摘要:
A porous alumina coating layer covering an oxide semiconductor type or solid electrolyte type oxygen concentration sensor carrys a catalyst (Pt/Rh) for accelerating equilibration reaction of an unburnt gas in exhaust gas from an automobile engine. The deterioration of the catalyst activity can be prevented by incorporating a thermal stability improving agent into the alumina coating layer.
摘要:
Provided are a composite material that has lower volume resistivity in comparison with SiC, SiC—Si, and the like, which are materials for forming constituent elements of an EHC, has low temperature dependence of volume resistivity, and thus is able to form a constituent element of a high-performance EHC; an electrode film, an electrode terminal, and a honeycomb substrate that are constituent elements of an EHC formed with such composite material, and a method for producing them. The composite material contains MoSi2 and at least one of Si or SiC, and is a material for forming a constituent element of an electrically heated catalytic converter. An electrode film 2, an electrode terminal 3, and a substrate 1 are produced from such composite material.
摘要:
To also intend the improvement of light-emitting efficiency by microcrystallizing light-emitting layer while utilizing vapor-phase growth method that is advantageous for improving crystal quality, and the like.4 for forming light-emitting layer comprises a substrate single-crystal substrate 1, and an oriented fine crystal layer 3 being formed on the single-crystal substrate 4. One of the crystal axes of respective crystals, which constitute the oriented microcrystal layer 3, is oriented in a specific direction with respect to the single-crystal substrate 1, and an average of the crystal grain diameters of the respective crystals, which constitute the oriented microcrystal layer 3, is adapted to being 1-1,000 nm. A light emitter 8 is equipped with an intermediate layer 5, a light-emitting layer 6 and a clad layer 7, which are formed on the oriented microcrystal layer 3 of this substrate 4 for forming light-emitting layer by means of vapor-phase growth method, respectively, and which comprise a nitride semiconductor. The light-emitting layer 6 is constituted of microcrystal grains whose average grain diameter is 1-1,000 nm.
摘要:
According to the present invention, a high-pressure hydrogen container that is filled with hydrogen at high pressures, in which at least one elastomer is used as a sealing material, such elastomer having a hydrogen gas permeability coefficient or helium gas permeability coefficient of 5.0×10−10 to 5.0×10−9 cm3 (STP)·cm/cm2·sec·cmHg, is provided. The following main technical objectives for realizing sealing with an elastomer material for a high-pressure hydrogen container (CHG tank) system for fuel-cell vehicles are achieved: (1) good durability in variable pressure environments of high-pressure hydrogen is imparted to such elastomer material; and (2) good anti-permanent deformation properties in low-temperature and high-temperature environments are imparted to such elastomer material.
摘要翻译:根据本发明,一种高压氢容器,其中使用至少一种弹性体作为密封材料的高压氢气,所述氢气渗透系数或氦气透过系数为5.0×10 提供-10至5.0×10 -9 cm 3(STP).cm / cm2.sec.cmHg。 实现燃料电池车用高压氢容器(CHG罐)系统用弹性体材料密封的以下主要技术目标:(1)在高压氢气的变压环境中具有良好的耐久性 弹性体材料; 和(2)在低温和高温环境下具有良好的抗永久性变形性能。
摘要:
Provided are a composite material that has lower volume resistivity in comparison with SiC, SiC—Si, and the like, which are materials for forming constituent elements of an EHC, has low temperature dependence of volume resistivity, and thus is able to form a constituent element of a high-performance EHC; an electrode film, an electrode terminal, and a honeycomb substrate that are constituent elements of an EHC formed with such composite material, and a method for producing them. The composite material contains MoSi2 and at least one of Si or SiC, and is a material for forming a constituent element of an electrically heated catalytic converter. An electrode film 2, an electrode terminal 3, and a substrate 1 are produced from such composite material.
摘要:
According to the present invention, a sealing material for a high-pressure hydrogen container, which mainly comprises a silicone rubber composed of a dimethyl siloxane segment, a methyl vinyl siloxane segment, and a diphenyl siloxane segment, and a high-pressure hydrogen container using the sealing material are provided. In order to seal a high-pressure hydrogen container (CHG tank) system for fuel cell vehicles with an elastomer, the elastomer has (1): excellent durability in a variable pressure environment of high-pressure hydrogen; and (2): excellent sag resistance in low-temperature to high-temperature environments, and thus the significant technical objectives (1) and (2) have been achieved.
摘要:
Light emitters and substrates for light emitters are provided to improve light-emitting efficiency and achieve improvement in crystal quality. A light emitter includes a single-crystal substrate, an oriented microcrystal layer, and a light-emitting layer. The light-emitting layer is made of a nitride semiconductor by means of a vapor-phase growth method. In the oriented microcrystal layer, the proportion of crystals, in which one of crystal axes is oriented with respect to the single-crystal substrate, is 5-9 out of 10 crystals. An average diameter of the crystal grains of the respective crystals, contained in the oriented microcrystal layer, is 1-1,000 nm. A light emitter may be equipped with an intermediate layer, a light-emitting layer, and a clad layer. These layers are formed on the oriented microcrystal layer by a vapor-phase growth method. The light-emitting layer contains microcrystal grains whose average grain diameter is 1-1,000 nm.
摘要:
According to the present invention, a sealing material for a high-pressure hydrogen container, which mainly comprises a silicone rubber composed of a dimethyl siloxane segment, a methyl vinyl siloxane segment, and a diphenyl siloxane segment, and a high-pressure hydrogen container using the sealing material are provided. In order to seal a high-pressure hydrogen container (CHG tank) system for fuel cell vehicles with an elastomer, the elastomer has (1): excellent durability in a variable pressure environment of high-pressure hydrogen; and (2): excellent sag resistance in low-temperature to high-temperature environments, and thus the significant technical objectives (1) and (2) have been achieved.
摘要:
A thermoelectric generator has a high temperature heat source part provided on a first passage through which a first fluid for cooling an engine flows, a low temperature heat source part provided on a second passage through which a second fluid having a temperature lower than that of the first fluid flows, and a thermoelectric element for producing electric power by a temperature difference produced between the high temperature heat source part and the low temperature heat source part. The first passage is included in a first circuit in which the engine and a first radiator for cooling the first fluid are connected in loop through a main passage. Further, the first passage is in parallel to the first radiator in the first circuit. The second passage is included in a second circuit that is separate from the first circuit and includes a second radiator for cooling the second fluid.
摘要:
A thermoelectric generator has a plurality of hot-side heat source portions, a plurality of cold-side heat source portions, a thermoelectric element, a hot-side communicator and a cold-side communicator. Hot fluid flows in the plurality of hot-side heat source portions, and cold fluid colder than the hot fluid flows in the plurality of cold-side heat source portions. The heat source portions are alternately stacked in such a manner of interposing the thermoelectric element between the hot-side heat source portion and the cold-side heat source portion. The hot-side communicator communicates the hot-side heat source portions, and the cold-side communicator communicates the plurality of cold-side heat source portions. Each of the hot-side communicator and the cold-side communicator has a distance adjuster for adjusting distances between the hot-side heat source portions and the cold-side heat source portions so as to bring them in contact with the thermoelectric elements in the stacking direction thereof.