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31. 发明专利

JPS59179098A Electrochemical distinguishment of cells 失效
标题翻译：细胞电化学鉴定
公开(公告)号：JPS59179098A
公开(公告)日：1984-10-11
申请号：JP5277383
申请日：1983-03-30
申请人： Tadashi Matsunaga
发明人： MATSUNAGA TADASHI
IPC分类号： C12Q1/04
摘要： PURPOSE: A couple of electrodes are inserted into a cell suspension to measure differential currents to effect clear distinguishment and identification between individual cells.
CONSTITUTION: A suspension of cells of, e.g., fungi or actinomycetes, erythrocytes, leukocytes, tumor cells or cultivated animal or plant cells is poured into a cell for differential pulse polarography which is composed of the cell 4 equipped with the action electrode 1, the opposite electrode 2 and the reference electrode of saturated sodium chloride calomel electrode 3, pulse sequencer 5, potential programmer 6, potentiostat 7, drop knocker 8, i/E converter 9, sample holds (τ, τ') 10, 11, difference assembly 12 and recorder 13. An increasingly scanning or sweeping potential resulting from accumulation of micropotentials is applied to between the electrodes to measure the occurring current and obtain a current- potential curve which gives clear peak potentials differing according to the kinds of cells.
COPYRIGHT: (C)1984,JPO&Japio
摘要翻译：目的：将一对电极插入细胞悬浮液中以测量差分电流，以实现各个细胞之间的明确区分和识别。构成：将例如真菌或放线菌，红细胞，白细胞，肿瘤细胞或培养的动物或植物细胞的细胞的悬浮液倒入用于差动脉冲极谱法的细胞中，所述细胞由装备有动作电极1的细胞4，相对电极2和饱和氯化钠甘汞电极3的参比电极，脉冲序列发生器5，电位编程器6，恒电位仪7，降幅环8，I / E转换器9，样品保持（τ，τ'）10,11，差分组件 12和记录器13.由电极积累产生的越来越多的扫描或扫描电位施加到电极之间以测量发生的电流并获得电流 - 电位曲线，其给出根据电池种类不同的清晰的峰值电位。

32. 发明专利

JPS59179097A Electrochemical measurement of cell activity 失效
标题翻译：细胞活性的电化学测量
公开(公告)号：JPS59179097A
公开(公告)日：1984-10-11
申请号：JP5277283
申请日：1983-03-30
申请人： Tadashi Matsunaga
发明人： MATSUNAGA TADASHI
IPC分类号： C12Q1/04 , C12Q1/06 , C12R1/01 , C12R1/125 , C12R1/19 , C12R1/865 , G01N27/416
摘要： PURPOSE: A couple of electrodes 4, 4' are inserted into a cell suspension and the electric current is measured in the presence of 4,4'-bipyridine to enable high- accuracy measurement of the electrochemical activity of the cell in a short time.
CONSTITUTION: A suspension of living cells of, e.g., a variety of microorganisms such as actinomycetes or fungi, erythrocytes, leukocytes, tumor cells, cultivated animal or plant cells and 4,4'-bipyridine are poured into an electrolytic cell 4 and the action electrode 1, the opposite electrode 2 and the reference electrode 3 such as SSCE are inserted into the cell. Periodically scanning or sweeping potential is applied from the power source 6 through the potentiostat 5 to between these electrodes are the occurring current is recorded as a currrent- potential curve in the X-Y recorder or synchroscope 7 to determine clear peak potentials differing according to the kinds of cells or peak current values proportional to cell concentration.
COPYRIGHT: (C)1984,JPO&Japio
摘要翻译：目的：将一对电极4,4'插入电池悬浮液中，并在4,4'-联吡啶存在下测量电流，以便在短时间内高精度地测量电池的电化学活性。构成：将诸如放线菌或真菌，红细胞，白细胞，肿瘤细胞，培养的动物或植物细胞和4,4'-联吡啶等各种微生物的活细胞悬浮液倒入电解槽4中，电极1，相对电极2和诸如SSCE的参比电极3插入电池中。定时扫描或扫描电位从电源6通过恒电位器5施加到这些电极之间，所发生的电流被记录为XY记录器或同步器7中的电流 - 电位曲线，以确定根据不同种类的不同的峰值电位细胞或峰值电流值与细胞浓度成比例。

33. 发明专利

JP2011001641A Method for recovering waste heat of lime kiln 审中-公开
标题翻译：回收极限火焰的方法
公开(公告)号：JP2011001641A
公开(公告)日：2011-01-06
申请号：JP2009143799
申请日：2009-06-17
申请人： Tadashi Matsunaga , 匡史松永
发明人： KOBAYASHI TOMOFUMI , SHIMADA KAORU , MATSUNAGA TADASHI
IPC分类号： D21C11/06 , B01D53/50 , D21C11/04 , F25B27/02 , F28F19/04
CPC分类号： Y02A30/274 , Y02P40/44 , Y02P70/24
摘要： PROBLEM TO BE SOLVED: To provide a system for effectively recovering waste heat of a lime kiln of an apparatus for a treatment of regenerating lime in the papermaking industry.SOLUTION: A large heat recovery is enabled by arranging a heat exchanger 130 in which PFA or FEP fluororesin lining is applied to the region between a dust collector 121 and a desulfurization apparatus 128 in a waste gas passage of the lime kiln 110 to prevent the acid dew point corrosion by sulfur oxide in the waste gas, and recovering the heat till a gas temperature not higher than the dew point of the sulfur oxide contained in the waste gas.
摘要翻译：要解决的问题：提供一种用于有效地回收造纸工业中再生石灰处理设备的石灰窑废热的系统。解决方案：通过布置热交换器130能够实现大的热回收，其中PFA或在石灰窑110的废气通道中的集尘器121和脱硫装置128之间的区域施加FEP氟树脂衬垫，以防止废气中的硫氧化物的酸露点腐蚀，并将热量回收至气体温度不高于废气中所含的硫氧化物的露点。

34. 发明专利

JP2005185206A Stain-proof conductive member and method for electrochemically controlling the same member 审中-公开
标题翻译：用于电化学控制相同成员的防伪导电部件和方法
公开(公告)号：JP2005185206A
公开(公告)日：2005-07-14
申请号：JP2003432448
申请日：2003-12-26
申请人： Tadashi Matsunaga , Pentel Corp , ぺんてる株式会社 , 是松永
发明人： OZAWA KINICHI , KADOI HIDEO , TAKAYANAGI HIROICHI , TAKIMOTO TOSHIHIRO , TAKAHASHI HIROMICHI , WAKE HITOSHI , MATSUNAGA TADASHI
IPC分类号： A01M29/00 , A01M29/24
摘要： PROBLEM TO BE SOLVED: To provide a stain-proof conductive member electrochemically preventing adhesion of organisms and scale to marine structures, vessels, piping or channels for water transportation, fishing nets, heat exchangers or screens, or the like, of seawater intake ports.
SOLUTION: Electrodes and an electric source are installed so that an electric potential in which electrochemical reaction occurs can be applied to the stain-proof conductive member obtained by carrying out oxidation treatment of a metal substrate. As a result, suppressing effect on the adhesion of organisms to the stain-proof conductive member and effect of keeping and improving stain-proof function by control of output voltage are exhibited and high stain-proof efficiency is kept for a long period. Since oxidation by application of electric potential is suppressed, the endurance can be improved.
COPYRIGHT: (C)2005,JPO&NCIPI
摘要翻译：要解决的问题：提供防污导电部件，电化学防止生物体和海水结构，船舶，管道或水道运输的管道或通道，海水中的附着力和水垢等。进气口解决方案：安装电极和电源，使得可以将电化学反应发生的电位施加到通过进行金属基板的氧化处理获得的防污导电部件。结果，显示出通过控制输出电压抑制对生物体对防污导电部件的粘附的效果，并且保持和改善防污功能的效果，并且长时间保持高的防污效果。由于抑制了施加电位的氧化，所以能够提高耐久性。版权所有（C）2005，JPO＆NCIPI

35. 发明专利

JP2005131611A Electrochemical water control method and apparatus 有权
标题翻译：电化学水控制方法和装置
公开(公告)号：JP2005131611A
公开(公告)日：2005-05-26
申请号：JP2003373592
申请日：2003-10-31
申请人： Tadashi Matsunaga , Pentel Corp , ぺんてる株式会社 , 是松永
发明人： TAKAYANAGI HIROICHI , KADOI HIDEO , OZAWA KINICHI , TAKIMOTO TOSHIHIRO , TAKAHASHI HIROMICHI , WAKE HITOSHI , MATSUNAGA TADASHI
IPC分类号： E02B1/00 , C02F1/46 , C23F15/00 , E03C1/266
摘要： PROBLEM TO BE SOLVED: To provide a method and apparatus for electrochemically preventing organisms, scales, or the like from being deposited on an offshore structure, ship, piping or waterway for water transportation, drain port, water storage tank, heat exchanger, or screen of sea water intake or the like by controlling the amount of microorganism and organic matter in the water, and for electrochemically controlling water by controlling the amount of microorganism and organic matter contained in the water.
SOLUTION: The method and apparatus for electrochemically controlling water comprises at least two or more conductive base materials, a counter electrode, and a power source installed at the counter electrode so as to be energizable. In the method and apparatus, a voltage is applied to at least one or more non-elution type conductive base material by the power source to cause an electrochemical reaction on the surface of the non-elution type conductive base material, and/or a voltage is applied to the one or more elution type conductive base material by the power source to elute the elution type conductive base material, thereby controlling the amount of microorganism and organic matter in the water.
COPYRIGHT: (C)2005,JPO&NCIPI
摘要翻译：要解决的问题：提供一种用于电化学防止生物，鳞片等沉积在用于水运，排水口，储水箱，热交换器的海上结构，船舶，管道或水道上的方法和装置，或者通过控制水中的微生物和有机物质的量，以及通过控制水中含有的微生物和有机物的量来电化学地控制水来进行海水摄取等的筛选。解决方案：用于电化学控制水的方法和装置包括至少两个或更多个导电基材，对电极和安装在对电极上的电源以便被激励。在该方法和装置中，通过电源将至少一种或多种非洗脱型导电性基材施加电压，使非洗脱型导电性基材的表面发生电化学反应，和/或电压通过电源施加到一种或多种洗脱型导电性基材上，洗脱洗脱型导电性基材，从而控制水中的微生物和有机物的量。版权所有（C）2005，JPO＆NCIPI

36. 发明专利

JP2004290039A Method for producing g protein conjugation type receptor protein (gpcr) with magnetic fine particle 审中-公开
公开(公告)号：JP2004290039A
公开(公告)日：2004-10-21
申请号：JP2003084748
申请日：2003-03-26
申请人： Tadashi Matsunaga , 是松永
发明人： MATSUNAGA TADASHI , TAKEYAMA HARUKO , TANAKA TAKESHI , YOSHINO TOMOKO
IPC分类号： G01N33/50 , C07K14/705 , C07K19/00 , C12P21/02 , G01N33/15 , G01N33/543
摘要： PROBLEM TO BE SOLVED: To provide a simple method for preparing GPCR in its conformation-maintaining state.
SOLUTION: GPCR is expressed as a protein fused with a film protein specific to a magnetic fine particle film or its fragment to present the GPCR on the magnetic fine particle film in a natural conformation-maintaining state. This method for producing the G protein conjugation type receptor protein (GPCR) comprises a process for proliferating a magnetic bacterium containing a gene encoding the GPCR in the form capable of expressing the GPCR, a process for isolating the magnetic fine particles from the magnetic bacteria, and then a process for obtaining the GPCR expressed on the magnetic fine particle films. The GPCR-containing magnetic fine particles obtained by the method and a method for detecting or screening a GPCR-bound substance by using the magnetic fine particles are also provided.
COPYRIGHT: (C)2005,JPO&NCIPI

37. 发明专利

JP2007089566A Microorganism separating device 有权
标题翻译：微生物分离装置
公开(公告)号：JP2007089566A
公开(公告)日：2007-04-12
申请号：JP2006195978
申请日：2006-07-18
申请人： Tokyo Univ Of Agriculture & Technology , Toshiba Corp , 国立大学法人東京農工大学 , 株式会社東芝
发明人： MATSUNAGA TADASHI , TAKEYAMA HARUKO , TAGUCHI TOMOYUKI , HARAGUCHI SATOSHI , YOSHINO MASATO , ISHIMORI YOSHIO , KANEKO MASAO , TOYODA HIROKAZU
IPC分类号： C12M1/26
CPC分类号： C12M47/02
摘要： PROBLEM TO BE SOLVED: To provide a microorganism separating device capable of selectively separating a target microorganism from sample water with good accuracy and recovering the microorganism.
SOLUTION: This microorganism separating device is equipped with a microchip 20 for capturing the target microorganism contained in the sample water, a sample water supply means 19 for supplying the sample water to the microchip 20, and a sample water suction means 21 for sucking the sample water from the microchip 20. The microchip 20 has a flat plate substrate 10 on which a flow channel 11 having a fluid supply port 13, a fluid suction port 15, and a fluid discharge port 14 are formed and a capturing part 12 positioned on the fluid suction port 15 of the flat plate substrate 10. The capturing part 12 of the microchips has a plurality of open holes 12a each having a diameter smaller than a minimum diameter of the target microorganism.
COPYRIGHT: (C)2007,JPO&INPIT
摘要翻译：要解决的问题：提供能够以良好的精度选择性地将目标微生物与样品水分离并回收微生物的微生物分离装置。解决方案：该微生物分离装置配备有用于捕获试样水中所含的目标微生物的微芯片20，将样品水供给到微芯片20的试样供水装置19，以及用于从微芯片20吸取样本水。微芯片20具有平板基板10，在其上形成有具有流体供给口13，流体吸入口15和流体排出口14的流路11，并且捕获部12 定位在平板基板10的流体吸入口15上。微芯片的捕获部分12具有多个直径小于目标微生物的最小直径的开孔12a。版权所有（C）2007，JPO＆INPIT

38. 发明专利

JP2003310288A Method for producing ethanol and biological carrier 审中-公开
标题翻译：生产乙醇和生物载体的方法
公开(公告)号：JP2003310288A
公开(公告)日：2003-11-05
申请号：JP2002127690
申请日：2002-04-26
申请人： Electric Power Dev Co Ltd , Tokyo Univ Of Agriculture & Technology , Toshiba Corp , 東京農工大学長 , 株式会社東芝 , 電源開発株式会社
发明人： SUZUKI NOBUKAZU , MATSUNAGA KENTARO , MORIYAMA HIDESHIGE , ONODA HIROKO , OHATA HIROSUKE , MATSUMOTO TERUBUMI , MATSUNAGA TADASHI
IPC分类号： C12P7/06 , C12R1/645
CPC分类号： Y02E50/17
摘要： PROBLEM TO BE SOLVED: To provide a method for efficiently producing ethanol from algae grown in the sea and marine plants and recycling waste ash, and obtain a biological carrier.
SOLUTION: The method for producing ethanol is to separate and take out the algae from the biological carrier in a process 1 for taking out algae or marine plants, take out starch from the taken out algae by heating the algae or the marine plant grown in the sea in a process 2 for taking out starch and send them to a process 3 for producing sugar. The process 3 for producing sugar produces the sugar by adding amylase-producing marine bacteria to the starch and produce ethanol by subsequently adding a salt resistant yeast.
COPYRIGHT: (C)2004,JPO
摘要翻译：要解决的问题：提供一种从海洋和海洋植物生长的藻类中有效生产乙醇的方法，并回收废灰，并获得生物载体。解决方案：用于生产乙醇的方法是在用于取出藻类或海洋植物的方法1中从生物载体中分离和取出藻类，通过加热藻类或海洋植物从取出的藻类中取出淀粉在用于取出淀粉的方法2中在海中生长并将其送到生产糖的方法3中。用于生产糖的方法3通过向淀粉中加入产淀粉酶的海洋细菌产生糖，然后通过加入耐盐酵母产生乙醇。版权所有（C）2004，JPO

39. 发明专利

JP2000321233A ANOMALOUS WATER QUALITY DETECTING DEVICE 失效
公开(公告)号：JP2000321233A
公开(公告)日：2000-11-24
申请号：JP13424099
申请日：1999-05-14
申请人： TOSHIBA CORP
发明人： KANEKO MASAO , HARAGUCHI SATOSHI , MASUKATA TADASHI , UNO HIROTAKA , NAKAI TATSUYA , MATSUNAGA TADASHI , NAKAMURA TOKUYUKI
IPC分类号： C02F1/00 , G01N27/327 , G01N33/18
摘要： PROBLEM TO BE SOLVED: To provide an anomalous water quality detecting device capable of accurately and highly sensitively detecting anomalies in the water quality of inflow water in a short time and stably continuing detection measurement. SOLUTION: This anomalous water quality detecting device 20 is provided with a measuring tank 10 with an inlet 11, an inlet pipe 1 connected to the inlet 11 to introduce a liquid to be measured to the inlet 11, and reagent piping It to introduce an iron (I) containing solution into the inlet pipe 11. A microbial membrane 4 to hold iron bacteria is provided in the measuring pipe 10 approximately in parallel with the direction A of flow of a liquid to be measured to be introduced into the measuring tank 10 from the inlet pipe 1 via the inlet 11. An electrode device 3 is connected to the microbial membrane 4.

40. 发明专利

JPH1137969A ABNORMAL WATER QUALITY DETECTOR 失效
公开(公告)号：JPH1137969A
公开(公告)日：1999-02-12
申请号：JP19876897
申请日：1997-07-24
申请人： TOSHIBA CORP
发明人： KANEKO MASAO , MASUKATA TADASHI , UNO HIROTAKA , HAYASHI TAKUMI , MATSUNAGA TADASHI , NAKAMURA TOKUYUKI
IPC分类号： G01N27/327
摘要： PROBLEM TO BE SOLVED: To provide an abnormal water quality detector for detecting the abnormality water quality of a liquid to be measured accurately and surely. SOLUTION: The abnormal water quality detector includes a detecting electrode section 1 comprising a case 26, and a microorganism membrane 21 holding an iron bacteria provided in the case 26. A detecting channel 27 is arranged contiguously to the microorganism membrane 21. A mixture of a liquid to be measured, a liquid containing ferrous iron and a PH conditioning buffer flows into the detecting channel 27. The mixed liquid passed through the microorganism membrane 21 and flows into the case 26 thus causing a current flow between a detecting electrode 23 and a counter electrode 24 encased therein. When the mixed liquid flows through the microorganism membrane 21, the ferrous salt in the mixed liquid is converted into a ferric iron through ferrous bacteria and the current level is varied between the detecting electrode 23 and the counter electrode 24.

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