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    • 1. 发明授权
    • Gas turbine
    • 燃气轮机
    • US09085994B2
    • 2015-07-21
    • US13496604
    • 2010-11-11
    • Katsuhisa KojimaYasutoshi UedaTakashi SonodaMasao Terazaki
    • Katsuhisa KojimaYasutoshi UedaTakashi SonodaMasao Terazaki
    • F01D25/12F02C7/18
    • F01D25/12F02C7/18F05D2260/606F05D2260/607
    • This gas turbine includes a turbine cooling structure of cooling a turbine by using cooling air and a filter that reduces dust in the cooling air on an upstream side of the turbine. Furthermore, the gas turbine includes a supply pipe for supplying the cooling air to the filter, a branch pipe that is branched from the supply pipe on an upstream of the filter, and a unit that calculates or estimates a circulation amount of dust in the cooling air. In this gas turbine, at a time of start-up of a turbine, the supply pipe is closed and the branch pipe is opened, and when the circulation amount of dust in the cooling air becomes equal to or less than a predetermined threshold, the supply pipe is opened and the branch pipe is closed.
    • 该燃气轮机包括通过使用冷却空气来冷却涡轮机的涡轮机冷却结构和减少涡轮机上游侧的冷却空气中的灰尘的过滤器。 此外,燃气轮机包括用于向过滤器供给冷却空气的供给管,在过滤器的上游从供给管分支的分支管,以及计算或估计冷却中的灰尘的循环量的单元 空气。 在该燃气轮机中,在涡轮机起动时,供给管关闭,分支管打开,当冷却空气中的灰尘的循环量成为规定的阈值以下时, 供给管打开,分支管闭合。
    • 2. 发明授权
    • Fuel control method and fuel control apparatus for gas turbine and gas turbine
    • 燃气轮机和燃气轮机的燃油控制方法和燃料控制装置
    • US08707671B2
    • 2014-04-29
    • US12671473
    • 2009-07-01
    • Sosuke NakamuraSatoshi TanimuraShinji AkamatsuShinsuke NakamuraTakashi SonodaAkihiko SaitoMakoto Kishi
    • Sosuke NakamuraSatoshi TanimuraShinji AkamatsuShinsuke NakamuraTakashi SonodaAkihiko SaitoMakoto Kishi
    • F02C9/32F02C9/28F23R3/34
    • F02C9/26F02C9/34F05D2270/082F23K5/005F23R3/286F23R3/36
    • A fuel control method for a gas turbine with a combustor being formed of at least two groups of a pluralities of main nozzles for supplying fuel, and that supplies fuel from the main nozzles of all groups upon ignition of the combustor (S1), and supplies fuel from three main nozzles of a group A during subsequent acceleration of the gas turbine (S3). Because fuel is injected from a small number of the main nozzles during acceleration, the fuel flow rate per one main nozzle is increased, thereby increasing the fuel-air ratio (fuel flow rate/air flow rate) in a combustion region and improving the combustion characteristics. Accordingly, the generation of carbon monoxide and unburned hydrocarbon is reduced, whereby no bypass valve is required and manufacturing costs are reduced. Because fuel is supplied from the main nozzles of all groups and burned in the entire area of the combustor upon ignition, it is possible to easily propagate a flame to all the other adjacent main nozzle groups, thereby improving the ignition characteristics of the whole gas turbine.
    • 一种用于具有燃烧器的燃气轮机的燃料控制方法,所述燃气轮机由至少两组用于供应燃料的主喷嘴组成,并且在燃烧器(S1)点火时从所有组的主喷嘴供应燃料,并且供应 在燃气轮机的后续加速期间来自组A的三个主喷嘴的燃料(S3)。 由于在加速期间从少量主喷嘴喷射燃料,所以每个主喷嘴的燃料流量增加,从而提高燃烧区域的燃料空气比(燃料流量/空气流量),提高燃烧 特点 因此,一氧化碳和未燃碳氢化合物的产生减少,由此不需要旁通阀并且降低制造成本。 因为燃料从所有组的主喷嘴供应并且在点火时在燃烧器的整个区域燃烧,所以可以容易地将火焰传播到所有其他相邻的主喷嘴组,从而提高整个燃气轮机的点火特性 。
    • 4. 发明授权
    • Image processing apparatus, identification apparatus, electronic writing instrument, method for determining bit sequence and computer readable medium
    • 图像处理装置,识别装置,电子书写工具,确定比特序列的方法和计算机可读介质
    • US08353461B2
    • 2013-01-15
    • US13112606
    • 2011-05-20
    • Takashi SonodaTakeshi Onishi
    • Takashi SonodaTakeshi Onishi
    • G06K19/06
    • G06F3/0321
    • An image processing apparatus includes: an image acquisition unit that acquires a repeated image read from a medium having the repeated image printed thereon, the repeated image being formed by repeatedly arranging an image representing a specific bit sequence; an information acquisition unit that acquires plural state information pieces respectively indicating reading states of plural images included in the repeated image acquired by the image acquisition unit; a detection unit that detects plural bit sequences respectively from the plural images included in the repeated image acquired by the image acquisition unit; and a determination unit that determines the specific bit sequence on the basis of the plural bit sequences detected by the detection unit and the plural state information pieces acquired by the information acquisition unit.
    • 一种图像处理装置,包括:图像获取单元,其获取从其上打印有重复图像的介质读取的重复图像,所述重复图像通过重复布置表示特定位序列的图像形成; 信息获取单元,其获取分别指示由所述图像获取单元获取的所述重复图像中包括的多个图像的读取状态的多个状态信息; 检测单元,分别从由图像获取单元获取的重复图像中包括的多个图像中分别检测多个位序列; 以及确定单元,其基于由检测单元检测到的多个比特序列和由信息获取单元获取的多个状态信息,确定特定比特序列。
    • 5. 发明申请
    • IMAGE PROCESSING APPARATUS, IDENTIFICATION APPARATUS, ELECTRONIC WRITING INSTRUMENT, METHOD FOR DETERMINING BIT SEQUENCE AND COMPUTER READABLE MEDIUM
    • 图像处理装置,识别装置,电子书写装置,用于确定位序列和计算机可读介质的方法
    • US20120061469A1
    • 2012-03-15
    • US13112606
    • 2011-05-20
    • Takashi SONODATakeshi ONISHI
    • Takashi SONODATakeshi ONISHI
    • G06K7/14
    • G06F3/0321
    • An image processing apparatus includes: an image acquisition unit that acquires a repeated image read from a medium having the repeated image printed thereon, the repeated image being formed by repeatedly arranging an image representing a specific bit sequence; an information acquisition unit that acquires plural state information pieces respectively indicating reading states of plural images included in the repeated image acquired by the image acquisition unit; a detection unit that detects plural bit sequences respectively from the plural images included in the repeated image acquired by the image acquisition unit; and a determination unit that determines the specific bit sequence on the basis of the plural bit sequences detected by the detection unit and the plural state information pieces acquired by the information acquisition unit.
    • 一种图像处理装置,包括:图像获取单元,其获取从其上打印有重复图像的介质读取的重复图像,所述重复图像通过重复布置表示特定位序列的图像形成; 信息获取单元,其获取分别指示由所述图像获取单元获取的所述重复图像中包括的多个图像的读取状态的多个状态信息; 检测单元,分别从由图像获取单元获取的重复图像中包括的多个图像中分别检测多个位序列; 以及确定单元,其基于由检测单元检测到的多个比特序列和由信息获取单元获取的多个状态信息,确定特定比特序列。
    • 7. 发明申请
    • FUEL CONTROL METHOD AND FUEL CONTROL APPARATUS FOR GAS TURBINE AND GAS TURBINE
    • 燃油控制方法和燃油控制装置用于气体涡轮机和气体涡轮机
    • US20110016873A1
    • 2011-01-27
    • US12671473
    • 2009-07-01
    • Sosuke NakamuraSatoshi TanimuraShinji AkamatsuShinsuke NakamuraTakashi SonodaAkihiko SaitoMakoto Kishi
    • Sosuke NakamuraSatoshi TanimuraShinji AkamatsuShinsuke NakamuraTakashi SonodaAkihiko SaitoMakoto Kishi
    • F02C9/26F02C7/26
    • F02C9/26F02C9/34F05D2270/082F23K5/005F23R3/286F23R3/36
    • A fuel control method for a gas turbine with a combustor being formed of at least two groups of a pluralities of main nozzles for supplying fuel, and that supplies fuel from the main nozzles of all groups upon ignition of the combustor (S1), and supplies fuel from three main nozzles of a group A during subsequent acceleration of the gas turbine (S3). Because fuel is injected from a small number of the main nozzles during acceleration, the fuel flow rate per one main nozzle is increased, thereby increasing the fuel-air ratio (fuel flow rate/air flow rate) in a combustion region and improving the combustion characteristics. Accordingly, the generation of carbon monoxide and unburned hydrocarbon is reduced, whereby no bypass valve is required and manufacturing costs are reduced. Because fuel is supplied from the main nozzles of all groups and burned in the entire area of the combustor upon ignition, it is possible to easily propagate a flame to all the other adjacent main nozzle groups, thereby improving the ignition characteristics of the whole gas turbine.
    • 一种用于具有燃烧器的燃气轮机的燃料控制方法,所述燃气轮机由至少两组用于供应燃料的主喷嘴组成,并且在燃烧器(S1)点燃时从所有组的主喷嘴供应燃料,并且供应 在燃气轮机的后续加速期间来自组A的三个主喷嘴的燃料(S3)。 由于在加速期间从少量主喷嘴喷射燃料,所以每个主喷嘴的燃料流量增加,从而提高燃烧区域的燃料空气比(燃料流量/空气流量),提高燃烧 特点 因此,一氧化碳和未燃碳氢化合物的产生减少,由此不需要旁通阀并且降低制造成本。 因为燃料从所有组的主喷嘴供应并且在点火时在燃烧器的整个区域燃烧,所以可以容易地将火焰传播到所有其他相邻的主喷嘴组,从而提高整个燃气轮机的点火特性 。