Device for generating electrolyzed water from microbubbles and method for generating electrolyzed water from microbubbles

摘要

A microbubble electrolyzed water generating apparatus, comprising: an electrolytic apparatus having a two chamber structure including an anode chamber with an anode electrode, a cathode chamber with a cathode electrode, and a diaphragm provided between the anode chamber and the cathode chamber, or an electrolytic apparatus (X) having a three-chamber structure including an anode chamber (1) with an anode electrode (6), a cathode chamber (2) with a cathode electrode (7), an intermediate chamber (3) provided between the anode chamber (1) and the cathode chamber (2), an anode diaphragm (4) provided between the anode chamber (1) and the intermediate chamber (3), and a cathode diaphragm (5) provided between the cathode chamber (2) and the intermediate chamber (3); an acid electrolyzed water storage tank (10) that stores acid electrolyzed water; an alkaline electrolyzed water storage tank (11) that stores the alkaline electrolyzed water; both water storage tanks are arranged adjacent to the electrolytic apparatus; a first nanobubble generator (14) that is in communication with the acid electrolyzed water storage tank (10); a second nanobubble generator (14, 14 ') that is in communication with the alkaline electrolyzed water storage tank (11); an acid electrolyzed water connection pipe (8) through which the anode chamber (1) is in communication with the acid electrolyzed water storage tank (10); an alkaline electrolyzed water connection pipe (9) through which the cathode chamber (2) is in communication with an alkaline electrolyzed water storage tank (11); an acid electrolyzed water conduit (12) through which the acid electrolyzed water storage tank (10) is in communication with the first nanobubble generator (14); an acidic nanobubble electrolyzed water pipe (15) through which the first nanobubble generator (14) is in communication with the acidic electrolyzed water storage tank (10), an alkaline electrolyzed water conduit (13) to through which the alkaline electrolyzed water storage tank (11) is in communication with the second nanobubble generator (14, 14 '), an alkaline nanobubble electrolyzed water pipe (16) through which the second generator of nanobubbles (14, 14 ') is in communication with the alkaline electrolyzed water storage tank (11), in which the first nanobubble generator (14) receives electrolyzed anode water and chlorine gas generated in the anode chamber ( 1) through the acid electrolyzed water connection pipe (8) and the acid electrolyzed water conduit (12) and generates the nanobubbles with the electrolyzed anode water and the chlorine gas to supply the electrolytic water anode section that includes the nanobubbles to the acid electrolyzed water storage tank (10) through the acidic nanobubble electrolyzed water pipe (15) and in which the second nanobubble generator (14, 14 ') receives a water electrolyzed cathode and hydrogen gas generated in the cathode chamber (2) through the alkaline electrolyzed water connection pipe (9) and the alkaline electrolyzed water conduit (13) and generates the nanobubbles with the electrolyzed cathode water hydrogen gas to supply the electrolyzed cathode water including the nanobubbles to the electrolyzed water storage tank (11) through the alkaline nanobubble electrolyzed water line (16).