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1. 发明专利

JP2010142446A Pulse electric field sterilization apparatus 审中-公开
标题翻译：脉冲电场杀菌装置
公开(公告)号：JP2010142446A
公开(公告)日：2010-07-01
申请号：JP2008323418
申请日：2008-12-19
申请人： Masuda Kenkyusho:Kk , Takenaka Komuten Co Ltd , 株式会社増田研究所 , 株式会社竹中工務店
发明人： HOSOKAWA SHUNSUKE , YAMADA YUKIO , KAWAHITO NAOMI , KAYANO HIDENORI , NAKAKUKI YASUHIDE
IPC分类号： A61L2/02 , A23L3/32 , C02F1/48
摘要： PROBLEM TO BE SOLVED: To provide a pulse electric field sterilization apparatus having a power distribution preventing means between electrode faces for achieving the sterilization effect (sterilization of the electric field) with voltage instead of electric currents, and capable of reducing (preventing) heat generation by the power distribution.
SOLUTION: The pulse electric field sterilization apparatus has a liquid channel with a pair of electrodes facing each other and a pulse power supply connected to the electrodes. When a liquid to be treated passes between the electrodes, the pulse high voltage is applied between the electrodes to kill bacteria in the liquid. By fixing at least one power distribution preventing means made of an insulating material between the polar faces of the electrodes, the space between the electrodes is insulated and distribution of electric currents from the anode to cathode is prevented.
COPYRIGHT: (C)2010,JPO&INPIT
摘要翻译：解决问题：提供一种脉冲电场灭菌装置，其在电极面之间具有用于实现灭菌效果（电场消毒）的电力分配阻止装置，其电压代替电流，并且能够减少（防止）配电发热。解决方案：脉冲电场灭菌装置具有一对电极彼此相对的液体通道和连接到电极的脉冲电源。当要处理的液体通过电极之间时，脉冲高电压施加在电极之间以杀死液体中的细菌。通过在电极的极面之间固定由绝缘材料制成的至少一个配电防止装置，电极之间的空间是绝缘的，并且防止了从阳极到阴极的电流分布。版权所有（C）2010，JPO＆INPIT

2. 发明专利

JP2009142768A Pulse electric field sterilization method and device 审中-公开
标题翻译：脉冲电场灭菌方法和装置
公开(公告)号：JP2009142768A
公开(公告)日：2009-07-02
申请号：JP2007323615
申请日：2007-12-14
申请人： Masuda Kenkyusho:Kk , Takenaka Komuten Co Ltd , 株式会社増田研究所 , 株式会社竹中工務店
发明人： KAWAHITO NAOMI , KAYANO HIDENORI , NAKAKUKI YASUHIDE , HOSOKAWA SHUNSUKE , YAMADA YUKIO
IPC分类号： C02F1/48 , A23L3/32
摘要： PROBLEM TO BE SOLVED: To provide a pulse electric field sterilization method and device which can obtain excellent matching of electric properties of a pulse power supply and an electrode pair to which a pulse voltage is impressed, and optimize the operating state of the pulse power supply.
SOLUTION: The pulse electric field sterilization method of sterilizing a fluid by using the pulse electric field sterilization device having a passage of the fluid to be treated, the electrode pair disposed in the passage so as to face each other, and the pulse power supply for outputting a pulse current to the electrode pair comprises the step of setting the electrode pair so that an electric resistance across the electrode pair at the time when the passage is filled with the fluid having an electric conductivity with a certain reference value becomes larger than the output impedance of the pulse power supply, the step of making the fluid having an electric conductivity with the reference value or more flow through the passage containing the electrode pair, and the step of impressing the pulse voltage to the electrode pair.
COPYRIGHT: (C)2009,JPO&INPIT
摘要翻译：解决的问题：为了提供可以获得脉冲电源和施加脉冲电压的电极对的电特性的优异匹配的脉冲电场灭菌方法和装置，并且优化所述脉冲电源的操作状态脉冲电源。解决方案：通过使用具有待处理流体的通道的脉冲电场灭菌装置对灭菌流体的脉冲电场灭菌方法，设置在通路中的彼此面对的电极对以及脉冲用于向电极对输出脉冲电流的电源包括设置电极对的步骤，使得当通道充满具有一定参考值的导电性的流体时，电极对上的电阻变大与脉冲电源的输出阻抗相比，使具有基准值以上的导电性的流体流过包含电极对的通路的步骤，以及向电极对施加脉冲电压的步骤。版权所有（C）2009，JPO＆INPIT

3. 发明专利

JPH08112592A SEAWATER DESALTING DEVICE 失效
公开(公告)号：JPH08112592A
公开(公告)日：1996-05-07
申请号：JP30233194
申请日：1994-12-06
申请人： TAKENAKA KOMUTEN CO , ORGANO KK
发明人： KAYANO HIDENORI , NAKAKUKI YASUHIDE , KAWAHITO NAOMI , HAYASHI YUJI , KAI HIDEHIRO , TSUNODA MINORU , KOIDE MARI
IPC分类号： B01D61/36 , C02F1/44
摘要： PURPOSE: To efficiently desalt seawater with smaller energy without adversely affecting the environment. CONSTITUTION: Cooling plates 14 of a desalting element 10 are cooled by the low-temp. seawater fed by a seawater piping 22. On the other hand, the seawater stored in a sea water tank 28 is heated by a heat exchanger 36 and is fed by a sea water piping 24 to the high-temp. seawater passage water surfaces of a PV membrane 16. The high-temp. seawater is cooled by the low-temp. seawater and is sent again to the seawater tank 28 by a seawater piping 54. The high-temp. seawater is efficiently circulated by the seawater piping 24 and the seawater piping 54 in such a manner and the temp. difference of the seawater is generated on both surfaces of the PV membrane 16 by the smaller heat energy. The moisture in the seawater permeates the PV membrane 16 under the steam pressure difference generated by such temp. difference and is taken as the plainwater out of a gap 18.

4. 发明专利

JP2011121002A Nano bubble generator 审中-公开
标题翻译： NANO BUBBLE发电机
公开(公告)号：JP2011121002A
公开(公告)日：2011-06-23
申请号：JP2009280699
申请日：2009-12-10
申请人： Takenaka Komuten Co Ltd , 株式会社竹中工務店
发明人： NAKAKUKI YASUHIDE , KAYANO HIDENORI , KAWAHITO NAOMI
IPC分类号： B01F5/06 , B01F3/04 , B01F5/00 , B01F5/04 , C02F1/50 , C02F1/78
摘要： PROBLEM TO BE SOLVED: To provide a nano bubble generator efficiently generating nano bubbles with a simple structure.
SOLUTION: The nano bubble generator includes a bubble generating part 4 consisting of a liquid pressurizing means 6 and a gas injection means 8 and involving the bubbles into the pressurized liquid to form a gas-liquid mixed fluid, a microbubble feed part 10 including a microbubble generator 12 subdividing the bubbles in the gas-liquid mixed fluid into microbubbles, and a nano bubble generation part 26 formed to jet microbubbles as nano bubbles by throttling a part of a path where the gas-liquid mixed fluid containing the microbubbles passes and making the microbubble minute by injecting the microbubbles into a throttle part.
COPYRIGHT: (C)2011,JPO&INPIT
摘要翻译：要解决的问题：提供一种以简单结构有效生成纳米气泡的纳米气泡发生器。解决方案：纳米气泡发生器包括由液体加压装置6和气体注入装置8组成的气泡发生部分4，并将气泡包含在加压液体中以形成气液混合流体，微泡进料部分10 包括将气液混合流体中的气泡细分为微泡的微泡发生器12，以及通过节流包含微泡的气液混合流体通过的路径的一部分通过而形成为喷射微泡作为纳米气泡的纳米气泡生成部26 并通过将微泡注入节流部分来使微泡分钟。版权所有（C）2011，JPO＆INPIT

5. 发明专利

JP2003299759A Fluid tank 审中-公开
标题翻译：流体槽
公开(公告)号：JP2003299759A
公开(公告)日：2003-10-21
申请号：JP2002107831
申请日：2002-04-10
申请人： Takenaka Komuten Co Ltd , 株式会社竹中工務店
发明人： NAKAKUKI YASUHIDE , KAYANO HIDENORI , KAWAHITO NAOMI , HORIO MASAYUKI , NODA REIJI , KIMURA SATOSHI
IPC分类号： A63B69/10 , A63B69/12
摘要： PROBLEM TO BE SOLVED: To provide a fluid tank 12 which achieves kinetic effects equivalent to those by underwater motion without using water. SOLUTION: A large amount of solid particle M is stored in the tank 12. Air is blown out of the bottom part of the tank 12 to fluidize the solid particle M so that the nature of the liquid state like that of water can be produced simulatively. The users in the solid particle M thus fluidized can gain a higher kinetic efficiency to exercise themselves with a limited burden on their bodies without being wetted as in the water. By regulating the amount of the air fed into the tank 12, the physical load imposed on the users in the solid particle M can be controlled to adjust the pressure, buoyance and resisting forces working on the users. COPYRIGHT: (C)2004,JPO
摘要翻译：要解决的问题：提供一种流体箱12，其实现与不使用水的水下运动相当的动力效应。解决方案：大量的固体颗粒M储存在罐12中。空气从罐12的底部吹出，使固体颗粒M流化，使得像水的液体状态的性质可以模拟地生产。这样流化的固体颗粒M中的使用者可以获得较高的动力学效率，以在水中不受潮湿地对其身体施加有限的负担来运动自身。通过调节供给到罐12中的空气的量，可以控制施加在固体颗粒M中的使用者的物理负荷，以调节对使用者施加的压力，浮力和抵抗力。版权所有（C）2004，JPO

6. 发明专利

JPH06134489A FEEDER FOR GOOD-QUALITY POTABLE WATER 失效
公开(公告)号：JPH06134489A
公开(公告)日：1994-05-17
申请号：JP28281592
申请日：1992-10-21
申请人： TAKENAKA KOMUTEN CO
发明人： KAYANO HIDENORI , NAKAKUKI YASUHIDE , KAWAHITO NAOMI
IPC分类号： C02F1/28 , C02F1/44 , C02F1/46 , C02F1/66 , C02F1/68 , C02F1/76 , C02F9/00 , E03C1/02
摘要： PURPOSE:To provide an equipment capable of safely supplying tasty water from the respective taps by using city water as raw water, convergently treating it as exclusive use of drinking water by a simple equipment and providing a pipe laying besides an ordinary pipe train. CONSTITUTION:A title feeder is provided with an intake 10 of potable water, a prefilter 13 connected to the intake 10, a producing device 15 of alkali ionized water which is connected to the secondary side of the prefilter 13, an activated carbon adsorption tank 17 connected to the secondary side of the producing device 15, a hollow yarn membrane filter 19 connected to the secondary side of the adsorption tank 17 and an injection device of chlorine provided between the secondary side of the adsorption tank 17 and the primary side of the hollow yarn membrane filter 19. Furthermore the title feeder is equipped with a treated water tank 29 connected to the secondary side of the filter 19, a water supply path 33 connected to the treated water tank 29, a plurality of water supply terminals 37 connected to the water supply path 33 and water purifiers 39 provided in the respective water supply terminals 37.

7. 发明专利

JPH0487677A TREATMENT OF SOLID-LIQUID SEPARATED AND CRUSHED GARBAGE WASTE 失效
公开(公告)号：JPH0487677A
公开(公告)日：1992-03-19
申请号：JP20183190
申请日：1990-07-30
申请人： TAKENAKA KOMUTEN CO
发明人： OSAWA TAKEHIKO , YABE SEIICHI , KAWAHITO NAOMI
IPC分类号： A61L2/16 , A61L11/00 , B09B3/00 , B09B5/00 , C02F11/00
摘要： PURPOSE:To prevent leaching of garbage juice and to prevent generation of offensive odor and mold in a long period by performing solid-liquid separation for waste water contg. crushed garbage and mixing both an antifungus agent and water absorptive polymer substance with the separated solid material. CONSTITUTION:A valve 22 is opened by synchronizing with discharge of solid material B. A water absorbent 21 contg. an antifungus agent is atomized through a chemical supply pipe 18 and mixed by a kneader 25. In this case, the antifungus agent is uniformly mixed by pore water present between the respective solid materials B and on the other hand, the water absorbent surely absorbs this pore water. Herein the prescribed amount of the water absorbent 21 contg. the antifungus agent is cut out by opening the valve 22 and stored between the valves 22, 23. After the valve 22 is closed, the valve 23 is opened and simultaneously air is supplied from a compressor 24. The water absorbent 21 contg. the antifungus agent is atomized by this air through the chemical supply pipe 18 as above-mentioned. On the other hand, the separated liquid C flows through the inside of an outer drum 4 and is discharged from a discharge port 7 via an overflow weir 5A.

8. 发明专利

JP2010095639A Fuel gas mixer, and mixed gas combustion type power generating facility 审中-公开
标题翻译：燃油混合器和混合气体燃烧式发电设备
公开(公告)号：JP2010095639A
公开(公告)日：2010-04-30
申请号：JP2008268197
申请日：2008-10-17
申请人： Takenaka Komuten Co Ltd , 株式会社竹中工務店
发明人： NAKAKUKI YASUHIDE , KAYANO HIDENORI , KAWAHITO NAOMI
IPC分类号： C10L3/10 , F02D19/08
摘要： PROBLEM TO BE SOLVED: To mix a low-calorie gas with a high-calorie gas by using a facility having simple constitution.
SOLUTION: This fuel gas mixer for mixing a low-calorie gas such as bio-gas with a high-calorie gas such as city gas, etc., includes a low-calorie gas-supplying line 4 arranging a gas holder 12 for storing the low-calorie gas, a gas booster 44, and a gas flow rate-adjusting means 50 for adjusting the flow rate of the gas from an entrance one by one, a high-calorie gas-supplying line 62 and a mixing means 68 for receiving the gases supplied from both supplying lines and sending off as mixed gas. The above gas holder has a storage part 14 expanding and contracting by almost having a constant pressure under an atmospheric pressure within a fixed volume range, and an expanding amount-meter 34 expressing the inner volume of the storage part as a transferring amount of the portion of the storage part in expanding direction, and is constituted so that in the case that the expanding amount is at or more than a fixed amount, the gas booster is actuated and in the case that it is less than the fixed amount, the gas booster is stopped.
COPYRIGHT: (C)2010,JPO&INPIT
摘要翻译：要解决的问题：通过使用具有简单结构的设备来混合低热量气体与高热量气体。解决方案：用于将诸如生物气体的低热量气体与诸如城市燃气等的高热量气体混合的该燃气混合器包括设置气体保持器12的低热量供气管线4 用于存储低热量气体的气体增压器44和气体流量调节装置50，用于一个接一个地调节来自入口的气体的流量，高热量气体供应管线62和混合装置 68，用于接收从两条供应管线供应的气体并作为混合气体送出。上述气体保持器具有在大气压下在一定体积范围内几乎具有恒定压力的收纳部14，以及表示储存部的内部容积的膨胀量计34作为该部分的转移量并且构成为，在膨胀量在固定量以上的情况下，气体助力器被致动，并且在小于固定量的情况下，气体助力器被停止版权所有（C）2010，JPO＆INPIT

9. 发明专利

JP2004267890A Method for removing residue from reactor vessel and apparatus for the same 有权
公开(公告)号：JP2004267890A
公开(公告)日：2004-09-30
申请号：JP2003061104
申请日：2003-03-07
申请人： Takenaka Komuten Co Ltd , 株式会社竹中工務店
发明人： KAYANO HIDENORI , OGAWA TAKATOSHI , NAKAKUKI YASUHIDE , KAWAHITO NAOMI
IPC分类号： B02C19/18 , B01J3/00 , B01J3/04 , B01J19/10 , B02C23/00
CPC分类号： Y02P20/544
摘要： PROBLEM TO BE SOLVED: To facilitate the maintenance of a reactor vessel. SOLUTION: An inorganic residue sticking to the inner surface of the reactor vessel as a result of the decomposition of an organic substance with supercritical water is separated by shock wave action generated by giving ultrasonic vibration to the reaction vessel from the outside. An apparatus for the above process comprises the reactor vessel for executing the decomposition of the organic substance with the supercritical water, an adherend detecting means arranged on the outside of the reactor vessel and detecting the inorganic residue sticking to the inner surface of the vessel, and an ultrasonic vibration separating means arranged on the outside of the reactor vessel and separating the inorganic residue sticking to the inner surface of the vessel by the shock wave action. COPYRIGHT: (C)2004,JPO&NCIPI

10. 发明专利

JP2004263007A Method and apparatus for gasifying organic matter with high-temperature high-pressure water 有权
公开(公告)号：JP2004263007A
公开(公告)日：2004-09-24
申请号：JP2003052816
申请日：2003-02-28
申请人： Takenaka Komuten Co Ltd , 株式会社竹中工務店
发明人： KAYANO HIDENORI , OGAWA TAKATOSHI , NAKAKUKI YASUHIDE , KAWAHITO NAOMI
IPC分类号： B09B3/00 , B01J3/00 , C02F11/10 , C10J3/00
CPC分类号： Y02E50/30 , Y02P20/584
摘要： PROBLEM TO BE SOLVED: To inhibit a decrease in the efficiency of gasification of organic matter with high-temperature high-pressure water by regenerating the catalyst used. SOLUTION: The method comprises the organic matter gasification step including mixing an organic matter slurry containing a metallic catalyst with high-temperature high-pressure water in a reactor to gasify the organic matter, subjecting the treated product to solid/liquid separation, and storing the gas; the first metallic catalyst washing step including stopping the gasification step and passing high-temperature high pressure water having a temperature higher than that of the former high-temperature high-pressure water through the solid/liquid separator to decompose and remove the organic residues; the second metallic catalyst washing step including passing subcritical water or high-temperature high-pressure water having a temperature lower than that of the subcritical water through the separator after the first washing step to dissolve and remove inorganic residues; the metallic catalyst reduction step including discharging the liquid from the separator after the second washing step, and reducing the surface of the metallic catalyst in the separator with the stored gas to regenerate the catalyst; and the metallic catalyst return step including returning the regenerated catalyst to the organic matter gasification step after the metallic catalyst reduction step. COPYRIGHT: (C)2004,JPO&NCIPI

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