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    • 1. 发明授权
    • Honeycomb structure and honeycomb catalyst body
    • 蜂窝结构和蜂窝状催化剂体
    • US08778825B2
    • 2014-07-15
    • US13602655
    • 2012-09-04
    • Shogo HiroseYukio Miyairi
    • Shogo HiroseYukio Miyairi
    • B01J21/16
    • B01D46/2429B01D2046/2433B01D2046/2437
    • Partition walls are provided with small pores and large pores, a porosity of the partition walls is from 50 to 70%, a porosity of the large pores of the partition walls is 30% or larger, a ratio of a total volume of the small pores to a total volume of the large pores is 20% or larger, and in a graph showing a pore diameter distribution of the partition walls, the pore diameter at a maximum peak value of the large pores is from 20 to 200 μm, and the pore diameter at a maximum peak value of the small pores is from 0.1 to 8 μm. Furthermore, a value obtained by dividing a porosity value (%) of the large pores by a thickness value (μm) of the partition walls is 0.2 or larger in a honeycomb structure.
    • 隔壁具有小孔和大孔,分隔壁的孔隙率为50〜70%,隔壁的大孔的孔隙率为30%以上,小孔的总体积 大孔的总体积为20%以上,在分隔壁的孔径分布的图表中,大孔的最大峰值的孔径为20〜200μm,孔 小孔最大峰值处的直径为0.1〜8μm。 此外,通过将大孔的孔隙率(%)除以隔壁的厚度值(μm)而获得的值在蜂窝结构体中为0.2以上。
    • 4. 发明授权
    • Plasma reaction vessel, and method of producing the same
    • 等离子体反应容器及其制造方法
    • US07727487B2
    • 2010-06-01
    • US10544527
    • 2004-02-12
    • Yuichiro ImanishiShinichi MiwaFumio AbeYukio Miyairi
    • Yuichiro ImanishiShinichi MiwaFumio AbeYukio Miyairi
    • B01J19/08
    • B01D53/92F01N3/0892F01N3/2825F01N3/2828F01N2240/28Y10T29/49345
    • In the plasma reaction vessel (1) of the invention, two or more laminate-structures (6) having ceramic formed bodies (3, 4) in which a plasma generating electrode (2) capable of generating plasma is formed in two-tape-form, and an electrically continuous film-like electrically conductive electrode (5) held between the two ceramic formed bodies (3, 4) are formed in such a manner as to form a plasma generating space (7) containing mutual laminate planes therein. Of the electrically conductive electrodes (5), adjacent ones are capable of having electric discharge produced therebetween so as to generate the plasma in the plasma generating space (7) and of generating uniform stabilized plasma at low electric power, it being possible to reduce a passage resistance to a gas passing therein.
    • 在本发明的等离子体反应容器(1)中,具有陶瓷成形体(3,4)的两层以上的层压结构体(6),其中能够产生等离子体的等离子体产生电极(2) 形成,并且以这样的方式形成保持在两个陶瓷成形体(3,4)之间的电连续的膜状导电电极(5),以形成其中包含相互层叠平面的等离子体产生空间(7)。 在导电电极(5)中,相邻的导电电极(5)能够在其间产生放电,以在等离子体产生空间(7)中产生等离子体并且在低功率下产生均匀稳定的等离子体,可以减少 对通过其中的气体的通道阻力。
    • 6. 发明申请
    • Honeycomb catalytic body and process for manufacturing honeycomb catalytic body
    • 蜂窝催化体及蜂窝催化体制造工艺
    • US20070049492A1
    • 2007-03-01
    • US11511461
    • 2006-08-29
    • Yukio MiyairiToshio Yamada
    • Yukio MiyairiToshio Yamada
    • B01J23/00
    • B01J35/04B01J23/40B01J23/63B01J35/002B01J35/10B01J37/0215B01J37/343
    • A honeycomb catalyst body includes: porous partition walls having a large number of pores and disposed to form a plurality of cells communicating between two end faces, plugged portions disposed to plug each of the cells on one of the end faces, and catalyst layers loaded in layers on an inner surface of the cells and an inner surface of the pores and containing a noble metal. Mass (Mc) of the noble metal contained in the catalyst layer loaded on the inner surface of the cells and mass (Mp) of the noble metal contained in the catalyst layer loaded on the inner surface of the pores satisfy the relation of (Mp)/(Mc)≧4. The honeycomb catalyst body is excellent in purification efficiency, has low pressure loss, and is mountable even in a limited space.
    • 一种蜂窝状催化剂体,具有:具有多个孔的多孔分隔壁,并且设置成形成在两个端面之间连通的多个单元,设置成堵塞其中一个端面上的每个单元的堵塞部分,以及装载在 在细胞的内表面上的层和孔的内表面并含有贵金属。 包含在负载在电池内表面上的催化剂层中的贵金属的质量(M SUB)和催化剂中所含的贵金属的质量(M> P) 填充在孔的内表面上的层满足(M p>)))/>>)= 4的关系。 蜂窝状催化剂体的净化效率优异,压力损失小,即使在有限的空间也能够安装。
    • 9. 发明申请
    • Plasma generating electrode and plasma reactor
    • 等离子体发生电极和等离子体反应器
    • US20060152133A1
    • 2006-07-13
    • US10562467
    • 2004-07-07
    • Yukio Miyairi
    • Yukio Miyairi
    • H01J63/04
    • B01D53/92B01D53/56B01D53/62B01J19/088B01J2219/0813B01J2219/0835B01J2219/0843B01J2219/0875F01N3/0892
    • A plasma generating electrode 1 of the present invention includes two or more electrodes 2 disposed to face each other, and holding members 3 for holding electrodes 2 at a predetermined interval, and can generate plasma by applying voltage between electrodes 2. At least one of electrodes facing each other 2 has a plate-shaped ceramic body 6 serving as a dielectric body, and a conductive film 7 disposed inside the body 6, and the holding members 3 fix the opposite side end portions 5 (fixed end portions 5a) of electrodes facing each other 2 in the state of a cantilever in such a condition that electrodes 2 are held by holding members in the state of cantilevers of the different directions alternately at a predetermined interval as a whole. This relaxes the thermal stress and effectively prevents distortion and breakage of electrodes caused by to a temperature change.
    • 本发明的等离子体产生电极1包括彼此相对设置的两个或更多个电极2和用于以预定间隔保持电极2的保持构件3,并且可以通过在电极2之间施加电压来产生等离子体。 彼此面对的电极中的至少一个2具有用作电介质体的板状陶瓷体6和设置在主体6内部的导电膜7,并且保持构件3固定相对侧端部5(固定端部 如图5A所示,在悬臂状态下,电极2以由不同方向的悬臂状态的保持构件整体以预定的间隔交替地保持的状态保持悬臂的状态。 这样放松了热应力,并有效地防止了由温度变化引起的电极的变形和断裂。
    • 10. 发明授权
    • Exhaust emission control system, method of calculating pressure loss of filter, and method of manufacturing filter
    • 废气排放控制系统,过滤器压力损失计算方法及过滤器制造方法
    • US07073327B2
    • 2006-07-11
    • US10505318
    • 2003-02-28
    • Shigeharu HashimotoYukio MiyairiTadato Ito
    • Shigeharu HashimotoYukio MiyairiTadato Ito
    • F01N3/00
    • B01D46/2474B01D46/2459B01D46/2466B01D46/247B01D2046/2496B01D2273/18F01N3/0222F01N3/025F01N3/027F01N9/002F01N11/005F01N13/009F01N13/017F01N2240/14F01N2240/16F01N2250/02F01N2260/10F01N2330/48F01N2430/04F01N2430/06F02B3/06Y02T10/20Y02T10/47Y10S55/30
    • There are disclosed an exhaust emission control system including an internal combustion engine, a filter, and an exhaust pipe, a method of manufacturing a filter suitable for the system, and a method of calculating a pressure loss. The system comprises combustion means for intermittently burning particulate matters arrested by the filter, the filter includes porous partition walls extending from one end face to the other end face thereof, and a large number of through channels partitioned by the partition walls, predetermined through channels are sealed at either of the end faces, and assuming that a partition wall thickness is (X) μm, and the number of through channels per unit area in a cross section vertical to a longitudinal direction of the through channels is (Y) cells/cm2, X and Y come within a range surrounded by straight lines connecting points A1, B1, C1, and D1 in this order in FIG. 1 in the exhaust emission control system. There are provided the exhaust emission control system, the method of manufacturing the filter, and the method of calculating the pressure loss by the filter with good accuracy in which a temperature gradient produced in the filter at the time of regeneration is suppressed while suppressing a rise of the pressure loss by the filter and which are accordingly superior in reliability.
    • 公开了包括内燃机,过滤器和排气管的废气排放控制系统,适用于该系统的过滤器的制造方法以及计算压力损失的方法。 该系统包括用于间歇地燃烧由过滤器堵塞的颗粒物的燃烧装置,该过滤器包括从一个端面延伸到另一端面的多孔分隔壁,以及通过分隔壁隔开的预定穿过通道的大量贯通通道 并且假设分隔壁厚度为(X)mum,并且与贯通通道的纵向方向垂直的横截面中每单位面积的贯通通道的数量为(Y)个单元/ cm 在图2中,X和Y处于由连接点A 1,B 1,C 1和D 1的直线包围的范围内。 1在废气排放控制系统中。 提供了废气排放控制系统,过滤器的制造方法以及通过过滤器以高精度计算压力损失的方法,其中抑制了再生时在过滤器中产生的温度梯度,同时抑制了上升 通过过滤器的压力损失,因此其可靠性优异。