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    • 3. 发明申请
    • Solar Thermal Gas Turbine System
    • 太阳能热力涡轮机系统
    • US20140013757A1
    • 2014-01-16
    • US14002286
    • 2011-03-07
    • Toru EguchiKazuhito KoyamaShigeo HatamiyaFumio TakahashiNaoyuki NagafuchiYukinori Katagiri
    • Toru EguchiKazuhito KoyamaShigeo HatamiyaFumio TakahashiNaoyuki NagafuchiYukinori Katagiri
    • F02C7/141F03G6/00
    • F02C7/141F02C1/05F02C3/30F02C7/18F03G6/005Y02E10/46
    • An object of the present invention is to provide a solar thermal gas turbine system enhanced in resistance to effects of disturbances including weather conditions in a gas turbine which sprays water into intake air of a compressor.A solar thermal gas turbine system according to an aspect of the present invention includes the following: a gas turbine 200 including a compressor for compressing air, a combustor for burning a fuel and the air compressed by the compressor, and a turbine driven by a combustion gas generated by the combustor; a heat collector 130 for collecting solar heat; a heat accumulator 140 for reserving high-pressure hot water generated from the solar heat collected by the heat collector; a water atomization device 170 for spraying the high-pressure hot water into the air taken in by the compressor; an intercooler 180 for mixing the high-pressure hot water into the compressed air extracted from the compressor, as cooling air for the turbine; and an evaporator 190 for supplying steam, a product obtained with the high-pressure hot water used as a heat source, to the combustor.
    • 本发明的目的在于提供一种能够抵抗干扰影响的太阳热能涡轮机系统,该系统包括将燃气轮机中的天气条件喷入到压缩机的进气中。 根据本发明的一个方面的太阳能热燃气涡轮机系统包括:包括用于压缩空气的压缩机的燃气轮机200,用于燃烧燃料的燃烧器和由压缩机压缩的空气以及由燃烧驱动的涡轮机 由燃烧器产生的气体; 用于收集太阳热的集热器130; 蓄热器140,用于储存由集热器收集的太阳热产生的高压热水; 用于将高压热水喷射到由压缩机吸入的空气中的水雾化装置170; 用于将高压热水与从压缩机抽出的压缩空气混合的中间冷却器180作为涡轮机的冷却空气; 以及蒸发器190,用于将作为热源的高压热水获得的产品供给到燃烧器。
    • 7. 发明授权
    • Power plant operation control system and a power plant maintaining and managing method
    • 电厂运行控制系统和电厂维护管理方法
    • US08412384B2
    • 2013-04-02
    • US12357574
    • 2009-01-22
    • Naoyuki NagafuchiYasushi IwaiHiraku Ikeda
    • Naoyuki NagafuchiYasushi IwaiHiraku Ikeda
    • G05D11/00G06F11/30
    • G05B23/027G05B13/042G05B23/0254G05B23/0289G05B23/0291H02J2003/001H02M3/00Y02E20/16Y04S10/522Y10S715/963
    • Quick recovery or recovery support of a faulty power generating facility by real time diagnoses such as facility failure diagnosis, supervision for failure symptoms, facility diagnosis by evaluation of performance using databases between the power generating facilities and an operation control system. The operation control system transfers information on operating status and secular characteristic changes of apparatus from power generating facilities or information from operators of selected power generating facilities. The level of a failure of a power generating facility which has a failure is evaluated and repairing information (e.g. recovery procedures, processes, required parts, inventory of the parts, possible failure causes, etc.) is automatically created from repairing information prepared in advance for each evaluation condition. The repairing information is then sent to the operation supporting section of the power generating facility.
    • 通过实时诊断,例如设备故障诊断,故障症状监控,设备诊断,通过发电设备和操作控制系统之间的数据库进行性能评估,对故障发电设备进行快速恢复或恢复支持。 操作控制系统将来自发电设备的设备的操作状态和长期特征变化的信息或者来自所选择的发电设备的操作者的信息传送。 对发生故障的发电设备的故障等级进行评估,并从修复预先准备的信息自动创建修复信息(例如恢复程序,过程,所需部件,部件库存,可能的故障原因等) 对于每个评估条件。 然后将修理信息发送到发电设备的操作支持部。
    • 8. 发明申请
    • Power Plant Life Cycle Costing System and Power Plant Life Cycle Costing Method
    • 电厂生命周期成本核算系统和电厂生命周期成本计算方法
    • US20110054965A1
    • 2011-03-03
    • US12858926
    • 2010-08-18
    • Yukinori KATAGIRINaoyuki NagafuchiTakuya YoshidaTatsuro Yashiki
    • Yukinori KATAGIRINaoyuki NagafuchiTakuya YoshidaTatsuro Yashiki
    • G06F17/30
    • G06Q10/10G06Q10/063G06Q10/0637
    • The power plant life cycle costing system for costing a power plant life cycle according to the present invention includes a flow chart generation unit for generating a power plant system flow chart based on specifications and cost information of major components of the power plant stored in a major component specifications storage unit, and plant specifications input from a plant specifications input unit; a power plant planning unit for calculating and generating a power plant life cycle cost, a plant efficiency and an operation plan including a maintenance plan as optimization indexes of a power plant configuration based on information from the flow chart generation unit, specifications and cost information of auxiliary devices of the power plant stored in a piping and device specifications storage unit, and optimization conditions of a power plant configuration input by an optimizing method selection unit; and an optimized result output unit for outputting a calculated value and a planned result calculated and generated by the power plant planning unit.
    • 根据本发明的用于对发电厂生命周期进行成本计算的发电厂生命周期成本计算系统包括:流程图生成单元,用于基于存储在主要的发电厂的主要部件的规格和成本信息来生成发电厂系统流程图 组件规格存储单元,以及工厂规格输入单元的工厂规格输入; 基于来自流程图生成单元的信息的电力设备计算单元,用于计算和生成发电厂生命周期成本,设备效率和运行计划,其包括作为电厂配置的优化指标的维护计划,规格和成本信息 存储在管道和设备规格存储单元中的发电厂的辅助装置,以及由优化方法选择单元输入的发电厂配置的优化条件; 以及优化结果输出单元,用于输出由发电厂计划单元计算和生成的计算值和计划结果。
    • 10. 发明授权
    • Power plant operation control system and a power plant maintaining and managing method
    • 电厂运行控制系统和电厂维护管理方法
    • US06772051B2
    • 2004-08-03
    • US10190683
    • 2002-07-09
    • Naoyuki NagafuchiYasushi IwaiHiraku Ikeda
    • Naoyuki NagafuchiYasushi IwaiHiraku Ikeda
    • H02P900
    • G05B23/027G05B13/042G05B23/0254G05B23/0289G05B23/0291H02J2003/001H02M3/00Y02E20/16Y04S10/522Y10S715/963
    • Quick recovery or recovery support of a faulty power generating facility by real time diagnosis such as facility failure diagnosis, supervision for failure symptoms, facility diagnosis by evaluation of performance using databases between said power generating facilities and an operation control system. The operation control system transfers information on operating status and secular characteristic changes of apparatus from power generating facilities or information from operators of selected power generating facilities. The level of a failure of a power generating facility which has a failure is evaluated and repairing information (e.g. recovery procedures, processes, required parts, inventory of the parts, possible failure causes, etc.) is automatically created from repairing information prepared in advance for each evaluation condition. The repairing information is then sent to the operation supporting section of the power generating facility.
    • 通过实时诊断(例如设备故障诊断,故障症状监督,设备诊断,通过使用所述发电设备和操作控制系统之间的数据库进行性能评估)来对故障发电设备进行快速恢复或恢复支持。 操作控制系统将来自发电设备的设备的操作状态和长期特征变化的信息或者来自所选择的发电设备的操作者的信息传送。 对发生故障的发电设备的故障等级进行评估,并从修复预先准备的信息自动创建修复信息(例如恢复程序,过程,所需部件,部件库存,可能的故障原因等) 对于每个评估条件。 然后将修理信息发送到发电设备的操作支持部。