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
    • 3. 发明公开
    • COMPRESSED AIR ENERGY STORAGE AND POWER GENERATION DEVICE
    • 压缩空气能量储存和发电装置
    • EP3296546A1
    • 2018-03-21
    • EP16792608.8
    • 2016-05-02
    • Kabushiki Kaisha Kobe Seiko Sho (Kobe Steel, Ltd.)
    • MATSUKUMA, MasakiSAKAMOTO, KanamiSARUTA, HirokiTOSHIMA, MasatakeKUBO, Yohei
    • F02C6/16F02C6/14
    • A compressed air energy storage and power generation device 2 comprises a motor 46, a compressor 8, a pressure accumulation tank 10, an expander 12, and a generator 44. The motor 46 is driven by a fluctuating input power. The compressor 8 is mechanically connected to the motor 46 and compresses air. The pressure accumulation tank 10 is fluidly connected to the compressor 8 and stores air compressed by the compressor 8. The expander 12 is fluidly connected to the pressure accumulation tank 10 and is driven by compressed air supplied from the pressure accumulation tank 10. The generator 44 is mechanically connected to the expander 12 and generates power to be supplied to a user 6. A cooling water flow path, whereby water flows inside a cooling water pipe 42 for cooling air that is a working fluid, is provided inside a casing 8c of the compressor 8. As a result, a compressed air energy storage and power generation device 2 can be provided that is capable of efficiently reducing compressive axial force and of reducing power consumption.
    • 压缩空气能量储存和发电装置2包括马达46,压缩机8,蓄压箱10,膨胀机12和发电机44.马达46由变动的输入动力驱动。 压缩机8机械连接到马达46并压缩空气。 蓄压箱10流体连接到压缩机8并存储由压缩机8压缩的空气。膨胀机12流体连接到蓄压箱10并且由蓄压箱10供应的压缩空气驱动。发电机44 与膨胀机12机械连接并产生供应给使用者6的动力。在冷却水管42内冷却作为工作流体的空气的冷却水管42内设置有冷却水流路, 结果,可以提供压缩空气能量存储和发电装置2,其能够有效地减小压缩轴向力和减少功耗。
    • 9. 发明公开
    • COMPRESSED AIR STORAGE POWER GENERATION DEVICE
    • 压缩空气储存发电装置
    • EP3296544A1
    • 2018-03-21
    • EP16792523.9
    • 2016-04-22
    • Kabushiki Kaisha Kobe Seiko Sho (Kobe Steel, Ltd.)
    • KUBO, YoheiTOSHIMA, MasatakeMATSUKUMA, MasakiSARUTA, HirokiSAKAMOTO, Kanami
    • F02C6/16F01K27/00F01K27/02F02C1/05F28D20/00H02J15/00
    • F01K27/02F01D15/10F01K3/12F01K27/00F02C1/04F02C1/05F02C6/16F05D2220/60F05D2220/76F05D2260/213F05D2260/42F28D20/00F28D20/0034F28D2020/0069F28D2020/0082H02J15/00H02K7/14H02K51/00Y02E60/142Y02E60/15
    • A compressed air energy storage power generation device 2 includes a compressor 6, a pressure accumulator tank 8, and an expander 10. The compressor 6 compresses air by being driven with renewable energy. The pressure accumulator tank 8 stores the air compressed by the compressor 6. The expander 10 is driven by the compressed air. A power generator 36 is mechanically connected to the expander 10 and generates electric power, which is to be supplied to a demander. The compressed air energy storage power generation device 2 includes: first heat exchanges 16 for recovering compression heat; temperature sensors 29a to 29c that measure the temperatures of the heat media having the temperature increased by the first heat exchangers 16; high-temperature heat medium tanks 19 and 20, each of which individually stores the heat medium depending on the temperature thereof; second heat exchangers 22 for heating compressed air; a low-temperature heat medium tank 21 that stores the heat medium having the temperature decreased in the second heat exchanger 22; and a control unit 40 that switches high-temperature heat storage switching valves 31a and 31b to thereby supply the heat medium from the first heat exchangers 16 to either of the high-temperature heat medium tanks 19 and 20. Thus, the compressed air energy storage power generation device 2 can prevent the high-temperature heat medium from mixing with the low-temperature heat medium.
    • 压缩空气能量储存发电装置2包括压缩机6,压力储存罐8和膨胀机10.压缩机6通过用可再生能量驱动而压缩空气。 蓄压罐8储存由压缩机6压缩的空气。膨胀机10由压缩空气驱动。 发电机36机械连接到膨胀机10并产生将被供应给需求者的电力。 压缩空气能量储存发电装置2包括:用于回收压缩热的第一热交换器16; 温度传感器29a至29c,其测量具有由第一热交换器16增加的温度的热介质的温度; 高温热媒介罐19和20,每个高温热媒罐19和20分别根据其温度存储热媒; 第二热交换器22,用于加热压缩空气; 在第二热交换器22中储存温度下降的热介质的低温热媒罐21, 以及控制单元40,其切换高温储热切换阀31a和31b,从而将来自第一热交换器16的热介质供应到高温热介质储罐19和20中的任一个。因此,压缩空气储能器 发电装置2能够防止高温的热介质与低温的热介质混合。