RU2715542C1 - Apparatus for producing aluminium chlorohydrate - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention can be used in the field of domestic and drinking, technical water supply, during treatment of waste water. Apparatus for producing aluminium chlorohydrate comprises reactor 1 to which a supply line of hydrochloric acid 7 is connected. Pipeline 2 connected via flow meter 5, gate valve 6 and pump 4 with mixer-repulper 3 for mixture of aluminum hydroxide with water is fed to reactor. To pipeline 2 connected to reactor 1 and to mixer-repulper 3, additional pipeline 9 is connected, which connects gate valve 6 to mixer-repulper 3. Installation of density meter 10 is possible on additional pipeline 9.

EFFECT: invention simplifies the supply of ingredients for producing aluminium chlorohydrate, eliminating precipitation of aluminum hydroxide slurry in the pipeline, and higher accuracy of dispensing.

1 cl, 1 dwg

Description

The invention relates to the chemical industry, in particular, to a method for producing aluminum hydroxychloride used in water purification from pollutants and can be used in the field of drinking water, industrial water supply, and wastewater treatment.

A known method of producing aluminum oxychloride, when in the column is loaded in the form of pieces and pellets of aluminum cake, and when the temperature rises, a solution of AlCl _{3 is} passed through the column with continuous blowing of the hydrogen evolved by nitrogen (see patent RU No. 2121972 IPC C01F 7/56).

The disadvantage of this method is the difficulty of adjusting the number of ingredients when feeding into the column to obtain a reaction solution, the lack of automation of the process of feeding the ingredients of the reaction solution.

A known method of producing aluminum oxychloride, where standard aluminum ingots, copper in the form of scrap, are loaded into the reactor. Anhydrous aluminum chloride is dissolved in water, and the resulting solution is poured into the reactor. The reaction mass is heated, maintaining a constant solution level, by additional supply of water as it evaporates (see patent RU No. 2323764 IPC C01F 7/56).

The disadvantage of this method is the difficulty of adjusting the amount of ingredients when fed to the reactor to obtain a reaction solution, the lack of automation of the process of feeding the ingredients of the reaction solution, the difficulty of tracking processes in the reactor and dosing the amount of ingredients supplied.

A known method of producing aluminum hydroxochlorides, including the production of aluminum hydroxide, dissolving it with hydrochloric acid, the process of obtaining an amorphous reactive active gel of aluminum hydroxide is carried out by neutralizing the aluminate solution with a bicarbonate solution obtained by aerating a garden solution of alumina production with industrial gas containing up to 5% CO ₂ , followed by decomposition of the obtained sodium alumocarbonate with industrial water, the process of interaction of hydrochloric acid with the gel obtained g aluminum hydroxide is conducted at room temperature and get a product with an acid module of 1.0-2.0 (see patent RU No. 2139248 IPC C01F 7/56).

The disadvantage of this method is the complexity of the technology for producing the aluminum hydroxide gel ingredient.

The task was set to create a plant for the production of aluminum hydroxychloride, simplifying the technology for feeding ingredients and increasing the accuracy of dosing.

This problem is solved in that an additional pipeline is connected to the pipeline connected to the reactor and to the mixer-repulpator, connecting the valve with the mixer-repulpator, on which the densitometer is mounted.

The connection to the pipeline connected to the reactor and to the mixer-repulpator, an additional pipeline connecting the valve to the mixer-repulpator, on which the densitometer is mounted, allows to simplify the technology of feeding the ingredients and increases the accuracy of dispensing.

The installation is illustrated in the drawing, which schematically shows the installation for the production of aluminum hydroxychloride.

The installation for producing aluminum hydroxide chloride contains a reactor 1, to which a pipeline 2 is connected, for supplying aluminum hydroxide mixed with water from a mixer-repulpator 3 using a pump 4. A flow meter 5 and a valve 6 are installed on the pipeline 2. Also, a pipeline 7 is connected to the reactor 1 , to supply a solution of hydrochloric acid from the tank 8. An additional pipeline 9 is connected to the pipeline 2. A density meter 10 can be installed on the additional pipeline 9. The density meter 10 may be radioisotopic or otherwise. It is also possible to measure density manually. A drive 11 is connected to the mixer-repulpator 3 and a pipe 12 with compressed air is connected. A mechanical stirrer 13 can be installed in the reactor 1.

Installation for producing hydroxychloride aluminum works as follows.

In the mixer-repulpator 3 mechanically, and using the air supply through the pipe 12, aluminum hydroxide is mixed with water, approximately, to a value of 1.45-1.85 g / cm ³ , and, the resulting mixture, using a pump 4, through the pipe 2, is fed into the reactor 1. Also, from the tank 8, through the pipeline 7, a solution of hydrochloric acid is fed into the reactor 1. To monitor the accuracy of dosing the quantity of the mixture of aluminum hydroxide with water supplied to the reactor 1, in order to obtain aluminum hydrochloride at the outlet, where the percentage for aluminum should be approximately not lower than 16 , 5-17.3%, a flowmeter 5 is installed on the pipe 2. The flowmeter 5 measures the volume of aluminum hydroxide supplied to the reactor 1, thereby increasing the accuracy of the percentage of aluminum in the aluminum hydroxide obtained in the reactor 1. An excess of a mixture of aluminum hydroxide with water, supplied by a pump 4 through a pipe 2 that does not pass through a valve 5, and also if the valve 5 shuts off automatically or manually, feeds a mixture of aluminum hydroxide with water into the reactor 1, the mixture of aluminum hydroxide with water flows back to mixer-repulpator 3 through an additional pipe 9 and densitometer 10. Density meter 10 allows you to adjust the ratio of aluminum hydroxide with water supplied to the reactor 1. It is possible to carry out density measurement manually. Thus, the additional pipeline 9 allows you to pump the mixture of aluminum hydroxide with water non-stop, which in turn allows the suspension of aluminum hydroxide not to settle in the pumped water without clogging the pipe 2.

The possibility of carrying out the invention and providing a technical result, which is expressed in simplifying the technology of supplying ingredients and increasing the accuracy of dosing, is confirmed by the drawing and description of the installation for the production of aluminum hydroxychloride.

Claims (1)

Installation for producing aluminum hydroxochloride, containing a reactor to which a pipeline for supplying hydrochloric acid is connected, also a pipe connected to the reactor through a flow meter, a valve and a pump with a mixer-pulper for mixing aluminum hydroxide with water, characterized in that it is connected to a pipe connected to the reactor and to the mixer-repulpator, an additional pipeline connecting the valve to the mixer-repulpator is connected, and a densitometer can be installed on the additional pipeline.

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