Abstract: Electric parts including semiconductor substrates, glass substrates and the like are washed with various cleaning solutions. After the cleaning, said parts are cleaned with either anolyte or catholyte electrolytic ionized water (EIW) produced from deionized water.
Abstract: Sulphide-containing white liquor is treated in a continuously operating electrolytic cell having separate anode and cathode compartments separated by a partially permeable barrier. White liquor is introduced into the anode compartment of the cell, and an aqueous solution of alkali metal hydroxide is introduced into the cathode compartment of the cell so that sulphide is oxidized in the anode compartment, while at the same time alkali metal cations are transported through the barrier into the cathode compartment, where water reacts to form hydroxide ions. An electrolytic cell suited for implementing the method is also disclosed.
Type:
Grant
Filed:
December 18, 1995
Date of Patent:
April 29, 1997
Assignee:
Eka Nobel Inc.
Inventors:
Johan Landfors, Bo H.ang.kansson, Maria Norell
Abstract: An ionized water stably maintaining a strong pH value for a long period is manufactured. Plural electrolytic cells disposing cylindrical cathodes and anodes across a cylindrical electrolytic diaphragm with a bottom made of clay ceramics are disposed in an electrolytic bath. Alkaline ionized water produced in the electrolytic diaphragm is supplied into the electrolytic diaphragm of the adjacent electrolytic cell, and electrolyzed in the electrolytic cell. In the electrolytic diaphragm of each electrolytic cell, crystalline clay minerals are dissolved, and alkaline ionized water of high intensity is sequentially produced, and at the outside of the electrolytic diaphragm of each electrolytic cell, crystalline clay minerals are dissolved, and acidic ionized water of high intensity is sequentially produced.
Abstract: The present invention relates to a method and an apparatus for processing water, whereby water is electrolyzed to produce electrolyzed water, and aqueous solution with chitin chitosan dissolved in it is added to the electrolyzed water to eliminate chlorine components without changing the property of the electrolyzed water. To cathodic water, of the electrolyzed water, the aqueous solution with chitin chitosan dissolved in it is added by 0.001 to 0.1 weight %, and aqueous solution with chitin chitosan dissolved in it is added to the anodic water by 0.005 to 0.05 weight %.
Abstract: An electrolytic ionized water (EIW) producing apparatus comprises an anode, a cathode, an electrolyzer which includes an anode chamber, a cathode chamber and an intermediate chamber, inlet lines for supplying an influent water to the three chambers, and outlet lines for discharging effluent water from the chambers. Further, an acidic electrolyte supplying unit is connected to the outlet line from the anode chamber, and an alkaline electrolyte supplying unit is connected to the outlet line from the cathode chamber. The electrolyte supplying units can selectively control at least the dosage level of elelctrolyte(s) to be supplied, the composition and concentration of the electrolyte(s) or pH of EIW after the addition of the electrolyte(s).
Abstract: An electrolytic process and apparatus is disclosed for oxidizing or reducing inorganic and organic species, especially in dilute aqueous solutions. The electrolytic reactor includes an anode and cathode in contact with a packed bed of particulate ion exchange material which establishes an infinite number of transfer sites in the electrolyte to significantly increase the mobility of the ionic species to be oxidized or reduced toward the anode or cathode, respectively. The ion exchange material is cationic for oxidation and anionic for reduction, or a combination of both for special circumstances. Preferably, the ion exchange material is treated to convert a portion of the transfer sites to semiconductor junctions which act as mini anodes, or cathodes, to significantly increase the capacity of the reactor to oxidize or reduce the species to be treated. Exemplary applications for the disclosed electrolytic process and apparatus are the conversion of halides to halous acids in dilute solutions.
Abstract: An apparatus for water treatment, and in particular for electrical water purification in combination with a filtering apparatus for providing purified water for drinking and other application common in the home, farm or business. Metal, hydrogen and oxygen ions are introduced into water to be treated by using plasma fused iridium coated titanium electrodes and copper alloy electrodes. After ionizing the water to be purified, the water is then filtered in a filter tank which contains layers of various filtration media, including granular activated carbon.
Abstract: The method for producing electrolyzed water includes the step of applying a voltage to electrodes disposed in an electrolytic cell containing therein pure water including electrolyte therein. A strength of an electric field generated by applying a voltage to the electrodes is controlled to be variable by means of various techniques. The method makes it possible to produce electrolyzed water with a smaller amount of energy than prior methods.
Abstract: Pulping chemicals and hemicellulose are recovered from a starting solution essentially free of lignin but containing a mixture of hemicellulose and caustic by electrolyzing this solution in the anolyte compartment of an electrolytic cell. By electrolysis, the concentration of caustic in the anolyte is decreased and the concentration of caustic in a catholyte of said cell is increased so as to allow recovery, of about 60 to about 80 percent of the caustic contained in the hemicellulose caustic starting solution.
Type:
Grant
Filed:
November 3, 1995
Date of Patent:
December 31, 1996
Assignee:
Huron Tech Incorporated
Inventors:
Stephen W. Moran, John R. Jackson, Timothy J. Gallivan, Richard E. Loftfield
Abstract: The object of the invention is to accomplish surface treatment such as cleaning, etching or after-treatment of parts or semi-processed articles for the manufacture of industrial or medical products without raising the problem of environmental pollution and without damaging or contaminating the treated articles. Water is electrolyzed in a tank which is partitioned by a porous membrane into an anode chamber and a cathode chamber to prepare a fresh anodic water containing H.sup.+ ion in the anode chamber and a fresh cathodic water containing OH.sup.- ion in the cathode chamber. The fresh anodic water and the fresh cathodic water are separately discharged from the electrolysis tank, and selected one of the anodic water and the cathodic water is brought into contact with the object of wet treatment.
Abstract: A process to purify waste waters using chemical oxidation and Fenton's reagent by the action in the acid range of hydrogen peroxide and iron(II) compounds and subsequent precipitation in the weakly acid to alkaline range of the iron(III) compounds, said process being characterized in that the sludge containing iron(III) accumulating in addition to the purified waste water is reduced electrolytically back into iron(II) compounds and in that the sludge so reduced is fed back into the process. The process of the invention allows extensive purification of highly concentrated waste waters and furthermore problems arising with the treatment and elimination of the Fenton sludge can be circumvented.
Type:
Grant
Filed:
April 14, 1994
Date of Patent:
July 23, 1996
Assignee:
Solvay Interox GmbH
Inventors:
Michael Gnann, Carl-Heinz Gregor, Siegfried Schelle
Abstract: In a batch type electrolyzed water producing method, a first run of electrolysis is carried out, and electrolyzed water is discharged. Thereafter, before a next run of electrolysis is carried out, the polarity of a DC power source connected to the electrode plates is reversed. Thus, the electrode plate which has served as a cathode plate in the last run of electrolysis is converted into an anode plate and therefore, deposits accumulated on the electrode plate are ionized and dissolved into the subject water.