Idegami
Atsushi Idegami, Niihama-Shi JP
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20100242681 | Method for concentration of gold in copper sulfide minerals - Disclosed herein is a method for concentrating gold contained in a leach residue obtained in a copper hydrometallurgical process for recovering copper from a copper sulfide mineral to efficiently separate and recover gold from the leach residue. According to the method, a gold-bearing copper sulfide mineral is subjected to pressure leaching with sulfuric acid at a temperature higher than 102° C. and 112° C. or lower to obtain a leach residue, and the leach residue is subjected to flotation to separate it into a float fraction and a sink fraction. The float fraction obtained by flotation is desulfurized by heating at a temperature of 250 to 800° C. under an inert atmosphere to obtain a desulfurized product. The desulfurized product is subjected to oxidative roasting by heating at a temperature of 600 to 800° C. under an atmosphere of flowing oxygen or air to obtain an oxidatively-roasted product. The oxidatively-roasted product is dissolved in a sulfuric acid solution to obtain a copper solution, and a gold-bearing residue is separated and recovered from the copper solution. | 09-30-2010 |
20150078972 | METHOD FOR PRODUCING HIGH-PURITY NICKEL SULFATE - Provided is a method of producing high-purity nickel sulfate by an impurity-element removal method for selectively removing Mg from a Ni-containing solution. The method comprises a production process of producing nickel sulfate from a Ni-containing acid solution, the acid solution being treated in order of steps (1) to (3): (1) carbonation step, adding a carbonating agent into the Ni-containing solution to make Ni contained in the Ni-containing solution into a precipitate of nickel carbonate or a mixture of nickel carbonate and nickel hydroxide, thereby forming a slurry after carbonation including the precipitate and a solution after carbonation; (2) solid-liquid separation step, separating the slurry after carbonation formed in the carbonation step into the precipitate and the solution after carbonation; and (3) neutralization step, adding a neutralizing agent into the solution after carbonation separated through the solid-liquid separation step to recover Ni contained in the solution after carbonation as a Ni-precipitate. | 03-19-2015 |
Atsushi Idegami, Tokyo JP
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20150014225 | METHOD FOR RECOVERING CHROMITE, AND METHOD FOR WET SMELTING OF NICKEL OXIDE ORE - A method for recovering chromite from ore slurry obtained by processing nickel oxide ore, the raw material, in a plant for the wet smelting of nickel oxide ore. In the method chromite is separated and recovered from an ore slurry obtained from a nickel oxide ore when nickel and cobalt are recovered from the nickel oxide ore. The method has a grain diameter separation step for separating the ore slurry on the basis of a predetermined classification point according to the difference in the grain diameter of particles contained in the supplied ore slurry and a sedimentation separation step for causing the oversized ore slurry separated in the grain diameter separation step to undergo sedimentation and concentration on the basis of a target classification point, and recovering the chromite. The coarse particle content of the oversized ore slurry separated in the grain diameter separation step is adjusted to 30-50%. | 01-15-2015 |
Kotaro Idegami, Nomi-Shi JP
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20130072402 | METHOD FOR COLLECTING NUCLEATED RED BLOOD CELLS VIA DENSITY-GRADIENT CENTRIFUGATION UTILIZING CHANGES IN BLOOD CELL DENSITY - This invention provides a method for concentrating and collecting small quantities of fetal nucleated red blood cells contained in the maternal blood. The method for concentrating and collecting nucleated red blood cells from the maternal blood comprises: (i) subjecting the maternal blood to a first density-gradient centrifugation and collecting a cell fraction containing nucleated red blood cells; (ii) treating the cell fraction containing nucleated red blood cells so as to selectively changes the density of the nucleated red blood cells from that of the white blood cells; and (iii) subjecting the treated cell fraction containing the nucleated red blood cells to a second density-gradient centrifugation so as to collect a fraction containing nucleated red blood cells. | 03-21-2013 |
Kotaro Idegami, Chino JP
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20150118743 | NUCLEIC ACID EXTRACTION DEVICE - A nucleic acid extraction device has: a tube extending in a longitudinal direction in which a first plug formed of a wax or an oil, a second plug formed of a first washing liquid, a third plug formed of a wax, a fourth plug formed of an eluate, and a fifth plug formed of a wax or an oil are arranged in this order. | 04-30-2015 |
Koutarou Idegami, Ishikawa JP
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20090159458 | Method for Determination of Test Substance - [Problems] A highly sensitive and accurate determination of a test substance is achieved without the need of complicated procedures. | 06-25-2009 |
20110244476 | METHOD FOR EVALUATION OF QUALITY OF BLOOD SAMPLE - A method for evaluating the quality of a blood sample, comprising the steps of: mixing labeled anti-cortisol antibodies with a blood sample to be subjected, to conduct the antigen-antibody reaction of the labeled anti-cortisol antibody with cortisol contained in the blood sample, developing a mixture obtained in the above step on an immunochromatographic test strip having a substrate on which cortisol is immobilized to cause the antigen-antibody reaction of the labeled anti-cortisol antibodies which are free in the mixture with the cortisol immobilized on the substrate, thereby bonding the antibody to the cortisol, determining the amount of the labeled anti-cortisol antibodies bonded to the cortisol in the above step, and evaluating whether or not the blood sample has a quality suitable for suprarenal vein sampling test on the basis of the amount of the labeled anti-cortisol antibodies determined in the above step. | 10-06-2011 |
Masato Idegami, Tokyo-To JP
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20080273061 | METHOD FOR MANUFACTURING PATTERN FORMED BODY - The main object of the present invention is to provide a method for manufacturing a pattern formed body by the electric field jet method, capable of stabilizing the discharge amount and the discharge direction of a liquid. The present invention achieves the object by providing a method for manufacturing a pattern formed body characterized in that a pattern is formed on a substrate by: discharging a liquid from a discharge orifice by applying a voltage between a first electrode, disposed in the vicinity of the discharge orifice of a nozzle of a discharge head, and a second electrode, disposed in between the discharge orifice and the substrate, having an opening for discharge; and adhering the liquid onto the substrate by passing through the opening for discharge of the second electrode. | 11-06-2008 |
Ryo Idegami, Yokohama-Shi JP
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20140156107 | CONTROL APPARATUS AND METHOD FOR CONTROLLING OPERATION TARGET DEVICE IN VEHICLE, AND STEERING WHEEL - A first detector is configured to detect a state where a first area in a touch sensor mounted on a grip portion that a driver grips on a steering wheel is touched. A second detector is configured to detect a state where a particular input operation is performed on a second area located on the upper side of the first area in the touch sensor. A controller is configured to control an operation target device to be operated with the touch sensor according to the particular input operation when the first detector detects the state where the first area is touched and the second detector detects the state where the particular input operation is performed. | 06-05-2014 |