RU157328U1 - MULTI-TUBE REACTOR FOR CHEMICAL REACTIONS AT SUPERCRITICAL PARAMETERS OF THE WATER MEDIA - Google Patents

Abstract

1. A reactor for carrying out chemical reactions at supercritical parameters of the aqueous medium, comprising a casing with the required number of technological holes, characterized in that the casing consists of a plurality of pipes combined from above into a mixer chamber and from below into a common chamber with an outlet for the exit of the finished product and an opening for removal of solid precipitation, while the pipes are closed with a protective casing on which the heating elements are installed. 2. The reactor according to claim 1, characterized in that the heating elements are coated with a layer of heat-resistant thermal insulation.

Description

The utility model relates to chemical technology and can be used to conduct chemical reactions at supercritical parameters of the aquatic environment, i.e. at pressure and temperature above critical parameters of water.

Known column reactor (www.ximuk.ru/encyklopedia/2/3842.html) for carrying out various types of reactions containing two holes for input of the starting reagents and two holes for output of reaction products.

The reactor does not allow for a flow diagram of the process of chemical transformations with the connection of other modules providing the supply of oxidizing agents, solvents, etc.

Known reactor (RU 125490), which includes a housing, four technological holes and valves. The reactor does not allow the heating of the reactants in a flow mode to a supercritical state of the aqueous medium.

The objective of the utility model is to provide the possibility of implementing a flow diagram of the process of chemical transformation simultaneously with the connection of other modules that provide the necessary reagents.

The problem is solved in that the reactor for carrying out chemical reactions at supercritical parameters of the aqueous medium includes a casing with the required number of technological holes and differs in that the casing consists of a plurality of pipes combined from above into a mixer chamber and from below into a common chamber with an outlet for the exit of the finished product and hole to remove solid precipitation, while the pipes are closed with a protective casing on which the heating elements are installed.

The heating elements may be coated with a layer of heat-resistant thermal insulation.

The technical result consists in the implementation of a flow diagram of a chemical conversion process simultaneously with the connection of other modules to supply the necessary reagents. It is achieved by the fact that tubes made of heat-resistant steel have a total surface area much larger than that of a cylindrical reactor, which allows heating the reactants to the required temperature.

The utility model is illustrated by drawings, where in FIG. 1 shows a general view of a multi-tube rector.

As shown in FIG. 1, a multi-tube reactor has the following elements: 1 - a casing, 2 - the lower common chamber of the reactor, 3 - pipes of a multi-tube reactor, 4 - a heat exchanger, 5 - technological holes for introducing components, 6 - technological holes for installing pressure and temperature sensors, 7 - safety casing, 8 - heating elements, 9 - hole for removing solid precipitation, 10 - metering valve, 11 - hole for the exit of the finished product.

The housing 1 consists of a plurality of pipes 3, combined from above into the mixer chamber and from below into a common chamber 2 with an opening 11 for the exit of the finished product. There is a pipe connecting the lower common chamber 2 through the outlet 11 for the exit of the finished product with the heat exchanger 4 and equipped with a metering valve 10. Technological openings 5 for introducing the components can be located both in the mixer chamber located on top and in the heat exchanger 4. Technological openings 6 for the installation of pressure and temperature sensors can be located both in the mixer chamber located on top and in the lower chamber 2.

The device operates as follows: pressurized reagents are fed through openings 5, which are mixed and from the casing 1 enter the pipes 3 of the multi-tube reactor, where they are heated using heating elements 8 and enter the lower common chamber 2. From the lower common chamber 2, the reaction products enter heat exchanger 4, where the heat of the reaction products is used to preheat the components supplied to the reactor. Using the valve 10 regulate the pressure in the reactor.

To carry out the reactions after one of the reactants begins to heat up in the heat exchanger 4, part or all of the heating elements 8 are turned off, and the reaction occurs due to self-heating.

After the reactants (oxidizing agent and organic substances) begin to interact in the reaction zone, the heating elements 8 can be completely or partially turned off, and the reaction will be supported by the heat generated.

In this case, the mixture of processed substances is a suspension, or an emulsion, or a solution.

In addition, the oxidizing agent injected into the reactor is air, or hydrogen peroxide, or a mixture of air and hydrogen peroxide.

At the same time, several reactors operating in parallel are used to increase productivity.

In addition, the vapor-gas mixture formed in the reactor is discharged through the combined-cycle plant to produce electric and thermal energy.

Claims (2)

1. A reactor for carrying out chemical reactions at supercritical parameters of the aqueous medium, comprising a housing with the required number of technological holes, characterized in that the housing consists of a plurality of pipes combined from above into a mixer chamber and from below into a common chamber with an outlet for the exit of the finished product and an opening for removal of solid precipitation, while the pipes are closed with a protective casing on which the heating elements are installed. 2. The reactor according to claim 1, characterized in that the heating elements are coated with a layer of heat-resistant thermal insulation.

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