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公开(公告)号:US11353424B2
公开(公告)日:2022-06-07
申请号:US16660446
申请日:2019-10-22
IPC分类号: G01N27/447 , C12N9/36 , C01B32/172 , C01B32/159 , B82Y35/00 , B82Y30/00
摘要: Some embodiments provide methods and systems for creating ladder/standards as quality control tools for length-based separation of carbon nanotubes; determining the length purity; or measuring distribution of lengths of a collection of carbon nanotubes. Some embodiments further provide methods and systems for dispersing carbon nanotubes by conjugation of the carbon nanotubes with biomolecule moieties, specifically proteins. Further, some embodiments provide an indicator for length-based separation of carbon nanotubes via conjugation of one or more biomolecules onto the surfaces of the nanotubes. In some embodiments, such a method can include conjugating a biomolecule to the carbon nanotubes and subjecting the conjugated carbon nanotubes to silver-stained gel electrophoresis to separate the conjugated carbon nanotubes based on their lengths.
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公开(公告)号:US20190079068A1
公开(公告)日:2019-03-14
申请号:US16046675
申请日:2018-07-26
申请人: Mohammad E. Taslim , Mohammed Fotouhi , Mehdi Abedi , Reza Mollaaghababa , Bahram Fotouhi , Kashayar Javaherian , Edward Alvin Greenfield , Namal Nawana
发明人: Mohammad E. Taslim , Mohammed Fotouhi , Mehdi Abedi , Reza Mollaaghababa , Bahram Fotouhi , Kashayar Javaherian , Edward Alvin Greenfield , Namal Nawana
IPC分类号: G01N33/487 , C01B32/174 , C12Q1/06 , C12Q1/14 , B01L3/00
摘要: Methods and devices for detecting a target agent of interest, e.g., a pathogen, in a sample are described herein. In some embodiments, a sensor is provided that can include a substrate, a graphene layer disposed on a surface of said substrate, and a protein bound to said graphene layer. The protein can be capable of binding to one or more target agents of interest, e.g., pathogens, etc. The binding of the protein to the one or more target agents of interest can generate a change in an electrical property of the graphene layer.
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公开(公告)号:US6132169A
公开(公告)日:2000-10-17
申请号:US215858
申请日:1998-12-18
CPC分类号: F01D5/187 , F05D2260/22141 , Y02T50/673 , Y02T50/676
摘要: A turbine engine airfoil includes a three-pass serpentine shaped cooling cavity including a leading edge chamber, an oversized intermediate chamber, and a trailing edge chamber in flow communication. The cavity further includes a combination of a plurality of ribs and a plurality of pins, a purge air swirler, a turning vane, and a metering partition which mixes the high pressure air and provides increased air cooling and uniform flow control in the airfoil. The metering partition provides a decrease of the air pressure in the trailing edge chamber allowing for an increase in the number of trailing edge slots.
摘要翻译: 涡轮发动机翼型件包括三通蛇形形状的冷却腔,其包括前缘室,过大的中间室和流动连通的后缘室。 空腔还包括多个肋和多个销的组合,吹扫空气旋流器,转动叶片和计量分隔件,其混合高压空气并且在翼型中提供增加的空气冷却和均匀的流量控制。 计量分区提供了后缘室中的空气压力的降低,允许后缘槽的数量的增加。
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公开(公告)号:US11079387B2
公开(公告)日:2021-08-03
申请号:US16383552
申请日:2019-04-12
IPC分类号: G01N33/58 , C01B32/168 , G01N27/447
摘要: In one aspect, the present invention is generally directed to methods for measuring distribution of lengths of a collection of carbon nanotubes. In particular, the present teachings provide an indicator for length-based separation of carbon nanotubes (CNTs) via conjugation of one or more biomolecules onto the surfaces of the nanotubes. As discussed in more detail below, in some embodiments, such a method can include conjugating a biomolecule to the carbon nanotubes and subject the conjugated carbon nanotubes to silver-stained gel electrophoresis to separate the conjugated carbon nanotubes based on their lengths.
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公开(公告)号:US20190317102A1
公开(公告)日:2019-10-17
申请号:US16383552
申请日:2019-04-12
IPC分类号: G01N33/58 , G01N27/447 , C01B32/168
摘要: In one aspect, the present invention is generally directed to methods for measuring distribution of lengths of a collection of carbon nanotubes. In particular, the present teachings provide an indicator for length-based separation of carbon nanotubes (CNTs) via conjugation of one or more biomolecules onto the surfaces of the nanotubes. As discussed in more detail below, in some embodiments, such a method can include conjugating a biomolecule to the carbon nanotubes and subject the conjugated carbon nanotubes to silver-stained gel electrophoresis to separate the conjugated carbon nanotubes based on their lengths.
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公开(公告)号:US5472316A
公开(公告)日:1995-12-05
申请号:US308227
申请日:1994-09-19
IPC分类号: F01D5/18
CPC分类号: F01D5/187 , F05D2260/2212
摘要: An improved cooling passage configuration for a gas turbine engine airfoil is disclosed for enhancing convective cooling over that afforded by conventional wall turbulator ribs. An internal cooling passage bounded by pressure and suction side walls and at least one partition has raised turbulator ribs disposed on at least one side wall and the partition. A side wall turbulator rib extends over at least a portion of the side wall and abuts the partition. A turbulator rib disposed on the partition extends from a point spaced from the wall rib to the opposed side wall. The gap formed between the partition rib and wall rib accelerates a coolant flow passing therethrough, locally enhancing convective heat transfer. Partition ribs may be aligned with or offset from the wall ribs in the spanwise direction and may be normal to the primary direction of cooling flow or angled thereto. Convective heat transfer is particularly enhanced in flow passages having cavity height blockage due to wall ribs greater than about 10%.
摘要翻译: 公开了一种用于燃气涡轮发动机翼型的改进的冷却通道构造,用于增强由传统的壁湍流肋提供的对流冷却。 由压力和吸力侧壁和至少一个隔板限定的内部冷却通道具有设置在至少一个侧壁和隔板上的湍流肋。 侧壁湍流肋在侧壁的至少一部分上延伸并邻接隔板。 设置在隔板上的湍流肋从与壁肋间隔开的位置延伸到相对的侧壁。 在分隔肋和壁肋之间形成的间隙加速了通过其中的冷却剂流,局部增强了对流热传递。 分隔肋可以在翼展方向上与壁肋对准或偏离,并且可以垂直于冷却流的主要方向或与其成角度。 由于壁肋大于约10%,具有腔高度阻塞的流动通道,对流传热特别增强。
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公开(公告)号:US5013340A
公开(公告)日:1991-05-07
申请号:US374078
申请日:1989-06-29
CPC分类号: F01N3/0215 , F01N3/0214 , F01N3/05 , F01N2290/06 , F01N2330/06 , F01N2330/10 , F02B3/06 , Y02T10/20 , Y10S55/30
摘要: A rotating particulate trap is disclosed, which may find application in diesel engines, air conditioning systems, industrial air-filters and the like. The invention includes a disk or cylinder which is formed from material suitable for filtering particulates which are present in the exhaust gases of diesel engines, gas turbines, industrial air or other particulate laden gases. The disk is mounted transversely in the exhaust duct of a diesel engine and in a fresh air duct which is disposed parallel to the exhaust duct. As the disk rotates within the exhaust duct, it filters particulates from the exhaust gases of the diesel engine. The filtered particulates are expelled from the disk by fresh air blowing in the air duct as the disk rotates within the air duct. The fresh air is blown in the air duct in a direction opposite to the flow of exhaust gases within the exhaust duct by a fan or compressor or compressed air jets. The counterflow arrangement of fresh air and combustion gases enhances the effectiveness of particulate removal as the disk rotates between the exhaust duct and the fresh air duct. Particulates expelled from the disk are blown into a filter bag which is attached to the end of the fresh air duct.
摘要翻译: 公开了一种旋转的微粒捕集器,其可用于柴油发动机,空调系统,工业空气过滤器等。 本发明包括由适用于过滤存在于柴油发动机,燃气轮机,工业空气或其它含颗粒气体的废气中的颗粒的材料形成的圆盘或圆筒。 盘被横向安装在柴油发动机的排气管道和与排气管平行设置的新鲜空气管道中。 当盘在排气管内旋转时,它会从柴油发动机的废气中过滤颗粒物。 当盘在空气管道内旋转时,过滤的颗粒物通过吹入空气管道中的新鲜空气从盘排出。 新鲜空气通过风扇或压缩机或压缩空气射流以与废气管道内的废气流相反的方向在空气管道中吹送。 新鲜空气和燃烧气体的逆流布置提高了在排气管道和新鲜空气管道之间旋转时微粒去除的效果。 从盘排出的颗粒被吹入附着在新鲜空气管道末端的过滤袋。
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