摘要:
Provided are a positive electrode active material for nonagueous secondary batteries, the material having a narrow particle-size distribution and a monodisperse property and being capable of increasing a battery capacity; an industrial production method thereof; and a nonaqueous secondary battery using the positive electrode active material and having excellent electrical characteristics. The positive electrode active material is represented by a general formula: Li1+uNixCoyMnzMtO2+α (wherein, 0.05≦u≦0.95, x+y+z+t=1, 0≦x≦0.5, 0≦y≦0.5, 0.5≦z
摘要翻译:本发明提供一种用于非载体二次电池的正极活性物质,其粒径分布窄,单分散性好,能够提高电池容量; 其工业生产方法; 以及使用正极活性物质并具有优异的电特性的非水二次电池。 正极活性物质由以下通式表示:Li1 + uNixCoyMnzMtO2 +α(其中,0.05&nlE; u&nlE; 0.95,x + y + z + t = 1,0,0n1E; x&amp; nlE; 0.5,0和nlE; y&nlE; 0.5,0.5 &nlE; z <0.8,0&nlE; t&nlE; 0.1,M为添加元素,选自Mg,Ca,Al,Ti,V,Cr,Zr,Nb,Mo和W中的至少一种元素) 粒径为3〜12μm,[(d90-d10)/平均粒径]为0.60以下,表示粒径分布的比例。
摘要:
An engine-driven machine having plural kinds of load devices driven by an engine is provided with a load torque calculation unit that calculates a present load torque applied to the engine from a load device of at least one kind, and a control unit that performs variable control of a maximum output characteristic of the engine in accordance with the calculated load torque, such that a maximum output torque that can be outputted by the engine at the present engine revolution speed becomes a maximum output torque that is equal to or greater than the calculated load torque.
摘要:
The invention provides a gene encoding a protein selected from among the following proteins (a) to (c): (a) a protein having any of the amino acid sequences of SEQ ID NOs: 2, 4, 6, 8, 10, 12, 14, 16, 82, 84, 86, 88, 90, 92, 94, 96, 98, 100, 102, 104, 106, and 108; (b) a protein which has an amino acid sequence equivalent to any of the amino acid sequences of (a), except that one to several amino acid residues are deleted, substituted, or added, and which exhibits cytokine production regulatory activity; and (c) a protein which has an amino acid sequence having 90% or higher identity to any of the amino acid sequences of (a), and which exhibits cytokine production regulatory activity, as well as a gene useful for regulating cytokine production and use of the gene.
摘要翻译:本发明提供了编码选自以下蛋白质(a)〜(c)的蛋白质的基因:(a)具有SEQ ID NO:2,4,6,8,10,12的任意氨基酸序列的蛋白质 ,14,16,82,84,86,88,90,92,94,96,98,100,102,104,106及108; (b)具有与(a)的任何氨基酸序列相同的氨基酸序列的蛋白质,除了一至数个氨基酸残基被缺失,取代或添加,并且其表现出细胞因子产生调节活性; 和(c)具有与(a)的任何氨基酸序列具有90%或更高同一性并且表现出细胞因子产生调节活性的氨基酸序列的蛋白质,以及可用于调节细胞因子产生和使用的基因 的基因。
摘要:
A submersible aerator has an impeller which includes blades having partition walls which separate liquid passages and air passages and which is accommodated within a guide casing for rotation between a lower surface of an intermediate plate having an air suction opening and an upper surface of a suction cover having a liquid suction opening. The liquid passages and the air passages meet through communication portions at radially outer ends of rear-side blade partition walls. Intermediate blades are provided at radially outer ends of the liquid passages. A conical space is defined between the blade lower end surfaces and the suction cover upper surface such that the space, which is wide at a portion adjacent to the liquid suction opening, becomes narrower toward a radially outward region including guide vane tongues. A plurality of support legs and a plurality of straining projections are integrally formed on the lower surface of a peripheral portion of a bottom wall of the guide casing. Sloping surfaces are provided on the top wall upper surface between air-liquid discharge passages such that the sloping surfaces are inclined downward and increase in width in the radially outward direction.
摘要:
When melting a glass layer 3 by irradiation with laser light L1 along a region to be fused R, the glass layer 3 is irradiated with the laser light L1 having a first heat input along the region to be fused R, so as to gasify a binder and melt a glass frit 2, and the heat input is switched when the melting ratio of the glass layer 3 in a direction intersecting an advancing direction of the laser light L1 exceeds a predetermined value, so as to irradiate the glass layer 3 with the laser light L1 having a second heat input smaller than the first heat input along the region to be fused R, thereby gasifying the binder and melting the glass fit 2, thus fixing the glass layer 3 to a glass member 4.
摘要:
An engine-driven machine having plural kinds of load devices driven by an engine is provided with a load torque calculation unit that calculates a present load torque applied to the engine from a load device of at least one kind, and a control unit that performs variable control of a maximum output characteristic of the engine in accordance with the calculated load torque, such that a maximum output torque that can be outputted by the engine at the present engine revolution speed becomes a maximum output torque that is equal to or greater than the calculated load torque.
摘要:
The separation method for zinc sulfide, in the hydrometallurgical process by a High Pressure Acid Leach for nickel oxide ore comprising leaching and solid/liquid separation step, neutralization step, zinc removal step, and nickel recovery step, which can inhibit clogging of a filter cloth and reduce a frequency of washing operation and replacement operation of a filter cloth by improving filtration performance of zinc sulfide, and inhibit decrease of nickel recovery ratio, in the zinc removal step in which zinc sulfide is formed by adding a sulfurizing agent to the neutralization final liquid containing zinc as well as nickel and cobalt and zinc sulfide is separated to obtain a mother liquid for nickel recovery containing nickel and cobalt.The separation method for zinc sulfide of the present invention is characterized in that in the above-described neutralization step, the leach residue is added to the leach liquor, and pH of the neutralization final liquid is adjusted so as to fall to the range from 3.0 to 3.5, and in the zinc removal step, the suspended solid comprising the neutralized precipitate and the leaching reside are kept remained in said neutralization final liquid so that turbidity thereof falls in the range from 100 to 400 NTU.
摘要:
Herein disclosed is an optical modulator, having: a substrate (1); and a center and ground electrodes (4a to 4c), in which the substrate has ridge portions (8a to 8c), the center and ground electrodes are respectively formed above the ridge portions, the ridge portions below the center and ground electrodes respectively have top parts (10a, 10b) having a respective first and second end points (18, 19) separated with a distance of “WR”, the substrate has a bottom surface (21b) between the ridge portions having center and midway points (23, 24) positioned with a respective distance of WR/2 and WR/N ( 3 ≦N≦25 ) from the first end point, the ridge portion below the center electrode has a normal line (13), and the center point and the midway point define a straight line (25) crossed with the normal line at an angle larger or equal to 90.1°.
摘要:
A lithium-containing composite oxide represented by the formula 1: LixNi1-y-z-v-wCoyAlzM1vM2wO2 is used as a positive electrode active material for a non-aqueous electrolyte secondary battery. The element M1 is at least one selected from the group consisting of Mn, Ti, Y, Nb, Mo, and W. The element M2 includes at least two selected from the group consisting of Mg, Ca, Sr, and Ba, and the element M2 includes at least Mg and Ca. The formula 1 satisfies 0.97≦x≦1.1, 0.05≦y≦0.35, 0.005≦z≦0.1, 0.0001≦v≦0.05, and 0.0001≦w≦0.05. The primary particles have a mean particle size of 0.1 μm or more and 3 μm or less, and the secondary particles have a mean particle size of 8 μm or more and 20 μm or less.
摘要翻译:作为非水电解质二次电池用正极活性物质,使用由式1表示的含锂复合氧化物:LixNi1-y-z-v-wCoyAlzM1vM2wO2。 元素M1是选自Mn,Ti,Y,Nb,Mo和W中的至少一种元素。元素M2包括选自Mg,Ca,Sr和Ba中的至少两种元素,并且 元素M2至少包括Mg和Ca。 式1满足0.97 <= x <= 1.1,0.05 <= y <=0.35,0.005≤z≤0.1,0.0001≤v≤0.05,0.0001≤w≤0.05。 初级粒子的平均粒径为0.1μm以上3μm以下,二次粒子的平均粒径为8μm以上且20μm以下。
摘要:
A semiconductor light-receiving module includes a semiconductor light-receiving element and an incident light direction device. The semiconductor light-receiving element includes a substrate, at least a light absorbing layer and an upper cladding layer formed sequentially on the substrate, a light incident facet formed at least at one facet of the substrate and the light absorbing layer, and electrodes which output an electric signal generated by absorption of the light entering from the light incident facet in the light absorbing layer. The incident light direction device directs to irradiate the light obliquely to the light incident facet of the semiconductor light-receiving element, and to cause at least part of the light to irradiate the light absorbing layer at the light incident facet.