• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a potassium sulfate powder in which about 80% by weight or more of the powder has a particle size of about 0.2 mm or less, preferably about 0.13 mm or less. The particle size is preferably such that about 80% by weight or more is about 0.02 mm or larger, more preferably about 0.04 mm or larger. Said potassium sulphate powder dissolves easily in water, more particularly, 50 grams of said potassium sulphate powder dissolve in 1 liter of water without stirring in 1 minute, preferably in a dry state. Said potassium sulphate powder is very suitable as a foliar fertilizer, especially for large scale crops. In addition, the invention relates to the use of a foliar potassium fertilizer to improve the absorption of potassium from the soil.
    公开号:BE1024738B1
    申请号:E2014/0016
    申请日:2014-01-10
    公开日:2018-06-12
    发明作者:Michel Marchand;Nicolas White;Peter Landuyt;Peter Luts
    申请人:Tessenderlo Group Nv/Sa;Tessenderlo Chemie NV;
    IPC主号:
    专利说明:

    (73) Holder (s):
    TESSENDERLO GROUP NV / SA
    1050, BRUSSELS
    Belgium (72) Inventor (s):
    MARCHAND Michel 1050 BRUXELLES Belgium
    WHITE Nicolas 1050 BRUXELLES Belgium
    LANDUYT Peter 1050 BRUXELLES Belgium
    LUTS Peter 1050 BRUSSELS Belgium (54) FERTILIZER FOR FOLIAR USE (57) The invention relates to a potassium sulphate powder in which approximately 80% by weight or more of the powder has a particle size of approximately 0.2 mm or preferably less than about 0.13 mm or less. The particle size is preferably such that about 80% by weight or more is about 0.02mm or larger in size, more preferably about 0.04mm or larger. Said potassium sulphate powder dissolves easily in water, more particularly, 50 grams of said potassium sulphate powder dissolve in 1 liter of water without stirring in 1 minute, preferably in 30 sec. Said potassium sulfate powder is very suitable as a foliar fertilizer, especially for large-scale crops. Furthermore, the invention relates to the use of a foliar potassium fertilizer to improve the absorption of potassium from the soil.
    Figure 2
    BELGIAN INVENTION PATENT
    FPS Economy, SMEs, Middle Classes & Energy
    Publication number: 1024738 Filing number: 2014/0016
    Intellectual Property Office International Classification: C01D 5/00 C05D 1/00 C05D 1/02 C05G 3/00
    Date of issue: 12/06/2018
    The Minister of the Economy,
    Having regard to the Paris Convention of March 20, 1883 for the Protection of Industrial Property;
    Considering the law of March 28, 1984 on patents for invention, article 22, for patent applications introduced before September 22, 2014;
    Given Title 1 “Patents for invention” of Book XI of the Code of Economic Law, article XI.24, for patent applications introduced from September 22, 2014;
    Having regard to the Royal Decree of 2 December 1986 relating to the request, the issue and the maintenance in force of invention patents, article 28;
    Considering the patent application received by the Intellectual Property Office on 10/01/2014.
    Whereas for patent applications falling within the scope of Title 1, Book XI of the Code of Economic Law (hereinafter CDE), in accordance with article XI. 19, §4, paragraph 2, of the CDE, if the patent application has been the subject of a search report mentioning a lack of unity of invention within the meaning of the §ler of article XI.19 cited above and in the event that the applicant does not limit or file a divisional application in accordance with the results of the search report, the granted patent will be limited to the claims for which the search report has been drawn up.
    Stopped :
    First article. - It is issued to
    TESSENDERLO GROUP NV / SA, Rue du Trône 130, 1050 BRUXELLES Belgium;
    represented by
    DE BAAT Michiel, Justitiestraat 53, 2018, ANTWERPEN;
    a Belgian invention patent with a duration of 20 years, subject to payment of the annual fees referred to in article XI.48, §1 of the Code of Economic Law, for: FERTILIZER FOR FOLIARY USE.
    INVENTOR (S):
    MARCHAND Michel, Rue du Trône 130, 1050, BRUXELLES;
    WHITE Nicolas, Rue du Trône 130, 1050, BRUXELLES;
    LANDUYT Peter, Rue du Trône 130, 1050, BRUXELLES;
    LUTS Peter, Rue du Trône 130, 1050, BRUXELLES;
    PRIORITY (S):
    DIVISION:
    divided from the basic application: filing date of the basic application:
    Article 2. - This patent is granted without prior examination of the patentability of the invention, without guarantee of the merit of the invention or of the accuracy of the description thereof and at the risk and peril of the applicant (s) ( s).
    Brussels, 12/06/2018, By special delegation:
    BE 2014/0016
    2014/0016
    -1 FERTILIZER FOR FOLIAR USE
    BACKGROUND OF THE INVENTION
    Field of the invention
    The invention relates generally to fertilizers for foliar use, and more particularly to potassium sulfate fertilizers for foliar use.
    Description of the Prior Art
    Fertilizers have been used for a long time. Generally, the soil provides the essential components such as nitrogen (urea, nitrate), phosphorus (phosphate), potassium (in the form of salt), sulfur (sulfate or sulfite) or through organic fertilizers. It has become obvious that applying fertilizer to the leaves of plants can be beneficial because the components can be absorbed directly by the plant. These fertilizers are dissolved in water and applied by spraying.
    Brief summary of the invention
    An object of the invention is to provide an improved fertilizer for foliar application, which is particularly suitable for application to large-scale crops.
    Another object of the invention is to improve the use of fertilizer.
    This object is achieved by providing a potassium sulfate powder in which about 80% by weight or more of the powder has a particle size of about 0.2 mm or less, preferably about 0.13 mm or lower. The particle size is preferably such that about 80% by weight or more is about 0.02mm or larger in size, more preferably about 0.04mm or larger. The powder preferably has an apparent density (in bulk) of around 1.44 and compacted of around 1.10.
    This object is further achieved by a method comprising applying a potassium sulfate powder, wherein about 80% by weight or more of the powder has a particle size of about 0.2 mm and less and in which powder is dissolved in water, on crops and preferably, large-scale crops.
    2014/0016
    BE 2014/0016
    -2This object is further achieved by a potassium sulfate powder in which about 80% by weight or more of the powder has a particle size of about 0.2 mm or less and said powder dissolves easily in water , more particularly so that 50 grams of said potassium sulphate powder dissolve in 1 liter of water without stirring in 1 minute, preferably in 30 sec.
    This object is further achieved by a method of improving the yield of the culture, in which the potassium sulphate powder is dissolved in water, in which about 80% by weight or more of the potassium sulphate powder has a particle size of 0.2 mm or less, and in which the powder is dissolved in water in equipment which does not require mechanical stirring means, after which the solution is applied to said culture.
    The other object is achieved by applying a potassium foliar fertilizer to a crop that has received a potassium fertilizer applied to the soil or a crop that has grown in soil with high natural potassium levels. Unexpectedly, the potassium fertilizer applied to the foliar level leads to an increase in the plant's absorption of potassium from the soil in each of these two cases.
    We know the potassium sulphate fertilizer for foliar use and it is used for example for tobacco, vegetables and fruits. Foliar application for large-scale crops such as tubers or root crops such as potatoes or sugar beet; cereals such as corn, rice, wheat, barley, grains and the like; or oil crops such as soybeans, sunflowers, rapeseed or peanuts; or other crops such as clover, cotton or mustard and other crops, is not common. This is mainly explained by the difficulties of mechanization of the foliar application. However, mechanization in other applications can also cause problems.
    The present potassium sulfate powder, however, has a very high dissolution rate and is easily wettable, and therefore is completely soluble without mechanical agitation. In addition, the preferred powder has more than 90% by weight of the powder which has a size of 0.025 mm or greater. This is very advantageous to avoid dust, and agglomerates. Therefore, this potassium sulfate allows a fully mechanical application in existing systems.
    BE 2014/0016
    2014/0016
    -3Description of the drawings
    The characteristics and advantages of the invention will be understood with reference to the following drawings, in which:
    Figure 1 shows the dissolution of the potassium sulfate powder of the invention, compared to a commercially available potassium nitrate without stirring.
    Figure 2 shows the speed of dissolution with agitation.
    Potassium nitrate is considered to be the best quality of potassium available and the most readily soluble for foliar application. However, the comparison represented in FIGS. 1A to 1D shows that, without stirring, the potassium sulphate according to the invention dissolves faster than potassium nitrate and in fact dissolves completely. The images were taken at the time of addition of potassium sulfate or potassium nitrate to water, after 2 sec, 13 sec and 31 sec respectively. Unlike the potassium sulfate according to the invention, the potassium nitrate did not completely dissolve without stirring.
    In another experiment presented in Figure 2, the applicants compared the dissolution rates of the newly invented potassium sulfate powder with commercially available potassium nitrate, with stirring. It appeared that with stirring, the two products dissolve at an equal speed.
    A distinct advantage of the potassium fertilizer according to the present invention is that the product dissolves even without agitation. This is important because many of the many large spraying equipment for tractors, used for example in large-scale crops do not include agitation means because these devices are designed for the application of liquid compounds, such as (solutions de) pesticides and fungicides. Other applications such as on vegetables or fruits such as low fruit trees or vines can also use equipment without means of agitation. Also for these applications, treatment mechanisms can be optimized with the potassium fertilizer of the present invention. Potassium sulfate for foliar application is also available in solution. However,
    BE 2014/0016
    2014/0016. 4.
    The special advantage of using this dissolved fertilizer is that a large part of the product is water which has to be transported and paid for, which has negative repercussions on treatment costs.
    Description of illustrative embodiments
    Some embodiments of the invention will be described below, by way of example only and with reference to the examples.
    The potassium sulfate of the present invention may have an average amount of potassium, calculated as K2O, of about 48% by weight or more, preferably about 50% by weight or more and even more preferably , about 51% by weight or more. Generally, the amount of potassium calculated as K2O will be about 55% by weight or less, preferably about 53% by weight or less.
    The potassium sulfate of the present invention may have an amount of sulfur, calculated as SO4, of about 54% by weight or more, preferably about 55% by weight or more. Generally, the amount of sulfur calculated as SO4 will be about 60% by weight or less, preferably about 58% by weight or less.
    The amount of chloride in the potassium sulfate of the present invention can generally be about 3% by weight or less, preferably about 1% by weight or less and more preferably about 0.5 % by weight or less. Higher amounts of chloride can cause leaf scorch, which should not be allowed.
    The potassium sulfate powder according to the invention is a powder in which about 80% by weight or more of the powder has a particle size of about 0.2 mm or less, preferably 0.13 mm or less. The potassium sulfate powder according to the invention is preferably a powder in which about 90% by weight or more of the powder has a particle size of about 0.2 mm or less, preferably 0.13 mm or lower. The potassium sulphate powder according to the invention is more preferably a powder in which about 95% by weight or more, even more preferably about 98% or more of the powder has a particle size of about 0.2 mm or less, preferably 0.13 mm or less.
    BE 2014/0016
    2014/0016
    The potassium sulphate powder according to the invention is preferably a powder in which approximately 80% by weight or more of the powder has a particle size of approximately 0.02 mm or more, preferably of approximately 0, 04 mm or more. More preferably, the amount is about 90% or more of a particle size of
    0.02mm or greater, preferably 0.04mm or greater.
    Preferably about 10% by weight or less, more preferably about 5% by weight or less of potassium sulfate is less than 0.045 mm in size.
    Preferably about 15% by weight or less, and more preferably about 10% by weight or less, and even more preferably about 5% by weight or less of the powder is 0.125mm in size.
    Preferably, about 0.5% by weight or less is about 0.3mm in size or less.
    Preferably, the potassium sulfate powder of the invention has an apparent density (in bulk) of about 1.44 and compacted of about 1.10.
    Preferably, the angle of rest is about 35 degrees.
    The potassium sulphate powder according to the present invention preferably conforms to the above characteristics in combination, and those skilled in the art will understand that selections of larger and smaller sizes can be combined, and that these can be combined with other characteristics as described in the present patent application.
    This potassium sulphate powder can be prepared by grinding and sieving the potassium sulphate. As the raw material, potassium sulphate known in the field of fertilizers can be used.
    Preferably, the pH of the solution of a 1% by weight solution is about 5 or lower, preferably about 4 or lower, and most preferably about 3.5 or lower. Generally, the pH will be about 2 or higher, preferably about 2.5 or higher. A slightly acidic solution is an advantage because the dissolution rate is increased compared to a potassium sulphate which dissolves at a pH of around 5 or higher. Likewise, a slightly acidic solution prevents the equipment from blocking and has a cleaning effect on it. The acidity can be
    BE 2014/0016
    2014/0016
    -6 obtained by having an acid component in the powder such as potassium hydrogen sulphate, citric acid, potassium dihydrogen sulphate and others;
    The dissolution rate of the potassium sulfate of the present invention is higher than that of the best industrial potassium which is potassium nitrate, in the case where the water is not stirred. With agitation, the rate of dissolution of the presently invented potassium sulfate is about the same as that of potassium nitrate. The dissolving speed without mechanical agitation is a distinct advantage since most spraying equipment used on tractors does not contain agitation means and it is important that all the fertilizer dissolves, both for reliable application and to prevent fouling of the spray nozzles.
    In a preferred embodiment of the invention, a spraying solution is prepared by filling the main tanks of a spraying device with 50 to 80% of water, adding the potassium sulfate according to the invention, and addition by adding water to fill the tank to about 100% of the required amount.
    Foliar spraying will generally be applied at a rate of about 0.4% by weight of potassium sulfate solution (which is about 4 to about 110g / l), although other amounts are possible. For example, preferred amounts include about 1%, 2%, 3%, 4%, 5% or 6% by weight, assuming the amount of water per hectare is 300 L / ha (i.e. about 32 gal / acre). In the case where lower quantities of water have to be used, such as for example 100 l / ha, or 2001 / ha, the concentrations can be higher, such as for example up to 6%,% or 10%, or even 11%, although amounts less than 8% are preferred. The solubility of potassium sulfate in water at 20 ° C is 129 g / Ί. Therefore, preferably, the amount used is about 120 g / l or less. It appears that the potassium sulphate according to the invention dissolves quickly, even if the concentrations are used at a level close to the maximum solubility.
    The potassium sulfate according to the invention can be applied in an amount of about 0.8 kg or more per acre per application (or about 2 kg or more per hectare per application).
    BE 2014/0016
    2014/0016
    In a preferred embodiment, the amount applied per acre is approximately
    1.2 kg per acre, preferably 2 kg / acre or more per application (approximately 3, respectively 5 kg or more per hectare per application)
    The potassium sulfate according to the invention can be applied in an amount of about 10 kg or less per acre per application (or about 25 kg or less per hectare per application).
    In a preferred embodiment, the amount applied per acre is about 8 kg or less per acre per application (i.e., about 20 kg or less per hectare per application).
    Optimal amounts of potassium sulfate according to the invention will depend on the specific crop, and include foliar application of about 5, about 8, about 10, about 12, about 15, about 18 or about 20 kg / ha / application.
    The potassium sulphate will be dissolved in water in appropriate amounts to obtain the amounts per acre described above. The actual concentration will depend on the amount of liquid that will be applied by the operator on his crops. Appropriate amounts of water per acre on large-scale crops include between about 10 and about 40 gal / acre (about 40-160 L / acre, which is about 100-400 L / ha). To apply appropriate amounts of potassium sulfate according to the present invention, the concentration is preferably between about 1% by weight and about 10% by weight.
    The water source is not limited and may be well water, river water, rain water, tap water or the like. The water to be used will preferably not have a high calcium concentration, since calcium sulphate (gypsum) can precipitate. The allowable amount of calcium will depend on the concentration of potassium sulfate desired in the foliar spray.
    The potassium sulfate according to the present invention can be applied once, twice, three times, four times or more often during the growth of the crop as a foliar application. Generally, one, two, or three applications will be adequate to significantly improve the yield per acre.
    BE 2014/0016
    2014/0016
    In a preferred embodiment, a potassium foliar fertilizer is applied to a crop for which the soil is well fertilized or for which the soil is naturally rich in potassium.
    In a preferred embodiment, the potassium fertilizer is applied according to the preferences described above, in combination with soil fertilization, the soil being fertilized at the rate of at least 40 kg / ha potassium (in the form of K2O ), preferably at least 100 kg / ha potassium (in the form of K2O).
    The soil fertilizer can be a powdery, granular, water-soluble or liquid fertilizer.
    Preferably, the amount of potassium in the soil for a particular crop is close to the maximum desirable amount.
    The invention therefore also relates to a method for the combined application of fertilizers, in which an amount of potassium fertilizer for the soil is applied, said amount being such that about 70% or more, preferably about 80%. or more than the maximum recommended amount is applied, in combination with a foliar potassium fertilizer in amounts as described above. Most preferably, the foliar fertilizer of the invention having a high dissolution rate is used.
    In a preferred embodiment, the application of potassium sulfate according to the present invention is combined with the application of a growth regulator or a pesticide such as an insecticide or a fungicide. The growth regulator or the pesticide can be tested beforehand, to check compatibility with the potassium sulphate solution. In particular, this other compound must not include calcium.
    In a preferred embodiment, potassium sulfate is applied as a foliar application at appropriate times during the growth of the crop. Preferably, these suitable times are towards the beginning of flowering, the beginning of the formation of tubers of the root crops, during periods of strong growth, for example after the formation of 4 corn leaves, and the like.
    Large-scale crops include tubers or root crops such as potatoes and sugar beet; cereals such
    BE 2014/0016
    2014/0016
    -9that corn, rice, wheat, barley, grains and others; or oil crops such as soybeans, sunflowers, rapeseed or peanuts; or other crops such as clover, mustard or cotton and other crops.
    Large-scale crops should be distinguished from those of vegetables such as onions or carrots, fruit trees such as oranges, tangerines, olives or others. The potassium sulphate according to the invention is also very suitable for application to these crops, but, depending on the equipment used, the foliar fertilizers currently available are quite suitable for these applications. However, the advantageous properties of the potassium sulphate presently invented will also be useful for application to these other crops, in particular if spraying equipment is used which does not include mechanical stirring means.
    In a preferred embodiment of the invention, the potassium sulfate according to the invention is applied to potatoes or sugar beets.
    In another preferred embodiment of the invention, the potassium sulphate according to the invention is applied to corn, wheat, rice or barley.
    In another preferred embodiment of the invention, the potassium sulfate according to the invention is applied to soybeans, sunflowers, rapeseed or peanuts.
    In another preferred embodiment of the invention, the potassium sulphate according to the invention is applied to clover, mustard or cotton.
    In another embodiment, the potassium sulfate of the present invention is applied to vegetables such as beans or tomatoes.
    In another embodiment of the invention, the potassium sulfate according to the invention is applied to tobacco.
    In another embodiment, the potassium sulfate of the present invention is applied to fruit crops such as avocados, bananas, citrus fruits, grapes, pineapples, pome fruits or stone fruits, strawberries and others.
    In the case where potassium sulphate is applied more than once, another application is preferably carried out between approximately 7 days up to approximately 20 days
    BE 2014/0016
    2014/0016
    -10 since the last application but can also be done up to approximately 30 days after the application of the last application or even longer after.
    Other modifications in addition to those described above can also be made to the structures and techniques described here without departing from the spirit and the scope of the invention. Consequently, although specific embodiments have been described, these are only examples and do not limit the scope of the invention.
    Examples 10 Example 1
    A spray unit for a tractor of approximately 1 metric ton of volume is filled with approximately 600 liters of water from a rainwater tank. A fungicide was added, and 40 kg of potassium sulphate powder having the characteristics shown in Table 1. After 1 min, practically all of the potassium sulphate had dissolved. Over an additional 3 min, another 300 L of water was added, which created some turbulence in the tank of the spray unit. All of the potassium sulfate dissolved when the tank was filled. Spraying the solution through the nozzles was easy; no blockage was observed. After the end of the application, the nozzles which appeared clean were checked.
    Table 1: characteristics of the potassium sulphate powder used in the examples, for three batches
    Feature Value Value Value K 2 O (%) 52 Same Same SO 4 (%) 56 Same Same Cl (%) 0.3 Same Same Particle size analysis ; > 0.125 mm (%) 10 3 5 Particle size analysis ; > 0.063 mm (%) 65 60 62 Particle size analysis ; <0.063 mm (%) 35 40 38 Particle size analysis ; <0.045 mm (%) 5 8 10 Bulk density 1.44 Same Same
    BE 2014/0016
    2014/0016
    Bulk density (compacted) 1.10 Same Same Rest angle 35 Same Same pH of a 1% by weight solution 2.9 Same Same
    Example 2, wheat
    Two experiments are carried out with wheat. One site was in Mercedes, province of Corrientes (29 ° 12’S, 58 ° 01’W). The other site was in Crespo, Entre Rios province (32 ° 05’S, 60 ° 25’W). Both sites had little K available in the soil. The agronomic characteristics of the trials are presented in Table 2.
    The sites were in divided plots on which the application of KC1 during sowing was a first factor (0 and 40 kg K ^ O / ha) and the spraying rates were a second factor (0, 5, 7.5 and 10 kg of K-LeaEha). Foliar potassium sulfate was applied twice, during stem growth (level 3 of the Zadock scale) and at the earing stages (level 4 of the Zadock scale).
    All sprays are carried out under moderate weather conditions relating to temperature, winds and relative humidity.
    Table 2. Agronomic characteristics and data on experience management
    Site Variety/Density Seeding ^ erasprayfoliar ^ etciesprayfoliar Applicationfertilizerkg / ha Crespo,Between Rios Tauro/ 120 July 15th August 25 September 30 55-42-0 Exp.St. Mercedes,Corrientes Chaja/ 160 June 20 September 5 September 27 46-46-0
    The treatment scheme and the results (in kg / ha) are presented in the table
    3.
    Table 3. Means of treatment and summary of results for wheat yields at the sites
    BE 2014/0016
    2014/0016
    Experience Foliar application of SOP * toZadock's stadium 3 - 4 Application of K 2 O during planting YieldCrespo YieldMercedes kg ha ' 1 kg ha ' 1 kg ha ' 1 kg ha ' 1 AT 0 0 3,580 3,004 1 5 0 3,900 3,013 2 7.5 0 4,120 3,053 3 10 0 4,290 3,260 B. 0 40 3,720 2,854 4 5 40 4150 3,073 5 7.5 40 4330 3,080 6 10 40 4,810 3,367
    * SOP is potassium sulphate, potassium sulphate
    The results at the Crespo site were clearly better with foliar fertilizer than without it. The Mercedes site presented less obvious results. In all cases, the application was easy and the speed of dissolution perfect.
    Example 3, corn
    Corn has been treated, cultivated in France, in Onesse and Laharie; the variety was ES Zoom and it was sown on May 3 at a density of 85,000 g / ha. The initial fertilization was 300 kg / ha 11-23-23, and a solution of 600 1 / ha was applied (N-P-K: 267-69-69).
    The plots were well irrigated. The results are presented in the last column (at a humidity of 15%) in Table 4.
    Table 4
    Number 2-3 sheets 4-6 sheets 7-8 sheets Results(ton / ha) 1 No treatment 15.2 2 6 kg / ha 15.4 3 12 kg / ha 15.8 4 6 kg / ha 15.7 5 12 kg / ha 15.9
    BE 2014/0016
    2014/0016
    6 6 kg / ha 15.3 7 12 kg / ha 15.4
    The potassium sulphate foliar treatments were applied with a spray arm ensuring a spraying of 2.4 m in length. The quantity prepared for spraying was 150 l / ha. No problems were noted with the closure of the spray nozzles (TeeJet XR110, hose with pin). The solubility was rapid and complete and did not cause any problems even at 10% (100 g / i).
    The results show an increase in yield, although not significant, since the soil had been well fertilized. In a subsequent experiment, the treatment will be continued at the 2-3 leaf stage with 6 kg / ha of potassium sulfate, and a growth regulator; and at the 4-6 leaf stage with insecticide. Treatments with additional compounds are standard treatments at these times, and the addition of potassium sulfate results in low labor costs.
    Example 4, beans
    The test was designed to assess potassium sulfate on a bean crop. The trial was conducted in the north of France at Caix (80170) on an Angara variety. The soil type was clay. The beans were planted on 07/18/2012 in a second crop (after peas). The planting depth was 2 cm.
    The first application of potassium sulphate was made shortly before flowering. The second application was made 29 days later (end of flowering of the crop). The spray volume was 300 L / ha. The harvest was carried out 6 weeks later in good conditions.
    No symptoms of necrosis, chlorosis, growth retardation or thinning of the crop were observed regardless of the date of assessment. Therefore, the potassium sulfate product was perfectly safe for cultivation. Nor was there any effect of potassium sulfate on the vigor of the crop regardless of the rate used and the number of applications.
    BE 2014/0016
    2014/0016
    -14 On the untreated plots, the yield was quite good: 17.9 t / ha.
    The use of potassium sulphate applications increased the yield from 1.4 t / ha to 2.6 t / ha. The first application (before flowering) resulted in better improvement than the last application (after flowering).
    Example 5, soy
    The sites were Peyrano, province of Santa Fe (33 ° 34’S, 60 ° 49’W) and Ocampo, province of Buenos Aires (33 ° 48’S, 60 ° 42’W). The experiment included four (4) treatments as foliar sprays of potassium sulfate (0-0-50-18S): 0,
    5, 7.5 and 10 kg / ha, applied at the growth stages of the start of flowering (R3) and the start of the formation of soybean pods (R5). The period between the two applications was approximately 20 days. The treatments were received according to a random plan with five reproductions. No problem of dissolution of potassium sulfate was observed despite mechanical treatment.
    The results are summarized in Table 5; the yield is given in kg per hectare of soybeans.
    Table 5
    Treatment Results in Ocampo Results in Peyrano No 3,550 3,523 5 kg / ha 3,716 3,933 7.5 kg / ha 3,629 4,142 10 kg / ha 3,812 3,895
    Example 6, wheat
    A series of experiments was carried out at three different sites in the Sinai Peninsula, Egypt, to assess the effect of potassium levels and the application process
    BE 2014/0016
    2014/0016
    -15 on growth and yield parameters and mineral content of wheat (Triticumaestivum, L) Cultivar Sakha -93. The experimental sites were:
    1- Wadisuder, south of the Sinai peninsula, which is irrigated with well water.
    2- El-Taqadom area, center of the Sinai peninsula, which is irrigated with fresh Nile water from the Sarbum canal.
    3- Village of Galbana, plain of El-Tina, south of the Sinai peninsula, which is irrigated by the El-salam canal which is mixed water from the Nile and drainage from agriculture.
    Eight fertilizer treatments were tested in this study. The treatments were:
    1- Control (0.0 application of K).
    2- 1% K2SO4, foliar sprays.
    3- 50 kg / K2O / application on the ground / feddan.
    4- 50 kg / K2O / application on the ground / feddan. + 1% K2SO4 in foliar sprays.
    5- 75 kg / K2O / application on the ground / feddan
    6- 75 kg / K2O / application on the ground / feddan + 1% K2SO4 in foliar sprays
    7- 100kg / k20 / ground application / feddan
    8- 100 kg / K2O / application to the soil / feddan + 1% K2SO4 in foliar sprays.
    Foliar sprays of potassium sulfate were repeated three times during tillering, first shoots and flowering. Nitrogen and phosphorus were applied to the soil as the operators do. With the exception of the El-Taqadom site, nitrogen was applied at a rate of 100 kg of nitrogen per feddan in the form of ammonium nitrate in three equal doses as the operators do. Phosphorus was applied at the rate of 30 kg P2O5 per feddan in the form of 15% superphosphate during the preparation of the soil before sowing. The experiments were defined according to a random plan with five reproductions. The area of each reproduction was 5 * 6 m = 30 m 2 . Wheat was sown at a 60 kg seeding rate by feddan and planted the last week of November. All of the recommended agronomic practices for wheat were performed as follows by growers in each region during the growing season. At the harvest stage, the agro-morphological characteristics were determined to be the
    BE 2014/0016
    2014/0016
    -16 height of plant (cm), length of spike (cm), number of spikelets / spikes, weight of
    1000 grains (g), number of ears / m 2 , biological yield (ton / fed) of grains and straw yield (ton / fed) and the data have been recorded in the tables (6-8 ).
    Table (6) shows the effect of potassium fertilizer on the yield parameters of wheat grown at WadiSuder, DRC South Experimental Station on the Sinai Peninsula
    Board6 Yields Numberoftreatmentnt Plant height / c m Number of ears / m 2 Numberofgrains / epis Weight of 1000 grain s (g) Contentingrain protein% Straw yield (t / fed) Grain / fed yield (t / fed) Indexofharvest% 1 75.1 216 30 38.5 11.56 2.56 1.68 0.396 2 78.3 220 35 40.1 11.81 2.85 1.88 0.397 3 78.5 222 35 41.3 12.44 2.99 1.95 0.396 4 80.6 232 40 44.3 12.63 3.06 2.03 0.399 5 84.3 256 42 46.5 13.13 3.39 2.25 0.399 6 90.5 270 42 47.9 13.38 3.66 2.40 0.396 7 91.0 272 42 50.0 14.06 3.67 2.41 0.396 8 91.5 274 43 50.2 14.06 3.68 2 „41 0.396
    Table (7) shows the effect of using potassium fertilizer on the 10 yield parameters of wheat grown in the El-Taqadom region.
    Table 7 Yields Numberoftreatment Height ofplant / cm Number of ears / m 2 Numberofgrains / ears Weightof1000grains(g) Contentinproteinofgrain% Straw yield (t / fed) Grain yield (t / fed) Indexofharvest% 1 85.6 225 39 43.5 10.81 3.47 2.31 0.996 2 86.3 228 40 45.1 11.13 3.93 2.60 0.398 3 87.5 229 40 46.3 11.37 4.12 2.68 0.394 4 90.1 252 44 48.7 12.19 4.28 2.85 0.400 5 94.3 276 45 50.1 13.75 4.55 3.00 0.397
    BE 2014/0016
    2014/0016
    6 96.5 290 45 51.6 13.75 4.68 3.11 0.399 7 96.7 292 44 51.1 14.38 4.61 3.00 0.394 8 96.0 294 44 52.2 14.38 4.60 2.95 0.391
    Table / 8). Effect of potassium fertilizer on the yield parameters of wheat grown in the ά'ΕΙ-Tina plain, northern Sinai Peninsula
    Board8 Yields Numberoftreatmentnt Plant height / c m Number of ears / m 2 Numberofgrains / epis Weight of 1000 grain s (g) Contentingrain protein% Straw yield (t / fed) Grain yield (t / fed) Indexofharvest% 1 80.2 232 42 42.3 11.20 3.43 2.10 0.3797 2 81.3 236 45 43.4 11.20 3.63 2.36 0.3940 3 82.6 236 45 43.9 11.56 3.82 2.39 0.3849 4 86.1 259 49 45.3 12.06 4.08 2.55 0.3846 5 88.8 283 53 48.5 13.13 4.42 2.76 0.3844 6 91.7 297 53 50.4 13.75 4.62 2.88 0.3840 7 91.7 299 54 51.1 13.75 4.37 2.75 0.3862 8 91.7 299 56 51.9 14.13 4.49 2.80 0.3841
    Example 8, potatoes
    On a potato crop, foliar potassium sulfate according to the invention was applied in several application schemes. Three or four times, the foliar fertilizer of the invention was applied. Both the yield and quality of the potatoes were increased by foliar fertilizer.
    The application diagram and the results are presented in Table 9 below;
    the days are the days after flowering:
    Table 9
    Experience Flowering +10 days +20 days +30 days Yieldinton / Ha Witness - - - - 53.0 Exp 1 2% 2% 2% - 56.3 Exp 2 4% 4% 4% - 62.2 Exp 3 2% 2% 2% 2% 67.0
    BE 2014/0016
    2014/0016
    -18Εχρ 4
    4%
    4%
    4%
    4%
    73.6
    Example 9, rapeseed in Poland
    Foliar potassium sulphate has been applied in several schemes to rapeseed. The application was made either at the rosette stage, at the bud stage or both, in various quantities. The soil has been fertilized with enough potassium. In addition, it was calculated to what extent the additional growth was based on potassium intake. It appeared that the growth was substantially higher in most cases, compared to what is possible on the basis of foliar spray alone. Therefore, in these cases, leaf spray resulted in additional uptake of potassium from the soil. The results are presented in Table 10.
    Table 10
    Application Productivity in MT / ha Difference in K2O used / ha Amount of potassium from leaf spray Amount of potassium in the soil Witness 4.59 - 2% at the rosette stage 5.18 8.81 5 3.81 4% at the rosette stage 5.30 10.68 10 0.68 2% at the bud stage 5.21 9.24 5 4.24 4% at the bud stage 5.57 14.67 10 4.67 2% at both stages 5.58 14.79 10 4.79 4% at both stages 5.96 20.64 20 0.64
    The effect described above was particularly unexpected. This allows a relatively low dose of foliar spray to be used to synergistically enhance the absorption of potassium from the soil.
    Example 10: sugar beet in Morocco
    The soil was fertilized with 186 kg of nitrogen per hectare, 138 kg P2O5 per hectare and
    140 kg K2O per hectare. This was a control treatment. In addition, one to three foliar spray applications were made at the rate of 10.4 kg per hectare
    BE 2014/0016
    2014/0016
    -19for all crops and depending on the test, one or two additional sprays were carried out at a rate of 7.8 kg / ha. The sprays were carried out at 120 days, 142 days and 171 days after planting. The results are presented in Table 11.
    Table 11
    Application Productivity in MT per ba Sugar productivity per ha Difference in productivity compared to K of foliar fertilizer Difference in productivity with respect to K of the soil Witness 81.5 14.8 - - Aspray 89.9 16.8 10.4 31.6 Of themsprays 88.4 15.9 18.2 16.3 Threesprays 96.4 18.4 26.0 48.5
    Conclusion
    The examples are purely illustrative but the tests show that the foliar application of potassium sulfate according to the invention does not pose problems even in fully mechanized systems, without mechanical agitation. In addition, the examples show that applying foliar potassium fertilizer enhances the plant's ability to use potassium from the soil, thereby increasing the effectiveness of foliar spraying.
    BE 2014/0016
    2014/0016
    权利要求:
    Claims (8)
    [1]
    1. Potassium sulfate powder in which about 80% by weight or more of the powder has a particle size of about 0.2 mm or less and in which about 80% by weight or more of the potassium sulfate powder has a particle size of about 0.02 rom or greater, preferably, in which about 95% by weight or more of the powder has a particle size of about 0.2 mm or less and in which about 95% by weight or more of the potassium sulfate powder has a particle size of about 0.02 mm or greater.
    [2]
    2. Potassium sulfate powder according to claim 1, wherein a 1% by weight solution of the potassium sulfate powder has a pH of about 4 or less.
    [3]
    3. potassium sulfate powder according to any one of claims 1 to 2, the potassium sulfate powder dissolving easily in water, so that 50 grams of said potassium sulfate powder dissolve in 1 liter of water without agitation in about 1 minute or less.
    [4]
    4. Method for improving the yield of a culture, in which the potassium sulphate powder dissolved in water is applied to said culture as a foliar application, in which said potassium sulphate powder is a sulphate powder potassium in which about 80% by weight or more of the powder has a particle size of about 0.2 mm or less, or preferably a potassium sulfate powder according to any of claims 1 to 3.
    [5]
    5. A method of improving the yield of a culture according to claim 4, wherein said culture is a large-scale culture, wherein preferably said large-scale culture
    at. is chosen from root crops or tubers selected from sugar beet or potato; and or,
    b. is a cereal chosen from corn, wheat, rice, grains and barley; and or,
    vs. is an oil crop chosen from soybeans, sunflowers, rapeseed or peanuts; and or,
    d. is a crop of clover, cotton or mustard.
    BE 2014/0016
    2014/0016
    -216. A method according to any of claims 4 to 5, wherein the potassium sulfate is applied in an amount of about 1.2 kg or more per acre per application (i.e. about 3 kg or more per hectare per application) and an amount of about 10 kg or less per acre per application (or about 25 kg or less per hectare per application) and in which potassium sulfate is preferably applied once, twice or three times or more often during growth of the culture, more preferably, in the case where the potassium sulphate is applied more than once, another application is carried out between 7 days to approximately 20 days since the first application.
    [6]
    7. Method according to any one of claims 4 to 6, in which the potassium sulphate powder is dissolved in water in an equipment which does not require mechanical stirring means, after which the solution is applied to said culture, said potassium sulfate powder being a potassium sulfate powder in which about 80% by weight or more of the powder has a particle size of about 0.2 mm or less, preferably, wherein said solution is prepared by filling the main tanks of a sprayer 50-80% with water, adding potassium sulphate and additionally adding water to fill the tank approximately 100% with the quantity required.
    [7]
    8. Method for improving the yield of a crop, in which a potassium foliar fertilizer is applied to a crop, preferably according to the process according to any one of claims 4 to 7, for which the soil has a nutritive rate in high potassium, so that the potassium fertilizer applied to the foliar level causes an increase in the absorption by the plant of potassium from the soil, preferably the foliar fertilizer according to any one of claims 1 to 3 being used.
    [8]
    9. The method of claim 8, wherein the potassium fertilizer is used both on the soil and in foliar application, to obtain additional absorption from the soil by foliar application, preferably, in which a combined application of fertilizer is used, in which an amount of potassium fertilizer for the soil is applied, said amount being such that about 70% or more of the maximum desirable amount is applied, in combination with a foliar potassium fertilizer in amounts as described in claim 6.
    2014/0016
    BE 2014/0016
    -2210. Method according to Claim 9, in which the foliar potassium fertilizer is applied according to any one of Claims 6 to 7, in combination with soil fertilization, the soil being fertilized with at least 40 kg / ha of potassium (under form of K 2 O).
    -23BE 2014/0016
    2014/0016
    类似技术:
    公开号 | 公开日 | 专利标题
    AU2012240117C1|2017-01-19|Potassium sulfite/potassium bisulfite | liquid as starter, side-dress, broadcast, foliar and fertigation fertilizers
    FR2904309A1|2008-02-01|NOVEL FUNGAL INOCULA COMPOSITIONS, PROCESS FOR THEIR PREPARATION AND THEIR APPLICATION TO IMPROVING CROP GROWTH
    US20170066696A1|2017-03-09|Biochar and Fly Ash Germination Accelerant System
    AU2020257027A1|2020-11-12|Field application of sugars to increase crop yield
    BE1024738B1|2018-06-12|FERTILIZER FOR FOLIAR USE
    Lemaga et al.2001|Effect of soil amendments on bacterial wilt incidence and yield of potatoes in southwestern Uganda
    Dhillon et al.2011|Effect of nitrogen, phosphorus and potassium fertilization on growth, yield and quality of pomegranate'Kandhari'
    JP3639456B2|2005-04-20|Plant growth promoter and fertilizer using the plant growth promoter
    FR2812631A1|2002-02-08|Foliar fertilizer composition containing vegetable material, algal cream and bacteria, having beneficial effects on the leaves, roots and soil, and useful for increasing crop yields
    WO2019189546A1|2019-10-03|Agricultural composition
    Nemeata Alla et al.2018|Effect of potassium humate and nitrogen fertilization on yield and quality of sugar beet in sandy soil
    RU2195098C2|2002-12-27|Method for preplanting treatment of potato tubers
    EP0884293A1|1998-12-16|Fertiliser compositions containing natural or synthetic aminopurine derivatives or seaweed extracts containing these products together with a calcium source
    RU2201669C2|2003-04-10|Method for preparing fertile medium for planting pots and seedling vessels-containers, planting pot and seedling vessel-container
    US20220055963A1|2022-02-24|Fertilizer containing a seed grind and a method of using the fertilizer to enhance plant growth
    US20210323883A1|2021-10-21|Fertilizer and plant growth promoter to increase plant yield and method of increasing plant yield
    EP3936494A1|2022-01-12|Biostimulant composition
    RU2357391C1|2009-06-10|Method of table beet cultivation in irrigated farming
    WO2015172238A1|2015-11-19|Liquid fertilizer compositions comprising an auxin. corresponding preparation methods and uses
    WO2000073244A1|2000-12-07|Biologically active fertiliser composition
    Stipešević et al.2008|The economic sustainability of second crops implementation in organic maize production
    AU2020251027A1|2021-10-14|Super absorbent polymer and a method of increasing sugar content in plants
    EA037314B1|2021-03-10|Fertilizer based on calcium polysulfide and method for crop plants treatment using said fertilizer
    Abdou et al.2014|EVALUATION OF SOME MICRONUTRIENTS ROLE ON SUGAR BEET PRODUCTIVITY AND QUALITY
    JP2019043908A|2019-03-22|Plant yield improver
    同族专利:
    公开号 | 公开日
    FR3000741B1|2020-01-10|
    FR3000741A1|2014-07-11|
    NL2011358C2|2014-11-13|
    US20140190227A1|2014-07-10|
    US8968696B2|2015-03-03|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3519413A|1964-07-24|1970-07-07|Potasse & Engrais Chimiques|Stable high-analysis suspension-type fertilizers|
    US3687639A|1970-05-25|1972-08-29|Int Minerals & Chem Corp|Production of finely divided potassium sulfate crystals|
    US3853490A|1973-01-22|1974-12-10|Int Minerals & Chem Corp|Granulation of potassium sulfate|
    US5298050A|1992-10-09|1994-03-29|Great Salt Lake Minerals Corporation|High water solubility potassium sulfate and method of producing same|
    WO1995028369A1|1994-04-15|1995-10-26|Kemira Agro Oy|A suspension fertilizer suitable for irrigation fertilization, and a process for its preparation|
    WO1999054028A1|1998-04-17|1999-10-28|Airborne Industrial Minerals Inc.|Wet granulation method for generating granules|
    US6365122B1|1998-06-22|2002-04-02|William J. Rigby|Process for manufacturing potassium sulfate fertilizer and other metal sulfates|
    US1446185A|1922-03-20|1923-02-20|Horst Camille|Process for the production of potassium sulphate|
    US3395980A|1963-03-21|1968-08-06|Int Minerals & Chem Corp|Production of potassium sulfate|
    US4491464A|1983-05-17|1985-01-01|Ashmead H H|Potassium polyphosphate protein hydrolysate fertilizer|
    JPH11302141A|1998-04-21|1999-11-02|Lion Corp|Toothpaste composition|
    US20040035162A1|1999-02-05|2004-02-26|Williams Richard Henry|Fertiliser|
    WO2000076941A1|1999-06-14|2000-12-21|Chemgrow|Phosphorus and potassium fertilizer for all forms of perennial trees, vines, and annual crops|
    WO2005028400A1|2003-09-22|2005-03-31|Agri-Tech International Pty Ltd|Fertiliser and fungicide composition and method|
    JP4668858B2|2006-07-05|2011-04-13|赤穂化成株式会社|Salt suitable for solvent salt milling|
    EP2693868B1|2011-04-05|2017-05-17|Tessenderlo Kerley, Inc.|Potassium sulfite/potassium bisulfite liquid as fertilizers|EP3428139A1|2017-07-11|2019-01-16|Tessenderlo Group NV/SA|Fertilizer for foliar use or fertigation|
    CN110540460A|2019-09-03|2019-12-06|新疆中沃化工有限公司|foliar fertilizer for cotton bud and boll shedding prevention and premature senility prevention and preparation method thereof|
    法律状态:
    2018-08-24| FG| Patent granted|Effective date: 20180612 |
    优先权:
    申请号 | 申请日 | 专利标题
    US201361751016P| true| 2013-01-10|2013-01-10|
    US61751016|2013-01-10|
    [返回顶部]