公开(公告)号：US20100020541A1

公开(公告)日：2010-01-28

申请号：US12148593

申请日：2008-04-21

Applicant: Samuel A. Incorvia ,  Thomas Powers ,  Stanislav E. Solovyov

Inventor： Samuel A. Incorvia ,  Thomas Powers ,  Stanislav E. Solovyov

IPC: F21S4/00

CPC classification number: F21V31/04 ,  B01J20/0277 ,  B01J20/08 ,  B01J20/103 ,  B01J20/12 ,  B01J20/18 ,  B01J20/22 ,  B01J20/28026 ,  B01J47/018 ,  F21S45/30 ,  F21S45/50 ,  F21V5/007 ,  F21V5/04 ,  F21V15/01 ,  F21V31/00 ,  F21V31/03 ,  F21Y2105/10 ,  F21Y2115/10 ,  Y10S502/522

Abstract: A lamp assembly including at least one light source, a housing formed from a first moisture barrier composition and a sealing cap formed from a second moisture barrier composition, wherein the at least one light source is arranged within the housing and the sealing cap is hermetically bonded to the housing and the at least one light source, and the sealing cap is arranged to enclose the at least one light source within a volume formed by the housing and the sealing cap.

Abstract translation: 一种灯组件，其包括至少一个光源，由第一防潮组合物形成的壳体和由第二防潮组合物形成的密封帽，其中所述至少一个光源布置在所述壳体内，并且所述密封帽被气密地接合 到所述壳体和所述至少一个光源，并且所述密封盖被布置成将所述至少一个光源包围在由所述壳体和所述密封盖形成的容积内。

公开(公告)号：US20100012832A1

公开(公告)日：2010-01-21

申请号：US12374966

申请日：2007-08-09

Applicant: Yasushi Ishihama

Inventor： Yasushi Ishihama

IPC: B01D59/44 ,  C07K1/16 ,  C01G23/04

CPC classification number: C07K1/22 ,  B01D15/325 ,  B01D15/3828 ,  B01D2015/3838 ,  B01J20/0211 ,  B01J20/06 ,  B01J20/08 ,  B01J20/282 ,  B01J20/283 ,  B01J2220/54 ,  B01J2220/82 ,  C07K1/20 ,  C07K1/36 ,  G01N30/7233 ,  G01N2030/8831

Abstract: According to the present invention, phosphorylated peptides and/or phosphorylated proteins are specifically separated. A sample containing a phosphorylated peptide and/or a phosphorylated protein is supplied to a separation unit filled with a metal oxide in the presence of an aliphatic hydroxycarboxylic acid. Upon separation of a phosphorylated peptide and/or a phosphorylated peptide with the use of a separation unit filled with a metal oxide, adsorption of carboxylic acid to an acidic peptide can be prevented in the presence of aliphatic hydroxycarboxylic acid. In addition, aliphatic hydroxycarboxylic acid does not inhibit adsorption of a phosphorylated peptide and a phosphoric acid group in the phosphorylated peptide to a metal oxide.

Abstract translation: 根据本发明，磷酸化肽和/或磷酸化蛋白被特异性分离。 将含有磷酸化肽和/或磷酸化蛋白质的样品在脂肪族羟基羧酸的存在下供给到填充有金属氧化物的分离单元。 在使用填充有金属氧化物的分离单元分离磷酸化肽和/或磷酸化肽时，可以在脂族羟基羧酸的存在下防止羧酸向酸性肽的吸附。 此外，脂肪族羟基羧酸不抑制磷酸化肽中的磷酸化肽和磷酸基团对金属氧化物的吸附。

公开(公告)号：US20100009845A1

公开(公告)日：2010-01-14

申请号：US12479676

申请日：2009-06-05

Applicant: Alexander Bonn ,  Guenther Bonn ,  Christian Huck ,  Bernhard Maerk ,  Harald Sonderegger ,  Mathias Rainer ,  Douglas T. Gjerde

Inventor： Alexander Bonn ,  Guenther Bonn ,  Christian Huck ,  Bernhard Maerk ,  Harald Sonderegger ,  Mathias Rainer ,  Douglas T. Gjerde

IPC: B01J20/26

CPC classification number: B01J20/28042 ,  B01J20/02 ,  B01J20/0211 ,  B01J20/0237 ,  B01J20/0281 ,  B01J20/043 ,  B01J20/048 ,  B01J20/06 ,  B01J20/08 ,  B01J20/103 ,  B01J20/20 ,  B01J20/205 ,  B01J20/26 ,  B01J20/28007 ,  B01J20/28026 ,  B01J2220/64 ,  B82Y30/00 ,  G01N2035/1053

Abstract: The present invention relates to a pipette tip which is fitted with a porous organic monolith which is doped with active particles. Due to a unique polymerization method, the extraction tips stay highly permeable which allows sample to pass through the monolithic bed. The extraction tip represents an ideal tool for solid phase extraction, especially for desalting, isolating and purifying biomolecules such as peptides and proteins.

Abstract translation: 吸液头技术领域本发明涉及一种移液管吸头，其配有掺有活性颗粒的多孔有机整料。 由于独特的聚合方法，萃取尖端保持高渗透性，允许样品通过整体床。 提取尖端代表固相萃取的理想工具，特别是用于脱盐，分离和纯化生物分子如肽和蛋白质。

公开(公告)号：US07641715B2

公开(公告)日：2010-01-05

申请号：US10536723

申请日：2003-11-24

Applicant: Xavier Py ,  Vincent Goetz

Inventor： Xavier Py ,  Vincent Goetz

IPC: B01D53/02 ,  B01J20/00

CPC classification number: B01J20/28004 ,  B01D53/02 ,  B01D53/047 ,  B01D53/0476 ,  B01D2253/10 ,  B01D2253/102 ,  B01D2253/104 ,  B01D2253/106 ,  B01D2253/304 ,  B01D2253/342 ,  B01D2256/12 ,  B01D2259/40013 ,  B01D2259/40028 ,  B01D2259/4525 ,  B01J20/0277 ,  B01J20/0288 ,  B01J20/06 ,  B01J20/08 ,  B01J20/103 ,  B01J20/165 ,  B01J20/18 ,  B01J20/20 ,  B01J20/28016 ,  B01J20/28042 ,  B01J20/28078 ,  B01J20/28097 ,  C01B3/56 ,  C01B13/0262 ,  C01B2210/0046 ,  C09K5/063 ,  F17C11/007 ,  F28D20/023 ,  Y02C10/08 ,  Y02E60/145 ,  Y02E60/321

Abstract: The invention relates to a composite material, a method for controlling the thermal effects generated in a physicochemical process using said material, and applications of the material and the method.The composite material comprises an active solid and a phase change material. The phase change material takes the form of micronodules having an average size of between 1 micron and 5 millimeters and it is selected from materials with a liquid/solid phase change temperature of between −150° C. and 900° C. The active solid is selected from solids that can be used in a method involving reversible physicochemical processes that are exothermic in one direction and endothermic in the opposite direction.

Abstract translation: 本发明涉及一种复合材料，一种用于控制在使用所述材料的物理化学过程中产生的热效应的方法以及该材料和方法的应用。 复合材料包括活性固体和相变材料。 相变材料采用平均尺寸在1微米至5毫米之间的微晶粒形式，其选自液/固相变温度在-150℃至900℃之间的材料。活性固体为 选自可用于涉及在一个方向上放热并且在相反方向吸热的可逆物理化学过程的方法中的固体。

公开(公告)号：US07625837B2

公开(公告)日：2009-12-01

申请号：US11158231

申请日：2005-06-21

Applicant: Glenn W. Dodwell ,  Joseph B. Cross ,  Marvin M. Johnson ,  Edward L. Sughrue, II ,  Jianhua Yao

Inventor： Glenn W. Dodwell ,  Joseph B. Cross ,  Marvin M. Johnson ,  Edward L. Sughrue, II ,  Jianhua Yao

IPC: B01J23/00 ,  B01J23/20 ,  B01J21/00 ,  B01J29/06 ,  C01G29/00 ,  C01G30/00 ,  C01D1/02 ,  B01D53/04

CPC classification number: B01D53/64 ,  B01D53/8665 ,  B01D2257/60 ,  B01D2257/602 ,  B01J20/0214 ,  B01J20/04 ,  B01J20/06 ,  B01J20/08 ,  B01J20/106 ,  B01J20/18 ,  B01J20/3007 ,  B01J20/3078 ,  B01J20/3204 ,  B01J20/3236 ,  B01J2220/42 ,  Y10S502/516

Abstract: A composition, containing vanadium, potassium and a support is disclosed. A method of preparing such composition is also disclosed. The composition is employed in a process to remove a heavy metal from a gaseous feed stream which can optionally include a separate heavy metal adsorption stage.

Abstract translation: 公开了含有钒，钾和载体的组合物。 还公开了制备这种组合物的方法。 该组合物用于从气态进料流中除去重金属的方法，其可以任选地包括单独的重金属吸附级。

公开(公告)号：US07625492B2

公开(公告)日：2009-12-01

申请号：US10544303

申请日：2004-01-28

Applicant: Song Jin ,  Terry H. Brown ,  Youwen You ,  George F. Vance

Inventor： Song Jin ,  Terry H. Brown ,  Youwen You ,  George F. Vance

IPC: B01D15/00

CPC classification number: B01J20/06 ,  B01D53/02 ,  B01D2253/10 ,  B01D2253/20 ,  B01D2257/91 ,  B01J20/08 ,  B01J20/24 ,  B01J39/10 ,  B01J2220/46 ,  B01J2220/4837 ,  C02F1/286 ,  C02F1/288 ,  C02F1/42 ,  C02F1/5272 ,  C02F2101/16 ,  C02F2101/20 ,  C02F2101/203 ,  C02F2101/22 ,  C02F2303/04 ,  Y02C10/08

Abstract: Generally, systems for air and water purification using unpowered charged sorbent mediums (3) which may include layered double hydroxide (LDH) (1) compositions, lignin (2), and methods of sorbing inorganic or organic material(s) onto such mediums, including anionic contaminants (10), cationic contaminants (11), non ionic organic contaminants (20), and even biological agents (7) such as bacteria or viruses present in liquids or gases.

Abstract translation: 通常，使用无电荷的带电吸附剂介质（3）的空气和水净化系统可以包括层状双氢氧化物（LDH）（1）组合物，木质素（2）以及将无机或有机材料吸附到这种介质上的方法， 包括阴离子污染物（10），阳离子污染物（11），非离子有机污染物（20），甚至生物制剂（7）如液体或气体中存在的细菌或病毒。

公开(公告)号：US07625430B2

公开(公告)日：2009-12-01

申请号：US11907817

申请日：2007-10-17

Applicant: Christophe Nedez

Inventor： Christophe Nedez

IPC: B01J20/08 ,  B01D15/00 ,  C10G25/00

CPC classification number: B01J20/08 ,  B01D15/00 ,  B01D53/02 ,  B01D2253/104 ,  B01D2257/706 ,  B01J20/041 ,  B01J20/06 ,  B01J20/28004 ,  B01J20/28057 ,  B01J20/28069 ,  B01J20/28083 ,  B01J20/3007 ,  B01J20/3078 ,  B01J20/3085 ,  B01J2220/42 ,  C10G25/003 ,  Y10S95/90

Abstract: The present invention concerns a process for capturing organosiliceous complexes in the gaseous or liquid phase on a solid containing at least 80% by weight of alumina after calcining at 1000° C. The alumina has a total pore volume of more than 30 ml/100 g, a fraction of the pore volume in pores with a diameter of 70 Å or more of more than 10 ml/100 g and a specific surface area of more than 10 m2/g.

Abstract translation: 本发明涉及在1000℃下煅烧之后，在含有至少80重量％氧化铝的固体上，在气相或液相中捕获有机硅复合物的方法。氧化铝的总孔体积大于30ml / 100g ，直径大于或等于或大于10ml / 100g，比表面积大于10m 2 / g的孔中的孔体积的一部分。

公开(公告)号：US20090272675A1

公开(公告)日：2009-11-05

申请号：US12479277

申请日：2009-06-05

Applicant: Chandra C Ratnasamy ,  Jon P. Wagner ,  R. Steve Spivey ,  Hans-Georg Anfang

Inventor： Chandra C Ratnasamy ,  Jon P. Wagner ,  R. Steve Spivey ,  Hans-Georg Anfang

IPC: C10G29/04 ,  B01J29/072 ,  B01J29/08 ,  B01J29/06

CPC classification number: C07C7/12 ,  B01D53/02 ,  B01D53/04 ,  B01D2253/108 ,  B01D2253/1124 ,  B01D2256/245 ,  B01D2257/306 ,  B01D2257/308 ,  B01D2259/4145 ,  B01J20/0222 ,  B01J20/0229 ,  B01J20/0237 ,  B01J20/0244 ,  B01J20/06 ,  B01J20/08 ,  B01J20/18 ,  B01J20/186 ,  B01J20/20 ,  B01J20/2803 ,  B01J20/28057 ,  B01J2220/42 ,  C10G25/003 ,  C10G25/05 ,  C10G53/08 ,  C10G2300/202 ,  C10G2300/4006 ,  C10G2300/805 ,  H01M8/0675

Abstract: A method for producing a substantially desulfurized a hydrocarbon fuel stream at temperatures less than 100° C. The method includes providing a nondesulfurized fuel cell hydrocarbon fuel stream that may include water and passing the fuel stream sequentially through a zeolite Y adsorbent and a selective sulfur adsorbent. The zeolite Y adsorbent may be exchanged with copper ions. The method produces a substantially desulfurized hydrocarbon fuel stream containing less than 50 ppb sulfur.

Abstract translation: 一种用于在低于100℃的温度下生产基本上脱硫的烃燃料流的方法。该方法包括提供非脱硫的燃料电池烃燃料流，其可包括水并使燃料流顺序地通过沸石Y吸附剂和选择性硫吸附剂 。 沸石Y吸附剂可与铜离子交换。 该方法产生含有少于50ppb硫的基本上脱硫的烃燃料流。

公开(公告)号：US20090266745A1

公开(公告)日：2009-10-29

申请号：US12108192

申请日：2008-04-23

Applicant: Vladislav I. Kanazirev ,  Jayant K. Gorawara

Inventor： Vladislav I. Kanazirev ,  Jayant K. Gorawara

IPC: C10G17/00

CPC classification number: C10G25/02 ,  B01D15/00 ,  B01J20/041 ,  B01J20/048 ,  B01J20/08 ,  B01J20/28004 ,  B01J20/28019 ,  B01J20/28052 ,  B01J2220/56 ,  C10G25/05

Abstract: A method is provided for removing HF and organic fluorides from fluid streams in which the fluoride species exist as impurities and, in particular, from hydrocarbon fluid streams containing no more than about 1.0% by weight total fluorides. The method consists of first contacting the fluid stream first with a nonpromoted alumina and then with an adsorbent consisting essentially of activated alumina that has been treated with a promoter material selected from the oxides and phosphates of alkali metals and alkaline earth metals, and mixtures thereof. This is preferably accomplished by providing a suitable absorber vessel charged with the adsorbent in a fixed bed, and then contacting the fluoride-contaminated fluid through the fixed bed.

Abstract translation: 提供了一种从氟化物物质作为杂质存在的流体流中除去HF和有机氟化物的方法，特别是从含有不超过约1.0重量％总氟化物的烃流体流中除去。 该方法包括首先使流体流与非引发氧化铝接触，然后与主要由活性氧化铝组成的吸附剂接触，所述吸附剂已经用选自碱金属和碱土金属的氧化物和磷酸盐的助催化剂材料及其混合物进行处理。 这最好通过在固定床中提供一个装有吸附剂的吸收容器，然后使氟化物污染的流体通过固定床而接触。

公开(公告)号：US20090264280A1

公开(公告)日：2009-10-22

申请号：US12494739

申请日：2009-06-30

Applicant: Vladimir N. LISETSKIY ,  Tatyana A. LISETSKAYA ,  Lidija N. MERKUSCHEVA

Inventor： Vladimir N. LISETSKIY ,  Tatyana A. LISETSKAYA ,  Lidija N. MERKUSCHEVA

IPC: B01J20/18

CPC classification number: B01J20/18 ,  B01J20/0229 ,  B01J20/06 ,  B01J20/08 ,  B01J20/28007 ,  B01J20/3295 ,  B01J2220/42 ,  B82Y30/00 ,  C02F1/281 ,  C02F1/288 ,  C02F2101/103 ,  C02F2101/20 ,  C02F2101/22 ,  C02F2103/06 ,  C02F2103/16 ,  C02F2305/08

Abstract: The invention relates to sorption materials for removing of heavy metal ions from ground water and surface aquifer systems, and can be used by enterprises in chemical and metallurgical industry which utilize etching and galvanic technologies. The sorbent for removing of heavy metal ions from water is composed of ground zeolite and nanophase material, where the nanophase material consists of nanophase iron hydroxide and nanophase boehmite in the following ratio, mass %: Nanophase iron hydroxide12-18 Nanophase boehmite 5-13 Ground zeolitethe rest. Technical result is the enhanced purification effectiveness of the sorbent due to a wider range of heavy metals it can absorb when purifying highly contaminated water.

Abstract translation: 本发明涉及从地下水和地表含水层系统中去除重金属离子的吸附材料，可用于化学和冶金工业中使用蚀刻和电镀技术的企业。 用于从水中除去重金属离子的吸附剂由研磨沸石和纳米相材料组成，其中纳米相材料由纳米相氢氧化铁和纳米相勃姆石组成，质量％：纳米相氢氧化铁12-18纳米相勃姆石5-13 研磨沸石的其余部分。 技术结果是提高了吸附剂的净化效率，因为在净化高度污染的水时可以吸收更多范围的重金属。