International Journal of Chemical Engineering and Processing

Electrolytic hydrogen bubbles, formed during the electrolysis of water solutions, have two unique properties: microdispersion and negative charge of their surface, which allow them as a result of an elementary act of flotation to form strong complexes: negatively charged micro dispersed hydrogen bubbles-microscopic solid particle, biological cell, whose floatation to the free surface of water solution due to their increased volume compared to individual components ensures the successful completion of the purification and concentration processes. Negatively charged micro dispersed hydrogen bubbles, intensively forming on the cathode, in the process of floatation to the free surface of water solution, saturate it with hydrogen and charge it with a negative charge, making it negatively charged hydrogen water (catholyte solution), which has a beneficial effect on biological cells. The use of these properties and the catholyte solution, formed by negatively charged micro dispersed hydrogen bubbles in the practice of industrial purification and concentration allowed the author to successfully purify industrial effluents and wastewater, clarify juices and wines, purify the lymph of patients from toxic products and cancer cells, restore fresh water from urine, the concentration of cells of rapidly multiplying microalgae (Chlorella, Dunaliella), the concentration of juices, etc. There is interest in explaining at the physicochemical level the nature of the formation of a negative charge on the surface of electrolytic hydrogen bubbles, generated during the electrolysis of water solutions. What makes them so micro dispersed in the process of electrolysis of water solutions? The paper discloses an experimentally confirmed physicochemical model of the formation of negatively charged micro dispersed bubbles of electrolytic hydrogen during the electrolysis of water solutions.

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