Methods and systems for controlling a reactive power contribution to reactive power flowing in an electricity distribution network, so as to optimize this reactive power flow are described. A reactive power characteristic of electrical power flowing in the electricity distribution network is detecte
Methods and systems for controlling a reactive power contribution to reactive power flowing in an electricity distribution network, so as to optimize this reactive power flow are described. A reactive power characteristic of electrical power flowing in the electricity distribution network is detected at a power device. The reactive power characteristic relates to a reactive power component of electricity flowing in the network. On the basis of the detected reactive power characteristic a reactive power contribution to the electricity distribution network is controlled so as to adjust a value of the detected reactive power characteristic. This enables individual power consumption and/or provision devices to react autonomously to local variations in the electricity distribution network, and to provide a reactive power contribution, to drive the detected reactive power characteristic towards a desired value.
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1. A reactive power control device for use with a power device, the power device consuming power from, and/or providing power to, an electricity distribution network when connected thereto, wherein electrical power flows in the electricity distribution network, and the power consumed from and/or pro
1. A reactive power control device for use with a power device, the power device consuming power from, and/or providing power to, an electricity distribution network when connected thereto, wherein electrical power flows in the electricity distribution network, and the power consumed from and/or provided to the electricity distribution network by the power device has different reactive power characteristics as compared to the electrical power flowing in the electricity distribution network, the reactive power control device comprising: detecting means for detecting, at the power device, a first reactive power characteristic, the first reactive power characteristic being a characteristic of electrical power flowing in the electricity distribution network, and relating to a reactive power component of electricity flowing in said electricity distribution network;determining means configured to determine, based on said detected first reactive power characteristic, whether said reactive power component of electricity flowing in said electricity distribution network is more inductive than a predefined value or whether it is more capacitive than a predefined value; and control means configured to control, on the basis of said detected first reactive power characteristic, a second reactive power characteristic, the second reactive power characteristic being a characteristic of the electricial power consumed from and/or provided to the electricity distribution network by the power device, thereby adjusting a value of said detected first reactive power characteristic, wherein the control means is configured to:control said power device to provide a capacitive contribution to the reactive power flowing in the electricity distribution network in response to a determination that the first reactive power component is more inductive than the predefined value; andcontrol said power device to provide an inductive contribution to the reactive power flowing in the electricity distribution network in response to a determination that the first reactive power component is more capacitive than the predefined value. 2. A reactive power control device according to claim 1, wherein the first reactive power characteristic relates to a phase difference between voltage and current of electricity flowing in the electricity distribution network and the predefined value comprises a predefined phase difference value. 3. A reactive power control device according to claim 1, wherein: said detecting means is configured to detect a change in said first reactive power characteristic; andsaid control means is configured to change said second reactive power characteristic, in response to said detecting means detecting a transition of a value of said first reactive power characteristic across a threshold value. 4. A reactive power control device according to claim 3, wherein said control means is configured to: change a value of said second reactive power characteristic from a first predetermined voice to a second predetermined value in response to a value of said detected first reactive power characteristic changing from a value less than a first threshold value to a value greater than said first threshold value; and change a value of said second reactive power characteristic from said second predetermined value to said first predetermined value in response to a value of said detected first reactive power characteristic changing from a value greater than a second threshold value to a value less than said second threshold value, said second threshold value having a magnitude less than said first threshold value. 5. A reactive power control device according to claim 3, wherein said control means is configured to change said reactive power in response to a predetermined time period elapsing after said detecting means detects said change in said first reactive power characteristic. 6. A reactive power control device according to claim 1, wherein the electricity flowing in the electricity distribution network comprises an alternating current electricity flow having a predetermined period, and the control means is configured to control a switching means to selectively interrupt provision of power to and/or from the power device during one or more portions of the predetermined period. 7. A reactive power control device according to claim 1, wherein the control means comprises a current modulation means. 8. A reactive power control device according to claim 7, wherein the control means comprises a pulse width modulation means, the power device comprises a power consumption device for consuming power from the electricity distribution network, and the control means is configured to control a duty cycle characteristic of the power consumption of the power consumption device. 9. A reactive power control device according to claim 1, wherein the power device comprises a power provision device for providing electric power to the electricity distribution network, the power provision device being configured to provide a direct current, and the control means is configured to control a direct current to alternating current conversion means. 10. A. reactive power control device according to claim 1 comprising means for detecting one or more electricity quality characteristic of electricity flowing in the electricity distribution network, wherein said control means is configured to control a characteristic of power provided and/or consumed by the power device so as to alter said detected electricity quality characteristic, the detected one or more electricity quality characteristic comprising at least one of; harmonics in the electricity flow; random or repetitive variations in voltage; network imbalance; oscillations in power flow; transients in the power flow. 11. A reactive power control device according to claim 1, wherein the power device comprises a power provision device for providing electric power to the electricity distribution network, the power provision device comprising at least one of: a photovoltaic generation device, a personal electric vehicle, a personal electric bicycle and a domestic renewable energy source. 12. A reactive, power control device according to claim 1, wherein the electricity distribution network comprises a transmission grid and a distribution grid, the transmission grid being connected to the distribution grid via one or more transformers and providing electric power thereto, and the distribution grid providing power to a plurality of domestic and/or industrial users, wherein the power device is for consuming power from, or providing power to, said distribution grid. 13. A reactive power control device according to claim 1, further comprising a communications interface for receiving an activation signal from a control center, wherein said control means is a configured to perform said control of said second reactive power characteristic in response to receipt of said activation signal at said communications interface. 14. A system for use in controlling reactive power in an electricity distribution network, the system comprising: a distributed plurality of reactive power control devices according to claim 13, each controlling a respective power device connected to the electricity distribution network; anda control center for sending a said activation signal to each of the distributed plurality of reactive power control devices. 15. A system according to claim 14, wherein different ones of the plurality of reactive power control devices are configured to initiate performance of said control at different intervals after receiving said activation signal. 16. A method for use in controlling reactive power flow in an electricity distribution network connected to one or more power devices, the one or more power devices consuming power from, and/or providing power to, the electricity distribution network, wherein electrical power flows in the electricity distribution network, and the power consumed from and/or provided to the electricity distribution network by the power device has different reactive power characteristics as compared to the electrical power flowing in the electricity distribution network, the method comprising: detecting, at a said power device, a first reactive power characteristic, the first reactive power characteristic being a characteristic of electrical power flowing in the electricity distribution network and relating to a reactive power component of electricity flowing in said electricity distribution network;determining, based on said detected first reactive power characteristic, whether said reactive power component of electricity flowing in said electricity distribution network is more inductive than a predefined value or whether it is more capacitive than a predefined value; and controlling, on the basis of said detected first reactive power characteristic, a second reactive power characteristic, the second reactive power characteristic being a characteristic of the power consumed from and/or provided to the electricity distribution network by the power device, thereby adjusting a value of said detected first reactive power characteristic, wherein the controlling comprises:controlling said power device to provide a capacitive contribution to the reactive power flowing in the electricity distribution network in response to a determination that the first reactive power component is more inductive than the predefined value; andcontrolling said power device to provide an inductive contribution to the reactive power flowing in the electricity distribution network in response to a determination that the first reactive power component is more capacitive than the predefined value. 17. A method according to claim 16, comprising: generating a threshold value according to a random value generation process;detecting a change in said first reactive power characteristic; andchanging said second reactive power characteristic, in response to a detected transition of a value of said first reactive power characteristic across the threshold value. 18. A method according to claim 17, comprising: determining a time period value according to a random time period value generation process; andchanging said second reactive power characteristic in response to a predetermined time period elapsing after detecting said change in said first reactive power characteristic. 19. A reactive power control device for use with a power device for consuming power from or providing power to, an electricity distribution network when connected thereto, the reactive power control device comprising: detecting means for detecting, at the power device, a reactive power characteristic, the reactive power characteristic being a characteristic of electrical power flowing in the electricity distribution network and relating to a reactive power component of electricity flowing in said electricity distribution network;determining means configured to determine, based on said detected reactive power characteristic, whether said reactive power component of electricity flowing in said electricity distribution network is more inductive than a predefined value or whether it is more capacitive than the predefined value; andcontrol means configured to: control said power device to provide a capacitive contribution to the reactive power flowing in the electricity distribution network in response to a determination that the first reactive power component is more inductive than a predefined value; andcontrol said power to provide an inductive contribution to the reactive power flowing in the electricity distribution network in response to a determination that the first reactive power component is more capacitive than a predefined value.
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이 특허에 인용된 특허 (11)
Hatta Yasunori (Kanagawa JPX) Eguchi Naoya (Kanagawa JPX), Control circuit for an inverter operable in an individual mode and an interconnection mode.
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