子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | 超微細気泡含有液体を用いる超微細気泡洗浄方法、その装置及び加圧浮上装置 | JP2016507844 | 2015-03-13 | JPWO2015137484A1 | 2017-04-06 | 敏勝 鈴木 |
| 超微細気泡洗浄装置(80)は、大きさが30nm未満の超微細気泡を含有する液体により、土や砂などに付着した微粒子を洗い流して分離回収するものであり、水槽形状の貯液部(82)と、この貯液部(82)の中央位置に配置され、貯液部(82)内の液体を攪拌するための攪拌装置(84)と、貯液部(82)内の液体の上澄液を排出するポンプを含む上澄液排出装置(85)と、貯液部(82)の底部に沈殿した沈殿分離物を取出すための沈殿物取出装置(86)と、を備えて構成されていて、貯液部(82)内に蓄えられた超微細気泡含有液体中に土や砂などの被洗浄物を投入し、攪拌装置(84)によって超微細気泡含有液体を被洗浄物表面に繰り返し接触させ、被洗浄物の表面や亀裂、へこみなどに付着している金属微粒子(金属イオンを含む)や溶剤、薬物、油等の有機物微粒子を、これらと被洗浄物との間に超微細気泡が入り込むことによって分離して浮上させる。 | ||||||
| 122 | Method and process for providing a controlled batch of micrometer sized or nanometer sized coal material | JP2007549548 | 2005-12-28 | JP2008525625A | 2008-07-17 | カーンズ,ケヴィン,シー; パグノッティ,ジェイムズ,アール |
| マイクロメートルサイズ又はナノメートルサイズの石炭材料の制御されたバッチを提供する方法。 この方法は、(a)前記石炭材料の制御バッチの少なくとも1つの所望の物理および/又は化学パラメータを指定する工程と、(b)前記石炭材料の制御バッチの前記物理および/又は化学パラメータの所望範囲を指定する工程と、(c)石炭材料のフィードストックバッチを得る工程と、そして、(d)石炭材料のフィードストックバッチを処理して、前記少なくとも1つの指定された物理および/又は化学パラメータをその前記所定範囲で有する石炭材料の前記制御バッチを得る工程、とを有する。 別の工程において、前記石炭材料の制御バッチは活性化させることができる。 | ||||||
| 123 | Or improvement in this regard in the separation method | JP2000545981 | 1999-04-28 | JP2002512886A | 2002-05-08 | アースラク・ゴーダール; アラン・カスバートソン; ダグフィン・レーヴハウグ; ヘーゲ・フィエールディングスタード; ポール・ロングヴェド; マグネ・ソルバッケン |
| Separation of target material from a liquid sample is achieved by coupling the target to targetable encapsulated gas microbubbles, allowing the microbubbles and coupled target to float to the surface of the sample to form a floating microbubble/target layer, and separating this layer from the sample. In a positive separation process the microbubbles are then removed from the target, e.g. by bursting. In a negative separation process target-free sample material is recovered following separation of the floating layer. The method may also be used diagnostically to detect the presence of a disease marker in a sample. Novel separation apparatus is also described. | ||||||
| 124 | Sentanhohotosonoseiseibutsu | JP890981 | 1981-01-22 | JPH0232028B2 | 1990-07-18 | RESUTAA II BAAGESU; KAARU EMU FUOTSUKUSU; FUIRITSUPU II MATSUKUGYARII |
| 125 | JPS6057903B2 - | JP16901480 | 1980-11-29 | JPS6057903B2 | 1985-12-17 | ENAARU UARENTEIN HERUBERUGU |
| A floatation tower for paper recovery has a set of cells one above the other, holding the fibrous paper paste, and into which water and compressed air are injected so that the impurities mix. with the bubbles to form a foam which can be removed separately. Water is admitted as a thin layer at the same time as the air to mix. with the liquid paste as it is circulated in a thin layer in a mixing chamber, passing it through and along the flow, controlling the thickness of the layer. Air is then admitted to skin off the foam and drive it into a collector vessel below, for recycling. By a similar process for each cell, ink, kaolin and fibres can be removed separately. The mixing chamber is conical, with a tangential lop entry. | ||||||
| 126 | Method of improving coal dressing | JP891081 | 1981-01-22 | JPS56111062A | 1981-09-02 | RENTAA II BAAGESU; KAARU EMU FUOTSUKUSU; FUIRITSUPU II MATSUKUGIYARII; DEBITSUDO II HAAMAN |
| 127 | Coal dressing method and its product | JP890981 | 1981-01-22 | JPS56111061A | 1981-09-02 | RESUTAA II BAAGESU; KAARU EMU FUOTSUKUSU; FUIRITSUPU II MATSUKUGIYARII |
| 128 | Method of recovering desired valuable substances | JP13225476 | 1976-11-02 | JPS5286977A | 1977-07-20 | FURANKU PIITAASON HAUORUDO |
| 129 | AN IMPROVEMENT OF THE CHEMICAL-PHYSICAL FLOTATION PROCESS | EP17020246.9 | 2017-06-08 | EP3412636A1 | 2018-12-12 | De Bella, Paolo |
The present invention consists of an improvement of the chemical-physical process of the flotation systems, characterized in that the sewage is aspired from a sump with a constant level by means of an aspiration pump onto which a Venturi aspirator is placed, characterized in that along said aspiration pump a coagulant reagent and a flocculating reagent are injected and that the injection points of said reactives are downstream of said Venturi aspirator. The mixture obtained by means of the injection of reagents is pushed through the three mixers placed in line, before being introduced into the flotation basin where a blade scraper separates the muddy part from the liquid parts.
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| 130 | METHOD AND APPARATUS FOR REDUCING AFLATOXIN-CONTAMINATED CORN | EP13846022 | 2013-10-11 | EP2906524A4 | 2016-05-18 | BETHKE NICHOLAS WAYNE; CONARD CHAD ALLEN; FOSDICK LAWRENCE E; FOX EUGENE JOSEPH; GRUNIG DONALD; KIRKVOLD STEVEN W; LADHE ABHAY R; LELAND JACOB A; LEWIS JOSEPH MICHAEL; PETERS EUGENE MAX; SCHANILEC ANTHONY JOHN; SMITH RILEY NEIL; SUMNER ERIC; YANG PING; ZULLO JILL LOUISE |
| Methods and apparatus for separating and removing aflatoxin-contaminated corn from batches of corn by a floating process, thus producing a distinguishable floating mat of contaminated corn and a separate submerged bed of uncontaminated and less contaminated corn. The methods of this disclosure include removing the floating contaminated corn mat by a vacuum mechanism or by liquid flow. The methods reduce the aflatoxin level in the submerged corn bed as much as 80% from the initial aflatoxin level, while removing no more than 15% from the batch of corn. | ||||||
| 131 | VERFAHREN ZUR ENTFERNUNG VON FESTSTOFFEN AUS EINER FASERSTOFFSUSPENSION DURCH FLOTATION | EP10734109.1 | 2010-07-15 | EP2491176B1 | 2013-09-25 | BRITZ, Herbert; DELMAS, Delphine |
| 132 | APPARATUS AND METHOD FOR EFFICIENT PARTICLE TO GAS BUBBLE ATTACHMENT IN A SLURRY | EP07815929 | 2007-09-28 | EP2083952A4 | 2012-03-21 | SCHNEIDER JAKOB H; DUCZMAL TOMASZ |
| The present invention relates to an apparatus and a process for efficient hydrophobic particles to gas bubble attachment in a slurry is provided. The process comprises: tangentially introducing a slurry stream into a cylindrical chamber having a cylindrical inner wall with sufficient volume and pressure to develop a vortex in the flowing slurry; introducing gas into the flowing slurry during at least a portion of its travel in the chamber, the gas being introduced orthogonally to the stream through means located at the chamber inner wall and for developing gas bubbles which move into the slurry. The apparatus comprises of: a cylindrical chamber having a cylindrical inner wall, the chamber being oriented in any direction, enclosed at both ends, and with an entry port to introduce the stream of slurry to develop a spiral flow of the stream along the chamber inner wall toward the output end, a porous wall to permit the introduction of gas orthogonally into the stream to develop gas bubbles within the stream, and an exit port to discharge the mixture of slurry and gas bubbles. | ||||||
| 133 | Verfahren zur Abtrennung von hochaktiven Katalysatorpartikeln | EP04002990.2 | 2004-02-11 | EP1457262B1 | 2010-05-26 | Dohle, Hendrik; Bringmann, Jan |
| 134 | APPARATUS AND METHOD FOR EFFICIENT PARTICLE TO GAS BUBBLE ATTACHMENT IN A SLURRY | EP07815929.0 | 2007-09-28 | EP2083952A1 | 2009-08-05 | SCHNEIDER, Jakob H.; DUCZMAL, Tomasz |
| The present invention relates to an apparatus and a process for efficient hydrophobic particles to gas bubble attachment in a slurry is provided. The process comprises: tangentially introducing a slurry stream into a cylindrical chamber having a cylindrical inner wall with sufficient volume and pressure to develop a vortex in the flowing slurry; introducing gas into the flowing slurry during at least a portion of its travel in the chamber, the gas being introduced orthogonally to the stream through means located at the chamber inner wall and for developing gas bubbles which move into the slurry. The apparatus comprises of: a cylindrical chamber having a cylindrical inner wall, the chamber being oriented in any direction, enclosed at both ends, and with an entry port to introduce the stream of slurry to develop a spiral flow of the stream along the chamber inner wall toward the output end, a porous wall to permit the introduction of gas orthogonally into the stream to develop gas bubbles within the stream, and an exit port to discharge the mixture of slurry and gas bubbles. | ||||||
| 135 | METHOD AND PROCESS FOR PROVIDING A CONTROLLED BATCH OF MICROMETER-SIZED OR NANOMETER-SIZED COAL MATERIAL | EP05855590.5 | 2005-12-28 | EP1846541A2 | 2007-10-24 | Kerns, Kevin C.; Pagnotti, James R. |
| A method of providing a controlled batch of micrometer-sized or nanometer-sized coal material. This method includes the steps of: (a) specifying at least one desired physical and/or chemical parameter of the controlled batch of coal material; (b) specifying the desired range of the physical and/or chemical parameter in the controlled batch of coal material; (c) obtaining (102) a feedstock batch of coal material; and (d) processing a feedstock batch of coal material (108) to obtain the controlled batch of coal material having the at least one specified physical and /or chemical parameter in the specified range thereof. In a further step, the controlled batch of coal material can be activated. | ||||||
| 136 | Verfahren zur Abtrennung von hochaktiven Katalysatorpartikeln | EP04002990.2 | 2004-02-11 | EP1457262A1 | 2004-09-15 | Dohle, Hendrik; Bringmann, Jan |
In einer handelsüblichen Katalysatormischung mit einer gewissen Partikelgrößenverteilung weisen die einzelnen Partikel in der Regel sehr unterschiedliche Aktivitäten auf. Die Aktivität ist unter anderem an die Partikelgröße gekoppelt. Das erfindungsgemäße Verfahren ermöglicht auf einfache Weise eine Fraktionierung solcher Katalysatorchargen, so dass aus einer vorgegebenen Mischung eine Fraktion von regelmäßig höchst aktiven Katalysatorpartikel abgetrennt wird. Dies ist insbesondere für den Einsatz in einer Brennstoffzelle wichtig, da durch diese Maßnahme die Stromund Leistungsdichte einer Brennstoffzelle, die nur den besonders aktiven Anteil an Katalysator aus einer Mischung benutzt, regelmäßig gesteigert wird. |
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| 137 | IMPROVEMENTS IN OR RELATING TO SEPARATION PROCESSES | EP99919396.4 | 1999-04-28 | EP1073716B1 | 2004-04-28 | CUTHBERTSON, Alan,Amersham Health AS; RONGVED, Pal; L VHAUG, Dagfinn,Amersham Health AS; FJERDINGSTAD, Hege,Amersham Health AS; SOLBAKKEN, Magne,Amersham Health AS; GODAL, Aslak |
| Separation of target material from a liquid sample is achieved by coupling the target to targetable encapsulated gas microbubbles, allowing the microbubbles and coupled target to float to the surface of the sample to form a floating microbubble/target layer, and separating this layer from the sample. In a positive separation process the microbubbles are then removed from the target, e.g. by bursting. In a negative separation process target-free sample material is recovered following separation of the floating layer. The method may also be used diagnostically to detect the presence of a disease marker in a sample. Novel separation apparatus is also described. | ||||||
| 138 | Separation processes of metals contained in hyper acid mediums by way of ionic flotation | EP83401389 | 1983-07-06 | EP0099804A3 | 1984-03-28 | Blazy, Pierre; Jdid, El-Aid |
| 139 | VERFAHREN ZUR ENTFERNUNG VON FESTSTOFFEN AUS EINER FASERSTOFFSUSPENSION DURCH FLOTATION | EP10734109.1 | 2010-07-15 | EP2491176A1 | 2012-08-29 | BRITZ, Herbert; DELMAS, Delphine |
| The invention relates to a method for removing solid matter, in particular impurities, by means of flotation from a fibrous material suspension (S), wherein the fibrous material suspension (S) is mixed with gas (L), and wherein in at least two flotation chambers (1, 2, 2´, 2´´, 2´´´, 2´´´´) flotation foam (3, 4) is formed that collects solid matter and removes it from the flotation chamber. The flotation foam (4) of at least one flotation chamber (1, 2, 2´, 2´´, 2´´´, 2´´´´) is at least partially conducted into at least one other flotation chamber (1), in particular in the flotation foam (3) formed therein. According to the method, the complexity can be reduced, even with high requirements regarding effect and yield. | ||||||
| 140 | IMPROVEMENTS IN OR RELATING TO SEPARATION PROCESSES | EP99919396.4 | 1999-04-28 | EP1073716A2 | 2001-02-07 | CUTHBERTSON, Alan,Nycomed Imaging AS; RONGVED, P l,Nycomed Imaging AS; L VHAUG, Dagfinn,Nycomed Imaging AS; FJERDINGSTAD, Hege,Nycomed Imaging AS; SOLBAKKEN, Magne,Nycomed Imaging AS; GODAL, Aslak |
| Separation of target material from a liquid sample is achieved by coupling the target to targetable encapsulated gas microbubbles, allowing the microbubbles and coupled target to float to the surface of the sample to form a floating microbubble/target layer, and separating this layer from the sample. In a positive separation process the microbubbles are then removed from the target, e.g. by bursting. In a negative separation process target-free sample material is recovered following separation of the floating layer. The method may also be used diagnostically to detect the presence of a disease marker in a sample. Novel separation apparatus is also described. | ||||||
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