公开(公告)号：US20170232386A1

公开(公告)日：2017-08-17

申请号：US15433691

申请日：2017-02-15

Applicant: SILICA Verfahrenstechnik GmbH

Inventor： Andreas HARTBRICH ,  Gerd HOEHNE ,  Burkhard SCHLICHT ,  Jens MOELLMER ,  Mike WECKS ,  Joerg HOFMANN

IPC: B01D53/82 ,  B01J20/28 ,  B01D53/70 ,  B01J20/20 ,  B01D53/72 ,  B01D53/68

CPC classification number: B01D53/82 ,  B01D53/0407 ,  B01D53/0431 ,  B01D53/685 ,  B01D53/70 ,  B01D53/72 ,  B01D2253/102 ,  B01D2253/306 ,  B01D2253/34 ,  B01D2257/2064 ,  B01D2257/70 ,  B01D2257/7022 ,  B01D2257/7027 ,  B01D2259/40096 ,  B01J20/20 ,  B01J20/28038 ,  B01J20/3416 ,  B01J20/3441 ,  C01B32/366

Abstract: A device for treating a gas laden with pollutants, includes at least one adsorption module for adsorbing the pollutants, which is utilized in an adsorption apparatus. The adsorption module includes at least one electrically conductive layer of an activated carbon fiber mat, an electric current circuit for heating the activated carbon fiber mat for the desorption of the adsorbed pollutants, and distributing conduit which is routed into the center of the adsorption module and has outlet openings for a flush gas for inertizing and rinsing the activated carbon fiber mat.

公开(公告)号：US20170036192A1

公开(公告)日：2017-02-09

申请号：US15305336

申请日：2015-04-16

Applicant: AGENCY FOR SCIENCE, TECHNOLOGY AND RESEARCH

Inventor： Jia Min CHIN ,  Jin YANG ,  Han Yang TAN ,  Yin Ngai SUM ,  Siok Wei TAY

IPC: B01J20/34 ,  B01D53/14

CPC classification number: B01J20/3483 ,  B01D53/1425 ,  B01D53/1462 ,  B01D2252/2023 ,  B01D2252/20405 ,  B01D2252/20421 ,  B01D2252/20426 ,  B01D2252/20484 ,  B01D2252/20489 ,  B01D2252/30 ,  B01D2252/504 ,  B01D2252/604 ,  B01J20/06 ,  B01J20/08 ,  B01J20/3441

Abstract: The invention relates to methods for regenerating a used sorbent having a gas adsorbate adsorbed thereto. In particular, the used sorbent comprises liquid marbles. The liquid in the liquid marbles is comprised of a material or mixture of materials that selectively removes unwanted gaseous component in the gas to be purified.

Abstract translation: 本发明涉及再生吸附有吸附气体的吸附剂的方法。 特别地，所用的吸附剂包括液体大理石。 液体大理石中的液体由选择性去除待净化气体中不需要的气态组分的材料或材料混合物组成。

公开(公告)号：US20160175809A1

公开(公告)日：2016-06-23

申请号：US14409978

申请日：2013-05-30

Applicant: EMPIRE TECHNOLOGY DEVELOPMENT LLC

Inventor： Arockiadoss THEVASAHAYAM

IPC: B01J20/22 ,  B32B27/30 ,  B32B27/32 ,  B32B27/06 ,  B65D81/26 ,  B32B27/36

CPC classification number: B01J20/223 ,  A23L3/3436 ,  B01D53/02 ,  B01D2253/1124 ,  B01D2253/20 ,  B01D2253/25 ,  B01D2257/104 ,  B01J20/06 ,  B01J20/28004 ,  B01J20/28016 ,  B01J20/3425 ,  B01J20/3441 ,  B32B27/06 ,  B32B27/302 ,  B32B27/32 ,  B32B27/36 ,  B32B2250/02 ,  B32B2439/70 ,  B65D81/266 ,  C07D487/22 ,  C08K5/0091 ,  C08L25/08

Abstract: Disclosed herein are reusable composite materials for scavenging oxygen, methods of preparing the composite materials and method of using them. The composite materials contain porphyrin molecules and a metal oxide comprised within the porphyrin. The metal oxide is oxidizable in the presence of oxygen and the oxidation of the metal oxide is reversible upon exposure of the composite material to light of a fixed wavelength.

Abstract translation: 本文公开了用于清除氧的可重复使用的复合材料，制备复合材料的方法和使用它们的方法。 复合材料包含卟啉分子和包含在卟啉内的金属氧化物。 金属氧化物在氧的存在下是可氧化的，并且当将复合材料暴露于固定波长的光时，金属氧化物的氧化是可逆的。

公开(公告)号：US09359226B2

公开(公告)日：2016-06-07

申请号：US13230168

申请日：2011-09-12

Applicant: Chang Hyun Kim ,  Hyun Seok Kim ,  Hyo Rang Kang ,  Ho Jung Yang ,  Joo Wook Lee ,  Bok Soon Kwon ,  Jae Eun Kim

Inventor： Chang Hyun Kim ,  Hyun Seok Kim ,  Hyo Rang Kang ,  Ho Jung Yang ,  Joo Wook Lee ,  Bok Soon Kwon ,  Jae Eun Kim

IPC: B01D61/00 ,  C02F1/28 ,  B01D61/44 ,  B01J20/06 ,  B01J20/08 ,  B01J20/10 ,  B01J20/12 ,  B01J20/18 ,  B01J20/20 ,  B01J20/32 ,  B01J20/34 ,  C02F1/461 ,  C02F1/469 ,  B01J20/02 ,  B01J20/28 ,  B82Y30/00 ,  B01J47/08 ,  B01J49/00 ,  C02F1/00 ,  C02F1/42 ,  C02F1/66 ,  C02F101/10 ,  C02F101/12 ,  C02F101/20 ,  C02F101/36

CPC classification number: C02F1/283 ,  B01D61/00 ,  B01D61/445 ,  B01D2311/2626 ,  B01D2313/345 ,  B01D2313/36 ,  B01D2313/40 ,  B01J20/02 ,  B01J20/06 ,  B01J20/08 ,  B01J20/10 ,  B01J20/12 ,  B01J20/18 ,  B01J20/20 ,  B01J20/205 ,  B01J20/28007 ,  B01J20/3204 ,  B01J20/3234 ,  B01J20/3416 ,  B01J20/3433 ,  B01J20/3441 ,  B01J47/08 ,  B01J49/30 ,  B01J2220/42 ,  B82Y30/00 ,  C02F1/28 ,  C02F1/281 ,  C02F1/285 ,  C02F1/288 ,  C02F1/42 ,  C02F1/46104 ,  C02F1/469 ,  C02F1/66 ,  C02F2001/46119 ,  C02F2101/103 ,  C02F2101/12 ,  C02F2101/20 ,  C02F2101/36 ,  C02F2201/003 ,  C02F2201/46115 ,  C02F2201/46135 ,  C02F2201/46145 ,  C02F2201/4615 ,  C02F2201/4618 ,  C02F2209/05 ,  C02F2301/08 ,  C02F2303/16 ,  C02F2305/08

Abstract: A filter unit may include an electrode structure, a fluid-purifying flow path, and a pH adjusting chamber. The electrode structure may include a cathode, a cation exchange membrane, an anion exchange membrane, and an anode in that order. The fluid-purifying flow path may be at least one of a path in the cathode, between the cathode and the cation exchange membrane, between the anion exchange membrane and the anode, and in the anode. The fluid-purifying flow path may include an adsorption function. The pH adjusting chamber may be between the cation exchange membrane and the anion exchange membrane. The pH adjusting chamber may be configured to control the pH of the fluid in the fluid-purifying flow path.

Abstract translation: 过滤器单元可以包括电极结构，流体净化流路和pH调节室。 电极结构可以依次包括阴极，阳离子交换膜，阴离子交换膜和阳极。 流体净化流路可以是阴极，阴极和阳离子交换膜之间，阴离子交换膜和阳极之间以及阳极中的至少一个。 流体净化流路可以包括吸附功能。 pH调节室可以在阳离子交换膜和阴离子交换膜之间。 pH调节室可以被配置为控制流体净化流路中的流体的pH。

公开(公告)号：US09309264B2

公开(公告)日：2016-04-12

申请号：US14476739

申请日：2014-09-04

Applicant: Panasonic Corporation

Inventor： Takaiki Nomura ,  Takashi Kouzaki ,  Takahiro Kurabuchi ,  Kazuhito Hato

IPC: C07F1/08 ,  B01J20/22 ,  C07C63/24 ,  B01J20/34 ,  B01J31/16 ,  C07C63/307 ,  B01D53/32 ,  F17C11/00 ,  C07C47/02 ,  C07C45/38 ,  C07C51/41 ,  B01J23/72

CPC classification number: C07F1/08 ,  B01D53/0454 ,  B01D53/323 ,  B01D2253/204 ,  B01D2257/504 ,  B01D2259/40083 ,  B01J20/226 ,  B01J20/3425 ,  B01J20/3441 ,  B01J23/72 ,  B01J31/1691 ,  B01J31/2239 ,  B01J2231/70 ,  B01J2231/763 ,  B01J2531/16 ,  C07C45/38 ,  C07C47/02 ,  C07C51/412 ,  C07C63/24 ,  C07C63/307 ,  F17C11/00 ,  Y02C10/08 ,  Y02E60/321 ,  Y02P20/152 ,  C07C47/00

Abstract: The present invention provides a method for adsorbing carbon dioxide onto porous metal-organic framework materials, a method for cooling porous metal-organic framework materials, a method for obtaining aldehyde using porous metal-organic framework materials and a method for warming porous metal-organic framework materials. In each method, porous metal-organic framework materials are used while an electric field or an electromagnetic field is applied to the porous metal-organic framework materials, or while a magnetic field or an electromagnetic field is applied to the porous metal-organic framework materials. If an electric field is applied, at least one organic compound included in the porous metal-organic framework materials is a polar compound. Instead, if a magnetic field is applied, at least one metal included in the porous metal-organic framework materials has an unpaired electron.

Abstract translation: 本发明提供了一种将二氧化碳吸附在多孔金属有机骨架材料上的方法，多孔金属 - 有机骨架材料的冷却方法，使用多孔金属 - 有机骨架材料获得醛的方法和用于加热多孔金属 - 有机骨架材料的方法 框架材料。 在每种方法中，使用多孔金属 - 有机骨架材料，同时将电场或电磁场施加到多孔金属 - 有机骨架材料上，或者当将磁场或电磁场施加到多孔金属 - 有机骨架材料 。 如果施加电场，则包含在多孔金属 - 有机骨架材料中的至少一种有机化合物是极性化合物。 相反，如果施加磁场，包含在多孔金属 - 有机骨架材料中的至少一种金属具有不成对的电子。

公开(公告)号：US20150336819A1

公开(公告)日：2015-11-26

申请号：US14654857

申请日：2013-12-19

Applicant: KONINKLIJKE PHILIPS N.V.

Inventor： Jianyu JIN ,  Guangwei WANG ,  Peixin HU

IPC: C02F1/469 ,  B01J20/28 ,  B01D15/26 ,  B01J20/24 ,  C02F1/28 ,  C02F1/461

CPC classification number: C02F1/288 ,  B01D15/26 ,  B01J20/24 ,  B01J20/261 ,  B01J20/264 ,  B01J20/28047 ,  B01J20/321 ,  B01J20/3212 ,  B01J20/3242 ,  B01J20/3425 ,  B01J20/3441 ,  C02F1/285 ,  C02F1/286 ,  C02F1/46109 ,  C02F1/4691 ,  C02F1/4696 ,  C02F2001/46138 ,  C02F2201/46

Abstract: The present invention provides an ion absorption/desorption device and a corresponding method. The ion absorption device may comprise: an electrode pair (12, 14), at least one electrode of the electrode pair (12, 14) being covered by ions-permeable gel (16a) with functional groups, the gel (16a) absorbing ions in a liquid (26a) when a voltage is applied on the electrode pair (12, 14). Covering the electrode with ions-permeable gel with functional groups may facilitate chelation of the cations and/or anions in the liquid with the functional groups in the gel, thereby, immobilizing these ions in the gel so as to improve absorption efficiency.

Abstract translation: 本发明提供了一种离子吸收/解吸装置及相应的方法。 离子吸收装置可以包括：电极对（12,14），电极对（12,14）的至少一个电极被具有官能团的离子可渗透凝胶（16a）覆盖，凝胶（16a）吸收离子 在电极对（12,14）上施加电压时在液体（26a）中。 用官能团覆盖具有离子可渗透凝胶的电极可以促进液体中阳离子和/或阴离子与凝胶中的官能团的螯合，从而将这些离子固定在凝胶中，从而提高吸收效率。

公开(公告)号：US20150196856A1

公开(公告)日：2015-07-16

申请号：US14597669

申请日：2015-01-15

Applicant: ARVIA TECHNOLOGY LIMITED

Inventor： Nigel Willis Brown ,  Edward P.L. Roberts

IPC: B01D15/20 ,  B01D53/14 ,  B01D53/06

CPC classification number: B01D15/203 ,  B01D53/06 ,  B01D53/08 ,  B01D53/1425 ,  B01D2253/102 ,  B01D2257/70 ,  B01D2259/40083 ,  B01J20/20 ,  B01J20/3416 ,  B01J20/3441 ,  C02F1/283 ,  C02F1/34 ,  C02F1/46 ,  C02F2303/16

Abstract: Contaminants are removed from a quantity of contaminated liquid in a treatment reservoir (2,28) containing a carbon based adsorbent material capable of electrochemical regeneration. The adsorbent material is in the form of a bed supported on a plate (6) at the base of the reservoir. The bed is agitated for a period to distribute the adsorbent material in the liquid and adsorb contaminant therefrom. At the end of the period the agitation ceases, and the bed of adsorbent material is allowed to settle. The adsorbent is then regenerated, during or after settlement, by passing an electric current through the bed to release from the adsorbent gaseous products derived from the contaminant, in bubbles rising through the decontaminated liquid in the reservoir. Various methods of regenerating the adsorbent material are disclosed, as are apparatus in which the method can be applied.

Abstract translation: 污染物在含有能够进行电化学再生的碳基吸附材料的处理容器（2,28）中从一定数量的污染液体中除去。 吸附剂材料为支撑在储存器底部的板（6）上的床的形式。 将床搅拌一段时间以将吸附剂材料分散在液体中并从中吸附污染物。 在该阶段结束时，搅拌停止，并且允许吸附材料床沉降。 然后，在沉积期间或之后，通过使电流通过床来吸附吸附剂，以在通过储存器中的去污液体升高的气泡中从吸附剂释放来自污染物的气态产物。 公开了再生吸附材料的各种方法，以及可以应用该方法的装置。

公开(公告)号：US20140026638A1

公开(公告)日：2014-01-30

申请号：US13467074

申请日：2012-05-09

Applicant: Michael J. Bowers, II ,  Tadd C. Kippeny

Inventor： Michael J. Bowers, II ,  Tadd C. Kippeny

IPC: B01J20/281

CPC classification number: G01N30/482 ,  B01J20/3416 ,  B01J20/3441 ,  G01N1/4022 ,  G01N1/405 ,  G01N30/06 ,  G01N2030/122

Abstract: Analytes are rapidly desorbed from a carbonaceous sorbent powder with improved quantitation and reduced analyte re-adsorption, thermal degradation, and rearrangement. The sample is distributed in a thin layer onto a desorption surface within a chamber. The layer can be a monolayer. Heating light irradiates the sample through a window, directly and rapidly heating the sample while the desorbed analytes diffuse into a vacuum or are removed by a carrier gas. Finally, the sorbent is flushed from the chamber by a transport gas. The desorption surface can be an inner surface of the window, or a surface of a porous frit that divides the chamber into two sections. The frit can be stainless steel or glass. The carrier gas can be helium, argon, or carbon dioxide. The light source can be a tungsten halogen lamp. A heater can control the chamber temperature according to a heating profile.

Abstract translation: 分析物从具有改进的定量和减少的分析物再吸附，热降解和重排的碳质吸附剂粉末中快速解吸。 将样品分布在薄层内到室内的解吸表面。 该层可以是单层。 加热光通过窗户照射样品，直接和快速地加热样品，同时解吸的分析物扩散到真空中或通过载气除去。 最后，通过运输气体将吸附剂从室中冲洗掉。 解吸表面可以是窗口的内表面，或多孔玻璃料的将该室分成两部分的表面。 玻璃料可以是不锈钢或玻璃。 载气可以是氦，氩或二氧化碳。 光源可以是卤钨灯。 加热器可以根据加热曲线来控制腔室温度。

公开(公告)号：US20130248452A1

公开(公告)日：2013-09-26

申请号：US13847117

申请日：2013-03-19

Applicant: NIPPON SHEET GLASS COMPANY, LIMITED

Inventor： Koichiro NAKAMURA

IPC: C02F1/70 ,  B09C1/08

CPC classification number: C02F1/70 ,  B01J20/3441 ,  B09C1/08 ,  C02F1/281 ,  C02F1/32 ,  C02F1/72 ,  C02F9/00 ,  C02F2303/16 ,  C02F2305/10 ,  Y02W10/37

Abstract: Disclosed is a method of treating a treatment object containing a harmful compound. The method includes: a step A of bringing a treatment object containing a harmful compound containing an element X that is As, Sb or Se into contact with titanium oxide so as to adsorb the harmful compound on the surface of the titanium oxide; a step B of separating, from the treatment object, the titanium oxide on which the harmful compound is adsorbed; and a step C of irradiating the titanium oxide separated from the treatment object with light in a treatment phase containing a radical source so as to cause a reaction between the harmful compound adsorbed on the titanium oxide and a radical generated from the radical source and detoxify the harmful compound.

Abstract translation: 公开了一种处理含有有害化合物的处理对象的方法。 该方法包括：使包含含有As，Sb或Se的元素X与氧化钛接触的有害化合物的处理对象的步骤A，以将有害化合物吸附在氧化钛的表面上; 与处理对象物分离有机化合物所吸附的氧化钛的工序B; 以及在含有自由基源的处理相中用光照射从处理对象物分离的氧化钛以使吸附在氧化钛上的有害化合物与由自由基源产生的自由基之间发生反应的步骤C， 有害化合物。

公开(公告)号：US20130112079A1

公开(公告)日：2013-05-09

申请号：US13668018

申请日：2012-11-02

Applicant: Industrial Technology Research Institute

Inventor： Ming-Shiann SHIH ,  Jau-Chyn HUANG

IPC: B01D53/26 ,  B03C3/40 ,  B03C3/04

CPC classification number: B01D53/261 ,  B01D53/0438 ,  B01D53/06 ,  B01D53/28 ,  B01D2253/106 ,  B01D2257/80 ,  B01D2259/40083 ,  B01D2259/4009 ,  B01D2259/40096 ,  B01D2259/4508 ,  B01J20/02 ,  B01J20/06 ,  B01J20/10 ,  B01J20/18 ,  B01J20/20 ,  B01J20/3433 ,  B01J20/3441 ,  B01J2220/42

Abstract: A dehumidification device and an electrified desorption device thereof are provided. The electrified desorption device includes a conductive water-absorbing material containing titanosilicates; a conductive layer containing a metal component or a mixture of the metal component and graphite, attached to end surfaces at two sides of the water-absorbing material; a pair of electrode structures, coupled to the two sides of the water-absorbing material respectively and each having multiple sub-electrodes insulated from each other; and a voltage source, coupled to the pair of electrode structures. The electrodes are coupled to the conductive water-absorbing material, and the conductive water-absorbing material is directly electrified with a current, so that the conductive water-absorbing material generates heat to achieve a desorption effect, and further maintains a re-adsorbing capability to continue operation.