TH2181A - Processfor the Purification of Sugar Syrups - Google Patents

Abstract

A process for removing color, turbidity, flavor and odor from high-methyl cyrup It consists of binding of the defect in sugars in the primary substance, which is calcium phosphate or aluminum hydroxide, which is roughly insoluble Tpoche. By dividing the sugar cyrup into 1 minor portion and 1 part greater, adding aeration to a small fraction containing a specific brix. Leading a few and a lot Re-incorporate, the polyelectrolyte is added to transform the primary mass into a secondary, which air bubbles easily adhere to. This causes the secondary flotation and a lid is formed on top of the sugar container. The purified syrup is filtered with or without activated carbon and small filter media. little This causes the syrup sugar to have a reduced color, turbidity, taste and odor.The sugar in the capping agent is recovered by mixing the capping agent with water and allowing the second float to occur without addition Air or chemicals gulp

Claims (1)

1. The cyrup purification process consists of the following steps: (a) a combination of approximately 50 to approximately 65 mg of impure cyrup with a coagulant. (flocculating agent) selected from quicklime combined with a source of phosphate ions or aluminum sulfate. To form a primary floc in the syringe, with sufficient quantities of the added substance to form the primary floc to remove the stigma from the syringe. And adjust the PS of the syringe to approximately 6 to 8 for the temperature of the syringe to remain at a temperature sufficient for the formation of the substance up to approximately 90C (b). The resource comes out of the sirup before or after the fusion In the process (a), one part of the sirup is 5% to approximately 15% by the amount of the sirup (c). Dilution of that part. With a sufficient amount of water to adjust the brix of this sirup to approximately 35 to 45, a diluted syringe is obtained. The temperature is about 25C to about 90C (e) Adding the saturated part of the air to the sirup and mixing. (F) Spread the aqueous solution of 0.05% to 0.3% polyacrylamide electrolyte into the aerated nitrate. Then, with non-turbulent aqitation disturbances, a seconday floc that floats up in the aerated cylinder (g) emits the secondary clot. In the aerated syrup, it floats up and coagulates (scum), and the purified syrup is obtained (h). The separation of the scum and the purified scum. 2. The process that has been claimed in Clause 1 also consists of the following steps: Reversing the confined sugar in the captive substance in the form of Syrup containing water for further preparation of impure cyrup 3. The process claimed in Clause 1 also includes the following steps. Disturbance The detergent cap is separated and the water is mixed together to form a mixed syringe, to stop the disturbance and then let it form a lid. And diluted syrup sugar, separation of captive and diluted cyrup. And the addition of solid and impure sugars for purification as claimed. Then in Clause 1, the amount of impure sugars and water added to be adjusted until the impurity of the type is 50 to 65 brix. 4. The process as claimed in the claim. Article 3 consists of interfering with coagulant and water for approximately 1 to 3 minutes. 5. The process claimed in Clause 1 consists of maintaining The temperature of the syrup is maintained from approximately 20 degrees C to approximately 90 degrees C, and lime and aluminum sulfate are used as coagulation agents.6.Process as previously claimed in claim 1. It consists of maintaining the temperature of the syringe from approximately 70 ° C and using lime and phosphate ion sources as coagulation agents. 7. Process as previously claimed in claim 6. Use phosphoric acid as a source of phosphate ions. 8. The process as previously claimed in claim 1 consists of step (b) removing part of the sirup from the sirup. Before the formation of the substance causes coagulation 9. The process as previously claimed in claim 1 consists of (b) the removal of a part of the sirup from the extracted part. The sirup, after which the sirup is combined with the coagulant, The resulting fraction contains 1 0. The process as previously claimed in claim 8 or 9 consists of (d) the syrup temperature retention process. The extracted and diluted water is approximately 25 degrees C to approximately 70 degrees C and is aired until a creamy appearance. 1 1. Process as previously claimed in the claim that 10 consists of maintaining the temperature of the separated and diluted sirup to approximately 25 degrees C 1. 2. The process as previously claimed in claim 1 consists of: Add part of the coagulation agent The lump of step (a) hydrated lime is approximately 0.2% by weight compared to the weight of sugar contained in Cyprup 1 3.Process, as previously claimed in claim 1, at the step ( A) The pH of the Sirup shall be adjusted to approximately 6.0 to 7.5 1 4. The previously claimed process in claim 1 also consists of the following steps in step (a): The color removal carbon is added to the cylinder by the amount up to the amount of lime used 1 5. The process as claimed in claim 1, the cyclop extracted in Procedure (b) is approximately 5% to 10% by volume of the Sirup 1. 6. The process as previously claimed in claim 1 consists of a procedure (e) the mixing of the sirup. It is extracted and aired down to the sirup for approximately 1 to 5 minutes 1 7. The process claimed in claim 1, in step (f) the solution that Polyacrylamide 0.05% to 0.15% is diffused from polyacrylamide 1 8. Process As previously claimed in claim 1, polyacrylate. Pramide electrolyte Is an anionic polyelectrolyte of type 1 9. The process previously claimed in claim 1 consists of alternating steps (e) and (f) whereby Add polyacrylamide electrolyte to the syringe before filling the extracted and aerated part of the syringe. 2 0. Process as claimed in the claim. Right 1 consists of a concatenation (c) dilution of the extracted sirup to 40 degrees 2 brix. 1. The process previously claimed in claim 1 consists of (a) using impure cyrup sugar and 60 ° brix.