SU1435664A1 - Hydrogen generator - Google Patents

Abstract

The invention relates to designs of electrolysis-water generators. The goal is to increase the performance and reliability of the hydrogen generator. Separators for anodic and cathodic products are made in the form of a chamber divided by a partition with a filtering element, which is located at an acute angle to the surface of the liquid in the cathode separator. 1 il.

Description

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The invention relates to the field of gas supplying chromatographs, flame ionization detectors and technological installations with a hydrogen atmosphere, in particular, to designs of electrolysis-water generators.

The purpose of the invention is to improve the performance and reliability of the generator.

The drawing shows the generator.

The generator includes an electrolyzer 1 with water inlet and outlet nozzles separated by ion-exchange membranes into anode and cathode chambers, separators of anode 2 and cathode 3 products, made in the form of a chamber divided by a partition with filter element 4. The separators are connected by pipelines with the corresponding chambers of the electrolyzer. The generator also includes a deionizer 5, a cartridge dryer 6, a hydrogen pressure regulator 7.

The filter element is located between the separators of the anode 2 and cathode 3 products at an acute angle to the surface of the liquid in the cathode separator.

Before switching on the electrolyzer, the anode 2 and cathode 3 product separators are filled with water. During operation, water enters from the anode product separator 2 into the anode chambers of the electrolyzer through filter deionization - the torus 5 located below the electrolyzer, and into the cathode chambers - from the separator 3 cathodic products, Oxygen mixture, water output n1; and from the anode chambers of the electrolyzer . 1 enters separator 2 of anode products, where oxygen is separated from water; oxygen is removed from the anode separator at atmospheric pressure. A mixture of hydrogen and water leaving the cathode chambers of the electrolyzer enters the separator at the cathode products 3, where hydrogen is separated from water. The hydrogen passed through the dryer b, is cleaned from water vapor and is fed through the pressure regulator 7 to the consumer. In the separator of the cathode products 3 by means of the pressure regulator 7 is maintained

overpressure relative to atmospheric pressure. During the operation of the generator, under the action of electric current, water is transferred from the anode product separator to the separator.

cathode products blowing reactions: at the anode

as a result, sla2H20-4e - at the cathode

4H - + 4e

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Excess water entering the cathode product separator through the filter element returns to the anode product separator. As the level of the liquid in the cathode product separator decreases, the filtration surface decreases and the water level in the cathode product separator starts to increase. With an increased liquid level, the filtration surface increases, the level decreases. Practically during the operation of the generator in the cathode product separator, the liquid level remains constant.

The location of the filter element at an acute angle to the surface in the separator of cathode products causes an increase compared with the vertical location of the filtration area of the element and, consequently, the rate of outflow of liquid. In addition, the device operation time increases without adding water, its level in the anode product separator decreases very slowly.

The known generator operates in a variable feed mode, with the separators of anodic and cathodic products being made in the form of tanks of equal volume, taking into account the water supply for both feed cycles. The feeding mechanisms during the anodic and cathodic cycles are different. The duration of the cycles is also different. The voltage across the cells of the electrolyzer during the cathode cycle increases compared with the anode cycle. This leads to increased power consumption. At the time of cathode feeding, the current density through the electrolyzer is 3-5 times less, than with anode feeding. In addition, lowering the liquid level in the separator of cathode products during the cathode cycle leads to a decrease in the frequency of water circulation.

Elimination of the alternate feeding of the electrolyzer leads to stabilization of the voltage and current density at the electrodes, reduction of energy consumption, stabilization of the flow of water through the cathode chambers of the electrolyzer, and an increase in the rate of water circulation.1.1.

When working with the device, non-observance of strictly visual monitoring of the water level is no longer possible, topping up the water into the anode product separator can be carried out at any time, which is unacceptable in a known device.

Invention Form

Hydrogen generator, including an electrolyzer with water inlet and lateral nozzles, separated by ion exchange IN SHIPI

Order 5614/25

Productive. pr-tie, Uzhgorod, st. Project, 4

nyi mebmbranmi on .miodsh.yu and kat (1dny chambers, separators ansmtykh and k; n- (1d-- products, connecting1-11e 1 truGyulrov.dami with the corresponding chambers of the electrolyzer, deionizltor and cartridge-dehydrator, about l and 10 m and 1 so that, in order to improve the performance and reliability of the generator, the anode and cathode product separators are made in the form of a chamber divided by a partition with a filter element located at an acute angle to the liquid surface in the cathode separator.

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Circulation 622

Subscription

Claims (1)

Claim A hydrogen generator, including an electrolyzer with water inlet and outlet pipes, a separated ion exchanger, anode and cathode product separators is made in the form of a chamber separated by a partition with a filter element located at an acute angle to the surface of the liquid 15 in the cathode separator. VNIIIPI Order 5614/25 Circulation 622 _______ Subscription Mfg ave, city of Uzhhorod, st. Project, 4