Patent ID: 8999120
Filing Date: 2015-04-07
Classification: C02F,Y02E

Abstract:
1. An ionized water production method using an ionized water production device in which electrolysis cells, each of which comprises a bottomed, cylindrical electrolysis diaphragm, a cathode arranged inside the electrolysis diaphragm, and an anode arranged outside the electrolysis diaphragm, are arranged inside respective plastic electrolysis baths, and a supporting electrolyte is filled in the plastic electrolysis baths outside of respective electrolysis diaphragms such that the electrolysis cells are immersed in the supporting electrolyte and such that both a first surface of the anode, that faces a corresponding electrolysis diaphragm, and a second surface of the anode, that is opposite to the first surface and that faces an inner surface of a corresponding plastic electrolysis bath, are immersed in the supporting electrolyte, wherein the ionized water production device consists of, as the plastic electrolysis baths, mutually independent first and second electrolysis baths, and the ionized water production device consists of, as the electrolysis cells, first and second electrolysis cells, wherein the first electrolysis cell is arranged inside the first electrolysis bath while the second electrolysis cell is arranged inside the second electrolysis bath such that a water level of the supporting electrolyte in each electrolysis bath does not exceed an upper end of the corresponding electrolysis diaphragm, and wherein a water filling pipe and a drain pipe are attached to the first electrolysis cell and the second electrolysis cell, the method comprising: introducing raw material water inside the electrolysis diaphragm of the first electrolysis cell; electrolyzing the raw material water by applying current to the cathode and the anode of the first electrolysis cell to produce alkaline ionized water; and quantitatively and continuously transferring the alkaline ionized water formed within the electrolysis diaphragm of the first electrolysis cell to within the electrolysis diaphragm of the second electrolysis cell at a rate of 0.5 L per minute by a transfer pump arranged in the water filling pipe of the first electrolysis cell, wherein the pH value of alkaline ionized water output from the drain pipe of the second electrolysis cell is 12 or more, and wherein the current is applied such that the current applied to the first electrolysis cell is set to any value within a range of 5 amperes to 15 amperes and the current applied to the second electrolysis cell is set to any value within a range of 15 amperes to 20 amperes, such that a total current applied to the first electrolysis cell and the second electrolysis cell is within a range of 25 amperes to 30 amperes.