SU807584A1 - Process for producing hydrogen - Google Patents

Abstract

A method of producing hydrogen by thermal dissociation of water, including heating water vapor and subsequent separation of hydrogen from the vapor-gas mixture, characterized in that, in order to lower the operating temperature of the process and increase the yield of dissociation products, water vapor is heated to 400-550 ° C the presence of calcium hydroxide powder.

Description

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4 The invention relates to the chemical industry and can be used for semi-hydrogen from water. Methods are known for the decomposition of water by electrolysis, thermochemical decomposition, and also radiolison. The disadvantages of thermochemical methods of water decomposition are the multistage and the presence of corrosive urine reagents. For the thermal decomposition of water, very high temperatures are needed, which are now difficult to achieve due to the lack of water. the cost of construction - materials. Radiolysis of water is characterized by a very low hydrogen yield due to secondary reactions of recombination of radiolysis products in the liquid phase. The closest to the invention according to the technical essence and to the achieved result is a method of producing hydrogen by thermal dissociation of water, including heating of water vapor and subsequent separation of hydrogen from the vapor-gas mixture 2. The disadvantage of this method is the need to overheat the steam to 1000-3000 ° K and the low molar concentration of hydrogen in the hot mountain. When the molar concentration of hydrogen is 2.09-.10, it leads to insurmountable difficulties in extracting hydrogen. In addition, such high temperatures are currently not implemented in nuclear power engineering. The aim of the invention is to reduce the operating temperature of the process and increase the yield of dissociation products. The objective is achieved by the fact that in the method of producing hydrogen by thermal dissociation of water, including heating of water vapor and subsequent separation of hydrogen from the vapor-gas mixture, 400-550 0 in the presence of calcium hydroxide in the form of a dispersed powder. The products of dissociation in the form of detonating gas or hydrogen, or hydrogen and oxygen are separately separated from the vapor-gas mixture. Heating the steam below does not lead to a significant yield of hydrogen due to the low level of thermal dissociation of water. Above, calcium hydroxide loses almost all of the water, as a result of which the hydrogen yield decreases sharply. The present method allows a 5 to 10 fold increase in the molar concentration of hydrogen in the reaction products as compared with the known method. Example. Calcium hydroxide in the form of a powder with a particle size of from 0.1 to 10 μM is loaded into the reactor and fired at. The vapor-gas mixture formed as a result of partial decomposition of calcium hydroxide is cooled, water is condensed, and the gas is sent to a gas collector. The table shows the results of the threefold implementation of the proposed method for producing hydrogen.

Claims (1)

METHOD FOR PRODUCING HYDROGEN. A method of producing hydrogen by thermal dissociation of water, including heating water vapor and then separating hydrogen from a gas-vapor mixture, which consists in the fact that in order to lower the process temperature and increase the yield of dissociation products, water vapor is heated to 400-550 ° C the presence of calcium hydroxide powder.