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    • 1. 发明申请
    • ADVANCED ADIABATIC COMPRESSED AIR ENERGY STORAGE SYSTEM
    • 先进的ADIABATIC压缩空气能量储存系统
    • WO2011159586A2
    • 2011-12-22
    • PCT/US2011040114
    • 2011-06-13
    • NAKHAMKIN MICHAEL
    • NAKHAMKIN MICHAEL
    • F01K3/02F16D31/00F16D31/02H02K7/18
    • F02C1/04F01K3/12F01K13/00F02C6/16F02C7/143F05D2230/52F05D2270/053Y02E60/15
    • An adiabatic Compressed Air Energy Storage (CAES) system includes a low pressure compressor structure (14) to provide compressed air; a first heat exchanger (26) to extract heat from the compressed air exiting the low pressure compressor structure; a thermal storage device (60) to store the extracted heat during off-peak load periods; a motor-driven high pressure compressor (30) to receive compressed air cooled by the first heat exchanger, an aftercooler (34) to extract heat from the further compressed air; an air storage (36) to receive and store the further compressed air cooled by the second heat exchanger; a second heat exchanger (64) to transfer heat stored in the first thermal storage device to compressed air released from the air storage during peak periods; and a turbine structure (40) to expand the heated compressed air released from the air storage to produce power.
    • 绝热压缩空气能量储存(CAES)系统包括一个低压压缩机结构(14),以提供压缩空气; 第一热交换器(26),用于从离开低压压缩机结构的压缩空气中提取热量; 蓄热装置(60),用于在非高峰负载期间存储提取的热量; 用于接收由第一热交换器冷却的压缩空气的电动高压压缩机(30),用于从另外的压缩空气中提取热量的后冷却器(34); 用于接收和存储由第二热交换器冷却的另外的压缩空气的空气存储器(36) 第二热交换器(64),用于将存储在第一热存储装置中的热量传送到在高峰期间从空气存储器释放的压缩空气; 以及涡轮机结构(40),以膨胀从空气存储器释放的加热的压缩空气以产生动力。
    • 2. 发明申请
    • POWER AUGMENTATION OF COMBUSTION TURBINES BY INJECTION OF COLD AIR UPSTREAM OF COMPRESSOR
    • 注入压缩机冷空气上游对燃烧涡轮增压的增压
    • WO2008091502A4
    • 2009-03-05
    • PCT/US2008000432
    • 2008-01-11
    • NAKHAMKIN MICHAEL
    • NAKHAMKIN MICHAEL
    • F02C7/12
    • F02C6/16Y02E20/16Y02E60/15
    • A combustion turbine power generation system (10) includes a combustion turbine assembly (11) including a main compressor (12) for receiving ambient inlet air, a main expansion turbine (14) associated with the main compressor, a combustor (16) for receiving compressed air from the main compressor and to feed the main expansion turbine, and an electric generator (15) associated with the main expansion turbine for generating electric power. Pressure reducing structure (28) reduces pressure of compressed air from a source of compressed air to atmospheric pressure and thus to reduce a temperature of the compressed air from the source of compressed air to a temperature below ambient temperature when exhausted from the pressure reducing structure. Structure (32) is associated with the pressure reducing structure to permit mixing of the air exhausted from the pressure reducing structure and the ambient inlet air to reduce a temperature of inlet air to the main compressor and thus increase the combustion turbine assembly power.
    • 燃气轮机发电系统(10)包括燃气轮机组件(11),燃气轮机组件(11)包括用于接收环境入口空气的主压缩机(12),与主压缩机相关联的主膨胀涡轮机(14),用于接收 来自主压缩机的压缩空气并供给主膨胀涡轮机,以及与主膨胀涡轮机相关联的发电机(15),用于发电。 减压结构(28)将压缩空气源压缩空气的压力降低到大气压力,并且因此当从减压结构排出时将来自压缩空气源的压缩空气的温度降低到低于环境温度的温度。 结构(32)与减压结构相关联以允许从减压结构排出的空气与环境入口空气混合以降低进入主压缩机的入口空气的温度并因此增加燃气轮机组件的功率。
    • 3. 发明申请
    • POWER AUGMENTATION OF COMBUSTION TURBINES BY EXTRACTION OF ADDITIONAL EXPANDER AIRFLOW AND INJECTION THEREOF UPSTREAM OF COMBUSTORS
    • 通过提取附加的膨胀器气流和燃烧器上游的喷射功率增加燃烧涡轮机
    • WO2008091503A4
    • 2009-02-26
    • PCT/US2008000433
    • 2008-01-11
    • NAKHAMKIN MICHAEL
    • NAKHAMKIN MICHAEL
    • F02C6/00
    • F02C6/16F02C6/18F02C7/10Y02E20/16Y02E60/15
    • A combustion turbine power generation system includes a combustion turbine assembly (10) including a main compressor (12) constructed and arranged to receive ambient inlet air, a main expansion turbine (14) operatively associated with the main compressor, combustors (16) constructed and arranged to receive compressed air from the main compressor and to feed the main expansion turbine, and an electric generator (15) associated with the main expansion turbine for generating electric power. A compressed air storage (18) stores compressed air. A heat exchanger (24) is constructed and arranged to receive a source of heat and to receive compressed air from the storage so as to heat compressed air received from the storage. An air expander (28) is associated with the heat exchanger and is constructed and arranged to expand the heated compressed air for producing additional electric power. Airflow, extracted from the expander, is injected into the combustion turbine assembly upstream of the combustors.
    • 一种燃气轮机发电系统包括:燃气轮机组件(10),其包括构造和布置成接收环境入口空气的主压缩机(12),与主压缩机可操作地关联的主膨胀涡轮机(14),构造成的燃烧器(16) 布置成接收来自主压缩机的压缩空气并供给主膨胀涡轮机,以及与主膨胀涡轮机关联的发电机(15),用于产生电力。 压缩空气存储器(18)存储压缩空气。 热交换器(24)被构造和布置成接收热源并从储存器接收压缩空气以加热从储存器接收的压缩空气。 空气膨胀器(28)与热交换器相连,并构造和布置成使加热的压缩空气膨胀以产生额外的电力。 从膨胀器抽出的气流被喷射到燃烧器上游的燃气轮机组件中。
    • 4. 发明申请
    • POWER AUGMENTATION OF COMBUSTION TURBINES BY INJECTION OF COLD AIR UPSTREAM OF COMPRESSOR
    • 通过注射压缩机冷空气上升装置燃烧涡轮机的功率补充
    • WO2008091502A3
    • 2009-01-15
    • PCT/US2008000432
    • 2008-01-11
    • NAKHAMKIN MICHAEL
    • NAKHAMKIN MICHAEL
    • F02C7/12
    • F02C6/16Y02E20/16Y02E60/15
    • A combustion turbine power generation system (10) includes a combustion turbine assembly (11) including a main compressor (12) for receiving ambient inlet air, a main expansion turbine (14) associated with the main compressor, a combustor (16) for receiving compressed air from the main compressor and to feed the main expansion turbine, and an electric generator (15) associated with the main expansion turbine for generating electric power. Pressure reducing structure (28) reduces pressure of compressed air from a source of compressed air to atmospheric pressure and thus to reduce a temperature of the compressed air from the source of compressed air to a temperature below ambient temperature when exhausted from the pressure reducing structure. Structure (32) is associated with the pressure reducing structure to permit mixing of the air exhausted from the pressure reducing structure and the ambient inlet air to reduce a temperature of inlet air to the main compressor and thus increase the combustion turbine assembly power.
    • 燃气轮机发电系统(10)包括燃气轮机组件(11),其包括用于接收环境入口空气的主压缩机(12),与主压缩机相关联的主膨胀涡轮机(14),用于接收 来自主压缩机的压缩空气并供给主膨胀涡轮机,以及与用于发电的主膨胀涡轮机相关联的发电机(15)。 减压结构(28)降低了压缩空气从压缩空气压力到大气压力的压力,从而当从减压结构排出时,将压缩空气从压缩空气源的温度降低到低于环境温度的温度。 结构(32)与减压结构相关联,以允许从减压结构排出的空气与环境入口空气混合,以降低主压缩机的入口空气的温度,从而增加燃气轮机组件的功率。
    • 5. 发明申请
    • POWER AUGMENTATION OF COMBUSTION TURBINES BY EXTRACTION OF ADDITIONAL EXPANDER AIRFLOW AND INJECTION THEREOF UPSTREAM OF COMBUSTORS
    • 通过提取附加膨胀机气流和燃油喷射上升燃油涡轮机的功率补充
    • WO2008091503A3
    • 2009-01-08
    • PCT/US2008000433
    • 2008-01-11
    • NAKHAMKIN MICHAEL
    • NAKHAMKIN MICHAEL
    • F02C6/00
    • F02C6/16F02C6/18F02C7/10Y02E20/16Y02E60/15
    • A combustion turbine power generation system includes a combustion turbine assembly (10) including a main compressor (12) constructed and arranged to receive ambient inlet air, a main expansion turbine (14) operatively associated with the main compressor, combustors (16) constructed and arranged to receive compressed air from the main compressor and to feed the main expansion turbine, and an electric generator (15) associated with the main expansion turbine for generating electric power. A compressed air storage (18) stores compressed air. A heat exchanger (24) is constructed and arranged to receive a source of heat and to receive compressed air from the storage so as to heat compressed air received from the storage. An air expander (28) is associated with the heat exchanger and is constructed and arranged to expand the heated compressed air for producing additional electric power. Airflow, extracted from the expander, is injected into the combustion turbine assembly upstream of the combustors.
    • 燃气轮机发电系统包括燃气轮机组件(10),该燃气轮机组件(10)包括构造和布置成接收环境入口空气的主压缩机(12),与主压缩机可操作地相关联的主膨胀涡轮机(14),构成和 被布置成从主压缩机接收压缩空气并且供给主膨胀涡轮机;以及与主膨胀涡轮机相关联的用于产生电力的发电机(15)。 压缩空气存储器(18)存储压缩空气。 热交换器(24)被构造和布置成接收热源并从存储器接收压缩空气,以便加热从储存器接收的压缩空气。 空气膨胀器(28)与热交换器相关联,并被构造和布置成使加热的压缩空气膨胀以产生额外的电力。 从膨胀机提取的气流被喷射到燃烧器上游的燃气轮机组件中。