会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明申请
    • Time-Of-Flight Mass Spectrometer
    • 飞行时间质谱仪
    • US20130168547A1
    • 2013-07-04
    • US13821202
    • 2011-09-06
    • Masaru NishiguchiShinji MiyauchiYoshihiro Ueno
    • Masaru NishiguchiShinji MiyauchiYoshihiro Ueno
    • H01J49/40
    • H01J49/405
    • Provided is a time-of-flight mass spectrometer having a reflectron which eliminates energy dependency of the flight time of ions having the same m/z while ensuring a high degree of design freedom. An electric field created by the reflectron is virtually divided into a decelerating region for decelerating ions and a reflecting region for reflecting ions. For an ion having a mass-to-charge ratio which has departed with initial energy higher than Ud, the total flight time required for the ion to travel through a free-flight region and the decelerating region into the reflecting region and return will be equal to the total flight time required for an ion of the same mass-to-charge ratio to make a round trip in which the ion turns around at a point of the reference potential value at the boundary between the decelerating region and the reflecting region or in the decelerating region.
    • 提供了具有反射器的飞行时间质谱仪,其消除具有相同m / z的离子的飞行时间的能量依赖性,同时确保高度的设计自由度。 由反射镜产生的电场实际上被分成用于使离子减速的减速区域和用于反射离子的反射区域。 对于具有高于Ud的初始能量已经离开的质荷比的离子,离子通过自由飞行区域和减速区域进入反射区域并返回所需的总飞行时间将相等 到相同质荷比的离子所需的总飞行时间进行往返,其中离子在减速区域和反射区域之间的边界处的参考电位值的点处转动,或者在 减速区域。
    • 3. 发明授权
    • Fuel cell system
    • 燃料电池系统
    • US08415064B2
    • 2013-04-09
    • US12811929
    • 2009-01-22
    • Shinji MiyauchiYoshikazu TanakaHitoshi OishiMotomichi Katou
    • Shinji MiyauchiYoshikazu TanakaHitoshi OishiMotomichi Katou
    • H01M8/04
    • F23N5/022F23N5/242F23N2025/14F23N2025/19H01M8/04164H01M8/04343H01M8/04955H01M8/0662
    • A fuel cell system of the present invention includes: a fuel cell (11) configured to generate electric power using a fuel gas and an oxidizing gas; an anode off gas channel (34) through which an anode off gas discharged from an anode (2a) of the fuel cell (11) flows; a gas-liquid separator (10) disposed on the anode off gas channel (34) to separate moisture from the anode off gas, and including a water reservoir (18) configured to store the separated moisture as water; a temperature detector (28) configured to detect a temperature of the water reservoir (18); and an operation allowing device (52) configured not to allow an operation of the fuel cell system in a case where the temperature detected by the temperature detector (28) is equal to or higher than a first threshold that is higher than a standard ambient temperature.
    • 本发明的燃料电池系统包括:燃料电池(11),被配置为使用燃料气体和氧化气体发电; 阳极废气通道(34),从燃料电池(11)的阳极(2a)排出的阳极废气通过该阳极废气通道流动; 设置在所述阳极废气通道(34)上的气液分离器(10),以将湿气与所述阳极废气分离,并且包括被配置为将分离的水分储存为水的储水器(18) 配置成检测储水器(18)的温度的温度检测器(28); 以及在由所述温度检测器(28)检测到的温度等于或高于高于标准环境温度的第一阈值的情况下,被配置为不允许所述燃料电池系统的操作的操作允许装置(52) 。
    • 4. 发明授权
    • Method for operating fuel-cell electricity-generating device
    • 操作燃料电池发电装置的方法
    • US08263281B2
    • 2012-09-11
    • US13192917
    • 2011-07-28
    • Masataka OzekiAkinari NakamuraShinji Miyauchi
    • Masataka OzekiAkinari NakamuraShinji Miyauchi
    • H01M8/04
    • H01M8/0612H01M8/04022H01M8/04373H01M8/04619H01M8/0494
    • A stable and high reliability fuel cell electricity-generating device capable of generating electricity even in the case of sudden drop of load power includes a fuel cell generating electric power from a fuel and an oxidizer, a fuel processor producing fuel to be supplied into the fuel cell from an electricity-generating material, a combustion device combusting a residual fuel gas unconsumed in the fuel cell to raise the temperature of the fuel processor, and an electric power generation instructor determining the electric power generated by the fuel cell, wherein when the electric power generation instructor either decreases or prevents a decrease in the electric power generated by the fuel cell upon a decrease of load power to be supplied, depending on the temperature of the fuel processor.
    • 即使在负载功率突然下降的情况下也能够发电的稳定且高可靠性的燃料电池发电装置包括从燃料和氧化剂产生电力的燃料电池,产生供给燃料的燃料的燃料处理器 燃烧装置,燃烧未燃烧在燃料电池中的残留燃料气体以提高燃料处理器的温度的燃烧装置,以及确定燃料电池产生的电力的发电指导者,其中,当所述燃料电池 取决于燃料处理器的温度,发电指导者降低或防止在要供应的负载功率的降低时由燃料电池产生的电力的降低。
    • 6. 发明授权
    • Method for operating fuel-cell electricity-generating device
    • 操作燃料电池发电装置的方法
    • US08012640B2
    • 2011-09-06
    • US12484386
    • 2009-06-15
    • Masataka OzekiAkinari NakamuraShinji Miyauchi
    • Masataka OzekiAkinari NakamuraShinji Miyauchi
    • H01M8/04
    • H01M8/0612H01M8/04022H01M8/04373H01M8/04619H01M8/0494
    • A stable and high reliability fuel cell electricity-generating device capable of generating electricity even in the case of sudden drop of load power. A fuel cell generating electric power from a fuel and an oxidizer, a fuel processor producing fuel to be supplied into the fuel cell from an electricity-generating material, a combustion device combusting a residual fuel gas unconsumed in the fuel cell to raise the temperature of the fuel processor, and an electric power generation instructing means of determining the electric power generated by the fuel cell, wherein when the electric power generation instructing means decreases the electric power generated by the fuel cell depending on the decrease of load power to be supplied, the rate at which the generated electric power is decreased is made different depending on the change of the temperature of the fuel processor.
    • 一种稳定且高可靠性的燃料电池发电装置,即使在负载功率突然下降的情况下也能够发电。 从燃料和氧化剂产生电力的燃料电池,从发电材料供给到燃料电池中的燃料的燃料处理器,燃烧未燃烧在燃料电池中的残留燃料气体的燃烧装置,以提高燃料电池的温度 燃料处理器和确定燃料电池产生的电力的发电指示装置,其中当发电指示装置根据要供应的负载功率的减小来减少由燃料电池产生的电力时, 根据燃料处理器的温度变化,使发电电力降低的速度变化。
    • 7. 发明授权
    • Fuel-cell power-generation system and method
    • 燃料电池发电系统及方法
    • US07691512B2
    • 2010-04-06
    • US11474766
    • 2006-06-26
    • Shinji MiyauchiMasataka OzekiKoichi Nishimura
    • Shinji MiyauchiMasataka OzekiKoichi Nishimura
    • H01M8/04H01M2/14
    • H01M8/04365H01M8/04029H01M8/04067H01M8/04156H01M8/0606H01M8/0668
    • A condenser condenses an unused exhaust gas exhausted from a fuel cell and recovers water, condensation-capacity detection means always monitors the condensation capacity of the condenser, control means controls an output of heat-transport-medium circulation means, stores the exhaust heat of the fuel cell in heat-using means when a sufficient condensation capacity is left, and stops the heat-transport-medium circulation means to complete exhaust-heat recovery when the condensation capacity lowers. Moreover, a fuel cell, a cooling pipe through which a first heating medium of carrying the heat of the fuel cell circulates, a cooling-water pump of circulating the first heating medium, and a fuel-cell-temperature detector of detecting the temperature of the fuel cell are used to operate a cooling-water pump until the temperature detected by the fuel-cell-temperature detector becomes a predetermine threshold value or less even after supply of a fuel and an oxidant to the fuel cell is stopped.
    • 冷凝器冷凝从燃料电池排出的未使用的废气并回收水,冷凝能力检测装置总是监视冷凝器的冷凝能力,控制装置控制热传输介质循环装置的输出, 当剩余足够的冷凝能力时,在热使用装置中的燃料电池,并且当冷凝能力降低时,停止热传输介质循环装置完成排气热回收。 此外,燃料电池,通过燃料电池的热量传播的第一加热介质通过其循环的冷却水,循环第一加热介质的冷却水泵,以及检测燃料电池的温度的燃料电池温度检测器 燃料电池用于操作冷却水泵,直到燃料电池温度检测器检测到的温度即使在向燃料电池供应燃料和氧化剂停止之后也变为预定的阈值或更小时。
    • 8. 发明申请
    • FUEL-CELL POWER-GENERATION SYSTEM AND METHOD
    • 燃料电池发电系统及方法
    • US20090176138A1
    • 2009-07-09
    • US12400850
    • 2009-03-10
    • Shinji MiyauchiMasataka OzekiKoichi Nishimura
    • Shinji MiyauchiMasataka OzekiKoichi Nishimura
    • H01M8/04
    • H01M8/04365H01M8/04029H01M8/04067H01M8/04156H01M8/0606H01M8/0668
    • A condenser condenses an unused exhaust gas exhausted from a fuel cell and recovers water, condensation-capacity detection means always monitors the condensation capacity of the condenser, control means controls an output of heat-transport-medium circulation means, stores the exhaust heat of the fuel cell in heat-using means when a sufficient condensation capacity is left, and stops the heat-transport-medium circulation means to complete exhaust-heat recovery when the condensation capacity lowers. Moreover, a fuel cell, a cooling pipe through which a first heating medium of carrying the heat of the fuel cell circulates, a cooling-water pump of circulating the first heating medium, and a fuel-cell-temperature detector of detecting the temperature of the fuel cell are used to operate a cooling-water pump until the temperature detected by the fuel-cell-temperature detector becomes a predetermine threshold value or less even after supply of a fuel and an oxidant to the fuel cell is stopped.
    • 冷凝器冷凝从燃料电池排出的未使用的废气并回收水,冷凝能力检测装置总是监视冷凝器的冷凝能力,控制装置控制热传输介质循环装置的输出, 当剩余足够的冷凝能力时,在热使用装置中的燃料电池,并且当冷凝能力降低时,停止热传输介质循环装置完成排气热回收。 此外,燃料电池,通过燃料电池的热量传播的第一加热介质通过其循环的冷却水,循环第一加热介质的冷却水泵,以及检测燃料电池的温度的燃料电池温度检测器 燃料电池用于操作冷却水泵,直到燃料电池温度检测器检测到的温度即使在向燃料电池供应燃料和氧化剂停止之后也变为预定阈值或更小时。