TH1875B - 2-hydroxy-4-methylthiobutyric acid, liquid And the process for producing this material - Google Patents

Abstract

Process for preparing acids 2-hydroxy-4-methylthiobutyrate with better color, better odor and lower viscosity, 2- hydroxy-4-methyl-thiobuene acid. This tric is known as acid. 2-hydroxy-4- (methylthio) butanoic is also prepared by hydrolysis. 2-hydroxy-4-methylthiobutyronitril with sulfuric acid at initial concentrations of approximately 50% by weight to approximately 70% by weight when calculated from organic free parts. By this method, a solution of the product is a hydrolyzed medium dissolved in water which has 2-hydroxy-4-methylthiobutiramate with sulfuric acid at a concentration ranging from approximately 30% by weight to approximately 50% by weight. When considered from non-organic parts to produce hydrolyzed substances dissolved in water containing 2-hydroxy-4-methylthiobutyric acid as an element. The hydrolyzed solution is exposed to an organic solvent rated as water-free in the liquid-liquid extraction system to produce the extraction solution containing solvent with acid 2-hydroxy-4-methylthiobutyrate was transferred from the hydrolyzed substance, and the acidic yield was separated from the extracted part.

Claims (4)

1. Process for acid preparation 2- hydroxy-4-methylthio-butyrate with improved color And lower viscosity Which consists of the following steps: hydrolysis, 2-hydroxy-4-methylthiobutyronitril With sulfuric acid at a concentration starting from approximately 50% by weight to approximately 70% by weight when considered in such a way that it does not include organic matter, in this way a solution of the hydrolyzed product as an intermediate is produced in aqueous solvent containing 2- hydroxy-4-methylthiobutyramid is a hydrolyzed element, 2-hydroxy-4-methylthiobutyronitril. With sulfuric acid at a concentration starting from approximately 30% by weight to approximately 50% by weight when considered in a manner that does not include organic matter; in this way, a solution of hydrolyzed to water containing 2-hydroxy-4 acids is produced. - Methylthiobutyric acid as an element The exposure of the hydrolyzed solution to an organic solvent classified as exclamation with water in the liquid inter-liquid extraction system to produce the extracted solution containing the aforementioned solvent. And acid 2-hydroxy-4-methylthiobutyrate was transferred from the aforementioned hydrolyzed substances and 2-hydroxy-4-methyl acid separation. The thiobutyric acid was removed from the extracted solution. The organic solvent was removed with 5% or more by weight compared to the rest of the extracted substances. 2. The process specified in claim 1, where the hydrolyzed reaction was performed in the condition of This resulted in a change in the substance at a level that was classified as complete to the extent that the hydrolyzed material was classified as not available. 2-hydroxy-2-methylthio-butyronitril And 2-hydroxy-4-methylthiobutiramate remain. 3. The processes identified in claim 1, in which the hydrolyzed series are carried out one by one, are performed. Add 2-hydroxy-4-methylthiobutyronitril to the acidified container. 4. The process specified in claim 1, in which the hydrocy-4-methylthiobutyronitril reaction was performed, was in In sulfuric acid and hydrolyzed at temperatures from approximately 25 ° C to approximately 65 ° C to produce a solution of the hydrolyzed yield intermediate in such aqueous solvents with 2-hydroxy-4-methylthiobutyramid is an elemental and hydrolyzed. 2-hydroxy-4-methylthiobutyramid is an elemental and hydrolyzed. 2-hydroxy-4-methylthiobutiramate at temperatures ranging from approximately 70 ° C to approximately 120 ° C to produce a solution of the hydrolyzed substance. The process stated in claim 4, in which 2-hydroxy-4-methylthiobutyronitrile was added to the sulfuric acid with an initial concentration of approximately 55 percent to approximately 65 percent by weight and hydrolyzed 2- hydroxy-4-methylthiobutyronitril to 2-hydroxy-4-methylthiobutyramid at temperatures from 40 degrees Celsius to about 60 degrees Celsius and gives 2-hydroxy-4-methylthiobutyl hydrolyzed acid. 2-hydroxy-4-methylthiobutiramid to acidify 2-hydroxy-4-methylthio-butyl By reacting with sulfuric acid at a concentration from approximately 30 percent At temperatures ranging from about 85 degrees Celsius to about 95 degrees Celsius 6. The process stated in claim 1, which is the acid transfer. 2-hydroxy-4-methylthiobutyric acid from the aqueous hydrolyzed solution to the aqueous solvent by flow extraction. 7. The process identified in claim 6, which is performed in a continuous counter-flow extraction system in such a way that the extracted solution is rinsed with water. In a certain location the extracted solution is rinsed with water mixed in one of the upstream locations of the hydrolyzed material feeder position into the system. The current is compared with the direction of the flow of the aqueous substance. 8. The process identified in claim 6, which is performed is extraction in a continuous counter-flow extraction system with a zone. The extraction consists of a mass transfer aid between the solvent-containing fraction and the aqueous fraction in that region, and the extraction operation is controlled to make the solvent-containing fraction coherent and maintain. Consistency in the extraction zone 9. The process specified in claim 1, where the solvent has a boiling point of approximately 60 degrees Celsius. To about 200 Degrees Celsius, the coefficient of dispersion is approximately 2 or more for acids 2- hydroxy-4-methyl-thiobutyric acid, which is balanced between such solvents with acids. 2-hydroxy-4-methylthiobutyric acid is present. With the aqueous extraction residue remaining after contact between the said solvent and the hydrolyzed material. The distribution coefficient was approximately 1.0 or more balanced between the extracted solution samples containing acid. 2-hydroxy-4-methylthiobutyric acid is present. And the aqueous portion after contact between the sample of the extracted solution and the rinsing water And the solubility of water in the aforementioned solvent at room temperature was no higher than approximately 12 percent by weight of 1.0. The process specified in claim 9, where the boiling point ranged from approximately 70 degrees. About 170 degrees Celsius And the solubility is not more than approximately 8 percent by weight 1 1. The process identified in claim 9, where the solvent is selected from the ketone-containing group. Aldihyides and alkyl esters of carboxylic acids 1 2. The processes specified in claim 1, where solvents are selected from the group containing methanol. Methyl propyl ketone, methyl ethyl-ketone Methyl isobutyl ketone Methyl emyl ketone Ethyl Butyl Ketone Diisobutyl Ketone and Methyl Isoemyl Ketone 1 3. The process specified in claim 1, where the hydro-derived substances The slices were introduced into the extraction without any solid separation. In the presence of sufficient quantities of the hydrolyzed substance first. And the water content of the extraction residue was sufficient to prevent the solids from accumulating in the extraction system 1 4. Process specified in claim 13, where the water content in the hydrolyzed material while The amount of solids being sent into the extraction system is sufficient to prevent a large proportion of solids from being delivered into the system 1 5. Process specified in claim 14 where the water content in the hydrolyzed substance while The amount of solids being delivered to the system is sufficient so that a sufficiently large proportion of solids does not occur in the system. 1 6. The processes identified in claim 14, in which the water content of such mixtures is sufficient to prevent the Solids formed as a result of hydrolysis 1 7. Process identified in claim 1, where prior to extraction, the hydrolyzed material was not completely distilled under low pressure conditions. 1 8. Procedures set out in claim 17, where the distillation is terminated prior to the separation of the liquid organic fraction from the hydrolyzed substance. 1 9. The process identified in claim 17 in which the resulting hydrolyzed substance is diluted with water after From distillation to reabsorption of the dissolved organic matter, the hydrolyzed material was re-hydrated. 2 0. The process specified in claim 1 in which the extracted solution was introduced into the extraction process. Distilled with steam to expel the solvent and get the acid-containing liquid side-by-side. 2-hydroxy-4-methylthiobutyrate and water 2 1. The process identified in claim 20, where such distillation is performed in a column with multiple equilibrium stages. And control of the steps that each part of the column is not higher than approximately 120 degrees Celsius and the pressure is not higher than approximately One complete atmosphere 2 2. The process specified in claim 20, where the 2-hydroxy-4-methylthiobutyric acid was in the distillation column not more than approximately one and a half hours. 3. The process identified in claim 21, which regulates the steam distillation process to maintain at least 4 percent water by weight in the liquid portion throughout the distillation column 2. 4. Liquid feed additive containing acidic monomer, dihydrate and oligomers. The combined proportions of 2-hydroxy-4-methylthiobutyric acid are approximately 80% to approx. 95 percent by weight of all proportion weight And water from approximately 5 percent to approximately 20 percent by weight The color ratio was not more than 10 as measured by the Gardner scale. The ratio of weight-by-weight of the monomer to the weight-by-weight ratio of the sum of other dimers and oligomers was Approximately 2.8 or more, the kinematic viscosity at 25 ° C when measured with a Cannon-Fenske It was not higher than approximately 90 centistoke, and when the accelerated heat was measured, there was no exothermic or endothermic effect at any lower temperature. about 150 degrees Celsius