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    • 5. 发明申请
    • Ejector
    • 喷射器
    • US20140157807A1
    • 2014-06-12
    • US13981637
    • 2011-12-08
    • Frederick J. CogswellJinliang WangParmesh Verma
    • Frederick J. CogswellJinliang WangParmesh Verma
    • F25B41/00
    • F25B41/00F25B2341/0011F25B2500/01
    • An ejector (200; 300; 400; 600) has a primary inlet (40), a secondary inlet (42), and an outlet (44). A primary flowpath extends from the primary inlet to the outlet. A secondary flowpath extends from the secondary inlet to the outlet. A mixer convergent section (114) is downstream of the secondary inlet. A motive nozzle (100) surrounds the primary flowpath upstream of a junction with the secondary flowpath. The motive nozzle has an exit (110). A secondary inlet passageway along the secondary flowpath has a terminal portion oriented to discharge a secondary flow along the secondary flowpath at an angle of less than 75° off-parallel to a local direction of the primary flowpath.
    • 喷射器(200; 300; 400; 600)具有主入口(40),次入口(42)和出口(44)。 主流路从主入口延伸到出口。 次级流路从次级入口延伸到出口。 混合器收敛部分(114)在次级入口的下游。 动力喷嘴(100)围绕与二次流动路径的连接点上游的主流路。 动力喷嘴具有出口(110)。 沿着次级流路的次级入口通道具有端子部分,该端子部分被定向成沿着次级流动路径以与主流动路径的局部方向平行的小于75°的角度排出二次流。
    • 6. 发明申请
    • Ejector
    • 喷射器
    • US20130277448A1
    • 2013-10-24
    • US13993207
    • 2011-01-04
    • Hongsheng LiuJiang ZouFrederick J. CogswellJinliang WangParmesh Verma
    • Hongsheng LiuJiang ZouFrederick J. CogswellJinliang WangParmesh Verma
    • F25B41/00
    • F25B41/00F04F5/461F25B49/02F25B2341/0012F25B2341/0013
    • An ejector (200; 300; 320; 340; 400; 430; 460; 480) has a primary inlet (40), a secondary inlet (42), and an outlet (44). A primary flowpath extends from the primary inlet (40) to the outlet (44) and a secondary flowpath extends from the secondary inlet (42) to the outlet (44), merging with the primary flowpath. A motive nozzle (100) surrounds the primary flowpath upstream of a junction with the secondary flowpath. The motive nozzle (100) has a throat (106) and an exit (110). The ejector (200; 300; 320; 340; 400; 430; 460; 480) further has a means (204, 210; 304; 322; 342; 402; 432; 462; 482) for varying an effective area of the exit (110) or simultaneously varying the effective area of the exit (110) and an effective area of the throat (106).
    • 喷射器(200; 300; 320; 340; 400; 430; 460; 480)具有主入口(40),次入口(42)和出口(44)。 主流路从主入口(40)延伸到出口(44),并且次级流路从次级入口(42)延伸到出口(44),与主流路合并。 动力喷嘴(100)围绕与二次流动路径的连接点上游的主流动路径。 动力喷嘴(100)具有喉部(106)和出口(110)。 喷射器(200; 300; 320; 340; 400; 430; 460; 480)还具有用于改变出口的有效面积的装置(204,210; 304; 322; 342; 402; 432; 462; (110)或同时改变出口(110)的有效面积和喉部(106)的有效面积。
    • 7. 发明授权
    • Ejector cycle with dual heat absorption heat exchangers
    • 双吸热换热器的喷射器循环
    • US09523364B2
    • 2016-12-20
    • US13990227
    • 2011-07-22
    • Jinliang WangParmesh VermaFrederick J. Cogswell
    • Jinliang WangParmesh VermaFrederick J. Cogswell
    • F25B1/06F25B1/10F25B39/04F25B41/00F04D7/00F25B9/00F25B9/08
    • F25B9/008F04D7/00F25B9/08F25B41/00F25B2309/061F25B2341/0011F25B2341/0014F25B2341/0015F25B2400/0407F25B2400/0409F25B2400/23
    • A system (20) has a first compressor (22) and a second compressor (52). A heat rejection heat exchanger (30) is coupled to the first and second compressors to receive refrigerant compressed by the compressors. The system includes an economizer for receiving refrigerant from the heat rejection heat exchanger and reducing an enthalpy of a first portion of the received refrigerant while increasing an enthalpy of a second portion. The second portion is returned to the compressor. The ejector (66) has a primary inlet (70) coupled to the means to receive a first flow of the reduced enthalpy refrigerant. The ejector has a secondary inlet (72) and an outlet (74). The outlet is coupled to the first compressor to return refrigerant to the first compressor. A first heat absorption heat exchanger (80) is coupled to the economizer to receive a second flow of the reduced enthalpy refrigerant and is upstream of the secondary inlet of the ejector. A second heat absorption heat exchanger (90) is between the outlet of the ejector and the first compressor.
    • 系统(20)具有第一压缩机(22)和第二压缩机(52)。 排热热交换器(30)联接到第一和第二压缩机以接收由压缩机压缩的制冷剂。 该系统包括用于从排热热交换器接收制冷剂并且减少接收的制冷剂的第一部分的焓同时增加第二部分的焓的节能器。 第二部分返回到压缩机。 喷射器(66)具有联接到装置的主入口(70),以接收还原焓制冷剂的第一流。 喷射器具有次级入口(72)和出口(74)。 出口连接到第一压缩机以将制冷剂返回到第一压缩机。 第一吸热式热交换器(80)联接到节能器以接收还原焓制冷剂的第二流,并且在喷射器的次级入口的上游。 第二吸热式热交换器(90)位于喷射器的出口和第一压缩机之间。
    • 8. 发明申请
    • Ejector Cycle
    • 喷射器循环
    • US20130251505A1
    • 2013-09-26
    • US13990227
    • 2011-07-22
    • Jinliang WangParmesh VermaFrederick J. Cogswell
    • Jinliang WangParmesh VermaFrederick J. Cogswell
    • F04D7/00
    • F25B9/008F04D7/00F25B9/08F25B41/00F25B2309/061F25B2341/0011F25B2341/0014F25B2341/0015F25B2400/0407F25B2400/0409F25B2400/23
    • A system (20) has a first compressor (22) and a second compressor (52). A heat rejection heat exchanger (30) is coupled to the first and second compressors to receive refrigerant compressed by the compressors. The system includes an economizer for receiving refrigerant from the heat rejection heat exchanger and reducing an enthalpy of a first portion of the received refrigerant while increasing an enthalpy of a second portion. The second portion is returned to the compressor. The ejector (66) has a primary inlet (70) coupled to the means to receive a first flow of the reduced enthalpy refrigerant. The ejector has a secondary inlet (72) and an outlet (74). The outlet is coupled to the first compressor to return refrigerant to the first compressor. A first heat absorption heat exchanger (80) is coupled to the economizer to receive a second flow of the reduced enthalpy refrigerant and is upstream of the secondary inlet of the ejector. A second heat absorption heat exchanger (90) is between the outlet of the ejector and the first compressor.
    • 系统(20)具有第一压缩机(22)和第二压缩机(52)。 排热热交换器(30)联接到第一和第二压缩机以接收由压缩机压缩的制冷剂。 该系统包括用于从排热热交换器接收制冷剂并且减少接收的制冷剂的第一部分的焓同时增加第二部分的焓的节能器。 第二部分返回到压缩机。 喷射器(66)具有联接到装置的主入口(70),以接收还原焓制冷剂的第一流。 喷射器具有次级入口(72)和出口(74)。 出口连接到第一压缩机以将制冷剂返回到第一压缩机。 第一吸热式热交换器(80)联接到节能器以接收还原焓制冷剂的第二流,并且在喷射器的次级入口的上游。 第二吸热式热交换器(90)位于喷射器的出口和第一压缩机之间。