Wind power generation system
First Claim
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1. A wind power generation system comprising:
- a wind turbine in which at least one blade is mounted on an axis;
a generator for generating multiphase alternating current power by rotation of the axis; and
a power conversion device for performing PWM-control for adjustment and output of generated power of the generator;
wherein the power conversion device performs the PWM-control by providing for each phase a control paused period in which no overlap occurs;
wherein the power conversion device performs the PWM-control by comparing the command value based on a frequency of a connected terminal voltage with a triangular wave; and
wherein the frequency of the triangular wave is 6n (n is a positive integer) times as high as a frequency of the terminal voltage.
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Abstract
A wind power generation system includes: a wind turbine in which at least one blade is mounted on an axis; a generator for generating multiphase alternating current power by rotation of the axis; and a multiphase power conversion device for performing PWM-control for adjustment and output of generated power of the generator. With the configuration, the PWM-control provides for each phase a control paused period in which no overlap occurs. Thus, the pulse density between the control period and the control paused period of other phases is low, thereby generating high and low density in an inter-phase pulse.
27 Citations
4 Claims
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1. A wind power generation system comprising:
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a wind turbine in which at least one blade is mounted on an axis; a generator for generating multiphase alternating current power by rotation of the axis; and a power conversion device for performing PWM-control for adjustment and output of generated power of the generator; wherein the power conversion device performs the PWM-control by providing for each phase a control paused period in which no overlap occurs; wherein the power conversion device performs the PWM-control by comparing the command value based on a frequency of a connected terminal voltage with a triangular wave; and wherein the frequency of the triangular wave is 6n (n is a positive integer) times as high as a frequency of the terminal voltage.
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2. The wind power generation system according to claim 1,
wherein the generator is a permanent magnetic generator; -
wherein the power conversion device comprises a first power converter capable of bidirectionally converting AC power and DC power;
a capacitor for storing the DC power; and
a second power converter capable of bidirectionally converting DC power and AC power; andwherein a coil side of the permanent magnetic generator is connected to an alternating current side of the first power converter, and an alternating current side of the second power converter is connected to a power system.
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3. A wind power generation system comprising:
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a wind turbine in which at least one blade is mounted on an axis; a generator for generating multiphase alternating current power by rotation of the axis; a power conversion device for performing PWM-control for adjustment and output of generated power of the generator; wherein the power conversion device performs the PWM-control by providing for each phase a control paused period in which no overlap occurs; wherein the power conversion device provides the control paused period when a rotation speed of the generator is equal to or less than, or more than a predetermined value; and wherein the predetermined value is obtained by an amount of heat of a switching element.
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4. A wind power generation system comprising:
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a wind turbine in which at least one blade is mounted on an axis; a generator for generating multiphase alternating current power by rotation of the axis; and a power conversion device for performing PWM-control for adjustment and output of generated power of the generator; wherein the power conversion device performs the PWM-control by providing for each phase a control paused period in which no overlap occurs; wherein the generator is a synchronous generator; wherein the power conversion device comprises a first power converter capable of bidirectionally converting AC power and DC power, a capacitor for storing the DC power; and
a second power converter capable of bidirectionally converting DC power and AC power; andwherein a stator side of the synchronous generator is connected to an alternating current side of the first power converter, an alternating current side of the second power converter is connected to a power system, and the period is determined by a system frequency of the power system.
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Specification
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Current AssigneeHitachi, Ltd.
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Original AssigneeHitachi, Ltd.
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InventorsIchinose, Masaya, Futami, Motoo, Matsutake, Mitsugu, Oohara, Shinya
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Primary Examiner(s)GONZALEZ, JULIO C
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Application NumberUS11/954,453Publication NumberTime in Patent Office902 DaysField of Search290/55, 290/44, 415/4.2, 415/4.1, 415/2.1, 415/4.5, 415/7, 603/98, 416/7, 416/132.BUS Class Current290/44CPC Class CodesF03D 7/028 controlling wind motor outp...F03D 9/255 connected to electrical dis...F05B 2220/70642 of the synchronous typeH02P 21/22 Current control, e.g. using...H02P 2101/15 for wind-driven turbinesH02P 9/007 Control circuits for doubly...Y02E 10/72 Wind turbines with rotation...
