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    • 2. 发明授权
    • Thermoelectric generator and method of generating electricity
    • 热电发电机及发电方式
    • US08129882B2
    • 2012-03-06
    • US12593413
    • 2008-03-18
    • Gunnar RussbergMikael DahlgrenStefan Thorburn
    • Gunnar RussbergMikael DahlgrenStefan Thorburn
    • H02N10/00H01L35/30H01L37/00H01L35/28
    • H01L37/04F16K11/0853Y02E10/34
    • A generator device for converting thermal energy to electric energy. A magnetic circuit includes at least a portion made of a magnetic material. A temperature-varying device varied the temperature in the portion made of the magnetic material alternately above and below a phase transition temperature of the magnetic material to thereby vary the reluctance of the magnetic circuit. A coil is arranged around the magnetic circuit, in which electric energy is induced in response to a varying magnetic flux in the magnetic circuit. A magnetic flux generator creates magnetic flux in the magnetic circuit. The temperature-varying device alternately passes hot and cold fluid by, or through holes in, the portion made of the magnetic material of the magnetic circuit in a single direction to thereby vary the temperature in the portion made of the magnetic material alternately above and below the phase transition temperature of the magnetic material.
    • 一种用于将热能转换为电能的发生器装置。 磁路包括由磁性材料制成的至少一部分。 温度变化的装置在由磁性材料制成的部分中交替地在磁性材料的相变温度之上和之下交替地改变温度,从而改变磁路的磁阻。 线圈围绕磁路布置,其中响应于磁路中变化的磁通量而感应电能。 磁通发生器在磁路中产生磁通量。 温度变化装置在一个方向上交替地将热和冷的流体通过磁路的磁性材料制成的部分或通过孔进行传递,从而使由磁性材料制成的部分的温度交替地上下变化 磁性材料的相变温度。
    • 4. 发明申请
    • DEVICE AND METHOD FOR CONVERTING ENERGY
    • 用于转换能量的装置和方法
    • US20100109323A1
    • 2010-05-06
    • US12593465
    • 2008-03-18
    • Gunnar RussbergMikael DahlgrenStefan Thorburn
    • Gunnar RussbergMikael DahlgrenStefan Thorburn
    • F02D29/06H01L37/04
    • H01L37/04
    • A device for transforming thermal energy to electric energy including a magnetic circuit including at least a portion made of a magnetic material, a temperature-varying device for varying the temperature in the portion made of the magnetic material alternately above and below a phase transition temperature of the magnetic material to thereby vary the reluctance of the magnetic circuit, and a coil arranged around the magnetic circuit, in which electric energy is induced in response to a varying magnetic flux in the magnetic circuit. A capacitor is connected in parallel with the coil to thereby form a resonant circuit, wherein the resonance frequency of the resonant circuit and the frequency of the temperature variation above and below the phase transition temperature of the magnetic material are dependent on one another to optimize the electric power output.
    • 一种用于将热能转换为电能的装置,包括至少包括由磁性材料制成的部分的磁路,用于改变由磁性材料制成的部分中的温度交替上升和低于相变温度的温度变化装置 磁性材料由此改变磁路的磁阻,以及围绕磁路布置的线圈,其中响应于磁路中变化的磁通而感应出电能。 电容器与线圈并联连接,从而形成谐振电路,其中谐振电路的谐振频率和高于和低于磁性材料的相变温度的温度变化的频率彼此相关,以使 电力输出。
    • 8. 发明授权
    • Thermomagnetic generator device and energy converting method
    • 热磁发电装置及能量转换方法
    • US08304957B2
    • 2012-11-06
    • US12593350
    • 2008-03-18
    • Gunnar RussbergMikael DahlgrenStefan Thorburn
    • Gunnar RussbergMikael DahlgrenStefan Thorburn
    • H01L37/04
    • H01L37/04
    • A generator device for converting thermal energy to electric energy. A magnetic circuit includes at least a portion made of a magnetic material. A temperature-varying device varies the temperature in the portion made of the magnetic material alternately above and below a phase transition temperature of the magnetic material to thereby vary the reluctance of the magnetic circuit. A coil is arranged around the magnetic circuit, in which electric energy is induced in response to a varying magnetic flux in the magnetic circuit. A magnetic flux generator generates magnetic flux in the magnetic circuit. A controllable electric circuit device is connected to the coil and a control device controls the controllable electric circuit device.
    • 一种用于将热能转换为电能的发生器装置。 磁路包括由磁性材料制成的至少一部分。 温度变化装置在磁性材料的相变温度交替上下交替地改变由磁性材料制成的部分的温度,从而改变磁路的磁阻。 线圈围绕磁路布置,其中响应于磁路中变化的磁通量而感应电能。 磁通发生器在磁路中产生磁通量。 可控电路装置连接到线圈,控制装置控制可控电路装置。
    • 10. 发明申请
    • Electricity Generation System
    • 发电系统
    • US20110204721A1
    • 2011-08-25
    • US13073685
    • 2011-03-28
    • Mikael DahlgrenGunnar RussbergStefan Thorburn
    • Mikael DahlgrenGunnar RussbergStefan Thorburn
    • H02J3/38H01L35/28
    • H01L37/04Y02E10/34Y10T307/642
    • An electricity generation system having a low frequency alternating heat and cold distribution system provided for alternately distributing heat and cold at low frequency; a heat-electricity conversion system operatively connected to the low frequency alternating heat and cold distribution system and provided for generating electricity in response to the alternately distributed heat and cold; an electric power delivery system operatively connected to the heat-electricity conversion system and provided for distributing the generated electricity; and a process control system operatively connected to the low frequency alternating heat and cold distribution system, to the heat-electricity conversion system, and to the electric power delivery system in order to control the operations thereof, is provided.
    • 具有低频交替冷热分配系统的发电系统,其设置为以低频交替分配热和冷; 一个热电转换系统,可操作地连接到低频交替的热和冷分配系统,并且被提供用于响应于交替分布的热和冷发电; 电力输送系统,其可操作地连接到所述热电转换系统并且用于分配所产生的电力; 并且提供了可操作地连接到低频交替冷热分配系统,到热电转换系统和电力输送系统以便控制其操作的过程控制系统。