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    • 81. 发明专利
    • Removal effect measurement system
    • 拆卸效果测量系统
    • JP2012103119A
    • 2012-05-31
    • JP2010252129
    • 2010-11-10
    • Japan Environment Research Co Ltd株式会社日本環境調査研究所
    • MURAYAMA SATOSHIMOGI MICHINORIIGAWA TAKAYUKI
    • G01N15/08B01D53/68G01M3/00G01M3/20G21F9/02
    • PROBLEM TO BE SOLVED: To provide a removal effect measurement system that can measure removal effects of radioactive iodine in an iodine gas removal air filter by using test methyl iodide gas and that can verify the removal effects of the radioactive iodine in the filter with high reliability and credibility.SOLUTION: A removal effect measurement system 10A is formed by a test methyl iodide gas supply device 12 for supplying a predetermined supply amount of test methyl iodide gas 22 from an upstream side of an iodine gas removal air filter 11 and, during a period until a predetermined time passes immediately after the test methyl iodide gas 22 has been supplied, a photoacoustic gas monitor 14 for measuring concentration of the test methyl iodide gas 22 contained in air flowing in a downstream side of the iodine gas removal air filter 11.
    • 要解决的问题:提供一种去除效果测量系统,其可以通过使用测试甲基碘气体来测量碘气除去空气过滤器中的放射性碘的去除效果,并且可以验证放射性碘在过滤器中的去除效果 具有高可靠性和可信度。 解决方案:除去效果测量系统10A由测试甲基碘气体供应装置12形成,用于从碘气除去空气过滤器11的上游侧提供预定供应量的测试甲基碘气体22,并且在 在测试甲基碘气体22被供给之后直到预定时间过去的时间段,用于测量在碘气体去除空气过滤器11的下游侧流动的空气中所含的测试甲基碘气体22的浓度的光声气体监测器14。 版权所有(C)2012,JPO&INPIT
    • 86. 发明专利
    • Aqueous solution dispersed with highly-concentrated ferric hydroxide colloidal particle and method for producing the same
    • 分散在高浓度法氢氧化物胶体颗粒中的水溶液及其生产方法
    • JP2012021784A
    • 2012-02-02
    • JP2010157489
    • 2010-07-12
    • Sepa Sigma Inc株式会社セパシグマ
    • ISHIMARU KIYOKIMANABE SEIICHI
    • G01N15/08
    • PROBLEM TO BE SOLVED: To provide a novel method for a performance test determining fine particle removal performance of a membrane and for a non-destructive integrity test confirming that the membrane after use is within a preset range in terms of the fine particle removal performance, a test reagent applied to the tests, and a method for producing the reagent.SOLUTION: Particle removal performance is measured by using an aqueous solution in which an average particle diameter of ferric hydroxide colloidal particles is 9 to 30 nm and a pH for stabilizing the colloidal particles is 1.5 to 3.5, as a test solution. The stability of the colloidal particles is increased by incorporating a plurality of water-soluble components for stabilizing the colloidal particles when the test solution is brought into contact with other substances. The particle removal performance of a membrane is evaluated using an aqueous solution produced by controlling the particle diameter of the ferric hydroxide colloidal particles by a ratio of a trivalent ferric ion to a hydroxide ion and a volume ratio when mixed.
    • 要解决的问题:提供一种用于确定膜的微粒去除性能和非破坏性完整性测试的性能测试的新方法,证实使用后的膜在细颗粒方面处于预设范围内 去除性能,应用于试验的试验试剂和制备试剂的方法。 解决方案:通过使用氢氧化钙胶体粒子的平均粒径为9〜30nm,稳定胶体粒子的pH为1.5〜3.5的水溶液作为试验溶液,测定除去粒子的性能。 当测试溶液与其它物质接触时,通过并入多个用于稳定胶体颗粒的水溶性组分,可增加胶体颗粒的稳定性。 使用通过以三价铁离子与氢氧根离子的比例控制氢氧化锰胶体粒子的粒径和混合时的体积比来制备的水溶液来评价膜的除尘性能。 版权所有(C)2012,JPO&INPIT
    • 87. 发明专利
    • Failure detecting device for pm sensor
    • PM传感器故障检测装置
    • JP2012013058A
    • 2012-01-19
    • JP2010153181
    • 2010-07-05
    • Toyota Motor Corpトヨタ自動車株式会社
    • SAWADA YUTAKASHIBATA DAISUKETAKAOKA KAZUYA
    • F01N3/023F01N3/18F01N3/20F02D45/00G01N15/08
    • PROBLEM TO BE SOLVED: To provide a technique for detecting a failure of a PM sensor provided in an exhaust passage of an internal combustion engine.SOLUTION: An outflow PM quantity that is a PM quantity in an exhaust flowing out from a filter is detected by the PM sensor provided on a downstream side from the filter in the exhaust passage of the internal combustion engine. During the suspension of forced regeneration processing, the PM collection rate of the filter is continuously calculated based on an inflow PM quantity that is a PM quantity in an exhaust flowing in the filter and the outflow PM quantity detected by the PM sensor. It is determined that the failure occurs in the PM sensor when the calculated PM collection rate sticks to 100%.
    • 要解决的问题:提供一种用于检测设置在内燃机的排气通道中的PM传感器的故障的技术。 解决方案:通过设置在内燃机的排气通道中的过滤器的下游侧的PM传感器来检测作为从过滤器流出的废气中的PM量的流出PM量。 在强制再生处理的停止期间,基于作为在过滤器中流动的排气中的PM量的流入PM量和由PM传感器检测到的流出PM量,连续计算过滤器的PM收集率。 当PM收集率达到100%时,确定PM传感器发生故障。 版权所有(C)2012,JPO&INPIT
    • 88. 发明专利
    • Pore ​​size distribution measurement method
    • JP4845004B2
    • 2011-12-28
    • JP2005206095
    • 2005-07-14
    • 財団法人電力中央研究所
    • 英輝 神田
    • G01B13/10B01D12/00G01N15/08
    • PROBLEM TO BE SOLVED: To provide a measuring method capable of measuring accurate distribution of each pore diameter of pores in a porous body, and to provide a device that uses the method. SOLUTION: This method has an adsorption potential formation process S1 for determining the adsorption potential of the first liquid relative to a sample porous body, having only pores having each size of known pore diameters, a sample equilibrium concentration ratio relation formating process S2 for determining the relation between each pore diameter of the sample porous body and the sample equilibrium concentration ratio, an equilibrium concentration ratio calculating process S3 for calculating the equilibrium concentration ratio for each known concentration, a remaining quantity calculation process S4 for calculating the remaining quantity of the first liquid remaining in the pores in the porous body relative to each concentration in the equilibrium state, and a pore evaluation process S5 for evaluating each pore diameter of the pores in the porous body and its distribution. COPYRIGHT: (C)2007,JPO&INPIT
    • 90. 发明专利
    • Particulate generation device and particulate generation method
    • 粒子生成装置和粒子生成方法
    • JP2011196909A
    • 2011-10-06
    • JP2010065901
    • 2010-03-23
    • Ngk Insulators Ltd日本碍子株式会社
    • ISHIKAWA HIROAKIYANO HIROYUKIKAWAHARA TAKEYOSHIHIJIKATA TOSHIHIKO
    • G01N1/00F01N3/00G01N15/08
    • PROBLEM TO BE SOLVED: To provide a particulate generation device capable of generating particulate having a high combustion temperature.SOLUTION: This particulate generation device 100 includes: a combustion chamber 3 having an air inlet 1 for supplying combustion air F1, and a gas outlet 2 for discharging particulate-containing gas F2 containing generated particulate, wherein gas fuel is burned therein to generate particulate; a main burner 4 inserted into the combustion chamber 3, for supplying the gas fuel continuously into the combustion chamber 3; and a pilot burner 6 mounted on the combustion chamber 3, for igniting the gas fuel supplied into the combustion chamber 3. A position where the main burner is arranged is in the range from a position at 100 mm from the position where the pilot burner is arranged toward the downstream side to a position at 200 mm from the position where the pilot burner is arranged toward the upstream side.
    • 要解决的问题:提供能够产生具有高燃烧温度的颗粒的颗粒产生装置。解决方案:该颗粒产生装置100包括:燃烧室3,具有用于供给燃烧空气F1的空气入口1和气体出口2 用于排出含有产生的颗粒的含有颗粒的气体F2,其中气体燃料在其中燃烧以产生颗粒; 主燃烧器4插入到燃烧室3中,用于将燃气连续地供应到燃烧室3中; 以及安装在燃烧室3上的用于点燃供应到燃烧室3中的气体燃料的引燃燃烧器6.主燃烧器配置的位置在距引燃燃烧器位置100mm的位置的范围内 沿着下游侧设置在距引导燃烧器配置向上游侧的位置为200mm的位置。