TH58581B - Process for producing chlorine dioxide - Google Patents

Abstract

DC60 (18/11/16) This invention relates to a method for the continuous production of chlorine dioxide containing including the level of Making sulfuric acid with a concentration above about 90% by weight diluted with water; Bringing this diluted sulfuric acid to a temperature below approx. 100 °C is supplied to the apparatus with this diluted sulfuric acid below about 100 °C. reaction through the head inject one feeder; Feeding aqueous solution containing alkali metals Chlorate and Hydrogen peroxide to the reactor that It is said through the second feeding nozzle, where the mentioned first and second feeding nozzles are opposite each other and direct the direction. clash with each other; This alkali chlorate addition reacts with mineral acids and hydrogen peroxide to form a stream of products which contains chlorine dioxide; and the current draw of this product from the reactor This invention is further related to production tools. Chlorine Dioxide Revised 18/11/2016 This invention deals with a method for continuous production of chlorine dioxide which consists of Includes steps of: dilution of sulfuric acid with an initial concentration above approximately 90% by weight; bringing this diluted sulfuric acid to about 100 °C below; This diluted sulfuric acid, which is approximately 100 °C lower, is fed to the machine. The reaction is via one feeder nozzle; Feeding aqueous solution containing alkali, chlorate and hydrogen peroxide is supplied to the reactor via a second feed nozzle, from which the first feeder and such two are opposite each other and are orientated so that they collide with each other; This alkali chlorate reacts with mineral acids and hydrogen peroxide to forming a stream of products which contain chlorine dioxide; and the current draw of this product from the reactor This invention is further related to the apparatus for producing chlorine dioxide. ---------------------------------- This invention deals with a process for continuous production of chlorine dioxide which assemble including the level of Dilution of sulfuric acid above approx. 90% wt with water, bringing this diluted sulfuric acid to a temperature below approx. 100 oC, feeding sulfuric acid. This diluted furic acid, at about 100 °C below, is supplied to the apparatus. reaction through the head First injection, feeding of aqueous solution containing alkali metals. chlorate and hydrogen- peroxide to the reactor that already said through the second feeding nozzle, which the nozzle feeds at The aforementioned first and second are opposite each other and direct the direction. clash with each other, this alkali chlorate reacts with mineral acids and hydrogen peroxide to form product stream model which contains chlorine dioxide and The current draw of this product from the reactor This invention further involves tools for manufacturing. Chlorine Dioxide:

Claims (3)

Disclaimer (all) which will not appear on the announcement page: Amendment 18/11/2016 1. Process for continuous chlorine dioxide production including the steps of: Have an initial concentration higher than 90% by weight and diluted with water. Up to concentrations from 60 to 90% by weight; Bringing this diluted sulfuric acid to a temperature below 100 ํ; The feeding of this diluted sulfuric acid with a temperature below 100 ํ is given to the reagent. Via a nozzle fed on one side; Feeding of an anhydrous solution consisting of metal, alkali chlorate and hydrogen The peroxide is given to the reagent via a second feed nozzle. Which injectors enter at one And the aforementioned second feed nozzles are opposite each other and are aligned to clash with each other; The treatment of alkali chlorate metals reacts with mineral acids and hydrogen peroxide to Forms a stream of products containing chlorine dioxide; And the removal of the stream of the product from the reactor 2. The process as requested in claim 1, which directs the stream of the removed product. From this reactor to the exhaust pipe Which this stream of products is diluted in here With water swirled to form chlorine dioxide acidic anhydrous solution 3. Process as requested in one of the claims 1 to 2, which uses sulfuric acid The diluted temperature is from 5 to 95 ํ. 4. Process by which one of the claims 1 to 3 of the claim, which makes this sulfuric acid. To dilute it with water by means of a static mixer. 5. Process in accordance with any of the claims 2 to 4, which makes sulfuric acid. The diluted water is cooled in the heat exchanger with a smooth flow of water for the drain. Vapor as a cooling medium 6. Process under one of the claims 1 to 5, in which the reactor It is a flow-through container or a pipe. 7. Process according to claim No. 6, which this reactor is a pipe. Significantly 8. Procedures required for claim No. 6 to 7, any one, in which the nozzle feeds first. And the second is located near one end of the reactor. While the product flows It is pulled out to the other end of the reactor 9. Process by which one of the claims 6 to 8, which arranges the appliance. This reaction in a vertical form is significant. 1 0. The process under Clause 9 in which the first and second feed nozzles are located at Location near the bottom of the reactor Therefore, the direction of the main flow passing through the heater This reaction is therefore an upward direction and the product stream is pulled out to the top of the machine. React to this 1 1. Process by which one of Clause 6 to 10 is requested, in which the nozzle is fed first. And the second is located on opposite sides of and is directed towards the center line according to this reactor. 1 2. A useful tool for continuous chlorine dioxide production, which combines By means of dilution sulfuric acid, this method for cooling diluted sulfuric acid, reactor with first feed nozzle for mineral acids. And a second feed nozzle for the aquifer solution, which A combination of metal alkali chlorate and hydrogen peroxide are arranged in this, where the first and second feed nozzles are opposite each other and are directed to collide with each other and the machine The reaction was also provided with an outlet channel for the chlorine dioxide production stream. ---------------------------------- 1. Process for continuous chlorine dioxide production, which consists of a of To make sulfuric acid an initial concentration higher than approximately 90% by weight, dilute with water. At a concentration of approximately 60 to approximately 90% by weight, the diluted sulfuric acid was brought to a temperature below approximately 100 ํ. The infusion of this diluted sulfuric acid with a temperature below approx. 100 ounce to the reagent via a first feed nozzle; The solution of anhydrous containing metal, alkali chlorate and hydrogen-peroxide, is supplied to the reagent via a second feed nozzle. Which injectors enter at one And the first, the second, are opposite and direct each other. The treatment of alkali chlorate metals reacts with mineral acids and hydrogen peroxide to form The current pattern of products containing chlorine dioxide in it and Extraction of the product stream from the reactor 2. The process required by claim 1, which carries the stream of the removed product. From this reagent (5) goes to the vapor duct (14) where the flow of this product is diluted in here with swirling water to form an aqueous solution. Quies with chlorine dioxide in it 3. Process by which one of Clause 1 to Clause 2 applies, which dilutes sulfuric acid to a concentration of approximately 60 to Approximately 90% weight 4. The method as requested in any of the claims 1 to 3, which brings this diluted sulfuric acid to Temperature from approx. 5 to approx. 95 ํ. 5. Process under one of Clause 1 to Clause 4, where this sulfuric acid is diluted with water by Method of using static mixer (10) 6. Process by which one of Clause 1 to Clause 5 is applied, which makes this diluted sulfuric acid to Cooled in a heat exchanger (12) with a rotating water flow for the exhaust pipe (14) as a cooling medium 7. The process of which the claim is made in any of Clause 1 to Clause 6, in which This reactor (5) is a flow-through vessel or a pipe 8. The process of which the Reagent (5) is claimed to be in Clause 7, which is mainly a tubular type 9. Hereby holds the right to any of Clause 7 to Clause 8, which the nozzle is fed at The first and the second (4,5) are located near one end of the reactor (5) while the current Of the product being pulled out to the other end One of the reagents (5) 1 0. The process as requested in any of the claims 7 to 9, which aligns this reagent (5) in a mostly vertical way 1 1. The process by which the claim is made in Clause 10, in which the first and second (4,5) injectors are located near With the lowest part of the reactor (5), so the direction of Main flow through Through the reactor (5), this is the direction The way up and the product stream is pulled out to the top of this reactor (5) 1 2. The process for which the claim is made in any of Clause 7 to Clause 11, which the nozzle is fed at One and the second (4,5) are located at the opposite side of and direct the direction to Center line to According to this reactor (5) 1 3. A useful tool for producing chlorine dioxide. The continuous method consists of method (10) for diluting sulfuric acid, method (12) for cooling the diluted sulfuric acid, reactor (5) with a head. First (3) feed injector for mineral acids and second (4) injectors for ACRYLIC solutions containing metal, alkali chlorate and Hydrogen per-oxide is arranged in this, through which the nozzles feed The first and the second mentioned (4,5) are opposite and direct the opposite direction, and on the other the reactor (5) has an outlet channel for the current. Of products that contain Chlorine dioxide is also provided.