30results about How to "Eliminate mixing" patented technology

There is provided a method for electrically energizing and heating a platinum or platinum-alloy composite tube structure having a structure including a first main tube, a second main tube, and a branch tube connecting the first main tube and the second main tube, which prevents a local part of the branch tube from being electrically energized and heated in an excessive or insufficient manner. There is provided a method for electrically energizing and heating a platinum or platinum-alloy composite tube structure having a structure including a first main tube, a second main tube, and a branch tube connecting the first main tube and the second main tube, the method comprising dividing an energizing path for the branch tube into a first energizing path from the first main tube to the branch tube and a second energizing path from the branch tube to the second main tube; and performing energization control for the first energizing path and energization control for the second energizing path independently of each other.

Proposed is a method of recovering valuable metal from scrap containing conductive oxide including the steps of using an insoluble electrode as either an anode or a cathode, using a scrap containing conductive oxide as the counter cathode or anode, performing electrolysis while periodically inverting the polarity, and recovering the scrap as hydroxide. With the foregoing method of recovering valuable metal from scrap containing conductive oxide, oxide system scrap is conductive oxide and a substance that can be reduced to metal or suboxide with hydrogen. This method enables the efficient recovery of valuable metal from sputtering target scrap containing conductive oxide or scrap such as mill ends of conductive oxide that arise during the production of such a sputtering target.

Proposed is a method of recovering valuable metal from scrap containing conductive oxide including the steps of using scrap containing conductive oxide and performing electrolysis while periodically inverting the polarity, and recovering the scrap as hydroxide. With the foregoing method of recovering valuable metal from scrap containing conductive oxide, oxide system scrap is conductive oxide and a substance that can be reduced to metal or suboxide with hydrogen. This method enables to efficiently recover valuable metal from sputtering target scrap containing conductive oxide or scrap such as mill ends of conductive oxide that arise during the production of such a sputtering target.

Disclosed are a method for producing an aripiprazole suspension, wherein the aripiprazole has a mean particle size of 1 to 10 μm, the method comprising the steps of: (a) combining bulk aripiprazole and a vehicle to form a primary suspension; (b) subjecting the primary suspension to first pulverization using e.g., a high shear pulverizing machine, a dispersion machine that applies shear force to a material to be processed, a colloid mill, an ultrasonic dispersion machine, or a high-pressure jet type emulsifying dispersion machine to form a secondary suspension; and (c) subjecting the secondary suspension to second pulverization using e.g., a high-pressure jet type emulsifying dispersion machine to form a sterile final suspension; and a method for producing a freeze-dried formulation from the aripiprazole suspension.

A guide ring is positioned in the reactor core vessel of a pebble-bed nuclear reactor to segregate fuel pebbles and reflector pebbles fed into the vessel through respective conduits. The reflector pebbles pass through the guide ring and form a central reflector column, while the fuel pebbles pass outside the guide ring and form an annular fuel column surrounding the central reflector column. The guide ring controls the size and shape of the reflector column and controls mixing of the two types of pebbles.

Disclosed herein are synthetic microparticles substantially free of monovalent and divalent metal elements and a method of forming such synthetic microparticles. The synthetic microparticle may be suitable for use as a density modifying filler. The synthetic microsphere can be made from an agglomerate precursor that includes an aluminosilicate material, such as fly ash, a blowing agent such as sugar, carbon black, and silicon carbide, and a binding agent. The synthetic microsphere is produced when the precursor is fired at a pre-determined temperature profile so as to form either solid or hollow synthetic microspheres depending on the processing conditions and/or components used. The synthetic microparticle is capable of being formed into a large range of predetermined shapes.

The invention relates to a connection apparatus (10) for a wiper arm (14) and a wiper blade (12). The connection apparatus comprises a first and a second connection part. According to the invention, provision is made for the first connection part to have a first identification means and for the second connection part to have a second identification means which corresponds to the first identification means. The invention also comprises a system with two flat-bar wiper blades, with at least one first identification means being provided on at least one flat-bar wiper blade in order to distinguish between the two wiper blades.

A method for preparing an electrode material for battery is provided. The method includes the following steps: firstly, providing a reaction precursor having a crystal structure, in which the reaction precursor represents as Na_xM_yM′_zO₂, and M and M′ are not the same metal; next, dispersing the reaction precursor in a solvent, and adding a lithium (Li) salt therein, so as to form a mixed solution; and then, performing a microwave heating treatment on the mixed solution, in which Li⁺ in the Li salt are ion exchanged with Na⁺ in the reaction precursor, so as to form Li_xM_yM′_zO₂ as the electrode material.

A noise eliminator comprises: a noise detection unit for detecting the pulsed noise mixed in a reception signal, and detecting the period of occurrence of the pulsed noise; a detuning frequency detection unit for detecting an adjacent interference signal superimposed on the reception signal, and detecting a detuning frequency between the frequency of the adjacent interference signal and the frequency of a desired signal; a gate control unit for calculating a period approximated to the period of occurrence of the pulsed noise as a gate period, the gate period being an integer multiple of the period equivalent to a reciprocal of the detuning frequency; and a gate unit for interrupting the pulsed noise mixed in the reception signal during the gate period, thereby outputting a reception signal of which pulsed noise is eliminated. Thus, the noise eliminator can reduce the effect of spurious signal ascribable to an adjacent interference signal.

The present invention provides silver halide grains in which a difference in ionic conductivity between a region exhibiting highest ionic conductivity and a region exhibiting lowest ionic conductivity is at least 100 times. The invention also provides a silver halide emulsion comprising the silver halide grains as well as a silver halide color photographic photosensitive material comprising the silver halide emulsion.

An anion-exchange-membrane type of fuel-cell-system includes: a fuel cell part; and a carbon dioxide eliminating part, wherein the fuel cell part comprises a fuel electrode, an air electrode, an anion-exchange type of solid polymer electrolyte membrane sandwiched between the fuel electrode and the air electrode, a fuel channel that supplies a fuel gas to the fuel electrode, and an air channel that supplies air or an oxygen gas to the air electrode, and the carbon dioxide eliminating part is configured to eliminate carbon dioxide which is mixed in the fuel gas when the fuel gas flows through the fuel channel, and to allow the fuel gas to flow again into the fuel channel after eliminating the carbon dioxide.

The invention discloses a method for setting a taxi-rank. The taxi-rank is divided into upper and lower layers which are respectively a passenger layer and a vehicle driving layer, wherein at least two passenger channels are arranged on the passenger layer; at least two driving channels are arranged on the vehicle driving layer; and each of the passenger channels is respectively connected with each of the driving channels. The invention has the beneficial effects that according to the method for setting the taxi-rank provided by the invention, vehicles and passengers are respectively arranged on two different layers, namely, the vehicles and the passengers are vertically crossed, multiple passengers can get on simultaneously, and mixing and insecurity caused by the original crossing of the vehicles and the passengers on the same plane are eliminated.