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    • 4. 发明授权
    • Method for production of lower olefin
    • 低级烯烃的生产方法
    • US08530714B2
    • 2013-09-10
    • US12085055
    • 2006-11-13
    • Hirofumi ItoKazunori HondaKoji OyamaNobuyasu ChikamatsuKazutaka HiraokaAtsushi Okita
    • Hirofumi ItoKazunori HondaKoji OyamaNobuyasu ChikamatsuKazutaka HiraokaAtsushi Okita
    • C07C1/20
    • B01J29/04B01J29/40B01J2229/183B01J2229/62C07C1/20C07C2529/70Y02P20/52Y02P30/42C07C11/02C07C11/06
    • Disclosed is a method for production of lower olefins from a raw material containing dimethyl ether (DME), which can produce lower olefins (e.g. propylene) with good yield and in an economically advantageous manner by prolonging the time until the reversible deactivation of a zeolite catalyst and preventing the irreversible deactivation of the catalyst, can reduce the amount of water to be recycled to increase the thermal efficiency of the process, and can simplify the facilities and operations. Also disclosed is a method for improving the yield of propylene with good efficiency under practical operating conditions. A feed gas which comprises a DME-containing feedstock gas and an additive gas and further contains steam at a specific proportion is introduced into an olefin synthesis reactor to contact the feed gas with a zeolite catalyst, thereby producing a hydrocarbon product containing C2-C5 olefins. Propylene or the like is separated/collected from the hydrocarbon product, and at least a part of the remainder is used as at least a part of the additive gas.
    • 公开了一种从含有二甲醚(DME)的原料中生产低级烯烃的方法,其可以以良好的产率生产低级烯烃(例如丙烯),并且以经济上有利的方式通过延长直到沸石催化剂的可逆失活的时间 并防止催化剂的不可逆失活,可以减少再循环的水量,从而提高过程的热效率,并且可以简化设施和操作。 还公开了在实际操作条件下以良好的效率提高丙烯的产率的方法。 将包含含DME的原料气体和添加气体并进一步含有特定比例的蒸汽的进料气体引入到烯烃合成反应器中以使进料气体与沸石催化剂接触,由此生产含有C2-C5烯烃的烃产物 。 从烃产物中分离/收集丙烯等,其余部分的至少一部分用作添加剂气体的至少一部分。
    • 5. 发明申请
    • Method for Production of Lower Olefin
    • 低烯烃生产方法
    • US20100217054A1
    • 2010-08-26
    • US12085055
    • 2006-11-13
    • Hirofumi ItoKazunori HondaKoji OyamaNobuyasu ChikamatsuKazutaka HiraokaAtsushi Okita
    • Hirofumi ItoKazunori HondaKoji OyamaNobuyasu ChikamatsuKazutaka HiraokaAtsushi Okita
    • C07C1/20
    • B01J29/04B01J29/40B01J2229/183B01J2229/62C07C1/20C07C2529/70Y02P20/52Y02P30/42C07C11/02C07C11/06
    • Disclosed is a method for production of lower olefins from a raw material containing dimethyl ether (DME), which can produce lower olefins (e.g. propylene) with good yield and in an economically advantageous manner by prolonging the time until the reversible deactivation of a zeolite catalyst and preventing the irreversible deactivation of the catalyst, can reduce the amount of water to be recycled to increase the thermal efficiency of the process, and can simplify the facilities and operations. Also disclosed is a method for improving the yield of propylene with good efficiency under practical operating conditions. A feed gas which comprises a DME-containing feedstock gas and an additive gas and further contains steam at a specific proportion is introduced into an olefin synthesis reactor to contact the feed gas with a zeolite catalyst, thereby producing a hydrocarbon product containing C2-C5 olefins. Propylene or the like is separated/collected from the hydrocarbon product, and at least a part of the remainder is used as at least a part of the additive gas.
    • 公开了一种从含有二甲醚(DME)的原料中生产低级烯烃的方法,其可以以良好的产率生产低级烯烃(例如丙烯),并且以经济上有利的方式通过延长直到沸石催化剂的可逆失活的时间 并防止催化剂的不可逆失活,可以减少再循环的水量,从而提高过程的热效率,并且可以简化设施和操作。 还公开了在实际操作条件下以良好的效率提高丙烯的产率的方法。 将包含含DME的原料气体和添加气体并进一步含有特定比例的蒸汽的进料气体引入到烯烃合成反应器中以使进料气体与沸石催化剂接触,由此生产含有C2-C5烯烃的烃产物 。 从烃产物中分离/收集丙烯等,其余部分的至少一部分用作添加剂气体的至少一部分。
    • 9. 发明申请
    • LENS MODULE
    • 镜头模块
    • US20100039718A1
    • 2010-02-18
    • US12299085
    • 2007-09-25
    • Yukio NishimiyaSyuji AisawaDaisuke YamazakiMiho ChibaTomohiro YonezawaKazunori HondaWei Gao
    • Yukio NishimiyaSyuji AisawaDaisuke YamazakiMiho ChibaTomohiro YonezawaKazunori HondaWei Gao
    • G02B7/04
    • G02B7/102H02N2/0095H02N2/025
    • In order to provide a lens module having a simply structured lens drive mechanism that is capable of stabilizing the moving speed of an optical lens system, the lens module has a structure wherein a lens holder (to which no illustrated optical lens system is mounted) (6) that mounts a moving body (5) attractable to a magnet (4) is mounted on a housing (7) using guide pins (8), and wherein one side of a piezoelectric ceramic element (3) is adhered to the magnet (4) in the displacement generating direction (longitudinal direction) of the piezoelectric ceramic element 3, and the other side thereof is adhered to the housing (7), with the moving body (5) and the magnet (4) being attracted by a magnetic force. The lens holder (6) supporting the moving body (5) is movably supported by the guide pins (8). The magnetization direction of the magnet (4) is substantially orthogonal to an optical axis direction of the optical lens system and is a radial direction of the optical lens system. The lens drive mechanism moves the lens holder (6) along the optical axis direction by vibrating the magnet (4) using vibrations generated by the piezoelectric ceramic element (3), and by driving the moving body (5) with the vibrations of the magnet (4) as a driving force.
    • 为了提供具有能够稳定光学透镜系统的移动速度的简单结构化的透镜驱动机构的透镜模块,透镜模块具有其中安装有没有示出的光学透镜系统的透镜保持器( 使用引导销(8)将安装有可吸引到磁体(4)的移动体(5)安装在壳体(7)上,并且其中压电陶瓷元件(3)的一侧粘附到磁体 4)在压电陶瓷元件3的位移产生方向(纵向方向)上,并且其另一侧粘附到壳体(7),移动体(5)和磁体(4)被磁性吸引 力。 支撑移动体(5)的透镜支架(6)由引导销(8)可移动地支撑。 磁体(4)的磁化方向与光学透镜系统的光轴方向大致正交,是光学透镜系统的径向。 透镜驱动机构通过使用由压电陶瓷元件(3)产生的振动使磁体(4)振动并通过磁体的振动来驱动移动体(5)沿着光轴方向移动透镜架(6) (4)作为推动力。