may be.
[0034]
In the coated granular fertilizer of the present invention, the coating amount of the entire monolayer coating layer is 0.5 to 30% by weight, particularly 1 to 20% by weight, and more preferably about 2 to 15% by weight with respect to the fertilizer particles to be coated. The amount is preferably (coverage).
In the coated granular fertilizer of the present invention, when the inner diameter of the fertilizer particles is about 1 to 4 mm, the thickness of the entire single layer coating layer is about 30 to 300 μm, particularly about 50 to 150 μm. preferable.
[0035]
If the thickness of the single-layer coating layer becomes too thin, there is a tendency that elution of fertilizer components, which is an effect of the present invention, cannot be suppressed for a long period. Moreover, when the said thickness becomes too thick, the elution of a fertilizer component will become too late | slow, or it will become difficult to form with good reproducibility of a coating layer.
[0036]
The outermost surface layer portion 33 or 35 formed of a polymer substance that does not dissolve in water or alkaline water in the single-layer coating layer 21 or 31 of the single-layer coated granular fertilizer shown in FIGS. 2 and 3 is a single-layer coating. The average thickness is about 0.5 / 10 to 8/10 times, particularly about 1/10 to 7/10 times the average thickness of the layer, and the inner diameter of the fertilizer particles 20 or 30 is about 1 to 4 mm. If present, the average thickness is preferably about 5 to 90 μm, particularly about 10 to 80 μm.
[0037]
As described above, the coated granular fertilizer shown in FIG. 3 has the single-layer coating layer 31 composed of the innermost layer portion 33 and the outermost layer portion 35 of the innermost layer portion 33 and the central portion 34. The portion 35 has an average thickness within a range of about 1/10 to 6/10 times, particularly about 2/10 to 5/10 times the average thickness (thickness in the cross section of the central portion) of the single layer covering layer 31 In particular, in the single-layer coated granular fertilizer of FIG. 3, if the inner diameter of the fertilizer particles 30 is about 1 to 4 mm, the outermost surface layer portion 35 is about 10 to 80 μm, particularly about 20 to 60 μm. The average thickness is preferably.
[0038]
And the center part 34 of the coating layer of the covering granular fertilizer of FIG. 3 is about 1/10 to 8/10 times with respect to the average thickness of the single layer coating layer 31, especially about 2/10 to 6/10 times. It is preferable that the average thickness is within the range. Particularly, when the inner diameter of the fertilizer particles is about 1 to 4 mm in the single-layer coated granular fertilizer of FIG. 3, the central portion 34 is about 10 to 80 μm, particularly about 20 to 60 μm. 3 and the innermost layer portion 33 of the single layer coated granular fertilizer of FIG. 3 is about 0.5 / 10 to 5 / with respect to the average thickness of the single layer coated layer 31. It is preferable that the average thickness is within a range of about 10 times, particularly about 0.5 to 3/10 times, and particularly if the inner diameter of the fertilizer particles 30 is about 1 to 4 mm in the single-layer coated granular fertilizer of FIG. The innermost layer portion 32 has an average thickness of about 1 to 40 μm, particularly about 2 to 30 μm. It is preferred.
[0039]
If the granular fertilizer to be coated has the possibility of generating ammonia like urea fertilizer, the ammonia generated from the inside of the coated fertilizer dissolves in the absorbed moisture to become an alkaline aqueous solution, The aqueous solution may dissolve the alkaline substance and / or the alkaline water-soluble polymer substance. As shown in FIG. 3, the innermost layer portion 33 of the single-layer coating layer 31 has the In the case of a single-layer coated granular fertilizer that does not contain an alkaline water-soluble polymer substance and an alkaline substance, the innermost layer portion 33 can prevent the aforementioned phenomenon from occurring in a short period of time, As a result, the fertilizer components are prevented from eluting in a short period of time, and the storage stability of the coated granular fertilizer is also improved. Than it is.
[0040]
In the coated granular fertilizer of the present invention, although not shown, the alkaline substance is blended only in the innermost layer part of the single-layer coating layer, and the alkaline water-soluble polymer substance is present only in the central part of the single-layer coating layer. It may be blended, and the alkaline water-soluble polymer substance and the alkali substance may be separately distributed and blended.
[0041]
In the coated granular fertilizer that is a type in which the alkaline water-soluble polymeric substance and the alkaline substance are unevenly distributed in different places, the alkaline water-soluble polymeric substance and the alkaline substance are not in direct contact, Since it is in a state of partial contact, dissolution of the alkaline water-soluble polymer substance in alkaline water can be delayed, and the elution of fertilizer components can be delayed.
[0042]
In the single-layer coated granular fertilizer of the present invention, the single-layer coating layer is composed of an outermost surface layer portion, a central portion, and an innermost layer portion, and the central portion has an average thickness of the single-layer coating layer. And an average thickness of 1/10 to 9/10, wherein an alkaline water-soluble polymeric substance and an alkaline substance are blended together with other polymeric substances, and the outermost surface layer portion of the single-layer coating layer The innermost layer portion has an average thickness of 0.5 / 10 to 6/10 times the average thickness of the single layer coating layer, and contains an alkali water-soluble polymer substance and an alkali substance. The coated granular fertilizer as shown in FIG. 3 which is formed only with other polymer substances is optimal.
[0043]
The coated granular fertilizer of the present invention is a fluidized bed of fertilizer particles by applying a fluidized bed forming gas that flows from the lower side to the upper side of the fluidized bed forming device to the fertilizer particles introduced into the fluidized bed forming device. Forming a process,
Spraying a mixture of an alkaline water-soluble polymeric substance, a polymeric substance insoluble in water and alkaline water, and a coating material containing the alkaline substance together with a spraying gas from a spray nozzle into a fluidized bed forming apparatus. Adhering the mixed solution to the surface of the fertilizer particles forming a fluidized bed within,
Alkaline water soluble polymer material, polymer material insoluble in both water and alkaline water, and fluidized bed of fertilizer particles coated with alkaline material on the surface, insoluble in both water and alkaline water A step of spraying a solution containing a polymer substance as a main component from a spray nozzle together with a spraying gas, and further adhering the solution to the fertilizer particles to which the mixed solution has adhered to the surface in the above step; and
Drying the surface of the fertilizer particles to which the mixed solution of the coating material and the solution of the coating material are attached;
Can be advantageously produced by utilizing a method comprising
[0044]
The production of the coated granular fertilizer is preferably performed by a fluidized bed coating method using, for example, a fluidized bed forming apparatus 1 as shown in FIG. In the fluidized bed forming apparatus 1, a fertilizer particle supply hopper 2 and a granular fertilizer supply line 3 are connected to an upper portion of the apparatus. Also, a supply line 4 for the spray liquid a (a polymer solution in which a mixture of an alkaline water-soluble polymer substance and another polymer substance is dissolved) and a spray liquid b (a polymer that is not soluble in either water or alkaline water) A slurry solution in which substances and alkaline substances are dispersed), and a spray liquid supply line 6 and a spray nozzle 7 are connected to each other so that the flow paths can be switched by each valve. And installed in the lower part of the device. A fluidized bed gas supply line 8 and an ejection nozzle 9 are provided at the lower end of the apparatus, and an exhaust gas line 11 via a cooler 10 is provided at the top of the apparatus. And the perforated plate 12 is provided in the bottom part in an apparatus.
[0045]
In the production method of the present invention, for example, the fluidized bed forming apparatus 1 shown in FIG. 1 is used to supply the fluidized bed gas into the fluidized bed forming apparatus 1 via the fluidized bed gas supply line 8 and the supply nozzle 9. Then, with the fluidized bed forming gas rectified by the perforated plate 12 in the apparatus, the fertilizer particles supplied from the fertilizer particle hopper 2 and the supply line 3 to the inside of the apparatus 1 are fluidized, and the fertilizer particles A fluidized bed (including a spouted bed) is formed, while a solution (a spray liquid a and b) of a plurality of coating materials (polymer materials, alkaline substances, etc.) is supplied to the supply lines 4 and / or 5 Each coating material (spraying liquid) is adhered to the fluidized fertilizer particles sequentially or simultaneously by supplying into the apparatus 1 sequentially or partially via the line 6 and spraying from the spray nozzle 7. And sufficiently drying the coating layer In the fluidized bed coating method that coats the fertilizer particles, to produce a granular fertilizer with a single layer coating.
[0046]
As an embodiment of the manufacturing method of the coated granular fertilizer of the present invention, for example, first, using a fluidized bed forming apparatus 1 as shown in FIG. From the supply nozzle 9 toward the fluidized bed of fertilizer particles fluidized by the fluidized bed gas, a mixed solution of the alkaline water-soluble polymer material and the alkaline material (spray liquid a: alkaline material) Slurry solution) and a polymer solution (spray solution b: polymer solution) that does not dissolve in water or alkaline water are simultaneously supplied from the supply line 4 and the supply line 5 and mixed in the supply line 6. The mixed liquid of the spray liquids a and b is sprayed together with the spraying gas from the spray nozzle 7 for a predetermined time, and is partially dried while the mixed liquid is adhered to the surface of each fertilizer particle forming the fluidized bed.
[0047]
Substantially continuously with the above-described operation, the supply of each solution of the alkaline water-soluble polymer substance and the alkaline substance is stopped by the valve of the supply line 4, and inside the fluidized bed forming apparatus 1 by the above-described operation. Only the solution (spray liquid b) insoluble in water and alkaline water is supplied from the supply lines 5 and 6 to the fluidized bed of fertilizer particles on which the mixed liquid (or coating material) is adhered. Then, the spray liquid b is sprayed together with the spraying gas from the spray nozzle 7 for a certain period of time, and the solution is adhered to the outermost surface of each fertilizer particle and dried sufficiently, as shown in FIG. The single-layer coating layer 21 covering the fertilizer 20 is formed of only a polymer material whose outermost surface layer portion 23 is not soluble in water or alkaline water, and the inner layer portion 22 is composed of the alkaline water-soluble polymer material and the Insoluble polymer The inner layer portion 22 and the outermost surface layer portion 23 are covered with a single coating layer that is a continuous coating layer (single layer coating layer) 21 inseparable from each other. A method for producing a coated granular fertilizer can be preferably exemplified.
[0048]
Solvents used in preparing the coating material solution (spray solution) used in the production method of the present invention include hydrocarbon solvents such as aromatic hydrocarbons, aliphatic hydrocarbons, and alicyclic hydrocarbons (halogens). And hydrocarbon solvents), ester solvents, ether solvents, alcohol solvents, ketone solvents, amide solvents, or a mixed solvent thereof.
Examples of the hydrocarbon solvents include aromatic hydrocarbon solvents such as benzene, toluene, xylene, methylnaphthalene, chlorobenzene, dichlorobenzene, petroleum ether, ligroin, n-hexane, methylene chloride, chloroform, dichloroethane, trichloroethane. And aliphatic hydrocarbon solvents such as cycloaliphatic hydrocarbon solvents such as cyclopentane and cyclohexane.
[0049]
Examples of the ether solvents include diethyl ether, tetrahydrofuran, and dioxane. Examples of the alcohol solvents include methanol, ethanol, propanol, butanol, and isopropyl alcohol. Examples of the ester solvents include Examples of ethyl acetate and ketone solvents include methyl ethyl ketone, acetone, and methyl isobutyl ketone, and examples of amide solvents include N, N-dimethylformamide and N, N-dimethylacetamide. .
In the production method of the present invention, the solvent is particularly preferably a mixed solvent of 1 volume of aromatic hydrocarbon solvent and 0.1 to 10 volume, particularly 0.5 to 5 volume of ketone solvent.
[0050]
Each of the spray solutions a and b contains at least one coating material selected from an alkaline water-soluble polymeric substance, a polymeric substance that does not dissolve in water or alkaline water, and an alkaline substance. It may be a solution or a slurry liquid, and may form a solution or slurry liquid containing two or more kinds of the coating materials. For example, the spray liquid a is an alkaline water-soluble polymer substance and an alkali. Preferably, the slurry solution contains a substance, and the spray liquid b is a solution of the above insoluble polymer substance.
[0051]
The blending ratio of the polymer component (polymer substance component) contained in the spray liquid a or the spray liquid b is not particularly limited, but the solution viscosity (0 during spraying) can be supplied and sprayed as a spray liquid. Preferably about 1 to 100 poise), for example, a polymer concentration of about 1 to 40% by weight, particularly about 2 to 20% by weight.
The blending ratio of the alkaline substance (powder) contained in the spray liquid a or b to the polymer component is about 1 to 40% by weight, particularly 2 to 20% by weight, and further about 3 to 15% by weight. Preferably there is.
[0052]
The supply rate of each spray solution is preferably about 5 to 200 cc / min, particularly about 10 to 100 cc / min. Further, the spraying time of the spray liquid can be determined as appropriate depending on the configuration of the single layer coating layer to be formed on the surface of the fertilizer particles (the thickness of each part, etc.). For example, the spray liquid a and the spray liquid When spraying the liquid mixture of b for 1 to 20 minutes, it is preferable to spray only the spray liquid b for 0.5 to 20 minutes.
[0053]
The temperature during the coating operation is preferably 40 to 80 ° C., particularly about 40 to 70 ° C. In order to maintain the coating temperature, the fluidized bed forming gas is mainly heated to about 60 to 100 ° C. and supplied. Furthermore, it is preferable to preheat each spray liquid a and b to about 70 to 80 ° C.
As the fluidized bed forming gas, for example, an inert gas such as nitrogen gas or air can be used, and the supply amount of the fluidized bed forming gas depends on the shape, size, and size of the fertilizer particles to be coated. The amount can be appropriately determined depending on the composition and amount of the sprayed liquids a and b to be sprayed.
[0054]
The coated granular fertilizer obtained by the production method of the present invention is preferably sufficiently dried to a state where it does not substantially contain the solvent used in the spray solution in the above-described production method. It is preferable to continue supplying the heated fluidized bed forming gas for 1 to 30 minutes even after the supply is stopped.
In the single-layer coated granular fertilizer of the present invention, the solvent remaining in the single-layer coating layer formed on the surface of the fertilizer particles should be about 1% by weight or less, particularly 0.1% by weight or less. preferable.
[0055]
【Example】
Reference examples relating to the preparation of a spray solution for forming a coating layer of the coated granular fertilizer of the present invention and examples of the present invention are shown below.
[Reference Example 1]
5 kg of calcium hydroxide (manufactured by Hinomaru Kogyo Co., Ltd., slaked lime super fine powder grade, average particle size: about 5 μm), 10 kg of styrene-maleic anhydride copolymer (ARCO Chemical Co., Ltd., trade name: SMA Resin-SMA1000), ethyl acrylate 5 kg of an ethylene-ethyl acrylate copolymer (hereinafter referred to as EEA resin; trade name: NUC-6170, manufactured by Nippon Unicar Co., Ltd.) having a content ratio of 18 mol% is mixed in a mixed solvent of 50 wt% toluene and 50 wt% methyl ethyl ketone. A coating layer forming liquid (spray liquid a: slurry liquid) containing about 8% by weight of resin and slaked lime was prepared by dissolving at 80 ° C.
[0056]
[Reference Example 2]
45 kg of EEA resin (manufactured by Nippon Unicar Co., Ltd., trade name: NUC-6170) and 83 kg of wax (manufactured by Nippon Seiwa Co., Ltd., microcrystalline wax, trade name: Hi-Mic-3090), 50% by weight of toluene and methyl ethyl ketone A coating layer forming solution (spray solution b: polymer solution) containing 8% by weight of resin was prepared by dissolving in 50% by weight of a mixed solvent at 80 ° C.
[0057]
[Example 1]
1 kg of granular urea having an average particle size of 2.3 mm is fed from a granular fertilizer supply line 3 into a fluidized bed forming apparatus (jet type) 1 having a tower diameter of 200 mm having a spray nozzle 7 for spray liquid as shown in FIG. Then, hot air (fluidized bed air) of 80 ° C. is blown from the fluidized bed gas supply line 8 and its nozzle 9 to fluidize the granular urea and warm it to 80 ° C., while preparing in Reference Example 1 The spray liquid a (supply speed 30 cc / min) and the spray liquid b prepared in Reference Example 2 (supply speed 50 cc / min) are respectively supplied through the supply lines 4 and 5, and both liquids are mixed in the supply line 6, The mixed liquid is sprayed together with nitrogen gas from the spray nozzle 7 toward the fluidized granular urea for 26 minutes, and the mixed liquid (coating material for forming the inner layer portion) at 80 ° C. is adhered to the granular urea. Partially dried.
[0058]
Continuously with the above operation, the coating layer forming liquid (spray liquid b) prepared in Reference Example 2 is supplied at a supply rate of 80 cc / min via supply lines 5 and 6, and the spray liquid b is sprayed together with nitrogen gas. The outermost surface layer is continuously formed on the inner layer portion of the granular urea in the same manner as in the above-described coating operation except that the granular urea is further sprayed from the nozzle 7 toward the fluidized granular urea for 6 minutes. Forming a portion and having a single layer covering layer (thickness of inner layer portion: about 60 μm, thickness of outermost layer portion: about 14 μm, and covering ratio of single layer covering layer: 7.3 wt%), Coated granular fertilizer A as shown in 2 was produced.
[0059]
The obtained single-layer coated granular fertilizer has 7.3 parts by weight of the single-layer coating layer per 100 parts by weight of urea, and the weight ratio of the alkaline substance to the alkaline water-soluble polymer substance (slaked lime / SMA resin) is 50 / 100.
Further, the monolayer coated granular fertilizer A obtained in Example 1 was cut at the center to elute all the urea components, and as a result of photographing the monolayer coating layer with an electron micrograph, the monolayer coating layer was It is confirmed that the boundary surface of the resin layer between the outermost surface layer portion and the inner layer portion is not discriminable, and the state where slaked lime is evenly distributed and unevenly distributed in the inner layer portion having a substantially constant thickness can be confirmed. It was.
[0060]
The obtained coated granular fertilizer A was directly subjected to the first dissolution test according to the urea dissolution test method. The results are shown in Table 1.
After the obtained coated granular fertilizer A was stored in a thermostatic bath at 50 ° C. for 36 days, the coated granular fertilizer (the storage in the above-described constant temperature bath is equivalent to having undergone a two-year abuse test) was taken out above. Similarly, the second dissolution test was conducted to measure the dissolution rate. The results are shown in Table 1.
Each elution curve obtained by the elution test is shown in FIG.
The results of the second dissolution test were not found to differ in characteristics from the results of the first dissolution test.
[0061]
[Table 1]

[0062]
[Example 2]
Using a coating layer forming apparatus as shown in FIG. 1, 1 kg of granular urea having an average particle size of 2.3 mm is introduced from the granular fertilizer supply line 3 and hot air (fluidized bed air) at 60 ° C. is used for the fluidized bed. The gaseous urea is blown from the gas supply line 8 and its nozzle 9 to fluidize the granular urea and warm to 80 ° C., while the coating layer forming liquid (spray liquid b) prepared in Reference Example 2 is supplied to the supply lines 5 and 6. And the spray liquid b is sprayed toward the granular urea fluidized from the spray nozzle 7 together with nitrogen gas to cover the granular urea and adhere the spray liquid b. Partly dry.
[0063]
In succession to the above operation, the spray liquid a prepared in Reference Example 1 (supply speed of about 30 g / min) and the spray liquid b prepared in Reference Example 2 (supply speed of about 30 g / min) are supplied via supply lines 4 and 5. In the supply line 6, both liquids are mixed, and the mixed liquid is sprayed together with nitrogen gas from the spray nozzle 7 toward the fluidized granular urea and mixed with the granular urea at a coating temperature of about 55 ° C. The liquid was allowed to adhere and partly dried.
[0064]
Continuously with the above operation, the coating layer forming liquid (spray liquid b) prepared in Reference Example 2 is supplied at a supply rate of 60 g / min via supply lines 5 and 6, and the spray liquid b is sprayed with nitrogen gas as a spray nozzle. 7 is sprayed toward the granular urea fluidized, the spray liquid b is adhered to the granular urea, and it is sufficiently dried to form a single-layer coating layer (the thickness of the outermost surface layer portion: about 40 μm, the central portion) 3 having a thickness of about 20 μm, a thickness of the innermost layer portion: about 10 μm, and a total thickness of the single-layer coating layer: about 70 μm, and a coverage of the single-layer coating layer: about 7% by weight). Single layer coated granular urea B as shown was prepared.
[0065]
The obtained coated granular fertilizer B has 7 parts by weight of a single layer coating layer per 100 parts by weight of urea, and within the single layer coating layer, the weight ratio of the alkaline substance to the alkaline water soluble polymer substance (slaked lime / SMA resin) was 50/100.
In addition, the monolayer coated granular fertilizer B obtained in Example 2 was cut at the center to elute all the urea components, and as a result of photographing the monolayer coating layer with an electron micrograph, the cross section of the monolayer coating layer was obtained. Is not in a state where the boundary surfaces of the resin layer of the outermost surface layer portion, the central portion and the innermost layer portion can be discriminated, but it can be confirmed that slaked lime is evenly distributed and unevenly distributed in the central portion having a substantially constant thickness. It was.
[0066]
The obtained coated granular fertilizer B was directly subjected to the first dissolution test according to the urea dissolution test method. The results are shown in Table 2.
The obtained coated granular fertilizer B is stored in a thermostatic bath at 50 ° C. for 36 days, and then the coated granular fertilizer (the storage in the above-mentioned thermostatic bath is equivalent to having undergone a 2-year abuse test) is taken out above. A second dissolution test was performed in the same manner as above to measure the dissolution rate. The results are shown in Table 2.
Each elution curve obtained by the elution test is shown in FIG.
The results of the second dissolution test were not found to differ in characteristics from the results of the first dissolution test.
[0067]
[Table 2]

[0068]
In the operation of coating granular urea in Examples 1 and 2, the fluidized bed forming gas is maintained at about 80 ° C. from the lower nozzle 9 of the fluidized bed forming apparatus 1 and continuously supplied at a constant supply rate. Urea is maintained in the fluidized bed, while the gas after being used for forming the fluidized bed is discharged as exhaust gas together with the solvent while maintaining the exhaust gas outlet temperature at the upper part of the fluidized bed forming apparatus at 55 to 60 ° C. Further, the exhaust gas was cooled to near room temperature with the cooler 10 to liquefy and separate and recover the solvent, and then discharged into the atmosphere.
[0069]
【The invention's effect】
The coated granular fertilizer of the present invention can be produced industrially by a single continuous coating operation, and unlike a coated granular fertilizer having a known two-layer coating layer, a single layer coating layer has a resin boundary surface. There are no voids (gap) at all, and the entire coating layer is formed around the fertilizer particles as a single-layer coating layer consisting of a continuous coating layer that is inseparable, and the necessary alkaline substance and alkaline water-soluble polymer Since the substance is unevenly distributed in the inner layer part, the coating layer does not peel off due to the void at the boundary surface of the resin, and the elution of the fertilizer component does not occur early, and the quality that can sufficiently obtain the fertilization effect is extremely high It is a coated granular fertilizer that is stable.
And, according to the method for producing the above coated granular fertilizer, the above described single layer coated granular fertilizer can be produced without any variation in the thickness of the entire single layer coated layer, and an excellent coated granular fertilizer having a sufficiently stable quality. It can be easily produced industrially.
[Brief description of the drawings]
FIG. 1 closes a fluidized bed forming apparatus (coating apparatus) that can be advantageously used for producing the coated granular fertilizer of the present invention.
FIG. 2 is a diagram showing an example of the structure of the coated granular fertilizer of the present invention.
FIG. 3 is a view showing another example of the structure of the coated granular fertilizer of the present invention.
4 is an elution curve obtained by an elution test of the coated granular fertilizer A obtained in Example 1. FIG.
5 is an elution curve obtained by an elution test of the coated granular fertilizer B obtained in Example 2. FIG.
[Explanation of symbols]
1 Fluidized bed forming device
2 Granular fertilizer hopper
3 Granular fertilizer supply line
4 Supply line of spray liquid a
5 Spray line b supply line
6 Spray liquid supply line
7 Spray nozzle
8 Fluid supply line for fluidized bed
9 Fluidized bed gas supply nozzle
10 Exhaust gas cooler
11 Exhaust gas line
12 perforated plate
13 Extraction line of coated fertilizer
20 Urea particles
21 Single layer covering layer
22 Inner layer portion
23 Surface layer portion

Claims (3)

Fertilizer particles, calcium hydroxide, either in the surface layer made of a polymer material insoluble in alkaline water and alkaline material-free water containing alkali material selected from the group consisting of sodium carbonate and sodium silicate, and the alkali poorly soluble and soluble polymer substance to the alkaline water a low swellable substance free of water insoluble polymeric material to said alkaline water, and calcium hydroxide, of sodium carbonate and sodium silicate A coated granular fertilizer characterized in that an inner layer containing three components of an alkaline substance selected from the group as a main component is coated with a coating layer that is inseparably continuous. 2. The coated granular fertilizer according to claim 1, wherein the high-molecular substance that is sparingly soluble and low-swelling in water not containing the alkaline substance and is soluble in the alkaline water is a maleic anhydride copolymer. The average thickness of the coating layer is coated granular fertilizer according to claim 1 or 2 Ru Ah in the range of 30 to 300 [mu] m.

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