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    • 1. 发明授权
    • Mechanism for firing gas turbines with liquefied natural gas
    • 用液化天然气燃烧燃气轮机的机理
    • US5400588A
    • 1995-03-28
    • US136376
    • 1993-10-15
    • Masami YamaneKazuhiko AsadaYutaka ItohShinichi MiuraHiroo Nishimura
    • Masami YamaneKazuhiko AsadaYutaka ItohShinichi MiuraHiroo Nishimura
    • F02C3/22F02C7/143F02C7/16F02C7/224F02C7/24
    • F02C7/143F02C3/22F02C7/224
    • Disclosed herein is a method of firing a gas turbine with LNG which is designed to store the "cold" of LNG in an the LNG vaporizer. The method comprises supplying liquefied natural gas through heat exchanger tubes in the LNG vaporizer, thereby gasifying the liquefied natural gas by heat exchange with a heat transfer medium recycled through the LNG vaporizer and an air precooler, and cooling the air in the air precooler by heat exchange with the heat transfer medium cooled by the liquefied natural gas when the turbine load is high, and suspending the recycling of the heat transfer medium through the LNG vaporizer and air precooler, thereby causing the heat transfer medium to freeze on the outside of the heat exchanger tubes (for the storing of freezing latent heat) by the "cold" of the liquefied natural gas supplied, when the turbine load is low, and using the freezing latent heat (stored by the freezing of the heat transfer medium) as a "cold" source to cool air through the heat transfer medium, when the turbine load is high.
    • 本文公开了一种用LNG燃烧燃气轮机的方法,其被设计成将LNG的“冷”储存在LNG蒸发器中。 该方法包括通过LNG蒸发器中的热交换器管供应液化天然气,从而通过与通过LNG蒸发器和空气预冷器再循环的传热介质进行热交换来气化液化天然气,并通过热量冷却空气预冷器中的空气 与涡轮负载高时由液化天然气冷却的传热介质进行交换,并且通过LNG蒸发器和空气预冷器来悬浮传热介质的再循环,从而使传热介质在热量外部冷冻 当涡轮机负荷低时,通过所供给的液化天然气的“冷”,将冷冻潜热(通过传热介质的冷冻保存))作为“冷冻潜热” 冷“源,当涡轮负载高时,通过传热介质冷却空气。
    • 3. 发明授权
    • Flame retardant polystyrenic resin composition
    • 阻燃聚苯乙烯树脂组合物
    • US06657008B2
    • 2003-12-02
    • US08945273
    • 1997-10-27
    • Tohru IwashitaShinichi Miura
    • Tohru IwashitaShinichi Miura
    • C08L2504
    • C08L77/00C08L25/06C08L25/18C08L71/12C08L77/06C08L77/12C08L2666/14C08L25/00
    • Flame retardant resin composition comprising (a) an SPS, (b) a thermoplastic resin having a reactive polar group, (c) a compatibilizing agent having compatibility with the component (a) and a polar group capable of reacting with the component (b), (d) a flame retardant and (e) a flame retardant auxiliary, a weight ratio of the component (a)/the component (b) being less than 1.5, the amount of the component (c) being in the range of 0.5 to 10% by weight with respect to 100% by weight of the total of the components (a), (b) and (c), the amount of the component (d) being 10 parts by weight or more and the amount of the component (e) being 3 parts by weight or more with respect to 100 parts by weight of the total of the components (a), (b) and (c).
    • 阻燃树脂组合物,其包含(a)SPS,(b)具有反应性极性基团的热塑性树脂,(c)与组分(a)具有相容性的相容剂和能够与组分(b)反应的极性基团, ,(d)阻燃剂和(e)阻燃助剂,组分(a)/组分(b)的重量比小于1.5,组分(c)的量在0.5 相对于组分(a),(b)和(c)的总量的100重量%至10重量%,组分(d)的量为10重量份以上, 组分(e)相对于组分(a),(b)和(c)的总量的100重量份为3重量份以上。
    • 5. 发明申请
    • ELECTRONIC DEVICE, METHOD FOR CONTROLLING ELECTRONIC DEVICE, AND RECORDING MEDIUM
    • 电子设备,用于控制电子设备的方法和记录介质
    • US20100064157A1
    • 2010-03-11
    • US12551075
    • 2009-08-31
    • Sachio MatsuuraShinichi Miura
    • Sachio MatsuuraShinichi Miura
    • G06F1/00H04L9/32
    • G06F1/3203Y02D10/159
    • When a user presses down an extension directing button, a control unit of an image forming apparatus detects the press-down of the extension directing button and executes a setting process of new mode set time. In this case, the control unit calculates the new mode set time by adding extension time extracted from an extension time data storage unit to basic set time acquired from a basic set time data storage unit and records the new mode set time in a mode set time data storage unit. Then, when start of a sleep mode is detected, the control unit of the image forming apparatus records the basic set time, which is extracted from the basic set time data storage unit, in the mode set time data storage unit as new mode set time when the mode set time is extended.
    • 当用户按下延伸定向按钮时,图像形成装置的控制单元检测延伸定向按钮的按下并执行新模式设定时间的设定处理。 在这种情况下,控制单元通过将从扩展时间数据存储单元提取的扩展时间添加到从基本设定时间数据存储单元获取的基本设定时间来计算新的模式设定时间,并将模式设定时间记录在模式设定时间 数据存储单元。 然后,当检测到睡眠模式的开始时,图像形成装置的控制单元将从基本设定时间数据存储单元提取的基本设定时间记录在模式设定时间数据存储单元中作为新的模式设定时间 当模式设置时间延长时。
    • 6. 发明申请
    • PSA apparatus for producing high-purity hydrogen gas
    • 用于生产高纯度氢气的PSA装置
    • US20090223371A1
    • 2009-09-10
    • US12320630
    • 2009-01-30
    • Noboru NakaoShinichi MiuraTakeshi YamashitaAkitoshi Fujisawa
    • Noboru NakaoShinichi MiuraTakeshi YamashitaAkitoshi Fujisawa
    • B01D53/04
    • B01D53/047B01D2253/102B01D2253/108B01D2256/16B01D2257/102B01D2257/502Y02C10/08
    • A PSA apparatus for high-purity hydrogen gas production is provided which can recover high-purity hydrogen gas at a high recovery rate from a reformed gas (hydrogen-containing gas) produced by a reforming process, for example an autothermal reforming process, and containing, as impurity components, at least CO, CO2, N2 and/or Ar, and can contribute to reducing the equipment size, hence reducing the equipment cost.The PSA apparatus for high-purity hydrogen gas B production by removing CO, CO2 and N2 by adsorption from a hydrogen-containing gas A, comprises an adsorption tower 1; and an adsorbent bed 2 in the adsorption tower, successively including a CO adsorbent layer 5 for selectively adsorbing CO without substantial adsorption of CO2 and N2, a carbonaceous adsorbent layer 4 for adsorbing CO2, and a adsorbent layer 3a for adsorbing N2 in the direction from the upstream side to the downstream side of passage of the hydrogen-containing gas A, wherein, on the occasion of regeneration of the adsorbent bed 2, a purge gas C is passed through in the direction opposite to the direction of passage of the hydrogen-containing gas A.
    • 提供了一种用于高纯度氢气生产的PSA装置,其可以从通过重整过程(例如自热重整工艺)生产的重整气体(含氢气体)以高回收率回收高纯度氢气,并且含有 作为杂质成分,至少是CO,CO 2,N 2和/或Ar,并且可以有助于减小设备尺寸,从而降低设备成本。 通过从含氢气体A吸附除去CO,CO 2和N 2的高纯度氢气B生产的PSA装置包括吸附塔1; 和吸附塔2,依次包括用于选择性地吸附CO而不大量吸附CO 2和N 2的CO吸附剂层5,用于吸附CO 2的含碳吸附剂层4和用于吸附CO 2的吸附剂层3a 含氢气体A的通过下游侧的上游侧,其中,在吸附床2的再生时,吹扫气体C沿与氢气气体A的通过方向相反的方向通过, 含有气体A.
    • 8. 发明授权
    • Styrenic resin laminate and molding thereof
    • 苯乙烯树脂层压板及其成型
    • US5683801A
    • 1997-11-04
    • US638849
    • 1996-04-29
    • Shinichi Miura
    • Shinichi Miura
    • B29C51/08B29K25/00B32B5/18B32B27/30B32B27/06
    • B32B5/18Y10S428/91Y10T428/249988Y10T428/249993
    • There are disclosed a styrenic resin laminate comprising at least one surface layer consisting essentially of a styrenic polymer having a high degree of syndiotactic configuration (SPS layer) and a foam layer (other layer) consisting essentially of a styrenic resin (GPPS, IPS, HIPS, ABS resin, SMA copolymer, AS resin, modified PPO; blend of HIPS/PPO, etc); and a molding obtained by thermoforming the above-mentioned laminate. The above laminate is particularly excellent in heat resistance and easily thermoformable into the molding, which is also excellent in heat resistance and recyclability in terms of retention of flexural strength, utilizable in heating oil-base food with a microwave range and can easily be recovered for reuse, thereby greatly contributing to environmental preservation and resources saving.
    • 公开了一种苯乙烯树脂层压体,其包含至少一个表面层,其基本上由具有高程度间同立构构型的苯乙烯聚合物(SPS层)和基本上由苯乙烯树脂(GPPS,IPS,HIPS)组成的泡沫层 ,ABS树脂,SMA共聚物,AS树脂,改性PPO; HIPS / PPO等的混合物); 以及通过热成型上述层压体而得到的成型体。 上述层叠体的耐热性特别优异,易于成型成型,在耐热性和可回收性方面也优异,在保持弯曲强度方面,可用于加热具有微波范围的油基食品,并且可以容易地回收 重用,从而大大有助于环境保护和资源节约。