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    • 3. 发明授权
    • Methods of and apparatus for feeding granular material
    • 颗粒材料进料方法和装置
    • US06170670B2
    • 2001-01-09
    • US09142179
    • 1998-09-23
    • Yasuhiro KatoDaisuke NakamuraTatsuya Kawajiri
    • Yasuhiro KatoDaisuke NakamuraTatsuya Kawajiri
    • B07B134
    • B01J8/003B01J8/002B01J8/06B01J8/16B01J2208/00752
    • An apparatus for feeding a granular catalyst to a destination such as a reactor at a constant feeding rate uniformly charges the catalyst material into the device. The granular catalyst is loaded into individual compartments of a hopper and is ejected at a discharge rate controlled by a gate. When a vibrator is activated, a trough is caused to vibrate in its obliquely upward direction and the granular material in the trough is smoothly conveyed toward outlets of granular material passages formed in the trough, and is introduced to reaction tubes of the reactor via sieves. Powdery waste of the granular catalyst produced by the vibration of the trough is removed by letting it fall the sieves made in the granular material passages.
    • 将粒状催化剂以恒定进料速度送入诸如反应器的目的地的装置将催化剂材料均匀地装入装置中。 颗粒状催化剂被装载到料斗的各个隔室中,并以由浇口控制的排出速率喷射。 当振动器被激活时,使槽在其向上倾斜的方向上振动,并且槽中的颗粒材料平滑地被输送到形成在槽中的颗粒材料通道的出口,并通过筛引入反应器的反应管。 通过将谷物的振动产生的颗粒状催化剂的粉末状废弃物通过使其落在粒状材料通道中制成的筛子而被除去。
    • 4. 发明申请
    • Catalyst and process for production of acrylic acid
    • 用于生产丙烯酸的催化剂和方法
    • US20090043128A1
    • 2009-02-12
    • US12287082
    • 2008-10-06
    • Hiromi YunokiMichio TanimotoDaisuke Nakamura
    • Hiromi YunokiMichio TanimotoDaisuke Nakamura
    • C07C51/235B01J23/22B01J23/28
    • C07C51/252B01J23/002B01J23/28B01J23/8885B01J37/0009B01J37/0223B01J37/0236B01J2523/00C07C57/04B01J2523/17B01J2523/55B01J2523/68B01J2523/69
    • An object of the present invention is to provide: a catalyst for production of acrylic acid which is a catalyst usable for production of acrylic acid and is excellent in the catalytic performances such as catalytic activity and in the physical properties such as physical strength of the catalyst itself; and a process for production of acrylic acid using this catalyst. As a means of achieving this object, a catalyst for production of acrylic acid according to the present invention is a catalyst obtained by drying a mixed liquid of starting materials including molybdenum and vanadium as essential components to give a dried material, molding the dried material with a liquid binder, and calcining the resultant molding, with the catalyst being characterized in that an ignition loss ratio of the dried material is from 5 to 40% by mass. A process for production of acrylic acid according to the present invention comprises the step of: subjecting acrolein to a catalytic gas phase oxidation in the presence of a molecular oxygen, with the process being characterized in that the above catalyst for production of acrylic acid according to the present invention is used.
    • 本发明的目的在于提供:丙烯酸的制造用催化剂,其为可用于生产丙烯酸的催化剂,催化性能如催化活性以及催化剂的物理性能如催化剂的物理性能优异 本身; 以及使用该催化剂生产丙烯酸的方法。 作为实现该目的的手段,本发明的丙烯酸的制造用催化剂是通过干燥含有钼和钒的起始材料的混合液作为必要成分而得到的催化剂,得到干燥后的材料, 液体粘合剂,并煅烧所得到的模制品,催化剂的特征在于,干燥材料的灼烧损失率为5〜40质量%。 根据本发明的制备丙烯酸的方法包括以下步骤:在分子氧存在下使丙烯醛进行催化气相氧化,其特征在于上述用于生产丙烯酸的催化剂根据 使用本发明。
    • 5. 发明授权
    • Catalytic gas phase oxidation reaction
    • 催化气相氧化反应
    • US07161044B2
    • 2007-01-09
    • US10958015
    • 2004-10-04
    • Daisuke NakamuraMichio Tanimoto
    • Daisuke NakamuraMichio Tanimoto
    • C07C45/27C07C51/10C07C51/14C07C51/16
    • C07C45/35C07C45/32C07C45/37C07C51/252C07C47/22C07C57/04
    • An object of the present invention is to provide a catalytic gas phase oxidation reaction in which: even under reaction conditions of a higher gas pressure, a higher concentration of the raw material gas and a larger space velocity of a reaction gas, the thermal accumulation at the hot spot portion can be sufficiently suppressed with ease and at low costs, so that the reaction can be continued for a long time while a high yield is maintained. As a means of achieving this object, a catalytic gas phase oxidation reaction according to the present invention is a catalytic gas phase oxidation reaction with molecular oxygen or a molecular-oxygen-containing gas by using a fixed-bed multitubular reactor packed with catalysts; with the catalytic gas phase oxidation reaction being characterized in that: a catalyst-packed layer of each reaction tube of the reactor is divided into at least two reaction zones in a tubular axial direction; and the packing of the catalysts is such that the occupation volumes of the catalysts differ between at least two of the reaction zones and that an inert substance molding is mixed in at least one of the reaction zones.
    • 本发明的目的是提供一种催化气相氧化反应,其中即使在较高气体压力,较高浓度的原料气体和较大的反应气体的空间速度的反应条件下,热累积在 可以容易地且低成本地充分地抑制热点部分,使得反应可以长时间持续,同时保持高产率。 作为实现该目的的手段,本发明的催化气相氧化反应是使用填充有催化剂的固定床多管反应器进行与分子氧或含分子氧气体的催化气相氧化反应, 催化气相氧化反应的特征在于:将反应器的每个反应管的催化剂填充层分成至少两个沿管轴方向的反应区; 并且催化剂的填充使得催化剂的占有体积在至少两个反应区之间不同,并且惰性物质模制品在至少一个反应区中混合。
    • 7. 发明授权
    • Process for producing acrylic acid
    • 丙烯酸生产工艺
    • US06563000B1
    • 2003-05-13
    • US09576024
    • 2000-05-23
    • Hiromi YunokiMichio TanimotoDaisuke Nakamura
    • Hiromi YunokiMichio TanimotoDaisuke Nakamura
    • C07C5116
    • C07C51/252C07C57/04
    • A process for producing acrylic acid through vapor-phase catalytic oxidation of acrolein or acrolein-containing gas with molecular oxygen or a molecular oxygen-containing gas using a catalyst-filled fixed bed shell-and-tube reactor is provided, which is characterized in that plural catalysts of different activity levels which are prepared by changing the kind and/or amount of alkaline metal(s) therein are filled in the reaction tubes in such an arrangement that the activity levels rise from the gas-inlet side toward the gas-outlet side of said tubes. According to this process, not only yield and productivity of acrylic acid are improved but also excessive heat, accumulation in the catalyst layer can be inhibited and catalysts degradation under heat is prevented, resulting in prolongation of catalyst life.
    • 提供了一种通过使用催化剂填充的固定床管壳反应器通过气相催化氧化含有丙烯醛或含丙烯醛的气体与分子氧或含分子氧的气体制备丙烯酸的方法,其特征在于 通过改变其中的碱金属的种类和/或量来制备的不同活性水平的多种催化剂被填充在反应管中,活性水平从气体入口侧朝向气体出口 侧管。 根据该方法,不仅提高了丙烯酸的产率和生产率,而且过多的热量,可以抑制催化剂层中的积聚,并且防止催化剂在加热下的降解,导致催化剂寿命延长。
    • 10. 发明申请
    • Catalytic gas phase oxidation reaction
    • 催化气相氧化反应
    • US20050090695A1
    • 2005-04-28
    • US10958015
    • 2004-10-04
    • Daisuke NakamuraMichio Tanimoto
    • Daisuke NakamuraMichio Tanimoto
    • C07C45/32C07C45/35C07C45/37C07C51/25C07C45/34
    • C07C45/35C07C45/32C07C45/37C07C51/252C07C47/22C07C57/04
    • An object of the present invention is to provide a catalytic gas phase oxidation reaction in which: even under reaction conditions of a higher gas pressure, a higher concentration of the raw material gas and a larger space velocity of a reaction gas, the thermal accumulation at the hot spot portion can be sufficiently suppressed with ease and at low costs, so that the reaction can be continued for a long time while a high yield is maintained. As a means of achieving this object, a catalytic gas phase oxidation reaction according to the present invention is a catalytic gas phase oxidation reaction with molecular oxygen or a molecular-oxygen-containing gas by using a fixed-bed multitubular reactor packed with catalysts; with the catalytic gas phase oxidation reaction being characterized in that: a catalyst-packed layer of each reaction tube of the reactor is divided into at least two reaction zones in a tubular axial direction; and the packing of the catalysts is such that the occupation volumes of the catalysts differ between at least two of the reaction zones and that an inert substance molding is mixed in at least one of the reaction zones.
    • 本发明的目的是提供一种催化气相氧化反应,其中即使在较高气体压力,较高浓度的原料气体和较大的反应气体的空间速度的反应条件下,热累积在 可以容易地且低成本地充分地抑制热点部分,使得反应可以长时间持续,同时保持高产率。 作为实现该目的的手段,本发明的催化气相氧化反应是使用填充有催化剂的固定床多管反应器进行与分子氧或含分子氧气体的催化气相氧化反应, 催化气相氧化反应的特征在于:将反应器的每个反应管的催化剂填充层分成至少两个沿管轴方向的反应区; 并且催化剂的填充使得催化剂的占有体积在至少两个反应区之间不同,并且惰性物质模制品在至少一个反应区中混合。