TH137886A - Equipment and methods for increasing the solubility, separation, removal and reaction of carboxylic acids in oils, fats, Aqueous solutions or organic solutions by means of micro- or nano-emulsification. steep - Google Patents

Abstract

DC60 The proposed invention leads to solubility enhancing compounds, devices and methods. To increase the solubility and removal of carboxylic acids and especially acids. Fats from oils, fats, AQUIS emulsions, AQUIS media and Organic solvents are used in this production process. For separating carboxylic acids from oils, fats, Aqueous emulsions, and lipophilic media. lysate or organic solution, respectively, by preparing micro- or nano-equisites. This emulsion of carboxylic acids, especially fatty acids and compounds that increase Melts containing at least one amidino group and/or gianidino group result in Increase the solubility of the compound, increase the solubility combined with the use of separation methods for This artificial carboxylic acid can be used in the treatment of individuals in need of elimination. Fatty acids are removed or carboxylic acids are analyzed from the blood or solution processes. Others in the food industry, pharmaceutical industry, chemical industry, fuel industry biological or other industrial processes

Claims (1)

Disclaimer (all) which will not appear on the advertisement page: Revised Sept. 14, 2018 (no disclaimer) +++++++++++++++++++ +++++++ ------ 17/11/2017 ------ (OCR) Page 1 of 6 pages Disclaimer 1. Methods for dissolving and separating carboxes. Silicon with compounds that help make Soluble from aqueous or organic solutions, emulsions, suspensions formed in Medical treatment, medical analysis, food analysis, food processing, oil processing, oil analysis, fuel processing, chemical or physicochemical modulation, solubility of Poorly soluble molecules, industrial or scientific analysis, pharmaceutical or chemical, acid elimination. Carboxylic acids from household, commercial or industrial cleaning wastes, removal of carboxylic acids from bioreactor processes, organogelations or nanogels. Carboxylic acid mulcification Where more compounds are purchased, the solubility has At least one amidino group and / or at least one guanidino group and to which this solubility increases The dispersion coefficient between n-octanol and water was Kow <6.30, and where the process is assembled, the steps are as follows: i) Or emulsions or suspensions containing carboxylic acids; ii) adding at least the equivimolar content of the dissolving compound. At least one iii) separation of dissolved carboxylic acids from solutions or emulsions or suspensions by phase separation, filtration, nano-filtration, dialysis, absorption, Complex, electrophoresis, evaporation, distillation and / or extraction 2. Process according to claim 1, where step iii) was accomplished by either method of The separation method is as follows. Or a combination of these methods Carboxylic acid, separately or in combination with at least one of The compound made it soluble by penetrating through a split membrane or tube or hollow capillary, p. 2 of the number of 6 pages, were joined by the use of a concentrated gradient, temperature gradient, GRADIENT PHYSICAL CHEMICAL, PNEUMATIC GRADIENT, ELECTRICAL GRADIENT Or a combination of these or a phase separation operation by a combination of two or more of the medium which produces a phase separation or simultaneous passage of carboxylic acids with at least one of the auxiliary compounds. Make Soluble by passing through the phase separation interface, which permits the passage of carboxylic acid and At least one such dissolving compound by means of a concentration gradient, temperature gradient, physicochemical gradient, pneumatic grate, gradient. Electric tents or a combination of these Where the phase separation interface is composed of gels, organogels or solid materials, or a combination of them, or carboxylic acid filtration by using at least one of the compounds assisted in Dissolving or carboxylic acid nano-filtration By using at least one of Solubility compounds or carboxylic acid chrysotile by using at least one of the auxiliary compounds. Soluble or carboxylic acid adsorption by using at least one of Solubility compounds or carboxylic acid complexes by the use of At least one of the solubility compounds, or Carboxylic acid distillation by using at least one compound assists in Soluble or carboxylic acid separation by using at least one of the auxiliary compounds. It was soluble by extraction using superconducting. 3. Process according to claim 1, which included the following steps a) Preparation of the solution by reducing the ionic strength by means of Of making Complex compounds, adsorption, separation or dialysis of cation And anion anion 3 of 6, and not b) the pH adjustment of the solution by adding cl acid or base method) adjustment of the molarity of the compound helps the solubility to remain The range of 1:10 to 20: 1 was compared with the approximate concentration of carboxylic acid for solubility, and d) the addition of such soluble compound in solid form or in solution to Equis, which contains such carboxylic acids or organic solutions for the formation of micro- or nanoemulsions, which are selected to be assembled by one of the following procedures: al) carboxylic acid release. Lick binds by making complex compounds Or covalent c2 bonding), if the solubility compound is performed in the pH adjustment solution of that solution to optimize the compatibility and the carboxylic acid reaction conditions. Lick for dissolution by method of acidification. Or alkalization e) addition of esterase, hydrolase or complex nucleus; f) adding water and / or co-solvent to solution and / or g). Optimizing the reaction conditions By means of heating And / or mixing this solution by that method resulted in an improved micro- or nano-emulsion. 4. Process according to claim 3, which also included a step after step g) g2) the removal of the reactive solution from The first to the second through the split panel by Using a nano-filtration technique By using a concentration gradient, a chemical gradient, a pneumatic gradient, an electrical gradient. Or a combination of these H) Elimination of the correlation of carboxylic acids and dissolving compounds, pages 4, of the 6 pages were obtained from the filtered solution. The convection of the receptor solution, which was directed, passed through the inlet into the said second channel and released through the outlet of the second channel, and i) the purified solution from the channel. The second step goes through another exit. 5. Procedures according to claim 3, the AKVI solution is an exogenous blood sample. The subject's body in which blood containing micro and / or fatty acid nanoemulsions is removed, which is also included in the gl) to m) procedure after the g) procedure follows gl) esters release. Arrayed fat acid in the blood of test subjects by hydrolase That was pinned on the supporting material within the first channel In this way, micro- or nano-emulsion is formed. H) Pump the filtered solution from the second channel into the first channel of the second-order dielectric. I) The solution containing the carboxylic acid. Silicon from the aforementioned first channel of the sequence dielectric Two to the second channel of the chiallizer via a second separation panel by using a concentration gradient, chemical gradient, pneumatic gradient, gradient. Electric J) The correlation of carboxylic acids and solubility compounds was eliminated. By making it through the aforementioned second-order splitters by means of tertiary circulation, k) pumping the carboxylic acid receptor solution from the receptor solution collection vessel into the second chiali chamber. L) removes the loaded carboxylic acid receptor solution into the waste container, and m) removes the purified solution containing solubility compounds acting on page 5 of 6 pages, stimulating the first channel of the aforementioned second diaphragm to another entrance of the sequence channel. 6. Procedures according to claim 5, where the resulting effect is achieved by methods of dialysis, hemophiltration, hemophilisation. Steep, plasma separation by centrifuge, plasma-aphurosis, cascade-fltration and thermo-filtration 7. Process according to claim 5. Where the separation efficiency is raised by hydrolysis Addition of esterification fat acid, lipolysis hyperpigmentation and / or the use of central venous inhalation zone for purification of blood. In accordance with either form of claim 1, where the medical indication for use The methods were selected for diabetes mellitus, metabolic obesity, overweight, obesity, hypertension, triglycerides, hypercholesterolemia, urea acidosis. , Inflammatory tissue cells, arterial disease and hardened arteries, fatty liver, lipomatosis, atrial fibrillation, pre or over beating, heart rhythm 9. A method of either claim 1, where this solution is to be bridged from plants, organisms, fossil materials, natural mixtures or from Synthesis reaction 1 0. A process based on claim 1 where the use of a compound that promotes Such a melt leads to micro- or nano-emulsions. Of such carboxylic acids and permits separation of them by means of complexification, absorption, absorption, diffusion, osmosis, dialy Cis, filtration, nano-filtration, separation, fluid-fluidic extraction Or extraction with supercritical fluid By using the concentration gradient, the temperature gradient, the electrical gradient, the physical chemistry gretian. Or a combination of them: 1 1. A process based on any type of claim 1 where at least one of the compounds is The dissolving agent is added to emulsions, solutions or suspensions. Which contains carboxylic acids for 6 pages of 6 pages.Use such emulsions to release, de-complex, split, react, agglomerate, complex, coagulate, flogulate. , Sludge or complex separation containing carboxylic acid 1 2. Procedure according to Clause 10 where micro- or nano-emulsion is used for the reduction. Of physical chemistry reactions Or a chemical reaction, making it possible, increasing the absorption Tissue and transport of products from the reaction Or constituents in biological or chemical processes, separation, solubility, release, convection, transport of substances by vesicle absorption into tissues. Or the enhancement or the heightening of the passage Penetration of the carboxylic acid emulsifier through a medium or a hydrophilic or amphiphilic solid ------------ 1. The use of solubility-enhancing compounds for soluble carboxylic acids in the medium that Is AKAVI or organic intermediates Which solubility-enhancing compounds have the least amount of amidino groups One group and / or at least one guanidine group And which compounds increase this solubility The distribution coefficient between n-octanol and water was obtained with K0w <6.30.