CA2872706A1 - Fixative compositions, fertilizer granules, fabrication processes and their uses - Google Patents

Abstract

A natural fixative agent composition for granules of fertilizer comprising: a tackifier; and a diluent. For example, such a tackifier may be useful for adhering fine particles to fertilizer granules. In addition, the diluent can have a fast evaporation capacity and be miscible with water at room temperature. The disclosure also relates to methods of making the fixative composition and the use of such fixatives. Fastening processes, doligo-elements on granules of fertilizer, using the fixatives. Fertilizer granules characterized in that the minor, secondary and auxiliary elements are fixed in a coating based on a fixative agent comprising a natural tackifier and an alcohol, said coating surrounding a central mass consisting of basic fertilizers.

Description

FIXING AGENT COMPOSITIONS, FERTILIZER GRANULES, AND METHODS OF MAKING
AND THEIR USES
FIELD OF DISCLOSURE
The present application relates to the field of natural fixative agents usable for manufacturing fertilizer granules comprising trace elements. This application also concerns processes for making these natural fixatives.
The present application also relates generally to fertilizer granules NPK containing trace elements, secondary elements and / or auxiliary agents for ground application and the production method, manufacturing methods of these fertilizer granules involving the use a natural fixative and the use of the fertilizers thus obtained.
PRIOR ART
The current method of applying micronutrients to crops is the ground application. The Recommended application rates are generally less than 5 kg / ha on a elementary. The micronutrient applications alone at these low rates are difficult to realize and result in them uneven distribution in the field resulting in poor use of fertilizer. They therefore have to be applied together with the basic fertilizers (nitrogen phosphorus and / or potassium).
The realization of trace mineral mixtures with basic fertilizers is documented. It includes (1) the addition at the time of manufacture of the basic fertilizer, (2) the addition of solid elements to fertilizers bulk blending, (3) the impregnation of basic fertilizers with the trace element solutions, (4) fixation (coating) on granular base fertilizers and (5) the addition of trace elements granules.
Incorporation of micronutrients during manufacture of basic fertilizers allows a distribution uniformity of the trace element (s) in the fertilizer and a homogeneous distribution at field when spreading. In conditions of high temperature and humidity during the manufacture, the oligo-element reacts with the basic fertilizer components, which may result in a reduction of the availability of the trace element, for example zinc and phosphorus. Moreover, the needs in elements nutritious crops vary from one field to another, it appears impossible to respond to prescriptions with fertilizers derived from this technique. This method of production is also expensive.
Micronutrient mixtures with basic fertilizer granules remain the most used method to respond adequately and quickly to the specific needs of crops in many field situations. Trace elements with a specific weight and a different size of fertilizer the main disadvantage of the process is the segregation and the stratification of trace elements during preparation, handling and / or application; it results inevitably a distribution irregular trace elements on the plot. Pre-granulation of oligomers elements before realization mixtures have been proposed as a solution but the technique is expensive, less flexible and therefore less attractive.
The impregnation of liquid trace elements in the granule decreases the risk of segregation. The oligo-elements are solubilized in water and / or inorganic acids as phosphoric acid, acid in the presence of oxides before being fixed on the fertilizer granules basic. The problem of segregation is not absolutely solved because the water evaporates quickly and the powdery elements peel off the granules. The presence of a lot of water increases the risk agglutination fertilizer particles. The addition of acids containing nitrogen or phosphorus reduces flexibility at recommendations in different cultures. Inorganic acids are also corrosive and pose problems as to the dangerousness of their storage.
Several substances such as oils, waxes, surfactants (amines), synthetic polymers or their mixtures have been proposed to control and reduce the formation of dust of fertilizer and impregnate the micronutrients on the granules of the fertilizer mixture. However, these fixative agents contain water and their long-term binder properties are therefore very limited. Most of these products are not biodegradable and some are carcinogenic. Binders minerals (carbonate of calcium, kaolin, bentonite, silica, etc.) have been proposed but require to be used in big quantity (around 10% of the mixture), which reduces the ratio of nutritional elements.
Other binding agents that are proposed include lignosulphonates, molasses and other co-products rich in sugars. These products are difficult to handle at the natural state (equipment because they are very viscous and must be diluted in water and heated to be applied.
Given their natural characteristics, biodegradable and bio-stimulant (a source of carbon for soil microorganisms, formation of complexes with the nutrients of the soil soil), it is important to increase their potential as a binding agent when carrying out fertilizer mixtures containing the trace elements. In the document WO 2010/110805, a method and a composition for control dust and caking of granular materials, including solid fertilizers, aggregates, minerals and ores, in which glycerol has been left react with an acid polybasic to obtain a polymer derivative for the production of the composition that is applied to solid granular materials.
US Patent 3961932 discloses a method for uniformly coating fertilizer formulations granular with one or more chelated metallic trace elements. The process comprises the steps following: mixing a granular fertilizer formulation in a blender rotating drum, spraying 1 to 5% by weight of an aqueous solution or a suspension containing one or several chelated metallic trace elements, for example, the Na2ZnEDTA, on said fertilizer formulation and adding, before or after said spraying, from 1 to 4% by weight of an additive

2 absorbing water, = finely divided, such as synthetic calcium silicate or silica finely divided, to the formulation of fertilizer. The finished fertilizer formulation contains then 0.05 to 0.5% by weight trace elements.
Patent Application CA2829935 discloses fertilizer granules and processes of production of fertilizer granules. The fertilizer granules are formed from a fertilizer composition, such as phosphated fertilizers, include a fibrous material in order to increase the resistance of granules to prevent or reduce attrition or dust formation during storage, the transport and / or handling. The basic fertilizer composition can include a fertilizer phosphated, such as mono-ammonium phosphate or di-ammonium phosphate, and optionally one or more trace elements or secondary elements, such as sulfur elementary. The fibrous material is pulp or paper sludge.
International Patent Application WO 2011/109202 describes a composition fertilizer comprising basic fertilizer granules with a protective coating and one or more trace elements. The base fertilizer composition is covered with a protective coating and then a coating of one or several micronutrients. According to one variant, the fertilizer composition of base is covered with a protective coating with discrete particles of trace elements scattered throughout the coating. The protective coating physically and chemically isolates particles of oligo elements of the underlying fertilizer composition so that more oligo-items are available in the soil solution, and ultimately in the root zone of the plant.
International patent application WO 2014/036572 describes a product particulate matter to which is attached or bound a particulate beneficial substance having a particle size less than 20 1, tm using of a polymer formulation. The beneficial particulate substance can be applied to the product particle in the form of an emulsion, a dispersion, or a suspension, typically a water-oil emulsion, although three-phase emulsions can also be be used for this purpose.
US Pat. No. 4,256,479 describes a process for the granulation of a borate fertilizer crystalline to produce a product having particularly physical and chemical properties satisfactory for the production of dry fertilizer mixtures, the storage and handling of these latter. The process involves special treatment of borate and granulation with use a small amount of acid solution. No drying treatment is necessary.
International application WO 99/15480 discloses a process for the coating of fertilizer particles like nitrogen-phosphorus, potassium, nitrogen-potassium fertilizer complexes, ammonium nitrate, Calcium nitrate fertilizer or urea to reduce dust formation and agglomerate during the handling and storage. The method comprises applying a solution aqueous acid mineral such as phosphoric acid, sulfuric acid, nitric acid or citric acid and a base

3 minerals such as magnesium oxide, calcium oxide, barium oxide, dolomite or a mixture of two or more of these. This combination treatment is performed once in order to form a fertilizer containing a coating of a metal salt or a mixture of metal salts on the basic fertilizer particles.
US application 5328 497A discloses a composition comprising lignosulfonate, sugar and possibly useful urea to prevent the formation of dust and particle agglutination granular fertilizers. The composition has a very low viscosity at room temperature, is more effective in preventing the formation of dust and mass that the lignosulfonate, urea, or sugar alone or mixtures of lignosulfonates and sugar, and mixtures of lignosulfonates and urea. The composition is preferably sprayed on the fertilizer after granulation or when the mixing of fertilizer particles is complete.
In the patent application US 2004/065198, there is described a method for suppressing the emanation of dust from a material carrying dust; the process comprises the application to material of a dust suppressant free of lignosulphonates and polymers, which includes mixtures of protein-derived molasses with surfactants (surfactants) assets).
International Application No. 2013/029140 discloses a concentrated sugar additive comprising (a) a raffinate a by-product of citric acid and (b) a sugar solution useful for controlling the emission of dust during manufacture, handling, storage or transport of fertilizers or minerals.
US 6355083 discloses a composition and a method for reducing dust levels present or prevent its formation in fertilizer, reduce the tendency of fertilizer particles to agglomerate or cake during storage and transportation. The composition includes 10 to 100% in weight of the oxidized oil, 0 to 90% by weight of unoxidized oil, and 0 to 90% by weight of weight of wax.
The patent application US 2013/0031943 describes the incorporation of trace elements in the fertilizer potassium muriate by compaction processes. Muriate granules potassium containing trace elements are obtained by compaction of muriate of potassium with one or several trace elements and optionally one or more binders followed by a grinding and calibration of particles.
US Patent 5383952 describes the process for reducing dust in them.
tights on the pellets fertilizer by spraying the granules with a solution of molasses and another hydrocarbon containing oxygen from the group consisting of glycerin, polyethylene glycol or triethanolamine.
US Pat. No. 5,360,465 describes a method for controlling the emissions of dust in fertilizers granular minerals using an aqueous solution of a mixture of lignosulfonate and urea.

4 There was therefore a need for a fixative agent composition without least one of the disadvantages fixative agent compositions of the prior art.
There was also a need for a procedure to set fine particles on Ides granules of fertilizer, said fixing process being devoid of at least one disadvantages of processes of the prior art.
There was a need for fertilizer granules with minor, secondary and auxiliary agents, while not having at least one of the disadvantages fertilizer granules from the prior art.
SUMMARY OF DISCLOSURE
According to one object, the present disclosure relates to a composition comprising a sticky agent comprising a sugar by-product and a diluent agent capable of said agent tights.
According to another subject, the present disclosure relates to a composition comprising a tackifier comprising a molasses; and a diluent agent capable of said tackifier.
According to another subject, the present disclosure relates to a composition comprising a tackifier comprising a molasses having the ability to stick fine particles on fertilizer granules; and an alcohol capable of diluting said tackifier.
According to another subject, the present disclosure relates to a composition comprising a by-product of sugar with the ability to stick fine particles on granules fertilizer; a diluent capable of diluting said tackifier, said diluent being soluble in water;
and optionally a deodorant.
According to another subject, the present disclosure relates to fixative agents natural with a sub sugar product, a solvent and / or a deodorant which makes it possible to fix the secondary elements, the oligo-elements and / or auxiliary agents on the basic fertilizer granules.
According to another object, the present disclosure relates to methods of manufacture of the composition or the fixative defined in the present disclosure.
According to another object, the present disclosure relates to methods of fixation of trace elements on basic fertilizer granules using the fixative agents defined in the first object of the disclosure and / or using the fixative agents prepared according to the methods defined in this disclosure.

5 According to another subject, the present disclosure relates to NPK fertilizers containing one or more secondary elements, trace elements and / or auxiliary agents.
According to another object, the present disclosure relates to uses of the compositions or fertilizers defined in this disclosure or as manufactured by processes described in this disclosure.
According to another subject, the disclosure relates to a method of preparing a fertilizer, the process comprising the following steps:
preparation of a composition comprising a tackifier, a alcohol and optionally a deodorant and, optionally, preparation of a basic fertilizer consisting of a mixture granular, preferably nitrogen, phosphorus, nitrogen or their combination, in proportions fixed advantageously from the soil analyzes and / or the needs of the plant;
and preparation of a mixture, preferably in solid form, of trace elements (such as boron, copper, iron, manganese, molybdenum, zinc, chlorine, cobalt or their combination) and / or mixture of secondary elements (such as magnesium calcium, sulfur or their combination) according to soil tests and plant requirements or prescription;
optionally, preparation and / or dosage of auxiliary agents are prepared according to recommendations from the manufacturer or an agricultural adviser;
spraying the composition on the basic fertilizer, (for example during a period of predetermined time) (preferably about 3 minutes), for example using an air jet external liquid, (preferably at low pressure), more preferably to one pressure less than or equal to maximum 40 psi; and addition, preferably gradually, trace elements, elements secondary and / or auxiliary agents.
According to another subject, the disclosure relates to fertilizer granules characterized in that the Minor, secondary and ancillary elements are substantially fixed in a coating comprising a tackifier and optionally an alcohol, said coating surrounding a mass plant consisting of basic fertilizer.

6 According to another subject, the invention relates to fertilizer granules characterized in that the elements minor, secondary and auxiliary agents are fixed in a coating comprising a tackifier, an alcohol and menthol and / or one or more isomers or menthol derivatives, said coating surrounding a central mass made up of the basic fertilizer.
BRIEF DESCRIPTION OF THE TABLES AND FIGURES
FIGURE I: the corresponding table gives the density and the viscosity at 25 ° C.
modified molasses with water, denatured ethanol and glycerol. The viscosity was measured at a shear rate 100 s-1 using an ARES-G2 rheometer (TA Instruments) equipped with a Peltier system for the temperature control.
FIGURE II: illustrates the fixation of zinc oxide (ZnO) on granules of potassium muriate 0-0-60 using molasses containing 30% water (MH), 10% modified ethanol and 1%
menthol (20), and 30% glycerol (MG), the percentages being by weight.
FIGURE III: illustrates the fixation of elemental sulfur (S) on the granules Potassium muriate 0-0-60 using molasses containing 10% modified ethanol and 1% menthol (20), the percentages being by weight.
FIGURE IV: illustrates the fixation of the elemental sulfur (S) on the granules of urea 46-0-0 using two concentrations (0.5 and 1%) of molasses containing 10% of modified ethanol and 1% menthol (20), the percentages being by weight.
Figure V: shows the effect of two doses of the fixative agent 20 on the risk agglutination during the fixing elemental sulfur on the granules of urea 46-0-0; the powder remained stuck on the walls of the jar with 5 g of the fixative.
DETAILED DESCRIPTION OF THE DISCLOSURE
Definitions Basic fertilizer means a granular fertilizer composition intended primarily to provide nitrogen, phosphorus, potassium or a mixture thereof.
The term secondary element is used in this disclosure to denote calcium, magnesium or sulfur.
The expression trace element or micronutrient refers to the elements nutrients that the plant has need in small quantities namely, for example boron, copper, iron, manganese, molybdenum, zinc, chlorine, cobalt, sodium and silica.

7 The term auxiliary agent refers to products used in agriculture to improve yields and quality of crops, prevent and protect crops against diseases, stimulate soil microbial activity, etc. This may be an example of a growth hormone, of a growth regulator, a pesticide, a biostimulant, a phyto-beneficial microorganism, etc.
The term phyto-beneficial microorganism refers to a microorganism that exert an effect directly or indirectly on the germination, growth and development of plant, the control of crop diseases and pests, availability of nutrients in the ground.
The term menthol means a covalent organic compound obtained either by synthesis either by extraction from peppermint essential oil or other essential oils of mint. The the most common stereoisomer of menthol is the (¨) -menthol, configuration (1R, 2S, 5R). It belongs to the family of monoterpenols. At room temperature (20 to 25 ° C), it is found in solid form, a waxy white color. It melts if you increase slightly temperature. Menthol has anti-inflammatory and antiviral properties. It is also used to relieve minor irritations throat. It is also a local anesthetic. It can also be a extract of mint. It exists natural forms but also synthetic forms. There is the menthol and its isomers (configuration of the molecule) such as: (+) - menthol, (+) - isomenthol;
(+) - neomenthol, (+) -neosimenthol, (-) - menthol, (-) - isomenthol, (-) - neomenthol and (-) -neosimenthol. Among the many derivatives, by way of non-limiting example, mention may be made of menthylchloride, menthone, and 3-menthene.
In the context of this disclosure, menthol also means any composition comprising more than 50 A of menthol and / or one of its derivatives. The term menthol covers also menthol encapsulated and / or micronized.
For example, the disclosure relates to a new natural fixative agent and to fast drying, is set to provision for the formulation of NPK fertilizers containing trace elements and for the use of of said agent for obtaining a uniform distribution of trace elements in the product. The agent fixative may comprise a tackifier, a by-product of sugar, preferably molasses, an organic diluent for molasses and, optionally, a deodorant natural. Fixing is advantageously produced at the time of incorporation of the trace elements into basic fertilizer, by example in a conventional mixer. First spray is sprayed on the granules basic fertilizer; then the trace elements, previously selected, are added in solid form while keeping the mixer running. The quantity of fixative agent is about 0.01% around 1% by weight of the basic fertilizer. The method is preferably implemented at temperature ambient temperature and does not necessarily require artificial drying. The product final, dust-free, therefore has a homogeneous coating of trace elements. The method also allows fix the elements secondary and / or auxiliary agents on the basic fertilizer granules.

8 Development of the fixative agent The less water fast drying fixative comprises an agent sticky, alcohol and optionally a deodorant.
The tackifier is advantageously a by-product of sugar, such as molasses of sugar cane .................................................. ........................ or beetroot, corn syrups, maple syrup, etc. The molasses presents the benefits of being biodegradable, to represent a carbon source for microorganisms soil and not do not react with NPK fertilizers.
Sugar by-products are very viscous and require equipment special to be sprayed on the fertilizer granules. The dilution of molasses with water, to reduce the viscosity does not completely solve the problem because water tends to worsen the caking. he was surprisingly found that this disadvantage can be overcome by the use of a solvent organic, more particularly with an alcohol such as methanol, ethanol, isopropanol, or hexafluoroisopropanol. However, it is preferable that the diluent used a natural product. Of this way, the thinner will be a little softer and less toxic than synthetic diluents and as a result will be more attractive to the users of the composition of fertilizer because of the reduction, see the elimination of health and safety problems. He was found that alcohol is from even more advantageously, ethanol or denatured ethanol because of their low toxicity, their relatively low flammability and their availability on the walk. The other role of ethanol in the disclosure is to serve as a solvent for auxiliary agents.
An odor control agent can be advantageously added in order to decrease bad odors associated with the sugar byproduct that sometimes attract insects.
It is possible to use any known odor control agent, including products natural and synthetic. he however, it is preferable that the odor reduction agent is a product natural. Therefore, essential oils and extracts of pine, lemon, eucalyptus, banksia or mint, without limit to those, are particularly appropriate. The usefulness of these oils essential is actually amplified, since they also act as an anti-bacterial agent or insecticide. In the most preferred form of the present disclosure, menthol, its isomers or its derivatives are used.
The process for producing the fixative agent advantageously comprises the following steps:
(a) preparing a solution comprising 81 to 99 parts of denatured ethanol and 19 at 1% crystals of menthol, preferably 90 to 84 parts of denatured ethanol and 10 to 16 parts crystals of menthol;
(b) stir the solution, about 10 minutes, until complete dissolution menthol crystals;
(c) mixing 90 parts molasses with 10 parts of the previous solution; and (d) stir the mixture until a homogeneous solution is obtained.

9 The viscosity of the fixing agent at 25 C, and at a shear rate of 100 s-1, is about 100 to about 2000 centipoise (cP), preferably about 300 to about 1000 cP, and more preferably from about 400 to 750 cP. The solution is stable and can be stored as needed without risk of component separation at temperatures between 0 and 50 C.
This fixative agent can be advantageously used to fix the oligomers elements and elements side effects on the basic fertilizer granules. The basic fertilizer is consisting of nitrogen, phosphates, potassium or mixtures thereof. We can mention indicative, but not limited to urea, ammonium sulphate, ammonium phosphates, triple superphosphate, chloride potassium, potassium sulphate, etc.
Trace elements may include boron, zinc, manganese, molybdenum, nickel, cobalt, copper, iron, silica, chlorine or combinations thereof at various concentrations.
Secondary nutrients may include, for example, calcium, magnesium and sulfur elemental or sulphate form, or combinations thereof to various concentrations.
The type and concentration of one or more trace elements and / or elements secondary in the mixture will depend on the soil analyzes and the needs of the crop. The concentration may vary from about 0.1 to about 20% by weight and more particularly from about 1 to about about 10% by weight.
Sources of trace elements and secondary elements vary considerably in their state physical, chemical reactivity, cost and availability for plants.
The trace elements are selected from the four main classes of trace mineral sources following: (1) products minerals such as oxides, carbonates and metal salts such as sulphates, chlorides, nitrates, (2) synthetic chelates formed by the combination of a chelating agent with a metal by coordination bond, (3) organic complexes natural resources, including lignosulphonates, polyflavonoids, and phenols, prepared by react metal salts with some organic by-products from the wood pulp industry or related industries, and (4) or sintered sintered products containing a concentration of micronutrients of about 2 at 25%.
It should be noted that the method can also be used to set the auxiliary agents alone or in combinations with the nutrients described above on the granules basic fertilizer. The agent auxiliary, preferably applicable to the soil, may be a fungicide, a herbicide, an insecticide, a bactericidal, a miticide, a nematicide a growth regulator, a biostimulants (seaweed extract or plants, fish emulsion, etc.), a promoter microorganism of the growth or controlling plant diseases (bacteria (for example rhizobacteria), mychorrizes, etc.).
In the context of this disclosure, the trace elements, the elements secondary and agents auxiliaries are particles with a size of between 0.1 and 100 preferably between 0.1 and 50 μm and more preferably 90% of the particles have 0.1 to 50 μm, ideally 90% of the particles have 0.1 to 20! AM.
The method of fixing micronutrients on fertilizer granules comprises advantageously to least one of the following steps of:
(a) preparing the fixative solution and maintaining it under agitation;
(b) preparation of the basic fertilizer (nitrogen, phosphorus, nitrogen or combination) according to soil analyzes and the needs of the plant;
(c) preparation of the trace elements (boron, copper, iron, manganese, molybdenum, zinc, chlorine, cobalt or combination thereof) and / or secondary elements (magnesium calcium, sulfur or their combination) and / or auxiliary agents according to the soil analyzes and plant needs, (d) optionally, preparation of auxiliary agents according to the manufacturer's recommendations or agricultural advice;
(e) placement of the base fertilizer in the conventional fertilizer mixer and mixing during preferably for about 2 minutes;
(f) spraying the fixative on the basic fertilizer granules in 3 minutes using a jet low pressure external air-liquid (maximum 40 psi);
(g) add trace elements, secondary elements and / or agents auxiliaries;
(h) mixing, preferably for about another two minutes; and (i) placing fertilizer in spreaders for immediate application or in containers suitable for subsequent spreading.
It should be noted that the quantity of the fixative agent to be used depends on the quantities of elements (minor and / or secondary) and auxiliary agents and powdery particles present in fertilizer based. In a preferred embodiment of the disclosure, the quantity of fixative agent is about 0.01% to about 1% by weight of the base fertilizer, preferably about 0.1%
at around 0.5% in weight of the basic fertilizer, and preferably about 0.15% in the vicinity 0.3% by weight of the basic fertilizer.
The disclosed method makes it possible to dispose of a final product with a homogeneous distribution of oligo-elements and, therefore, ensures a uniform distribution of the elements minors and others auxiliaries all over the field allowing a more precise fertilization and good results.
It will be recognized in its generality a fertilizer of the present disclosure which is dry and not dusty, allowing safe application by the farmer.
The formulations obtained are applied to agricultural crops, turf, potted crops.
These formulations can also be used in the preparation other fertilizers. fertilizer obtained is exploitable with conventional fertilizer spreaders.

EXAMPLES:
The following examples are for illustrative purposes only and do not should be interpreted as constituting any limitation on the subject-matter of the disclosure in its generality.
Example 1 Preparation of 3 Fixative Agent from Sugarcane Three fixatives were prepared by mixing cane molasses with sugar, ethanol denatured and menthol crystals. Amounts (in grams) of molasses, denatured ethanol and menthol were 895, 100 and 5, respectively, for Agent 2A, 890, 100 and 10 for agent 2C
and 885, 100 and 15 for Agent 2B.
The menthol crystals are put in the denatured ethanol and the mixture was stirred vigorously with a magnetic stirrer until the crystals are completely dissolved menthol, in about 10 minutes. The resulting solution is mixed with the molasses and all is put with stirring up obtaining a homogeneous solution.
For purposes of comparison, two MH and MG fixatives as described in US Pat.
US Patent 4252831 have been included in the tests. Fixatives MH and MG are mixtures respectively molasses combined with water or glycerol (30% by weight). The solutions have been stored at the ambient temperature and their physical behavior was observed visually over a period of 30 days.
The viscosity was determined according to the ASTM D445 method. Briefly, viscosity curves have were obtained using an ARES-G2 rheometer (TA Instruments) equipped with a Peltier system for the temperature control. Viscosity measurements were carried out in a range of shear from 0.1 to 500 s-1. Measurements were made at 25 C using of a cone system and 40 mm plate (0.04 rad). The samples were gently mixed by inversion, then about 0.7 ml was deposited on the lower plate of the measuring system. The sample temperature was then equilibrated for 60 seconds before the start of the tests. The measures are reported at a shear rate of 100 s-1.
Example 2 Fixation of Zinc Oxide on Muriate Granules 0-0-60 potassium About 492.5 g of potassium muriate 0-0-60 (SGN 275) were put in a glass jar of 1 liter placed on a rotary shaker. While the agitator is running (120 rpm), 2.5 g of fixative of Example 1 were sprayed onto potassium muriate granules at using a micro-air jet sprayer (35 psi) for 2 minutes. Then 5 g of oxide of zinc (SGN 44) are added gradually and let the stirrer run for 5 minutes. Considering of his character viscous mixture of molasses with glycerol (MG) was heated to 70 ° C
for 15 minutes before being applied. The fertilizer impregnated with zinc oxide was discharged from jar and placed in a another jar that has been sealed and kept at 20-25 C. The jar of impregnation has been cleaned with a brush to recover the dust stuck on the walls. The dust formation a has been re-evaluated after 30 days of storage.
Example 3 Fixation of Elemental Sulfur on Muriate Granules 0-0-60 potassium Fixative agent 2C was used to fix elemental sulfur (SGN 44) on potassium muriate 0-0-60 (SGN 275). 487.5 g of potassium muriate, 10 g of elemental sulfur and 2.5 g of the fixative 2C were used according to the procedure described in Example 2.
Example 4 - Fixation of Elemental Sulfur on Muriate Granules urea potassium.
Two doses of the 2C fixative agent were used to fix the sulfur elementary (SGN 44) on urea granules 46-0-0 (SGN 320) following the procedure of Example 2.
a first try, 487.5 g of urea, 10 g of elemental sulfur and 2.5 g of the fixing agent 2B were been used. In the second test, 485 g of urea, 10 g of elemental sulfur and 5 g of the 2C fixative were used.
As shown in Figure I, the addition of water, ethanol or glycerol modifies the properties molasses. The viscosity of the 3 fixative agents comprising 10%
denatured ethanol varies between 538 and 582 cP. The addition of 30% water causes a very slight decrease important of the viscosity of the molasses while the opposite effect is observed with glycerol. The formulations were stable during 3 months and no phase separation was observed. The addition of menthol allowed to eliminate the smell of molasses. However, at the dose of 1.5% by weight, the final product has a strong odor of mint becoming even stronger when the temperature is high.
The five fixatives tested allowed to fix all the zinc oxide on Muriate granules of potassium (Figure II). After 30 days, dust formation was observed in treated fertilizer with the molasses agent containing water. In the absence of the fixative, 75%
of the initial quantity of zinc oxide were at the bottom of the jar. The same effects have been observed when the agent fixative 20 of the disclosure was used to fix the elemental sulfur on muriate granules of potassium (Figure 111). The fixative agent 20 of the disclosure made it possible to fix effectively sulfur elemental granules of urea (Figure IV). However, at a concentration of 1% by weight of the fixing agent, the elemental sulfur tended to stick on the walls of the jar (Figure V). This reveals a risk of loss of agglutination and loss of elements to fix when uses the high doses of the agent fixatives.
In summary, the agents fixing the disclosure are comparable to the products suggested in the prior art as regards the efficiency in the fixation of the elements and secondary the fertilizer granules of NPK base. However the agents fixing the disclosure have the advantage to have a lower viscosity to that of the prior arts using surfactants, which offers a flexibility of use. The user does not need to heat the fixative as is the case with the mixture of molasses mixture with glycerol. The other advantage of the fastening agents of this disclosure is biodegradability components compared to products containing surfactants or oil residues.
To make available to the user means, a composition and a process that allows only to prevent the segregation of trace elements, elements secondary and agents auxiliaries, but also to reduce dust emissions during the storage, transport and field application, the new fixative agent, natural and applicable to the moment of realization of the fertilizer mixtures, have been developed.
Although the present disclosure has been described by way of implementation specific, it is understood that many variations and modifications can be added to these implemented, and this disclosure is intended to cover such modifications, uses or adaptations of this disclosure following in general, the principles of disclosure and including any variation of this description which will become known or conventional in the field of activity in which this is the present disclosure, and which may apply to the essential elements mentioned above.
high, in accordance with the scope of the following claims.

Claims (70)

A natural fixative agent composition for granules of fertilizer comprising:
a natural sticking agent, based on a molasses, having the capacity of stick particles fines on granules of fertilizer; and an alcohol diluting with molasses and having an evaporation capacity fast, such as alcohol low molecular weight and miscible with water at room temperature. 2. Natural fixative agent composition for fertilizer granules comprising:
a natural tackifier, preferably based on a sugar by-product, more preferentially still based on a molasses, having the ability to stick particles fines on granules of fertilizer;
- a molasses diluent soluble in water and having a capacity rapid evaporation, such that a low molecular weight alcohol; and - a deodorant (also called odor control agent), natural preference, more preferentially still essentially natural. 3. Composition according to claim 1 or 2, wherein the tackifier is a molasses. 4. Composition according to claim 3, characterized in that the sub sugar product is chosen in the group consisting of sugar cane molasses, beetroot straw or among mixtures of at least 2 of these molasses. 5. Composition according to claim 3 or 4, characterized in that the sub sugar product is a corn syrup or maple syrup or a mixture of these. 6. Composition according to any one of claims 1 to 5, wherein alcohol is chosen in the group consisting of methanol, ethanol, isopropanol, and mixtures at least 2 of these last. The composition of claim 6, wherein the alcohol is ethanol natural or denatured. 8. Composition according to any one of claims 1 to 7, wherein the fixative agent comprises a deodorant which is a natural odor control agent and / or synthetic. 9. Composition according to claim 8, wherein the fixing agent according to claim 7, characterized in that the odor control agent present in the agent fixative, is chosen in group consisting of menthol, menthol isomers, derivatives of menthol, derivatives of isomers of menthol, encapsulated and / or micronized menthol and mixtures of minus 2 of these last. 10. Composition according to any one of claims 1 to 9, comprising at least less 78% of molasses. 11. Composition according to any one of claims 1 to 10, characterized in that it comprises:
from 78 to 98% by weight of a natural tackifier;
from 3 to 21.5% by weight of an alcohol of an alcohol; and from 0.5 to 2.5% by weight, of a deodorant. 12. Composition according to claim 11, characterized in that comprises:
from 79 to 95% by weight of a natural tackifier;
from 10 to 18% by weight of an alcohol; and from 1 to 2% by weight, of a deodorant. 13. Composition according to claim 12, characterized in that comprises:
about 89% by weight of a natural tackifier;
about 10% by weight of an alcohol; and about 1% by weight of a deodorant. 14. Composition according to any one of claims 1 to 13, characterized in that it comprises:
about 90% by weight of a sugarcane molasses, from 8.1 to 9.9% by weight, preferably from 9 to 8.4% by weight of ethanol denatured; and from 0.1% to about 1.9% by weight, preferably from 1 to 1.6% by weight of crystals of menthol. 15. Composition according to claim 14, in which the sugar molasses cane is characterized by a viscosity which is measured according to the ASTM D445 method at 25 C and at one shear rate of 100 s-1, ranging from 532 to 589 cP. 16. Composition according to any one of claims 1 to 15, in which the denatured ethanol is a mixture of ethanol and methanol, preferably it is a mixture ethanol, methanol and of methyl acetate. 17. The composition according to any one of claims 14 to 17 in which the size of the crystals of menthol is chosen so that they are soluble in alcohol at ambient temperature. 18. Composition according to any one of claims 1 to 17, comprising optionally a auxiliary agent selected from the group consisting of fungicides, herbicides, insecticides, bactericides, nematicides, molluscides, phytohormones, growth regulators, microorganisms and mixtures of at least 2 of these. 19. Composition according to any one of claims 1 to 18, characterized by a viscosity of the fixing agent, at 25 ° C. and at a shear rate of 100 s -1, which is from about 100 to about 2000 cP, preferably from about 300 to about 1000 cP, and more preferably from about 400 to 750 cP;
preferably, the solution is stable and can be stored in a container as needed without risk of separation of components at temperatures between 0 and 50 C. 20. Composition comprising:
a tackifying agent comprising a molasses having the capacity to glue fine particles on fertilizer granules; and an alcohol capable of diluting said tackifier. 21. Composition comprising:
a tackifier comprising a sugar by-product having the ability to paste fine particles on granules of fertilizer;
a diluent capable of diluting said tackifier, said diluent being soluble in water; and optionally a deodorant. 22. A process for producing the fixative composition defined in any of Claims 1 to 21. 23. A process for producing the fixative composition, defined in the claim 20, by known means for carrying out the mixing of the ingredients of said composition. 24. A process for producing the fixative composition, defined in the claim 22 or 23, comprising the steps of:
a) preparing a solution comprising alcohol and deodorant, b) stirring the solution prepared in step a), until homogenization, for example until the complete dissolution of the menthol crystals;
c) mixing the natural tackifier with the solution obtained in step b); and d) stirring the mixture obtained in step c) until a homogeneous solution. 25. The method of claim 24, comprising the steps of:
a) preparing a solution comprising 78 to 98% by weight of an alcohol and 0.5 to 2.5%
a deodorant, b) stirring the solution prepared in step a), advantageously about 10 minutes, by example until the complete dissolution of the menthol crystals;
c) mixing 78 to 98% by weight of the natural tights with the resulting solution in step b); and d) stirring the mixture obtained in step c) until a homogeneous solution. The method of claim 24, comprising the following steps of:
a) preparing a solution comprising 90 to 94 by weight of ethanol denatured and 10 to 16 % by weight of menthol crystals;
b) stirring the solution obtained in step a), preferably about 10 minutes, until the complete dissolution of the menthol crystals;
c) mixing 90 parts molasses with 10 parts of the solution obtained in step b) previous; and d) stirring the mixture obtained in step b) until obtaining a homogeneous solution. The method of claim 26, comprising the following steps of:
a) preparation of a solution comprising approximately 10% by weight of ethanol denatured and about 1% menthol crystals;
b) stirring the solution obtained in step a) until dissolution complete crystals menthol;
c) mixture of 89% by weight of molasses to 1% by weight of the solution previous; and d) stirring the mixture obtained in step c) until a homogeneous solution. 28. The method of any one of claims 22 to 27, wherein least one of the steps a) to d) is carried out at a temperature ranging from 5 to 55 C and preferably at room temperature. The method of any one of claims 22 to 28, wherein least 2 of steps a), b), c) and d) are carried out in one step, and preferably all steps a) to d) are performed in one step, for example if menthol is in liquid form 30. The method as claimed in any one of claims 22 to 29, carried out in continuous or in batch. The method of any one of claims 22 to 30, wherein the agent composition Prepared fixative has a viscosity, measured at 25 ° C according to ASTM D445 method which is between 100 and 2000 cP, and which is preferably adjusted, if necessary, by adding a quantity appropriate ethanol. 32. Use of a composition as defined in any one of claims 1 to 21, or as obtained by carrying out one of the methods defined in any one of Claims 22 at 31, for the preparation of fertilizers (for example for the preparation of fertilizer mixtures containing trace elements, secondary elements and auxiliary agents). 33. Use according to claim 32, wherein the fertilizer is consisting of at least one of nitrogen, phosphorus, potassium or their mixtures and, optionally, elements secondary and minor added during granulation. 34. Use according to claim 32, optionally containing particles secondary elements and minors with a size between 0.3 and 6 mm. 35. Use according to any one of claims 32 to 34, in which fertilizer (basic) is selected from the group consisting of ammonium sulfate, nitrate potassium sulphate potassium, urea, ammonium nitrate, ammonium phosphate, superphosphate, the calcium phosphates, potassium phosphate, potassium chloride, and mixtures of minus 2 of these. 36. Use according to any one of claims 32 to 35, in which trace elements include at least one of the following: boron, zinc, manganese, molybdenum, nickel, cobalt, copper, iron, silica, chlorine or combinations at least 2 of these elements at various concentrations. 37. Use according to any one of claims 32 to 36, in which nutrients secondary substances are calcium, magnesium and / or elemental sulfur or sulfate form, or combinations thereof at various concentrations. 38. Use according to any one of claims 32 to 37, in which trace elements and the secondary elements are in at least one of the following forms:
oxides, carbonates, metal salts (such as sulphates, chlorides, and / or nitrates), synthetic chelates and / or natural organic complexes such as amino acids, phenols and / or acids organic. 39. Use according to any one of claims 32 to 38, in which the auxiliary agent is a fungicide, a herbicide, an insecticide, a bactericide, a miticide, a nematicide, a regulator of growth, a bio-stimulant, a microorganism promoting growth or controlling diseases Plant. 40. Use according to any one of claims 32 to 39, in which the auxiliary agent is spread on the ground. 41. The use according to claims 39 or 40, wherein the biological stimulant is chosen in the group consisting of seaweed extracts, plant extracts and fish emulsions. 42. Use according to any one of claims 39 to 41, in which microorganisms promoters of growth and / or controlling plant diseases are chosen from the group of bacteria (preferably rhizobacteria) and mychorrizes. 43. Method for fixing trace elements on granules of fertilizers using the fixative agents defined in any one of claims 1 to 21 or as obtained by the implementation of a methods defined in any of claims 22 to 31. 44. The method of claim 43, comprising at least one of the steps following of:
a) Preparation of a Fixative Agent Solution Based on a Sticky Agent sticky natural, of a alcohol and a deodorant and, preferably, maintaining the solution of fixative agent agitation;
b) optionally, preparation of the basic fertilizer consisting of a mixture granular, preferably nitrogen, phosphorus, nitrogen or their combination, in proportions fixed advantageously from the soil analyzes and / or the needs of the plant;
and c) Preparation of a mixture, preferably in solid form, of trace elements (such as boron, copper, iron, manganese, molybdenum, zinc, chlorine, cobalt or their combination) and / or mixture of secondary elements (such as magnesium calcium, sulfur or their combination) according to soil tests and plant requirements or prescription;
d) Optionally, preparation and / or dosage of auxiliary agents are prepared according to recommendations from the manufacturer or the agricultural council;
e) placement of basic fertilizer in a conventional fertilizer mixer and mixed during preferably 2 minutes;
f) spraying the fixative on the basic fertilizer granules, during a period of preferably about 3 minutes, using an external air-liquid jet, preferably low pressure, more advantageously still at a pressure less than or equal to maximum 40 psi;

(g) addition, preferably gradually, of the trace elements, elements secondary and / or auxiliary agents; and h) mixing the mass obtained in step g) for a period of time who is from preferably two minutes; and (i) placing the fertilizer in spreaders for immediate application or in containers suitable for subsequent spreading. 45. A process for preparing a fertilizer comprising:
optionally preparing a fixative agent composition comprising a sticky agent, a alcohol and optionally a deodorant;
optionally, preparing a basic fertilizer comprising a mixture granular, preferably nitrogen, phosphorus, nitrogen or combination thereof (for example in proportions for example from soil analyzes and / or the needs of the plant); and preparation of a mixture, preferably in solid form, of trace elements (such as boron, copper, iron, manganese, molybdenum, zinc, chlorine, cobalt or their combination) and / or mixture of secondary elements (such as magnesium calcium, sulfur or their combination) according to soil tests and plant requirements or prescription;
optionally, preparation and / or dosage of auxiliary agents are prepared according to recommendations from the manufacturer or the agricultural council;
spraying of the fixative composition on the base fertilizer (for example example during a period preferably about 3 minutes, for example using an air jet.
external liquid, preferably at low pressure, more preferably at a pressure less than or equal maximum 40 psi); and addition, preferably gradually, trace elements, elements secondary and / or auxiliary agents. 46. Process according to claim 44 or 45, consisting in the coating of fertilizer particles from base with the mixture of fixative agent, then mechanical mixing with the oligo-elements and dust from the basic fertilizer. 47. The method according to any one of claims 45 or 46, wherein the amount of fixative varies from 0.01 to 2% by weight of the basic fertilizer. 48. The method according to claim 47, wherein the amount of agent fixative ranges from 0.1 to 1.0% in weight of the basic fertilizer. 49. The method according to claim 47, wherein the amount of agent fixative is varies from 0.15% to about 0.5% by weight of the basic fertilizer. 50. Process according to any one of claims 43 to 49, implemented at temperature ambient, with rapid drying of the granules after spraying and without artificial drying. The method of any one of claims 43 to 50, wherein in the size of particles of minor, secondary and ancillary elements is defined as being 90% more small than 100 μm and at 40% smaller than 30 μm. 52. Fertilizer granules characterized in that the minor elements, secondary and auxiliary agents are substantially fixed in a coating comprising a fixative agent comprising a tackifier and optionally an alcohol, said coating surrounding a central mass consisting of the fertilizer based. 53. Fertilizer granules characterized in that the minor elements, secondary and auxiliary agents are fixed in a coating comprising a tackifier, an alcohol and menthol and / or one or several isomers or menthol derivatives, said coating surrounding a mass central constituted basic fertilizer. 54. Fertilizer granules according to claim 52 or 53, wherein the minor elements and are present in a proportion of 0.1 to 5.0% by weight of the final composition. 55. Granules of fertilizer according to any one of claims 52 to 54, in which layer coating is discontinuous. 56. Fertilizer granules according to any one of claims 52 to 54, in which which layer coating is continuous. 57. Granules of fertilizer according to any one of claims 52 to 56, in which layer coating has an average thickness of between 0.1 and 10 micrometers. 58. Granules of fertilizer according to any one of claims 52 to 57, in which layer coating is substantially uniform in thickness. 59. Fertilizer granules according to any one of claims 52 to 58, in which which layer coating is substantially irregular in thickness. 60. Fertilizer granules according to any one of claims 52 to 59, in which which form of the central part / core is inherent to the basic fertilizer, this form is of preferably substantially cylindrical, patatoid or pyramidal. 61. Granules according to any one of claims 52 to 60 or such that obtained by implementation one of the processes defined in any one of claims 41 to 48, allowing uniformity application of minor, secondary and ancillary elements to all field. 62. Fertilizer granules according to any one of claims 52 to 61, characterized by uniformity of field application with a coefficient of variation (CV) of 15%
or less measured according to ASAE method S341.3. 63. Fertilizer granules according to any one of claims 52 to 62, characterized in that are substantially free of dust, and preferably in that they are free of dust. 64. Fertilizer granules according to claim 63, characterized in that, according to the ASTM method D547-41, the dust reduction rate is at least 50%, preferably at least 70%, more preferably still up to 98%. 65. Fertilizer granules according to any one of claims 52 to 64, characterized in that are applicable to the ground with conventional spreaders. 66. Fertilizer granules according to any one of claims 52 to 65, characterized in that are used in field crops and in the greenhouse, turf and potted crops. 67. Fertilizer granules according to any one of claims 52 to 66, characterized in that are used in making mixtures of other fertilizers. 68. Use of the granules, as defined in any one of the claims 52 to 67, for optimize crop protection by repulsive and / or destructive activity of menthol vis-à-vis insects, fungi, bacteria and nematodes. 69. Use of the granules, as defined in any of the claims 52 to 67, for the repulsion and destruction of insects (crawling or flying), fungi, bacteria and nematodes. 70. Use of the granules, as defined in any of the claims 52 to 67, for the Achieving uniform treatment of agricultural land with fertilizers containing trace elements.