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    • 2. 发明申请
    • MICROREACTOR ASSEMBLY INCORPORATING AN INTERCONNECTING ELEMENT
    • 连接互连元件的微型电机组件
    • WO2009085201A1
    • 2009-07-09
    • PCT/US2008/013882
    • 2008-12-19
    • CORNING INCORPORATEDPOISSY, StephaneTANGUY, Ronan
    • POISSY, StephaneTANGUY, Ronan
    • B01J19/00
    • B01J19/0093B01J2219/00783B01J2219/00804B01J2219/0081B01J2219/00824B01J2219/00831B01J2219/0086B01J2219/00873B01J2219/00889B01J2219/00891B01L3/502707B01L3/502715B01L3/565B01L2200/027B01L2200/028B01L2200/0689B01L2300/0816B01L2300/0874B01L2300/185C04B37/005C04B37/045C04B2237/10C04B2237/32
    • A microreactor assembly (100) comprising a fluidic interconnect backbone (10) and plurality of fluidic microstructures (20,30,40) is provided. The fluidic microstructures (20,30,40) are supported by respective portions of the fluidic interconnect backbone (10). The microreactor assembly (100) comprises a plurality of non-polymeric interconnect seals (50) associated with interconnect input and output ports (12,14). The interconnect input port (12) of the fluidic interconnect backbone (10) is interfaced with a microchannel output port (24) of a first fluidic microstructure (20) at one of the non-polymeric interconnect seals (50). The interconnect output port (14) of the fluidic interconnect backbone (10) is interfaced with the microchannel input port (22) of a second fluidic microstructure (30) at another of the non-polymeric interconnect seals (50). An interconnect microchannel (15) is defined entirely by the fluidic interconnect backbone (10) and is configured such that it extends from the non-polymeric interconnect seal (50) at the microchannel output port (24) of the first fluidic microstructure (20) to the non-polymeric interconnect seal (50) at the microchannel input port (22) of the second fluidic microstructure (30) without interruption by additional sealed interfaces.
    • 提供了包括流体互连主干(10)和多个流体微结构(20,30,40)的微反应器组件(100)。 流体微结构(20,30,40)由流体互连骨架(10)的相应部分支撑。 微反应器组件(100)包括与互连输入和输出端口(12,14)相关联的多个非聚合物互连密封件(50)。 流体互连主干(10)的互连输入端口(12)与第一流体微结构(20)的微通道输出端口(24)在非聚合物互连密封件(50)之一处接合。 流体互连主干(10)的互连输出端口(14)与第二流体微结构(30)的微通道输入端口(22)在另一个非聚合互连密封件(50)处接口。 互连微通道(15)完全由流体互连骨架(10)限定,并且构造成使得其从第一流体微结构(20)的微通道输出端口(24)处的非聚合物互连密封件(50)延伸, 在第二流体微结构(30)的微通道输入端口(22)处的非聚合物互连密封件(50),而不被另外的密封界面中断。
    • 3. 发明申请
    • INJECTOR ASSEMBLIES AND MICROREACTORS INCORPORATING THE SAME
    • 注射器组件和微型计算机
    • WO2009110990A1
    • 2009-09-11
    • PCT/US2009/001265
    • 2009-02-27
    • CORNING INCORPORATEDLOBET, OlivierPOISSY, StephaneWOEHL, Pierre
    • LOBET, OlivierPOISSY, StephaneWOEHL, Pierre
    • B01F13/02
    • B01J19/0093B01F3/0446B01F5/0077B01F5/045B01J4/002B01J2219/0081B01J2219/0086B01J2219/00891B05B7/0433
    • A microreactor assembly (100) is provided comprising a fluidic microstructure (10) and an injector assembly (20). The injector assembly (20) comprises a liquid inlet (22), a gas inlet (24), a liquid outlet (26), a gas outlet (28), a liquid flow portion (30) extending from the liquid inlet (22) to the liquid outlet (26), and a gas flow portion (40) extending from the gas inlet (24) to the gas outlet (28). Further, the injector assembly (20) defines an injection interface with a microchannel input port (14) of the fluidic microstructure (10). The injector assembly (20) is configured such that the gas outlet (28) of the gas flow portion (40) is positioned to inject gas into the liquid flow portion (30) upstream of the liquid outlet (26), into the liquid flow portion (30) at the liquid outlet (26), or into an extension (35) of the liquid flow portion (30) downstream of the liquid outlet (26). Further, the injector assembly (20) is configured such that gas is injected into the liquid flow portion (30) or the extension thereof as a series of gas bubbles. The resulting microreactor assembly (100), and the injector assemblies utilized therein, which can be used with a variety of microreactor designs, effectively improves the interfacial surface area within the microstructure without requiring excessive reduction of microchannel dimensions.
    • 提供了包括流体微结构(10)和喷射器组件(20)的微反应器组件(100)。 喷射器组件(20)包括液体入口(22),气体入口(24),液体出口(26),气体出口(28),从液体入口(22)延伸的液体流动部分(30) 到液体出口(26)和从气体入口(24)延伸到气体出口(28)的气体流动部分(40)。 此外,喷射器组件(20)限定与流体微结构(10)的微通道输入端口(14)的注入界面。 喷射器组件(20)构造成使得气体流动部分(40)的气体出口(28)定位成将气体喷射到液体出口(26)上游的液体流动部分(30)中,进入液体流 在液体出口(26)处的部分(30),或液体出口(26)下游的液体流动部分(30)的延伸部(35)中。 此外,喷射器组件(20)构造成使得气体作为一系列气泡被喷射到液体流动部分(30)或其延伸部分中。 可以与各种微反应器设计一起使用的所得微反应器组件(100)和其中使用的喷射器组件有效地改善了微结构内的界面表面积,而不需要过度减小微通道尺寸。
    • 8. 发明申请
    • PRECISION FORMING OF SHEET GLASS AND SHEET ROLLING APPARATUS
    • 精密成型玻璃和薄板滚压装置
    • WO2014085455A1
    • 2014-06-05
    • PCT/US2013/072008
    • 2013-11-26
    • CORNING INCORPORATEDPOISSY, Stephane
    • POISSY, Stephane
    • C03B13/00C03B13/04C03B13/08C03B13/16C03B17/06
    • C03B13/16C03B13/04C03B17/06
    • An apparatus (10) for forming sheet glass (78) includes a pair of rollers (12a, 12b) arranged in opposing relation to form a nip gap (38). At least one of the rollers (12a, 12b) is translatable to adjust a width (39) of the nip gap (38). A pair of spacer belts (34, 36) passes in between the pair of rollers (12a, 12b). The spacer belts (34, 36) are spaced apart along a length of the pair of rollers (12a, 12b) and have a thickness to set the width (39) of the nip gap (38). At least one actuator (42a, 42b) is coupled to at least one of the rollers (12a, 12b) and operable to adjust a width (39) of the nip gap (38) until the pair of spacer belts (34, 36) is gripped by the pair of rollers (12a, 12b) and the thickness of the pair of spacer belts (34, 36) sets the width (39) of the nip gap (38).
    • 一种用于形成玻璃板(78)的装置(10)包括一对以相对关系形成辊隙(38)的辊(12a,12b)。 至少一个辊(12a,12b)可平移以调节压区间隙(38)的宽度(39)。 一对间隔带(34,36)穿过所述一对辊(12a,12b)之间。 间隔带(34,36)沿着一对辊(12a,12b)的长度间隔开,并且具有设定夹持间隙(38)的宽度(39)的厚度。 至少一个致动器(42a,42b)联接到至少一个辊(12a,12b)并且可操作以调节压合间隙(38)的宽度(39),直到一对间隔带(34,36) 被所述一对辊(12a,12b)夹持,并且所述一对间隔带(34,36)的厚度设定所述夹缝间隙(38)的宽度(39)。
    • 9. 发明申请
    • METHOD TO ALIGN COVERS ON STRUCTURED LAYERS AND RESULTING DEVICES
    • 将结构化层和结构设备对齐的方法
    • WO2013082064A2
    • 2013-06-06
    • PCT/US2012/066722
    • 2012-11-28
    • CORNING INCORPORATEDPOISSY, Stephane
    • POISSY, Stephane
    • B32B37/02
    • B32B37/18B01J19/0093B01J2219/00783B01J2219/00804B01J2219/00824B01J2219/00831B01L3/502707B01L3/569B01L2200/0689B01L2300/0816B01L2300/0887B01L2300/12B32B3/30B81C1/00119C03B23/245C03C27/06C04B37/00C04B37/001C04B37/042C04B2237/32C04B2237/62
    • A method for forming a fluidic module for a continuous flow reactor includes providing at least one planar glass or ceramic sheet having one or more through-holes, forming at least one patterned glass or ceramic layer having at least one patterned surface such that the patterned surface comprises channels defined between walls having an upper surface at a common height, stacking the at least one glass or ceramic sheet and the at least one patterned glass or ceramic layer together, the sheet contacting the walls at the common height, such that the channels are enclosed between the sheet and the patterned layer, the sheet being aligned with the patterned layer such that the one or more through-holes each align with respective spaces between walls of the patterned layer to provide fluid access to said respective spaces, and joining the sheet and the patterned layer together by pressing the sheet and the patterned layer together while heating the sheet and the patterned layer; wherein the patterned glass or ceramic layer further comprises one or more raised structures extending above the common height, and wherein the step of stacking comprises stacking the sheet on the upper surface of the walls at the common height, in a position such that the one or more raised structures confine the sheet to a desired position or alignment on the patterned layer.
    • 用于形成连续流动反应器的流体模块的方法包括提供具有一个或多个通孔的至少一个平面玻璃或陶瓷片,形成至少一个图案化的玻璃或陶瓷层,其具有至少一个图案化表面,使得图案化表面 包括限定在具有共同高度的上表面的壁之间的通道,将所述至少一个玻璃或陶瓷片和所述至少一个图案化的玻璃或陶瓷层堆叠在一起,所述片在共同的高度处接触所述壁,使得所述通道是 封闭在片材和图案化层之间,片材与图案化层对准,使得一个或多个通孔各自与图案化层的壁之间的相应空间对准,以提供对所述相应空间的流体通路,并且将片材 并且通过在加热片材和图案化层的同时将片材和图案层压在一起而将图案化层一起; 其中所述图案化玻璃或陶瓷层还包括在公共高度上延伸的一个或多个凸起结构,并且其中所述堆叠步骤包括在所述共同高度的所述壁的上表面上堆叠所述片材,使得所述一个或多个 更多的凸起结构将片材限制在图案化层上的期望位置或对准。