TH68073B - Plant fiber materials and the separation method into sugar. - Google Patents

Abstract

DC60 (24/11/51) This invention presents a water solution of sugar which increases the collection rate of clusacic acid. It is a hydrolysis catalyst of cellulose in the fractionation of cellulose sugars using a cluster accelerator as a sugar separation method of plant fibrous material, characterized by a hydrolysis process. Cis, which uses a cluster acid accelerator in an artificially molten state. Cellulose hydrolysis in filament material Plant fibers and makes the production of sugars which is the main source of glucose. There is a separate process at 1 which separates the mix. With aqueous solution of sugar which at least part of the sugar has Dissolve the organic cluster acid which the cluster acid catalyst dissolves and the residue in the process. Such hydrolysis is a solid part with a residue with aqueous solution of sugar and the liquid part containing Solution of organic solvent, cluster acid And there is a second separate process which drying of A liquid containing aqueous solution of such sugar and a solution of cluster acid organic solvent as It was said that it was extracted in a separate process for that 1 by means of drying methods that can be vacuumed. Stuck by chemical suction This causes the sugars in the aqueous solution of such sugar to separate and separate. It is the solid part containing the aforementioned sugars with the liquid part containing the cluster acid accelerator with the aforementioned organic solvent. The invention presents the aqueous solution of the sugar which increases the collection rate of the clusoid acid. It is a hydrolysis catalyst of cellulose in the fractionation of cellulose sugars using a cluster accelerator as a sugar separation method of plant fibrous material, characterized by a hydrolysis process. Cis, which uses a cluster acid accelerator in an artificially molten state. Cellulose hydrolysis in filament material Plant fibers and makes the production of sugars which is the main source of glucose. There is a separate process at 1 which separates the mix. With aqueous solution of sugar which at least part of the sugar has Dissolve the organic cluster acid which the cluster acid catalyst dissolves and the residue in the process. Such hydrolysis is a solid part with a residue with aqueous solution of sugar and the liquid part containing Solution of organic solvent, cluster acid, and a second separate process, which drying of A liquid containing aqueous solution of such sugar and a solution of cluster acid organic solvent as It was said that it was extracted in a separate process for that 1 by means of drying methods that can be vacuumed. Stuck by chemical suction This causes the sugars in the aqueous solution of such sugar to separate and separate. Is the solid part with such sugar and the liquid part with the cluster acid catalyst and the organic solvent.

Claims (6)

Disclaimer (all) which will not appear on the advertisement page: Revised 7/6/2017 1. Methods of sackarification and separation for plant fiber materials. Which includes The hydrolysis process of cellulose hydrolysis is packaged in plant fiber materials. Which uses the accelerator Cluster acid under artificial molten state to produce the saccharite. Most of it is glucose. Separation step 1, in which the mixture contains aqueous saccharite solution, in which at least part of the saccharite is produced in the hydrolysis phase is dissolved. Solvent Dissolve organic cluster acid in which the cluster acid catalyst is dissolved. And residue into the amount The solids contain residues and liquid quantities, containing aqueous saccharites and solvents. Organic solvent, cluster acid and the second separation step of the liquid dehydration volume. Which contains AK solution Vyossaccharides and cluster acid organic solvent solutions were separated in the 1st separation step by dehydration, meaning they have the ability to absorb water through chemical absorption to accumulate the saccharine. Wright in aqueous saccharite solution And separation of the solid content containing the saccharite from the Liquid containing accelerator, cluster acid and organic solution ------------------------------------------------ (original Revised 03/04/2017 1. Methods of Saccharification and Separation for Plant Fiber Materials. Which includes The hydrolysis process of cellulose hydrolysis is packaged in plant fiber materials. Which uses the accelerator Cluster acid under artificial molten state to produce the saccharite. Most of it is glucose. Separation step 1, in which the mixture contains aqueous saccharite solution, in which at least part of the saccharite is produced in the hydrolysis phase is dissolved. Solvent Dissolve organic cluster acid in which the cluster acid catalyst is dissolved. And residue into the amount The solids contain residues and liquid quantities, containing aqueous saccharites and solvents. Organic solvent, cluster acid and the second separation step of the liquid dehydration volume. Which contains Akvia solution The zaccharite and cluster acid organic solvent solution were separated in the 1st separation step by dehydration, meaning it has the ability to absorb water through chemical absorption to deposition the saccharite. In aqueous saccharite solution And separation of the solid content containing the saccharite from the Liquid containing cluster acid accelerator and organic solvents 2. Method of saccharification and separation for plant fiber material according to claim 1, where in the hydrolysis phase The moisture content in the reaction system is the sum or greater of (1) the crystallized water is required for all cluster acid catalysts in the molten state reaction system. Artificially under conditions, the temperature of the hydrolysis process and (2) water is required for cellulose. All in the reaction system was hydrolyzed to glucose 3. Method of sachariflation and separation for plant fiber materials according to claim 1, where all the saccharites were produced from cellulose. 4. Saccharification and separation method for plant fiber material according to claim 1, where at least part of the water contains A solution. Quieszaccharites are contained in the processing system. Reaction of the hydrolysis process 5. Saccharification and separation methods for the plant fiber material according to claim 4, where all the water that makes up the Achyassag The carite is contained in the reaction system in Hydrolysis step 6. Method of sackarifidation and separation for plant fiber materials according to claim 1, where dehydration is defined as the addition of drying agent. According to claim 6, the silica gel is used as a drying agent. 8. Methods of sacharification and separation for plant fiber materials according to claim. Claim 1 where the hydrolysis procedure is performed at 140 ํ or less under normal pressure of up to 1 MPa 9. Methods of sagmentation and separation for Plant fiber material according to claim 1, where the cluster acid catalyst is heteropolyacid 1 0.Saccharification and separation methods for plant fiber material according to claim 1. Where the solubility of the saccharides involved in organic solutions is 0.6 g / 100 ml or less. 1. Methods of saccharification and separation for plant fiber materials according to the claim. Where one type is selected from ether and alcohol is used as an organic solution 1 2. Method of sachification and separation for plant fiber materials according to claim 6, where after the solid content contains The saccharites and the drier were separated from the filling liquid content. Accelerator, cluster acid and organic solution in the second separation step of saccharination and Further separation was carried out by a third separation step of the addition of water to solid content was separated in The second separation process and separation of the acryssaccharite solution, in which the volumes of saccharites The solid is dissolved in water from the drying agent. ----------------------------- 1. The method of separating into sugars of plant fibrous material, which has a characteristic, is that there is a hydro process. Lysis using a cluster acid accelerator in an artificially molten state. Cellulose hydrolyzate in fibrous materials Plants and makes sugar, which is the main source of glucose There is a separate process 1 which separates the mixtures containing the aqueous solution of the sugar which at least partially. One of the sugars was formed with a solution of cluster acid organic solvent, which is a cluster acid catalyst. It dissolves and residues in such hydrolysis processes are solids that have residues with Aqueous solution of sugar and the liquid part containing aqueous solution of cluster acid organic solvent And there is a second separate process which drying the aqueous liquid of sugar as The cluster acid organic solvent was isolated in the first separate process by means of drying method that can be adsorbed by chemical adhesion. Make sugar in The aqueous solution of such sugar is separated and separated into solid parts containing such sugar with The liquid with a cluster acid accelerator with such organic solvents. 2. The method of separating into sugar of claim 1. The amount of water in the reaction system of the process Such hydrolysis contains no less than the total volume of (1) crystallized water required to make the total volume of The cluster acid catalyst in the reaction system is artificially fused by temperature conditions. Of the aforementioned hydrolyzate processes with (2) water required for the total volume of the aforementioned cellulose in The reaction system is hydrolysis into glucose. 3. Sugar separation method of Article 1, in which the total amount of sugar that was produced from All cellulose dissolved in an aqueous solution of such sugar. 4. The method of separating into sugar of claim 1. In which at least part of the water to form a solution The water of the sugar is in the reaction system of the said hydrolysis process. 5. The method of separating into sugar of claim 4. In which the total amount of water which forms an aqueous solution The sugar is in the reaction system of the aforementioned hydrolysis process. 6. The method of separating into sugars of claim 1. In which the drying method is added as a drying agent. Clause 6., which uses silica gel as an agent 8. The sugar separation method of Clause 1., which carries out such hydrolysis process in Normal pressure conditions up to 1MPa and not more than 140 degrees Celsius 9. Method of separating into sugars of claim 1. The cluster acid catalyst is heteropolyacid 1 0. Method of separating into sugar of article Holds the right to Article 1. The organic destroyer said that there is a level of The dissolution of the said sugar to such organic solvent is not more than 0.6g / 100ml 1 1. Method of separating into sugar of claim 1. At least one type that can be selected from Ether or alcohol type as such organic solvent 1 2. Method of separating into sugar of claim clause 6. Which separates them into sugar-rich solids With the aforementioned drying agent with a liquid part containing cluster acid with such organic solvents in The second separation process, moreover, can be separated into the aforementioned drying agent and the sugar by a third separate process, in which water is added to the said solids that have been separated in a separate process. The second and separated is a solution of sugars that dissolve the sugar in the aforementioned solid parts with the Such drying