RU2089670C1 - Process of generation of hydrogen - Google Patents

Abstract

FIELD: generation of hydrogen by electrolysis of aqueous solution. SUBSTANCE: invention is related to process of generation of hydrogen by electrolysis of aqueous solution with the use of alternating current and aluminium and its alloys in the capacity of anode and cathode. Process is conducted at hydrogen pressure of 0.1-5.0 MPa. EFFECT: increased efficiency of process.

Description

 The invention relates to the field of electrochemical production, in particular to methods for producing hydrogen.

A known method of producing hydrogen by electrolysis of electrolyte solutions using soluble anodes. Electrolysis is carried out by direct current using magnesium or its alloys as soluble anodes [1]
The disadvantage of this method is the use of expensive and scarce anodes of magnesium or its alloys, as well as the loss of part of the electricity associated with the conversion of alternating current to direct.

There is also a method of producing hydrogen by electrolysis of electrolyte solutions by alternating current using soluble anodes of aluminum and its alloys [2]
The disadvantage of this method is the fact that hydrogen is obtained at low pressures, and for its transportation or filling of containers, it is necessary to have a compressor unit in the system, which increases energy consumption.

Closest to the invention in technical essence and the result is a method of producing hydrogen under pressure from an aqueous solution of hydroxide or sulfuric acid [3]
The disadvantages of this method are the complex design of the cell due to the use of a membrane to separate the anode and cathode spaces, as well as the presence of a pressure regulator to equalize the pressure of hydrogen and oxygen. In addition, electrolysis is carried out at constant current, and in the case of electrolysis of a solution of sulfuric acid, expensive platinum or platinum titanium is used as the anode material.

 The essence of the invention lies in the fact that to increase productivity, the process of electrolysis of an aqueous solution is carried out at alternating current and elevated pressures of hydrogen gas of 0.1-5.0 MPa, while aluminum and its alloys are used as the anode and cathode.

 Electrolysis is carried out as follows: aluminum electrodes are fixed with an insulated aluminum wire on the lid of an autoclave with a capacity of 500 ml. As an electrolyte, a 2M sodium chloride solution or a sodium chloride solution with the addition of hydrochloric acid is used. The magnitude of the hydrogen pressure depends on the amount of electricity passed through.

 The main advantages of the proposed method for producing compressed hydrogen are the simplification of the electrolysis process due to the use of an electrolyzer without a membrane and pressure regulator, as well as the use of cheap electrodes and alternating current.

 The implementation of the process according to this method allows to obtain pure, not contaminated with oxygen, hydrogen at elevated pressures.

Example 1. In an electrolyzer (autoclave), AD-OOM grade aluminum electrodes insulated with fluoroplastic from the lid are fixed and immersed in a 2M sodium chloride solution. The current value is regulated using a laboratory autotransformer. Current density 200 A / m ² , temperature 70 ^o C, voltage on the electrolytic cell 2.6 V, hydrogen pressure 3.5 MPa, current output of hydrogen 100%
Example 2. The electrolysis is carried out in the electrolyzer analogously to example 1. Process parameters: current density 300 A / m ² , temperature 80 ^o C, voltage on the cell 3.1 V, hydrogen pressure 5 MPa.

Example 3. The electrolysis is carried out in the electrolyzer analogously to example 1. The electrolyte is a 2M NaCl solution and 0.6 M HCl solution. Process parameters: current density 4000 A / m ² , temperature 60 ^o C, voltage across the electrolyzer 1.8 V, hydrogen pressure 2.7 MPa.

 The implementation of the method without the use of scarce nickel or magnesium electrodes allows to obtain gaseous hydrogen of high purity without traces of chlorine and oxygen.

 Hydrogen generated during electrolysis by this method, accumulating in the autoclave, creates increased pressure, which facilitates its transportation and practical use.

Claims (1)

 The method of producing hydrogen by electrolysis of an aqueous solution by alternating current using aluminum and its alloys as the anode and cathode, characterized in that the process is carried out at hydrogen pressures of 0.1 5.0 MPa.