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公开(公告)号:US3056663A
公开(公告)日:1962-10-02
申请号:US82049759
申请日:1959-06-15
Applicant: GEN ELECTRIC
Inventor: ANTHONY MAGLIO ROBERT , ARTHUR POOLE WARREN
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公开(公告)号:US2986505A
公开(公告)日:1961-05-30
申请号:US73470958
申请日:1958-05-12
Applicant: SUN OIL CO
Inventor: LAUER JAMES L , FRIEL PATRICK J
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公开(公告)号:US1043581A
公开(公告)日:1912-11-05
申请号:US1912696280
申请日:1912-05-09
Applicant: COMMERCIAL RES COMPANY
Inventor: ELDRED BYRON E
CPC classification number: B01J3/08
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Patent Agency Ranking
公开(公告)号:US980374A
公开(公告)日:1911-01-03
申请号:US1909475489
申请日:1909-02-01
Applicant: AMERICAN GAS TOOL COMPANY
Inventor: WHITE MORRIS C , DURYEA OTHO C
CPC classification number: B01J3/08 , B29C2049/4647 , Y10S425/127 , Y10T74/19879
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公开(公告)号:US20170313590A1
公开(公告)日:2017-11-02
申请号:US15522063
申请日:2015-08-31
Applicant: DAICEL CORPORATION
Inventor: Norihiro KIMOTO , Ryouta KOJIMA
CPC classification number: C01B32/28 , B01J3/08 , B01J13/00 , B02C17/00 , B82Y30/00 , B82Y40/00 , C01B32/25 , H01B1/04 , Y10S977/773
Abstract: A suspension of nanodiamond aggregates according to the present invention is a suspension of detonation nanodiamond aggregates. The suspension has such a pH and an electric conductivity as to meet one of conditions (1) and (2) as follows. (1) The suspension has a pH of 4 to 7 and an electric conductivity of 50 μS/cm or less per weight percent of the solids concentration of the suspension; and (2) the suspension has a pH of 8 to 10.5 and has an electric conductivity of 300 μS/cm or less per weight percent of the solids concentration of the suspension.
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238.发明申请SYSTEMS AND METHODS FOR FACILITATING REACTIONS IN GASES USING SHOCKWAVES PRODUCED IN A SUPERSONIC GASEOUS VORTEX 审中-公开使用超级气旋VORTEX生产的冲击气体促进气体反应的系统和方法公开(公告)号:US20160303539A1
公开(公告)日:2016-10-20
申请号:US14690149
申请日:2015-04-17
Applicant: LLT International (Ireland) Ltd.
Inventor: Peter LANSELL , William KEATING , David LOWE
IPC: B01J19/10
CPC classification number: B01J19/10 , B01J3/008 , B01J3/08 , B01J4/002 , B01J19/126 , B01J19/129 , B01J2219/08 , B01J2219/0871 , B01J2219/0892
Abstract: A gas reactor system may be configured for facilitating chemical reactions of gases using shockwaves produced in a supersonic gaseous vortex. The system may include a gas source to provide a gas to a heater and/or a reactor. The reactor may be configured to facilitate chemical reactions of gases using shockwaves created in a supersonic gaseous vortex. The reactor may be arranged with a gas inlet to introduce a high-velocity steam of gas into a chamber of the reactor. The gas inlet may effectuate a vortex of supersonic circulating gas within the chamber. The vortex may rotate at supersonic speed about the longitudinal axis of the chamber. The system may be configured to store an output product of the reactor in a storage tank in fluid communication with the reactor.
Abstract translation: 气体反应器系统可以被配置为利用在超音速气体涡流中产生的冲击波来促进气体的化学反应。 该系统可以包括气体源以向加热器和/或反应器提供气体。 反应器可以被配置为利用在超音速气体涡流中产生的冲击波促进气体的化学反应。 反应器可以布置有气体入口以将高速蒸汽的气体引入反应器的室中。 气体入口可以在室内实现超音速循环气体的涡流。 涡流可以围绕腔室的纵向轴线以超音速旋转。 该系统可以被配置为将反应器的输出产物存储在与反应器流体连通的储罐中。
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公开(公告)号:US09295993B2
公开(公告)日:2016-03-29
申请号:US13852730
申请日:2013-03-28
Applicant: Xiaoding Zhang , Chuanzhong Zhang
Inventor: Xiaoding Zhang , Chuanzhong Zhang
IPC: B02C19/00 , B02C19/06 , B01J4/00 , B01J19/24 , B01J19/26 , B01J3/08 , B01F5/02 , C01G25/02 , C01G39/06 , C09C1/00 , C09C3/04
CPC classification number: B02C19/06 , B01F5/0256 , B01J3/08 , B01J4/002 , B01J19/2405 , B01J19/26 , B01J2219/00162 , B01J2219/00164 , B01J2219/1942 , B02C19/063 , B02C19/065 , C01G25/02 , C01G39/06 , C01P2004/62 , C09C1/00 , C09C1/0003 , C09C3/043
Abstract: The present invention relates to a fluid shockwave reactor. The fluid shockwave reactor introduces laser resonance theory into the field of fluid physics. It consists of a shockwave resonance energy concentration device and at least one set of jet collision device. The shockwave resonance energy concentration device can enhance the shockwave strength produced during jet collisions; strengthen the ultrahigh pressure and cavitation effect of the shockwave field; it can also intensify physical and chemical effects on the processed materials. The fluid shockwave reactor can achieve ultrafine crushing on the fluid materials with lower energy consumption. Under certain technological conditions, the fluid shockwave reactor may also effectively catalytize the chemical reaction process on fluid materials.
Abstract translation: 本发明涉及一种流体冲击波反应器。 流体冲击波反应器将激光共振理论引入流体物理学领域。 它由冲击波共振能量集中装置和至少一组喷射冲击装置组成。 冲击波共振能量集中装置可以提高射流冲击时产生的冲击波强度; 加强冲击波场的超高压和气蚀效应; 也会加剧对加工材料的物理化学作用。 流体冲击波反应器能够以较低的能量消耗对液体材料实现超细粉碎。 在某些技术条件下,流体冲击波反应器也可以有效地催化流体材料上的化学反应过程。
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240.发明申请METHOD OF MAKING GRAPHENE NANOCOMPOSITES BY MULTIPHASE FLUID DYNAMIC DISPERSION 审中-公开通过多相流体动力学分散法制备石墨纳米复合材料的方法公开(公告)号:US20160039679A1
公开(公告)日:2016-02-11
申请号:US14800069
申请日:2015-07-15
Applicant: Platinum Nanochem Sdn Bhd
Inventor: Shutesh Krishnan
CPC classification number: C01B31/0484 , B01J3/08 , B01J13/0008 , B01J13/0026 , B01J19/008 , B01J19/10 , B01J19/26 , B01J2219/089 , C01B32/194
Abstract: A method of dispersing graphene and graphitic nanomaterials uses multiphase fluid dynamic technique. The method includes a device, incorporating high intensity fluid dynamics technique (10), controlling the expansion and compression ratio of the working stream that leads to an effective dispersion of the nanomaterial in the matrix. The condensation of the injected steam creates high intensity and controllable cavitation, leading to effective dispersion of the graphitic nanomaterial. The dispersion is most preferably done in a medium that creates a repulsive potential to balance the attractive inter-graphitic layer potential.
Abstract translation: 分散石墨烯和石墨纳米材料的方法使用多相流体动力学技术。 该方法包括一种结合高强度流体动力学技术(10)的装置,控制工作流的膨胀和压缩比,导致纳米材料在基质中的有效分散。 注入蒸汽的冷凝产生高强度和可控的空化,导致石墨纳米材料的有效分散。 分散体最优选在产生斥力的介质中进行,以平衡有吸引力的石墨层间电位。
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