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1. 发明申请

US20050232945A1 Anti-viral agents prepared from sea lettuce as raw material 有权
标题翻译：以海莴苣为原料制备的抗病毒剂
公开(公告)号：US20050232945A1
公开(公告)日：2005-10-20
申请号：US11152211
申请日：2005-06-15
申请人： Shin Hirayama , Ryohei Ueda , Masashi Miyasaka , Kiyoshi Sugata
发明人： Shin Hirayama , Ryohei Ueda , Masashi Miyasaka , Kiyoshi Sugata
IPC分类号： A23K1/18 , A23K1/16 , A61K36/02 , A61K36/05 , A61P31/12 , C12P1/00 , C12R1/89 , A61K35/80
CPC分类号： A61K36/05
摘要： Antiviral agents containing sea lettuce or an organic solvent extraction fraction thereof as an active component, and feeds containing the antiviral agents are disclosed. In addition, a process for preparing the antiviral agents is disclosed.
摘要翻译：公开了含有海生莴苣或其有机溶剂萃取馏分作为活性成分的抗病毒剂和含有抗病毒剂的饲料。此外，公开了制备抗病毒剂的方法。

2. 发明授权

US07419673B2 Anti-viral agents prepared from sea lettuce as raw material 有权
标题翻译：以海莴苣为原料制备的抗病毒剂
公开(公告)号：US07419673B2
公开(公告)日：2008-09-02
申请号：US11152211
申请日：2005-06-15
申请人： Shin Hirayama , Ryohei Ueda , Masashi Miyasaka , Kiyoshi Sugata
发明人： Shin Hirayama , Ryohei Ueda , Masashi Miyasaka , Kiyoshi Sugata
IPC分类号： A61K36/02 , A23K1/17
CPC分类号： A61K36/05
摘要： Antiviral agents containing sea lettuce or an organic solvent extraction fraction thereof as an active component, and feeds containing the antiviral agents are disclosed. In addition, a process for preparing the antiviral agents is disclosed.
摘要翻译：公开了含有海生莴苣或其有机溶剂萃取馏分作为活性成分的抗病毒剂和含有抗病毒剂的饲料。此外，公开了制备抗病毒剂的方法。

3. 发明授权

US5578472A Process for the production of ethanol from microalgae 失效
标题翻译：从微藻生产乙醇的方法
公开(公告)号：US5578472A
公开(公告)日：1996-11-26
申请号：US310769
申请日：1994-09-27
申请人： Ryohei Ueda , Shin Hirayama , Kiyoshi Sugata , Hiroshi Nakayama
发明人： Ryohei Ueda , Shin Hirayama , Kiyoshi Sugata , Hiroshi Nakayama
IPC分类号： C12P5/02 , C12P7/06 , C12P7/14 , C12N1/12 , C12P7/08 , C12P7/12
CPC分类号： C12P7/065 , C12M21/02 , C12M21/04 , C12M21/12 , C12M29/24 , C12M41/26 , C12P5/023 , Y02E50/17 , Y02E50/343 , Y10S435/946
摘要： The present invention provides a process and system for the production of ethanol wherein a microalga capable of accumulating starch in the cells thereof is cultured, the culture solution containing the grown algal cells is concentrated, and ethanol is formed by maintaining the resulting slurry in a dark and anaerobic atmosphere while keeping its pH in the range of 6.0 to 9.0. This process and system can further include additional steps and units for subjecting the residual slurry, from which ethanol has been separated, to methane fermentation, burning it to generate carbon dioxide, and using the carbon dioxide in the microalga culturing step.
摘要翻译：本发明提供一种生产乙醇的方法和系统，其中培养能够在其细胞中积聚淀粉的微藻，将含有生长的藻细胞的培养溶液浓缩，并将所得浆液保持在黑暗中形成乙醇和厌氧气氛，同时保持其pH在6.0至9.0的范围内。该方法和系统还可以包括用于将已经从其中分离乙醇的残余浆料经历甲烷发酵，燃烧以产生二氧化碳并在微藻培养步骤中使用二氧化碳的附加步骤和单元。

4. 发明授权

US5389544A Method for counting living cells of microbes and apparatus therefor 失效
标题翻译：计数微生物活细胞的方法及其设备
公开(公告)号：US5389544A
公开(公告)日：1995-02-14
申请号：US658646
申请日：1991-02-21
申请人： Kiyoshi Sugata , Ryohei Ueda , Takashi Doi , Takashi Onishi , Kazunori Matsumoto
发明人： Kiyoshi Sugata , Ryohei Ueda , Takashi Doi , Takashi Onishi , Kazunori Matsumoto
IPC分类号： G01N15/10 , G01N15/14 , C12M1/34 , C12M1/00 , G01N21/00
CPC分类号： G01N15/1459 , G01N2015/1486 , G01N21/6428 , Y10S435/808 , Y10S436/80 , Y10T436/117497
摘要： A method for counting living cells of microbes in a fluid sample continuously while flowing the sample using an apparatus which comprises a system for supplying at a predetermined rate to the flow line of the sample a reagent, such as, a derivative of fluorescein, capable of reacting with one or more substances intrinsic of the living cell, such as enzyme, to form an accumulative fluorescent product within the living cells; a reactor inserted in the flow line of the sample and being provided for the reaction of the reagent with the cell-intrinsic substance in the living cells; a photometric detection system arranged subsequent to the reactor for detecting fluorescence emitted as individual luminous point from the fluorescent product in each of the living cells floating in the flowing sample upon irradiation of the fluorescent product by an exciting ray; and an electronic unit including a pulse counter for counting electric pulses produced from each fluorescence from the luminous point.
摘要翻译：一种用于在流动样品的同时流动样品时连续测量流体样品中的微生物的活细胞的方法，该装置包括用于以预定速率向样品的流动管线供应诸如荧光素的衍生物的试剂，所述试剂能够与活细胞固有的一种或多种物质如酶反应，在活细胞内形成累积荧光产物; 插入样品流线中的反应器，用于使试剂与活细胞中的细胞固有物质反应; 光检测系统，其布置在所述反应器之后，用于在通过激发光线照射所述荧光产品时，从漂浮在流动样品中的每个活细胞中的荧光产物中检测作为各个发光点发出的荧光; 以及包括用于计数从发光点的每个荧光产生的电脉冲的脉冲计数器的电子单元。

5. 发明申请

US20090078654A1 Method of liquid detoxification and apparatus therefor 审中-公开
标题翻译：液体解毒方法及其设备
公开(公告)号：US20090078654A1
公开(公告)日：2009-03-26
申请号：US12292454
申请日：2008-11-19
申请人： Kazuki Nishizawa , Kazuhiko Fujise , Masayuki Tabata , Kiyoshi Sugata , Ryouhei Ueda , Takashi Ueda , Hirokazu Okada , Tomoaki Oomura
发明人： Kazuki Nishizawa , Kazuhiko Fujise , Masayuki Tabata , Kiyoshi Sugata , Ryouhei Ueda , Takashi Ueda , Hirokazu Okada , Tomoaki Oomura
IPC分类号： C02F1/467 , C02F1/76 , C02F103/08 , C02F1/34
CPC分类号： B63J4/002 , B63B35/44 , C02F1/28 , C02F1/34 , C02F1/38 , C02F1/4674 , C02F2103/008 , Y02W10/37
摘要： Conversion of an untreated liquid to a clean harmless treated liquid through microbe removal, characterized in that a mechanical treatment for damaging microbes present in a liquid to thereby effect extinction thereof and sterilization, combined with a chlorination in which a chlorine-containing substance is formed from a liquid and injected into a liquid to thereby effect microbe extinction and sterilization, is applied to a liquid. There is further provided an electrolytic circulation system comprising applying a detoxification treatment for extinction of microbes in seawater and sterilization by means of detoxification facilities on land or on the sea to seawater introduced through a seawater introduction channel and accommodating the seawater having been thus treated in a ballast water tank. As a result, facility and operating costs can be reduced. Extinction of microbes of unlimited size and sterilization can be securely achieved without any strength drop on the side of treated liquid accommodation body. Further, the space for installation of detoxification apparatus for ballast water in ships can be reduced to thereby enable increasing of loading space for cargo, etc. Still further, on existing ships, the hull rework cost for installation of detoxification apparatus can be minimized.
摘要翻译：通过微生物去除将未处理液体转化为清洁的无害处理液体，其特征在于，对存在于液体中的微生物进行机械处理，从而实现其灭菌和灭菌，以及其中形成含氯物质的氯化物将液体注入液体中，从而进行微生物灭绝和杀菌，将其施加于液体。还提供了一种电解循环系统，包括对海水灭菌微生物进行解毒处理，并通过在陆地或海上的解毒设施对通过海水导入通道引入的海水进行灭菌，并将经过如此处理的海水容纳在压载水箱。因此，可以降低设施和运营成本。在处理液体容纳体的一侧没有任何强度下降的情况下，可以可靠地实现无限尺寸和灭菌的微生物的灭绝。此外，可以减少用于船舶中的压载水解毒装置的空间，从而能够增加货物的装载空间等。另外，在现有的船舶上，可以使安装解毒装置的船体返工成本最小化。

6. 发明申请

US20080164217A1 Method of Liquid Detoxification and Apparatus Therefor 审中-公开
标题翻译：液体排毒方法及其设备
公开(公告)号：US20080164217A1
公开(公告)日：2008-07-10
申请号：US10569483
申请日：2005-02-10
申请人： Kazuki Nishizawa , Kazuhiko Fujise , Masayuki Tabata , Kiyoshi Sugata , Ryouhei Ueda , Takashi Ueda , Hirokazu Okada , Tomoaki Oomura
发明人： Kazuki Nishizawa , Kazuhiko Fujise , Masayuki Tabata , Kiyoshi Sugata , Ryouhei Ueda , Takashi Ueda , Hirokazu Okada , Tomoaki Oomura
IPC分类号： C02F9/00 , C02F9/06 , C02F1/76 , C02F1/38 , C02F1/46
CPC分类号： B63J4/002 , B63B35/44 , C02F1/28 , C02F1/34 , C02F1/38 , C02F1/4674 , C02F2103/008 , Y02W10/37
摘要： Conversion of an untreated liquid to a clean harmless treated liquid through microbe removal, characterized in that a mechanical treatment for damaging microbes present in a liquid to thereby effect extinction thereof and sterilization, combined with a chlorination in which a chlorine-containing substance is formed from a liquid and injected into a liquid to thereby effect microbe extinction and sterilization, is applied to a liquid. There is further provided an electrolytic circulation system comprising applying a detoxification treatment for extinction of microbes in seawater and sterilization by means of detoxification facilities on land or on the sea to seawater introduced through a seawater introduction channel and accommodating the seawater having been thus treated in a ballast water tank. As a result, facility and operating costs can be reduced. Extinction of microbes of unlimited size and sterilization can be securely achieved without any strength drop on the side of treated liquid accommodation body. Further, the space for installation of detoxification apparatus for ballast water in ships can be reduced to thereby enable increasing of loading space for cargo, etc. Still further, on existing ships, the hull rework cost for installation of detoxification apparatus can be minimized.
摘要翻译：通过微生物去除将未处理液体转化为清洁的无害处理液体，其特征在于，对存在于液体中的微生物进行机械处理，从而实现其灭菌和灭菌，以及其中形成含氯物质的氯化物将液体注入液体中，从而进行微生物灭绝和杀菌，将其施加于液体。还提供了一种电解循环系统，包括对海水灭菌微生物进行解毒处理，并通过在陆地或海上的解毒设施对通过海水导入通道引入的海水进行灭菌，并将经过如此处理的海水容纳在压载水箱。因此，可以降低设施和运营成本。在处理液体容纳体的一侧没有任何强度下降的情况下，可以可靠地实现无限尺寸和灭菌的微生物的灭绝。此外，可以减少用于船舶中的压载水解毒装置的空间，从而能够增加货物的装载空间等。另外，在现有的船舶上，可以使安装解毒装置的船体返工成本最小化。

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