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    • 2. 发明申请
    • Combined-cycle power plant and steam thermal power plant
    • 联合循环发电厂和蒸汽火力发电厂
    • US20060042259A1
    • 2006-03-02
    • US11213724
    • 2005-08-30
    • Shinya MarushimaMutsumi HoritsugiWasao Fukumoto
    • Shinya MarushimaMutsumi HoritsugiWasao Fukumoto
    • F02C6/18
    • F02C6/18F01K23/10Y02E20/16
    • A combined-cycle power plant, a steam thermal power plant, and a method for operating the power plant, which are capable of effectively utilizing raw fuel produced from medium- or small-scaled gas fields and oil fields. Raw fuel produced from a gas field is separated into a gas component and a liquid component by a separator. The gas component is burnt in a combustor of a gas turbine, and resulting motive power is converted to electricity by a power generator. The liquid component separated by the separator is burnt in a steam generator to generate steam that is supplied to a steam turbine. Resulting motive power of the steam turbine is converted to electricity by a power generator. Since the electricity generated by the power generators is AC power, the AC power is converted by a converter to DC power that is transferred from the vicinity of the gas field to a consuming area via a cable.
    • 联合循环发电厂,蒸汽火力发电厂和运行发电厂的方法,能够有效地利用从中小型气田和油田产生的原燃料。 从气田产生的原燃料通过分离器分离成气体成分和液体成分。 气体组分在燃气轮机的燃烧器中燃烧,并且所产生的动力由发电机转换成电力。 由分离器分离的液体组分在蒸汽发生器中燃烧以产生供应到蒸汽轮机的蒸汽。 蒸汽轮机的动力由发电机转换为电力。 由于发电机产生的电力是交流电力,所以将交流电力由转换器转换为通过电缆从气田附近转移到消费区域的直流电力。
    • 3. 发明申请
    • COMBINED-CYCLE POWER PLANT AND STEAM THERMAL POWER PLANT
    • 联合循环发电厂和蒸汽热力发电厂
    • US20080289337A1
    • 2008-11-27
    • US12180941
    • 2008-07-28
    • Shinya MarushimaMutsumi HoritsugiWasao Fukumoto
    • Shinya MarushimaMutsumi HoritsugiWasao Fukumoto
    • F02C6/18
    • F02C6/18F01K23/10Y02E20/16
    • A combined-cycle power plant, a steam thermal power plant, and a method for operating the power plant, which are capable of effectively utilizing raw fuel produced from medium- or small-scaled gas fields and oil fields. Raw fuel produced from a gas field is separated into a gas component and a liquid component by a separator. The gas component is burnt in a combustor of a gas turbine, and resulting motive power is converted to electricity by a power generator. The liquid component separated by the separator is burnt in a steam generator to generate steam that is supplied to a steam turbine. Resulting motive power of the steam turbine is converted to electricity by a power generator. Since the electricity generated by the power generators is AC power, the AC power is converted by a converter to DC power that is transferred from the vicinity of the gas field to a consuming area via a cable.
    • 联合循环发电厂,蒸汽火力发电厂和运行发电厂的方法,能够有效地利用从中小型气田和油田产生的原燃料。 从气田产生的原燃料通过分离器分离成气体成分和液体成分。 气体组分在燃气轮机的燃烧器中燃烧,并且所产生的动力由发电机转换成电力。 由分离器分离的液体组分在蒸汽发生器中燃烧以产生供应到蒸汽轮机的蒸汽。 蒸汽轮机的动力由发电机转换为电力。 由于发电机产生的电力是交流电力,所以将交流电力由转换器转换为通过电缆从气田附近转移到消费区域的直流电力。
    • 6. 发明申请
    • Gas-turbine power generating installation and method of operating the same
    • 燃气轮机发电设备及其运行方法
    • US20050091985A1
    • 2005-05-05
    • US10917285
    • 2004-08-13
    • Kazunori YamanakaShinya MarushimaHisashi HamatakeMutsumi Horitsugi
    • Kazunori YamanakaShinya MarushimaHisashi HamatakeMutsumi Horitsugi
    • F02C3/22F02C6/06F02C7/22
    • F02C7/22F02C3/22F02C6/06
    • A gas-turbine power generating installation capable of effectively utilizing gases produced in overage gas fields, etc. and a method of operating the installation are provided. The gas-turbine power generating installation is installed in the vicinity of an outrage gas field or an oil field. In the installation, air compressed by a compressor is introduced to a combustor for combustion after being mixed with fuel, a gas turbine is driven by generated combustion gas, and a power generator is driven by motive power obtained from a rotary shaft of the gas turbine. A boosting compressor is driven by the motive power obtained from the rotary shaft of the gas turbine, whereby natural gas or accompanying gas is boosted in pressure and supplied as fuel to the combustor. The gas turbine generates electric power by using natural gas produced in the outrage gas field or accompanying gas produced in the oil field, and the generated electric power is supplied to a consuming site.
    • 提供了一种能够有效利用超压气田中产生的气体的燃气轮机发电装置等,以及操作该装置的方法。 燃气轮机发电装置安装在暴风雨场或油田附近。 在安装中,由压缩机压缩的空气与燃料混合后被引入到燃烧室进行燃烧,燃气轮机由产生的燃烧气体驱动,发电机由从燃气轮机的旋转轴获得的动力驱动 。 增压压缩机由从燃气轮机的旋转轴获得的动力驱动,由此天然气或伴随气体被压力升压并作为燃料提供给燃烧器。 燃气轮机通过使用在气田中产生的天然气或在油田中产生的伴随气体来产生电力,并且将生成的电力供应到消耗部位。
    • 7. 发明授权
    • Gas-turbine power generating installation and method of operating the same
    • 燃气轮机发电设备及其运行方法
    • US07472542B2
    • 2009-01-06
    • US11438435
    • 2006-05-23
    • Kazunori YamanakaShinya MarushimaHisashi HamatakeMutsumi Horitsugi
    • Kazunori YamanakaShinya MarushimaHisashi HamatakeMutsumi Horitsugi
    • F02C3/22
    • F02C7/22F02C3/22F02C6/06
    • A gas-turbine power generating installation capable of effectively utilizing gases produced in overage gas fields, etc. and a method of operating the installation are provided. The gas-turbine power generating installation is installed in the vicinity of an outrage gas field or an oil field. In the installation, air compressed by a compressor is introduced to a combustor for combustion after being mixed with fuel, a gas turbine is driven by generated combustion gas, and a power generator is driven by motive power obtained from a rotary shaft of the gas turbine. A boosting compressor is driven by the motive power obtained from the rotary shaft of the gas turbine, whereby natural gas or accompanying gas is boosted in pressure and supplied as fuel to the combustor. The gas turbine generates electric power by using natural gas produced in the outrage gas field or accompanying gas produced in the oil field, and the generated electric power is supplied to a consuming site.
    • 提供了一种能够有效利用超压气田中产生的气体的燃气轮机发电装置等,以及操作该装置的方法。 燃气轮机发电装置安装在暴风雨场或油田附近。 在安装中,由压缩机压缩的空气与燃料混合后被引入到燃烧室进行燃烧,燃气轮机由产生的燃烧气体驱动,发电机由从燃气轮机的旋转轴获得的动力驱动 。 增压压缩机由从燃气轮机的旋转轴获得的动力驱动,由此天然气或伴随气体被压力升压并作为燃料提供给燃烧器。 燃气轮机通过使用在气田中产生的天然气或在油田中产生的伴随气体来产生电力,并且将生成的电力供应到消耗部位。