SU1673504A1 - Method of hydrogen peroxide decomposition - Google Patents

Abstract

The invention relates to the catalytic decomposition of hydrogen peroxide and can be used to produce water, steam and oxygen for respiration. The purpose of the invention is to enable the effective decomposition of a stabilized solution of hydrogen peroxide and increase the efficiency of the process by replacing the catalyst based on noble metals. The method consists in contacting an aqueous solution of hydrogen peroxide, stabilized by phosphates, with a catalyst, which is used as iron powder RV-2, in the presence of a promoter, which is sodium chloride, in an amount of 0.33 - 0.57 g per 1 kg of solution . The invention makes it possible to increase the efficiency of decomposition of H ₂ O ₂ hundreds of times and to increase the efficiency of the process by replacing the noble metal catalyst with an iron powder catalyst. 1 hp f-ly, 1 tab.

Description

The invention relates to the catalytic decomposition of hydrogen peroxide and can be used to produce water, steam and oxygen for respiration.

The purpose of the invention is to enable the effective decomposition of the stabilized hydrogen peroxide solution and increase the efficiency of the process by replacing the noble metal based catalyst.

The invention consists in contacting an aqueous solution of hydrogen peroxide stabilized with phosphates with a catalyst, which is used iron powder, in the presence of a promoter, which is sodium chloride, in an amount of 0.33-0.57 g per 1 kg of solution.

Example. The decomposition of an aqueous solution of hydrogen peroxide containing up to 0.6 g / l of phosphate is carried out in a two-section reactor made of steel Х18Н9Т. Height of section is 140 mm, diameter is 50 mm. The sections are connected through rubber gaskets and end caps with a flange.

A working mixture consisting of hydrogen peroxide and a promoter is prepared before starting the reactor by dissolving a portion of sodium chloride in a 33% aqueous solution of H2O2 Per 1 kg of working solution, 0.49 g of NaCl is taken. The temperature of the original working solution 18-20 ° C.

The working solution flows from the glass tank through the heat exchanger made of steel X18H9T to the bottom of the reactor through a nozzle (inner diameter 6 mm) per layer

a 4

CJ

sl o

catalyst - iron powder PZH-2 (diameter of part of C 0,131, specific area 58,272 cm / g). The mass of the catalyst in each section is 22.3 g, which in total is 2600 cm of visible surface. The feed rate of the working solution is adjusted by means of a manometer and a valve. The speed is 3.04-0.05 l / h. The temperature is controlled automatically by an EPP-09 potentiometer using thermocouples introduced through the catalyst bed into the reactor and into the heat exchanger. The resulting oxygen and water of the vapor phase are removed from the upper part of the reactor through a water seal, and the water of the liquid phase is removed from the middle part of the reactor by gravity through a drain pipe. The induction period is 3 minutes. Oxygen output 360 l / h, output H20 (steam) 0.7 l / h, Н20 (liq.) 1.96 l. The temperature in the reactor is 93-94 ° C, at the exit of the heat exchanger 77-78 ° C. The decomposition completeness of Н202 is 99.9 ± 0.02%.

Degradation efficiency H202 ((

in this case is 1.32-10 1 -jMIN CNT

The value of a characterizes the maximum rate of catalysis at a temperature optimum, which makes the process stable and controllable.

The table shows the dependence (o on the concentration of NaCl and H202 in the solution.

0

five

0

five

0

For the prototype, the value of cn is 1.2 10 mol / min-cm. Thus, the proposed method allows a hundredfold increase in the efficiency of decomposition of hhOz. moreover, the introduction of 0.33-0 57 g of NaCl per 1 kg of the working solution is optimal. In addition, the proposed method allows to increase the efficiency of the process by replacing the noble-metal catalyst with an iron powder catalyst.

Claims (2)

1. A method of decomposing hydrogen peroxide by contacting its 33-40% aqueous solution containing a promoter with a metal catalyst, characterized in that, in order to enable the effective decomposition of the stabilized hydrogen peroxide solution and increase the efficiency of the process by replacing the catalyst based on a noble metal, iron powder is used as a catalyst, and chloride ions in the form of sodium chloride are used as a promoter. 2. A method according to claim 1. characterized in that the sodium chloride is used in an amount of b, 3-0.57 g per 1 kg of the working solution.