Controlled release urea-formaldehyde liquid fertilizer...

Chemistry: fertilizers – Processes and products – Organic material-containing

Reexamination Certificate

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C071S064100

Reexamination Certificate

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06306194

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the invention
The invention relates to a controlled release liquid urea-formaldehyde fertilizer which has a nitrogen level greater than about 31%.
2. Description of Related Art
Urea-formaldehyde based liquid fertilizers have been used for some time to provide nitrogen to the soil. It is desirable that such fertilizers be stable and provide a steady, evenly supplied, amount of nitrogen.
In the past, long term stability of high nitrogen (around 30%) liquid urea-formaldehyde fertilizers was achieved by forming either a high percentage (more than 30%) of cyclic triazone structures or by condensing the urea-formaldehyde resin into small urea-formaldehyde polymer chains.
Several patents issued to Hawkins describe the preparation of urea-formaldehyde resins having high triazone contents. U.S. Pat. No. 4,554,005 describes a reaction that produces at least about 30% triazone and has a preferred urea, formaldehyde, ammonia ratio of 1.2/1.0/0.28. U.S. Pat. No. 4,599,102 describes a reaction that produces at least about 30% triazone and has a urea, formaldehyde, ammonia ratio of 1.2/1.0/0.5. Both of these resins have a high percentage of ammonia. U.S. Pat. No. 4,776,879 describes a reaction that produces at least about 75% triazone in water insoluble forms. This material is then crystallized out and redissolved at low solids levels for use. U.S. Pat. No. 4,778,510 describes a reaction that produces at least about 48% triazone. Nitrogen release from triazone is extremely slow, therefore, methylolated urea is preferred. The nitrogen is the useful part of the fertilizer to the plant and thus the higher the % of nitrogen, the more efficient the fertilizer.
Other patents describe condensing the resin into small chains. U.S. Pat. No. 4,781,749 to Moore reacts 1.5 to 2.5 mols formaldehyde per mole of urea in the presence of ammonium compounds such as ammonia. This initial mole ratio is below the initial mole ratio of 5 to 4 mols formaldehyde per mole of urea of the present invention. The pH is maintained at near neutral conditions (6.9-8.5) throughout the reaction. Condensed UF chains have lower solubility than methylolated ureas and could continue to advance, leading to extremely slow release.
U.S. Pat. No. 3,970,625 to Moore et al. describes a process for preparing urea-formaldehyde concentrates for use as slow release fertilizers or as adhesives. Urea and formaldehyde are mixed in a molar ratio of 1/4.4-7.3 with no more than 0.015 wt. % of ammonia present in the urea. The pH is adjusted to 8.8-9.5 and the mixture is heated to 50-60° C. for 30-60 minutes. Thereafter, water is removed by distillation under reduced pressure until solids comprise 60-90% of the remaining residue. For producing fertilizers, the residue is heated for another 48 hours at a temperature of 45-50° C.
U.S. Pat. No. 5,449,394 to Moore relates to liquid non-polymeric controlled-release nitrogen plant food compositions containing the condensation products of one part ammonia, two parts urea and three parts formaldehyde at a base buffered pH slightly above 7. The reaction is accomplished at a temperature of about 100° C. for 30-300 minutes. Water may be removed by evaporation until the nitrogen content of the formulation is between 20 and 30%. The solution is cooled before polymerization producing chains of more than 3 urea moieties can occur.
It is desirable to have a method of making a stable urea-formaldehyde resin suitable for fertilizer use that uses significantly less triazone and no condensation, and has a higher nitrogen concentration.
SUMMARY OF THE INVENTION
The invention describes a method of making a stable urea-formaldehyde resin suitable for fertilizer use which uses significantly less triazone than the Hawkins' process and no condensation reaction like the Moore processes, has a high nitrogen concentration, and yet is very stable, for instance, for at least two months at 25° C.
In particular, the invention is directed to a urea-formaldehyde resin prepared by the method comprising:
1) combining formaldehyde, urea, and ammonia in a basic solution at a formaldehyde/urea/ammonia ratio of about 5.4-3.6/1/0.45-0.65;
2) heating the solution to about 85 to about 95° C., and holding to ensure triazone formation;
3) cooling the solution to less than about 50° C., and adjusting the pH to about 9.5 to about 10.5;
4) adding sufficient urea and ammonia to the solution to change the ratios to about 1.1-0.6/1/0.11-0.08;
5) reheating the solution to about 80° C. to about reflux, at a pH of between about 9 and about 11, for about 1 to about 2.5 hours; and
6) post charging urea to bring the mole ratio to about 0.9-0.6/1/0.1-0.08;
wherein the nitrogen content of the resin is at least about 31% based on 100% resin solids.
DETAILED DESCRIPTION OF THE INVENTION
The present invention is directed to a controlled release liquid urea formaldehyde fertilizer prepared from a solution prepared by the reaction of formaldehyde, urea, and ammonia and having a nitrogen level at least about 31% and a final mole ratio of formaldehyde:urea:ammonia of about 0.9-0.6:1:0.1-0.08.
In accordance with the process of the present invention:
1) Formaldehyde, urea, and ammonia are combined in a basic solution at a formaldehyde/urea/ammonia ratio of about 5.4-3.6/1/0.45-0.65, preferably about 5.0-4.0/1/0.5-0.6, and most preferably about 4.8/11/0.54. The pH level of the basic solution is preferably about 7.5 to about 9.5, more preferably about 8 to about 8.6.
2) The solution is heated to about 85 to about 95° C., preferably about 88 to about 92, and held for about 10 to about 30 minutes, preferably about 15 to about 20 minutes, to ensure triazone formation.
3) The solution is cooled to less than about 50° C., preferably about 35 to about 45, and the pH is adjusted to about 9.5 to about 10.5, preferably about 9.8 to about 10.4.
4) Sufficient urea and ammonia are added to the solution to change the ratios to about 1.1-0.6/1/0.11-0.08, preferably about 1-0.7/1/0.1-0.09, and most preferably about 0.7/1/.09.
5) The solution is reheated to about 80° C. to about reflux, preferably about 85 to about 95° C. at a pH of between about 9 and about 11, preferably about 9.5 to about 10.5 for about 1 to about 2.5 hours, preferably about 2 hours.
6) Urea is post charged to bring the mole ratio to 0.9-0.6/1/0.1-0.08.
The process of the invention provides triazone amounts of less than about 22 weight % based on 100% resin solids.
The pH may be maintained or adjusted by adding a compound, such as triethanolamine, borax, sodium or potassium bicarbonate, or sodium or potassium carbonate, preferably triethanolamine, at the start of the batch that will buffer the pH of the batch at the desired pH level. Alternatively, the pH may be maintained by any suitable base which is added during the reaction. While any base can be used to increase the pH of the reaction mix, preferably alkali metal hydroxides are used such as potassium hydroxide, lithium hydroxide, and sodium hydroxide.
Skilled practitioners recognize that the reactants are commercially available in many forms. Any form which can react with the other reactants and which does not introduce extraneous moieties deleterious to the desired reaction and reaction product can be used in the preparation of the urea-formaldehyde resin of the invention.
Formaldehyde is available in many forms. Paraform (solid, polymerized formaldehyde) and formalin solutions (aqueous solutions of formaldehyde, sometimes with methanol, in 37 percent, 44 percent, or 50 percent formaldehyde concentrations) are commonly used forms. Formaldehyde also is available as a gas. Any of these forms is suitable for use in the practice of the invention. Typically, formalin solutions are preferred as the formaldehyde source. In addition, formaldehyde may be substituted in part or in whole with substituted aldehydes such as acetaldehyde and or propylaldehyde. Glyxal may also be used in place of formaldehyde as may other aldehydes not listed. It is to be recognized that the aldehyde is dissolved (solubilized) in water or othe

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