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    • 1. 发明申请
    • Exhaust gas cleaner
    • 废气清洁剂
    • US20060249024A1
    • 2006-11-09
    • US10558562
    • 2004-06-02
    • Masatoshi ShimodaKoichi MachidaTakatoshi Furukawa
    • Masatoshi ShimodaKoichi MachidaTakatoshi Furukawa
    • B03C3/68
    • F01N3/0892B03C3/49B03C2201/30F01N3/01Y02T10/20Y10S323/903
    • Provided are a hollow inner electrode 5 constituted by an electrically conductive filter capable of capturing particulates, a cylindrical outer electrode 6 circumferentially surrounding the electrode 5, a housing 4 incorporated in a flow passage of exhaust G and accommodating the electrodes 5 and 6, a temperature sensor 2 for detecting temperature of the exhaust G and an electric discharge controller 3 for controlling electric power to be distributed to the electrodes 5 and 6 on the basis of a detected value of the temperature sensor 2. When the temperature of the exhaust G obtained by the temperature sensor 2 is lowered, electric power necessary for generation of discharge plasma is distributed by the discharge controller 3 to the electrodes 5 and 6, thereby oxidizing the particulates captured by the electrode 5 to reduce electricity consumption.
    • 提供一种中空的内部电极5,其由能够捕获微粒的导电过滤器,围绕电极5的圆柱形外部电极6,结合在排气G的流动通道中并容纳电极5和6的壳体4,温度 用于检测排气G的温度的传感器2和用于基于温度传感器2的检测值来控制分配给电极5和6的电力的放电控制器3。 当由温度传感器2获得的排气G的温度降低时,通过排放控制器3将放电等离子体产生所需的电力分配给电极5和6,从而氧化由电极5捕获的微粒以减少电 消费。
    • 2. 发明授权
    • Exhaust emission control device
    • 废气排放控制装置
    • US07364606B2
    • 2008-04-29
    • US10558562
    • 2004-06-02
    • Masatoshi ShimodaKoichi MachidaTakatoshi Furukawa
    • Masatoshi ShimodaKoichi MachidaTakatoshi Furukawa
    • B03C3/68
    • F01N3/0892B03C3/49B03C2201/30F01N3/01Y02T10/20Y10S323/903
    • Provided are a hollow inner electrode constituted by an electrically conductive filter capable of capturing particulates, a cylindrical outer electrode circumferentially surrounding the electrode, a housing incorporated in a flow passage of exhaust and accommodating the electrodes and, a temperature sensor for detecting temperature of the exhaust and an electric discharge controller for controlling electric power to be distributed to the electrodes and on the basis of a detected value of the temperature sensor. When the temperature of the exhaust obtained by the temperature sensor is lowered, electric power necessary for generation of discharge plasma is distributed by the discharge controller to the electrodes and, thereby oxidizing the particulates captured by the electrode to reduce electricity consumption.
    • 提供一种中空的内部电极,其由能够捕获微粒的导电过滤器,周向环绕电极的圆柱形外部电极,并入排气的流动通道并容纳电极的壳体,以及用于检测排气温度的温度传感器 以及放电控制器,用于根据温度传感器的检测值控制分配给电极的电力。 当由温度传感器获得的排气温度降低时,通过放电控制器将放电等离子体产生所需的电力分配给电极,从而氧化由电极捕获的微粒以减少电力消耗。
    • 3. 发明授权
    • Exhaust emission control device
    • 废气排放控制装置
    • US07331170B2
    • 2008-02-19
    • US10557850
    • 2004-05-21
    • Masatoshi Shimoda
    • Masatoshi Shimoda
    • F01N3/00
    • F01N3/033F01N3/035F01N3/0892F01N3/103F01N3/2882F01N13/009F01N2240/28F01N2430/085F01N2560/06F01N2570/04F01N2900/1404F02D41/0245F02D41/029Y02T10/26
    • Provided is an exhaust emission control device which can properly burn off soot and soluble organic fraction attached to and accumulated on electrodes of a plasma generator. The exhaust emission control device with a post-processing device (catalyst regenerative particulate filter) for allowing exhaust gas to pass therethrough for gas purification incorporated in an exhaust pipe of an internal combustion engine (diesel engine) comprises a plasma generator arranged upstream of the post-processing device for discharging electricity in the exhaust gas to generate plasma, flow-through type oxidation catalyst arranged upstream of the plasma generator, fuel adding means (controller) arranged upstream of the oxidation catalyst for adding fuel into the exhaust gas, temperature increasing means (suction throttling valve or controller) for increasing the exhaust temperature to a level enough for oxidation reaction on the oxidation catalyst of the fuel added by said fuel adding means.
    • 本发明提供一种废气排放控制装置,其能够适当地燃烧附着在等离子体发生器的电极上并累积在其上的可溶性有机部分。 具有用于允许废气通过其中用于内燃机(柴油发动机)的排气管中的气体净化的后处理装置(催化剂再生微粒过滤器)的废气排放控制装置包括布置在柱的上游的等离子体发生器 用于在废气中排放电力以产生等离子体的处理装置,布置在等离子体发生器上游的流通式氧化催化剂,布置在氧化催化剂上游的用于将燃料添加到排气中的燃料添加装置(控制器),升温装置 (吸入节流阀或控制器),用于将排气温度升高到由所述燃料添加装置添加的燃料的氧化催化剂上的氧化反应的水平。
    • 7. 发明申请
    • Exhaust Emission Control Device
    • 废气排放控制装置
    • US20080034732A1
    • 2008-02-14
    • US11569688
    • 2005-06-16
    • Mitsuru HosoyaMasatoshi Shimoda
    • Mitsuru HosoyaMasatoshi Shimoda
    • F01N9/00
    • F02D41/146B01D53/9431F01N3/2066F01N11/007F01N2550/05F01N2560/026F01N2610/02F02D41/0275F02D41/221Y02T10/24Y02T10/40Y02T10/47
    • Increase of NOx emission is minimized even under a condition that NOx depuration system has malfunction.An exhaust emission control device is disclosed which has selective reduction catalyst 10 incorporated in an exhaust pipe 9, urea water 17 (reducing agent) being added to exhaust gas upstream of the selective reduction catalyst 10 by urea water adding means 18 (reducing agent adding means) so as to depurate NOx through reduction. The exhaust emission control device has NOx sensors 24 and 25 respectively arranged on entry and exit sides of the selective reduction catalyst 10 for detecting NOx concentrations, and an NOx deputation control device 23 (control device) which judges abnormality, on the basis of detection signals 24a and 25a from the NOx sensors 24 and 25, by non-attainment of a predetermined Nox reduction ratio and, when such abnormality is judged, restriction of an amount of fuel to be injected is commanded.
    • 即使在NO x x净化系统发生故障的情况下,NO x x发射的增加也最小化。 公开了一种废气排放控制装置,其具有结合在排气管9中的选择性还原催化剂10,尿素水17(还原剂)通过尿素水添加装置18(还原剂添加装置)添加到选择还原催化剂10上游的废气中 ),以便通过还原来除去NO x。 废气排放控制装置具有分别布置在用于检测NO x浓度的选择还原催化剂10的入口侧和出口侧的NO x传感器24和25,以及NOx排斥控制 根据来自NO传感器24和25的检测信号24a和25a,通过未达到预定的No x 减少率,当判断为这种异常时,指示要注入的燃料量的限制。
    • 10. 发明申请
    • Exhaust Gas Recirculation Device for Engine
    • 发动机废气再循环装置
    • US20090126706A1
    • 2009-05-21
    • US12064186
    • 2006-08-09
    • Masatoshi Shimoda
    • Masatoshi Shimoda
    • F02M25/07
    • F01L9/02F01L1/146F01L1/181F01L1/20F01L1/26F01L2800/10F02B29/0406F02D13/0246F02D13/0257F02D13/0273F02D21/08F02M26/01F02M26/05F02M26/28F02M26/33F02M2026/004Y02T10/18
    • There is provided an exhaust gas recirculation device for an engine, which is capable of reducing the emission of NOx and preventing engine overheat when an engine is operated at low to normal high loads. An intake passage (15) for supplying air to a cylinder of an engine (12) is connected to an intake port (14) of the engine, and an exhaust passage (17) for discharging exhaust gas in the cylinder into the atmosphere is connected to an exhaust port (16) of the cylinder. An external EGR device (21) has an EGR passage (21a) one end of which is connected to the exhaust passage and the other end of which is connected to the intake passage and an EGR valve (21b) capable of opening and closing the EGR passage, and an internal EGR device introduces exhaust gas into the cylinder through the exhaust passage by opening an exhaust valve for opening and closing the exhaust port at the time of intake stroke of the cylinder. An EGR cooler (21c) for cooling exhaust gas by using cooling water of the engine is provided in the EGR passage. A controller controls the external EGR device based on the detection output of a temperature sensor (45).
    • 提供了一种用于发动机的废气再循环装置,其能够在发动机以低至正常高负载运行时能够减少NOx的排放并防止发动机过热。 将用于向发动机(12)的气缸供给空气的进气通道(15)连接到发动机的进气口(14),并且将用于将气缸中的废气排放到大气中的排气通道(17)被连接 到气缸的排气口(16)。 外部EGR装置(21)具有EGR通路(21a),其一端与排气通路连接,另一端与进气通路连接,EGR阀(21b)能够打开和关闭EGR 并且内部EGR装置通过在气缸的进气冲程时打开用于打开和关闭排气口的排气门,通过排气通道将废气引入气缸。 用于通过使用发动机的冷却水来冷却废气的EGR冷却器(21c)设置在EGR通路中。 控制器基于温度传感器(45)的检测输出来控制外部EGR器件。