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    • 3. 发明专利
    • Photocatalytic reaction apparatus and functional electrode
    • 光电反应装置和功能电极
    • JP2005040655A
    • 2005-02-17
    • JP2003200019
    • 2003-07-22
    • Toshiba Corp株式会社東芝
    • SEGAWA NOBORUUCHIDA YUTAKAARAKI KUNIYUKI
    • A61L9/00A61L9/015A61L9/18B01D53/86B01J19/08B01J19/12B01J35/02
    • Y02A50/2347
    • PROBLEM TO BE SOLVED: To provide a downsized photocatalytic reaction apparatus which can purify a gas inexpensively without shortening the life of electrodes by maintaining the strength and reliability of the electrodes. SOLUTION: The photocatalytic reaction apparatus 10 has a three-dimensional discharge electrode 15 which is installed in a channel for the gas Y and through which the gas Y can pass, a photocatalyst module 16 which is installed downstream from the discharge electrode 15 and in which a photocatalyst is supported on a three-dimensional substrate allowing the passage of the gas Y, a three-dimensional ozone decomposition electrode 17 which is installed downstream from the module 16, through which the gas Y can pass, and in which an ozone decomposition catalyst is set, and a power source 13 which applies voltage between the ozone decomposition electrode 17 and the discharge electrode 15 for discharging. The photocatalyst is activated by being irradiated with discharge light generated by the discharge, and ozone produced by the discharge is decomposed by the ozone decomposition catalyst of the ozone decomposition electrode 17. COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种小型光催化反应装置,其可以通过保持电极的强度和可靠性而廉价地纯化气体而不缩短电极的寿命。 解决方案:光催化反应装置10具有三维放电电极15,该三维放电电极15安装在气体Y的通道中,气体Y可以通过该放电电极15,安装在放电电极15的下游的光催化剂组件16 并且其中光催化剂被支撑在允许气体Y通过的三维基板上,安装在模块16下游的三维臭氧分解电极17,气体Y可以通过该三维臭氧分解电极17,其中 设置臭氧分解催化剂,以及在臭氧分解电极17和放电电极15之间施加电压进行放电的电源13。 通过用放电产生的放电光照射光催化剂,并且由臭氧分解电极17的臭氧分解催化剂分解由放电产生的臭氧。(C)2005,JPO&NCIPI
    • 5. 发明专利
    • Deodorizing apparatus by photocatalyst and deodorizing method by photocatalyst
    • 通过光催化降解装置并通过光催化降解方法
    • JP2003310731A
    • 2003-11-05
    • JP2002120700
    • 2002-04-23
    • Toshiba Corp株式会社東芝
    • ARAKI KUNIYUKIONO TAKAFUMISEGAWA NOBORUSHIMURA NAOHIKO
    • B60H3/00A61L9/00A61L9/015A61L9/20B01D53/86F24F7/06
    • PROBLEM TO BE SOLVED: To provide an apparatus for deodorizing by a photocatalyst and a method for deodorizing by the photocatalyst, with which a greater deodorizing effect is obtained against a malodor generated from inside a duct, in the deodorizing apparatus which utilizes sterilizing and deodorizing functions of ozone generated by a deodorizing means through a photocatalytic system, and utilizes the gas flow guiding duct like generating the malodor caused by bacteria such as mold. SOLUTION: The photocatalytic deodorizing apparatus which is made to remove a noxious material, is provided with a duct 21 constituting an inflow passage for incorporating and circulating a gas including the malodor, an ozone processing filter 27 which is provided at a rear section in the duct 21 and processes the ozone generated in the duct 21, and a high-voltage power supplier section 30 for applying a high voltage to a catalyst reaction device 25. The photocatalytic deodorizing apparatus 20 structured as described above is installed in a gas introduction duct 39 for circulating an air inside or outside of a car, or in an indoor air circulation duct 51. COPYRIGHT: (C)2004,JPO
    • 要解决的问题:提供一种光催化剂除臭装置和通过光催化剂进行除臭的方法,其在由管道内部产生的恶臭获得更大的除臭效果的同时,在除臭装置中利用灭菌 以及通过光催化体系除臭装置产生的臭氧的除臭功能,并且利用气体导流管产生由细菌如霉菌引起的恶臭。 解决方案:用于除去有害材料的光催化除臭装置设置有构成流入通道的管道21,该流入通道用于将包含恶臭的气体并入并循环,臭氧处理过滤器27设置在后部 在管道21中处理在管道21中产生的臭氧,以及向催化剂反应装置25施加高电压的高压电力供应部30.将如上所述构成的光催化除臭装置20安装在气体导入 导管39,用于使汽车内部或外部的空气或室内空气循环管道51循环。版权所有(C)2004,JPO
    • 8. 发明专利
    • Photocatalyst reactor usable at high temperature
    • 光催化反应器可在高温下使用
    • JP2007075758A
    • 2007-03-29
    • JP2005268399
    • 2005-09-15
    • Toshiba Corp株式会社東芝
    • IMAMURA TAKESHIYASUI SUKEYUKIHAYASHI KAZUONODA ETSUOSEGAWA NOBORUSHIMURA NAOHIKOMAKISHIMA KENJI
    • B01J35/02B01D53/86B01J19/08B01J19/12C02F1/30C02F1/32C02F1/72
    • PROBLEM TO BE SOLVED: To provide a photocatalyst reactor usable at a high temperature which can sufficiently decompose a substance to be decomposed contained in a fluid, even if the temperature of the fluid is 100°C or above, by the action of a photocatalyst to clean and deodorize the substance, wherein the photocatalyst is activated by making discharge light irradiate the photocatalyst. SOLUTION: The photocatalyst reactor usable at a high temperature is arranged in a passage 12 of a fluid X of 100°C or above and consists of a photocatalyst module 17, the ceramic substrate of which carries photocatalyst, positive and negative metal electrodes 18a, 18b and a power source part 15. A voltage is applied across the metal electrodes 18a and 18b of positive and negative electrode by the power source part 15 to make the discharge light generate and this discharge light is made to irradiate to the photocatalyst module 17 to activate the photocatalyst. The substance to be decomposed contained in the fluid X in or near the photocatalyst module 17 is decomposed by the action of the above photocatalyst. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:为了提供可在高温下使用的光催化剂反应器,即使流体的温度为100℃以上,即使流体的温度为100℃以上,也能够充分分解含有的流体中的分解物质 用于清洁和除臭物质的光催化剂,其中通过使放电光照射光催化剂来活化光催化剂。 解决方案:可在高温下使用的光催化反应器布置在100℃或更高的流体X的通道12中,由光催化剂组件17组成,其中陶瓷基板载有光催化剂,正极和负极金属电极 18a,18b和电源部15.通过电源部15在正极和负极的金属电极18a,18b两端施加电压,使放电光产生,使该放电光照射到光催化剂模块 17激活光催化剂。 通过上述光催化剂的作用,包含在光催化剂组件17中或其附近的流体X中的待分解物质被分解。 版权所有(C)2007,JPO&INPIT
    • 9. 发明专利
    • Disinfection system
    • 消毒系统
    • JP2006122521A
    • 2006-05-18
    • JP2004317262
    • 2004-10-29
    • Toshiba Corp株式会社東芝
    • SHIMURA NAOHIKOSEGAWA NOBORUARAKI KUNIYUKI
    • A61L9/015B01D53/86
    • PROBLEM TO BE SOLVED: To provide a disinfection system applicable to disinfection in the closed space of gas to be purified, low in manufacturing cost and having high disinfecting performance. SOLUTION: This disinfection system 10 is provided with a discharge body 4 with a ceramics structure 3 having gas flow property disposed between an electrode 1 and an electrode 2 connected to a power source 5. Voltage is applied to a clearance between the electrode 1 and the electrode 2 by the power source 5, and the electric field is distorted by the ceramics structure 3 to generate plasma. Suspended bacteria contained in the gas X flowing through the ceramics structure 3 are thereby eliminated. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供适用于要净化的气体的封闭空间中的消毒的消毒系统,制造成本低并且具有高消毒性能。 解决方案:该消毒系统10设置有排气体4,其具有设置在电极1和连接到电源5的电极2之间的具有气体流动性的陶瓷结构3。电压施加到电极 1和电极2通过电源5,并且电场由陶瓷结构3变形以产生等离子体。 因此,排除了流过陶瓷结构体3的气体X所含有的悬浮细菌。 版权所有(C)2006,JPO&NCIPI
    • 10. 发明专利
    • Apparatus and method for gas purification
    • 用于气体净化的装置和方法
    • JP2006110525A
    • 2006-04-27
    • JP2004303357
    • 2004-10-18
    • Toshiba Corp株式会社東芝
    • SHIMURA NAOHIKOSEGAWA NOBORUARAKI KUNIYUKI
    • B01D53/86A61L9/00A61L9/20B01J35/02
    • PROBLEM TO BE SOLVED: To provide an apparatus for gas purification, which can purify a target gas by a photocatalyst reaction for deodorization and sterilization with a low level of radiation noise, a high level of purification performance in a compact size, and to provide a method for gas purification. SOLUTION: This apparatus 10 for gas purification includes a photocatalyst module 3 comprising a photocatalyst supported on a base substance having a three-dimensional structure, through which a target gas can be passed, and a negative electrode 1 and a positive electrode 2, which are disposed around the photocatalyst module 3 and emit ultraviolet light for excitation of the photocatalyst. A grounding electrode 4 is provided on the side of positive electrode 2 as a working electrode remote from the negative electrode 1. The distance between the positive electrode 2 and the grounding electrode 4 is larger than the distance between the negative electrode 1 and the positive electrode 2. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种用于气体净化的装置,其可以通过光催化反应净化目标气体,用于具有低水平的辐射噪声的除臭和灭菌,紧凑尺寸的高水平的净化性能,以及 提供一种气体净化方法。 解决方案:用于气体净化的装置10包括光催化剂组件3,该光催化剂组件3包括负载在目标气体可以通过的具有三维结构的基础物质上的光催化剂,负极1和正极2 ,其设置在光催化剂组件3的周围,并且发射用于激发光催化剂的紫外线。 接地电极4设置在正极2侧,作为远离负极1的工作电极。正极2和接地电极4之间的距离大于负极1和正极之间的距离 (C)2006年,JPO&NCIPI