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公开(公告)号:US20180161737A1
公开(公告)日:2018-06-14
申请号:US15319041
申请日:2015-12-01
发明人: Yoshiaki TACHIBANA
IPC分类号: B01F1/00 , B01F3/04 , B01F5/02 , B01F15/06 , H01L21/02 , H01L21/033 , H01L21/304 , B05B7/16
CPC分类号: B01F1/0005 , B01F1/00 , B01F3/04 , B01F3/04049 , B01F5/02 , B01F5/0231 , B01F15/06 , B05B7/16 , B05B7/1666 , B05B7/32 , B05D1/02 , B05D3/10 , B08B3/02 , B08B3/08 , H01L21/02052 , H01L21/027 , H01L21/0331 , H01L21/304
摘要: Provided are a cleaning method and cleaning device for cleaning with micro/nano-bubbles, with which a simple method of spraying a treatment solution containing micro/nano-bubbles onto a substrate to be processed makes it possible to efficiently and reliably peel off residual resist or remove contaminants from the substrate, while reducing an environmental load. This cleaning method is characterized in that, with respect to a substrate to be treated to which a resist film has adhered onto the substrate or a substrate to be treated to which the surface thereof has been contaminated with a metal or metal compounds, the resist film is peeled off or the metals or metal compounds are removed by spraying onto the substrate to be treated a treatment solution containing gaseous micro/nano-bubbles and having a temperature maintained at 30° C. to 90° C., the mean particle size of the micro/nano-bubbles when measured by an ice embedding method using a cryo-transmission electron microscope being 100 nm or smaller, preferably 30 nm or smaller, and also preferably the density of such bubbles being 108 or more bubbles per 1 mL.
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公开(公告)号:US20170306843A1
公开(公告)日:2017-10-26
申请号:US15443692
申请日:2017-02-27
CPC分类号: F02C3/305 , B01F5/0231 , B01F5/0243 , B01F5/106 , F01K21/045 , F01K21/047 , F05D2220/62
摘要: A system for increasing useful energy output includes a source of hot combustion gas, such as from a gas turbine engine, and an apparatus that is disposed downstream of and receives the hot combustion gas and acts thereon to optimize electricity/thrust energy output of the system. The apparatus includes a housing that is coupled to the source and receives the hot combustion gas and also includes a rotatable shaft centrally disposed within the housing. A rotatable fluid moving device is coupled to the rotatable shaft and is configured such that the rotatable fluid moving device moves the hot combustion gas into a shape within the housing such that useful energy output/thrust is increased. Optionally, the system includes a spray nozzle that discharges water droplets upstream of the rotatable fluid moving device in a high temperature environment such that the action of the rotatable fluid moving device generates water vapor (steam) having a particular profile (e.g., annular shaped).
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公开(公告)号:US20170247651A1
公开(公告)日:2017-08-31
申请号:US15592571
申请日:2017-05-11
申请人: XYLECO, INC.
CPC分类号: C12M29/12 , B01F3/04106 , B01F3/04539 , B01F3/04609 , B01F5/0212 , B01F5/0231 , B01F5/10 , B01F15/0022 , B01F15/00389 , B01F15/00396 , B01F2215/0073 , B01F2215/0463 , B01F2215/0481 , C12M27/00 , C12M27/02 , C12M27/18 , C12M29/00 , C12M29/06 , C12M29/22 , C12M33/00 , C12M41/02 , C12M41/12 , C12M41/26 , C12M41/28 , C12M41/32 , C12M41/34 , C12M41/46 , C12M41/48 , C12P19/02 , C12P19/14
摘要: Bioreactors are provided that include a vessel and a jet mixer disposed in the vessel. Methods that utilize the bioreactors are provided, involving placing a microorganism or cells and a fluid medium in the bioreactor.
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公开(公告)号:US20160244350A1
公开(公告)日:2016-08-25
申请号:US15145736
申请日:2016-05-03
申请人: John E. Powell, JR.
发明人: John E. Powell, JR.
IPC分类号: C02F11/00
CPC分类号: C02F11/00 , B01F5/02 , B01F5/0218 , B01F5/0231 , B01J4/002 , B01J2204/002 , C02F11/14 , C02F11/18 , C02F2201/002 , C02F2203/006 , C02F2301/02 , C02F2301/024 , C02F2303/08 , C02F2303/20 , C02F2303/22 , C02F2303/26 , C02F2307/08
摘要: The disclosure relates to an apparatus, system, and methodology for treating nested waste matter, including a delivery system for delivering a volume of untreated material; a confined container having an inlet connected to the delivery system; an energy impingement device introduced transversely into said confined container, where the energy impingement device is configured to deliver a volume of injected fluid and further configured to treat the volume of untreated material in said confined container and wherein the confined container has an outlet for exiting a volume of treated material.
摘要翻译: 本公开涉及用于处理嵌套废物的装置,系统和方法,包括用于输送大量未处理材料的输送系统; 限制容器,其具有连接到输送系统的入口; 能量冲击装置横向引入所述密封容器中,其中所述能量冲击装置构造成输送一定体积的注入流体,并进一步构造成处理所述限制容器中未处理材料的体积,并且其中所述约束容器具有出口 处理材料的体积。
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公开(公告)号:US07059759B2
公开(公告)日:2006-06-13
申请号:US10378105
申请日:2003-02-25
申请人: Jan Stumpe Hummer
发明人: Jan Stumpe Hummer
IPC分类号: B01F5/02
CPC分类号: B01F15/00025 , B01F5/0218 , B01F5/0231 , B01F5/106 , B01F5/12 , B08B9/0936
摘要: A process plant comprises a tank (1), an outlet conduit (2), a reservoir of cleaning agent (12), or feedstock(s) of additive(s) (13), a loop conduit (3) for returning liquid into the tank, valve means (9) for controlling admission of liquid into the loop conduit and a pump (4) for driving liquid through the loop conduit. Returning of the liquid takes place through a jetting device (5) adapted for introducing jets of liquid into the body of liquid inside the tank in order to cause stirring to the body of liquid. The jet nozzle is adapted for powered rotation about a first axis and about a second axis perpendicular, or non-perpendicular, to the first axis. The jet nozzles may be embodied in a flat jet rotating around one axis only. Upon emptying the tank, the jetting device may serve for cleaning the tank by spraying liquid onto the tank walls. The invention provides a method for treating liquid as well as a process plant.
摘要翻译: 工艺设备包括罐(1),出口管道(2),清洁剂储存器(12)或添加剂原料(13),用于将液体返回到其中的回路管道(3) 罐,用于控制液体进入环管道的阀装置(9)和用于驱动液体通过环管道的泵(4)。 通过适于将液体喷射到罐体内的液体的主体中的喷射装置(5)进行液体的返回,以便对液体进行搅拌。 喷嘴适于围绕第一轴线和围绕第一轴线垂直或非垂直的第二轴线的动力转动。 喷嘴可以以仅围绕一个轴线旋转的平面喷射器来实现。 在排空罐时,喷射装置可用于通过将液体喷射到罐壁上来清洁罐。 本发明提供了一种处理液体的方法以及一种加工装置。
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公开(公告)号:US4009100A
公开(公告)日:1977-02-22
申请号:US544307
申请日:1975-01-27
申请人: Klaus Hess , Richard Stickel , Otto Nagel , Richard Sinn , Hans Daucher
发明人: Klaus Hess , Richard Stickel , Otto Nagel , Richard Sinn , Hans Daucher
IPC分类号: C02F3/22 , B01F3/04 , B01F3/08 , B01F5/00 , B01F5/02 , C02F3/12 , C02F3/26 , F04F5/26 , C02C1/08
CPC分类号: C02F3/1294 , B01F3/0876 , B01F5/0212 , B01F5/0218 , B01F5/0231 , C02F3/12 , C02F3/26 , F04F5/26 , B01F2003/04872 , B01F2003/04879 , B01F2005/002 , B01F3/04099 , Y02W10/15
摘要: Method of biologically treating waste water with gasifying nozzles producing a screw-type flow in the activated sludge system. The method provides a maximum partial pressure gradient for the transfer of oxygen to the mixture of waste water and activated sludge.
摘要翻译: 用活性污泥系统中产生螺旋型流动的气化喷嘴对废水进行生物处理的方法。 该方法提供了将氧气输送到废水和活性污泥的混合物的最大分压梯度。
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公开(公告)号:US3495712A
公开(公告)日:1970-02-17
申请号:US3495712D
申请日:1967-06-16
申请人: SCHREIBER AUGUST
发明人: SCHREIBER AUGUST
IPC分类号: C02F3/24 , B01F3/04 , B01F5/02 , B01F13/00 , B01F15/00 , C02F3/12 , C02F3/20 , C02C5/10 , C02C1/02 , C02C1/10
CPC分类号: C02F3/1257 , B01F3/04113 , B01F3/0451 , B01F3/04524 , B01F5/0218 , B01F5/0231 , B01F13/0049 , B01F15/005 , B01F2003/04134 , B01F2003/04148 , C02F3/12 , C02F3/20 , C02F3/205 , Y02W10/15
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公开(公告)号:US20140193853A1
公开(公告)日:2014-07-10
申请号:US14196589
申请日:2014-03-04
申请人: Xyleco, Inc.
CPC分类号: C12M29/12 , B01F3/04106 , B01F3/04539 , B01F3/04609 , B01F5/0212 , B01F5/0231 , B01F5/10 , B01F15/0022 , B01F15/00389 , B01F15/00396 , B01F2215/0073 , B01F2215/0463 , B01F2215/0481 , C12M27/00 , C12M27/02 , C12M27/18 , C12M29/00 , C12M29/06 , C12M29/22 , C12M33/00 , C12M41/02 , C12M41/12 , C12M41/26 , C12M41/28 , C12M41/32 , C12M41/34 , C12M41/46 , C12M41/48 , C12P19/02 , C12P19/14
摘要: Bioreactors are provided that include a vessel and a jet mixer disposed in the vessel. Methods that utilize the bioreactors are provided, involving placing a microorganism or cells and a fluid medium in the bioreactor.
摘要翻译: 提供了包括设置在容器中的容器和喷射混合器的生物反应器。 提供了利用生物反应器的方法,包括将微生物或细胞和流体介质置于生物反应器中。
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公开(公告)号:US20080165615A1
公开(公告)日:2008-07-10
申请号:US10598672
申请日:2005-03-04
申请人: Evert Eklind
发明人: Evert Eklind
CPC分类号: A47J31/4485 , B01F3/08 , B01F3/12 , B01F5/0218 , B01F5/0231 , B67D1/0053
摘要: The present invention relates to drink-stirring device for stirring or mixing liquid and/or powdered ingredients with liquid in a drinking vessel (4), the liquid being supplied from above through the stirring device to an outlet tube which conducts at least one liquid jet towards the interior of the drinking vessel. The liquid is supplied through an outlet tube (64) which is rotatably attached to the device and is associated to an external, magnetic member (82). The electromagnet arrangement is arranged outside or at distance of the magnetic member for creating a variable magnetic field configured to move the tube (64) in rotation, so that the emerging liquid jet can be given a corresponding centrifugal effect.
摘要翻译: 饮料搅拌装置技术领域本发明涉及一种用于在饮用容器(4)中搅拌或混合液体和/或粉末成分与液体的饮料搅拌装置,所述液体通过搅拌装置从上方供应到出口管,所述出口管传导至少一种液体喷射 朝向饮用容器的内部。 液体通过出口管(64)供应,出口管(64)可旋转地附接到装置并与外部磁性件(82)相关联。 电磁铁装置布置在磁性构件的外侧或距离处,用于形成用于使管(64)旋转移动的可变磁场,使得出现的液体射流能够被给予相应的离心效应。
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公开(公告)号:US06655830B1
公开(公告)日:2003-12-02
申请号:US10307252
申请日:2002-11-30
申请人: Anthony E. Seaman
发明人: Anthony E. Seaman
IPC分类号: B05B304
CPC分类号: B01F5/0225 , B01F5/0218 , B01F5/0231 , B01F5/0243 , B01F5/10 , Y10S239/01
摘要: A tank agitator connects to a low head feed and causes agitation by discharging through a port that might rotate, oscillate, or otherwise issue a pulsing stream. This agitator has a housing with a turbine plenum and an exhaust plenum. A turbine in the turbine plenum spins by the flowthrough of the feedwater and exhausts to the exhaust plenum. A hollow drive shaft is spun by the turbine and extends through the exhaust plenum and to terminate outside the housing. It has an aperture that allows water in the exhaust plenum to flow into its lumen. A nozzle caps the shaft and is bent such that the discharge issuing therefrom sweeps in circles with the spinning of the drive shaft. A variant form of the agitator includes a drive train that incorporates a drag link to convert the spinning input of the turbine into an oscillating output in the drive shaft. In another variant form, the discharge is pulsed. To do this, the exhaust plenum lies between an opening to the turbine plenum and a port in the housing wall to the outside. A blocker door is coupled to and driven by the spinning turbine to cycle between uncovering and covering one of the exhaust opening and the discharge port. Given the foregoing, the discharge stream issuing from the discharge port will pulse between alternating phases of flow and quiescence.
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