IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0774507
(2010-05-05)
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등록번호 |
US-8577510
(2013-11-05)
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발명자
/ 주소 |
- Powell, Phillip W.
- Parker, Steven K.
- Bollbach, Melissa A.
- Pruett, Mark L.
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출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
26 인용 특허 :
218 |
초록
▼
A voltage control and conservation (VCC) system is provided, which includes three subsystems, including an energy delivery (ED) system, an energy control (EC) system and an energy regulation (ER) system. The VCC system is configured to monitor energy usage at the ED system and determine one or more
A voltage control and conservation (VCC) system is provided, which includes three subsystems, including an energy delivery (ED) system, an energy control (EC) system and an energy regulation (ER) system. The VCC system is configured to monitor energy usage at the ED system and determine one or more energy delivery parameters at the EC system. The EC system may then provide the one or more energy delivery parameters to the ER system to adjust the energy delivered to a plurality of users for maximum energy conservation.
대표청구항
▼
1. A voltage control and energy conservation system for an electric power transmission and distribution grid configured to supply electric power to a plurality of user locations, the system comprising: a substation including a supply point configured to supply electrical power to a plurality of user
1. A voltage control and energy conservation system for an electric power transmission and distribution grid configured to supply electric power to a plurality of user locations, the system comprising: a substation including a supply point configured to supply electrical power to a plurality of user locations;a plurality of sensors, wherein each sensor is located at a respective one of a plurality of distribution locations on the distribution grid at or between the supply point and at least one of the plurality of user locations, and wherein each sensor is configured to sense a voltage of the supplied electric power at the respective distribution location and to generate measurement data based on the sensed voltage;a voltage controller configured to receive measurement data from each sensor of a subset of the plurality of sensors, wherein the subset includes more than one and substantially fewer than all of the plurality of sensors, and to generate an energy delivery parameter based on a comparison of the measurement data received from the subset to a controller target voltage band;a voltage adjusting device configured to adjust a voltage of the electric power supplied at the supply point based on the energy delivery parameter;wherein the energy delivery parameter is generated such that the voltage at each user location remains within a user target voltage band, the user target voltage band being a lower band of a safe nominal operating range;wherein at least one other sensor of the plurality of sensors that is not included in the subset is further configured to send a respective reporting signal to the voltage controller when the voltage sensed by the sensor is determined to be outside of a respective sensor target voltage band; andwherein the voltage controller is further configured to add to the subset the at least one other sensor in response to receiving the reporting signal indicating that the voltage sensed by the at least one other sensor is outside of the respective sensor target voltage band. 2. The system of claim 1, wherein the subset of sensors comprises the sensors of the plurality of sensors that have the lowest sensed voltages. 3. The system of claim 1, wherein the voltage adjusting device comprises: a load tap change transformer that adjusts the voltage of the electric power supplied at the supply point based on a load tap change coefficient; ora voltage regulator that adjusts the voltage of the electric power supplied at the supply point based on the energy delivery parameter. 4. The system of claim 1, wherein the voltage controller is further configured to determine an average voltage by averaging the measurement data received from the subset, and generate the energy delivery parameter based on the determined average voltage. 5. The system of claim 4, wherein the voltage controller is further configured to adjust the energy delivery parameter when one of the voltage at a user location or the determined average voltage is below a predetermined minimum voltage value, the predetermined minimum voltage value being based on the safe nominal operating range. 6. The system of claim 1, wherein the voltage controller is configured to: store historical component data that includes at least one of aggregated energy component data at a substation level, voltage component data at a substation level, and weather data;determine energy usage at each of the plurality of sensors;compare the historical component data to the determined energy usage; anddetermine energy savings attributable to the system based on the results of the comparison of the historical component data to the determined energy usage. 7. The system of claim 1, wherein the safe nominal operating range is between about 114V and about 126V and the user target voltage band is between about 114V and about 120V. 8. The system of claim 1, wherein the safe nominal operating range is between about 114V and about 126V and the user target voltage band is between about 116V and about 121V. 9. The system of claim 1, wherein the safe nominal operating range is between about 111V and about 129V the user target voltage band is between about 111V and about 120V. 10. The system of claim 1, wherein each sensor of the subset is located at a respective one of the plurality of user locations. 11. The system of claim 1, wherein at least one of the plurality of sensors is located on the distribution grid between the supply point and at least one of the user locations. 12. The system of claim 1, wherein the supply point is at a transformer at the substation. 13. The system of claim 1, wherein the plurality of sensors comprises a plurality of smart meters. 14. The system of claim 1, wherein the at least one sensor target voltage band comprises a plurality of sensor target voltage bands, each of the plurality of sensor target voltage bands corresponding to a respective sensor. 15. The system of claim 1, wherein the subset includes about twenty sensors on the distribution grid. 16. The system of claim 1, wherein the subset includes about ten sensors on a distribution circuit of the distribution grid. 17. The system of claim 16, wherein the distribution grid comprises two distribution circuits providing electric power to about 6400 user locations. 18. A method for controlling electrical power supplied to a plurality of distribution locations located at or between a supply point and at least one user location, each of the plurality of distribution locations including at least one sensor configured to sense a voltage of the supplied electric power at the respective distribution location and generate measurement data based on the sensed voltage, the method comprising: receiving measurement data from a subset of the plurality of sensors, wherein the subset includes more than one but substantially fewer than all of the plurality of sensors; andadjusting a voltage at the supply point based on a comparison of the measurement data received from the subset to at least one controller target voltage band, wherein voltage at the supply point is adjusted such that a voltage at each user location remains within a user target voltage band, the user target voltage band being a lower band of a safe nominal operating range;receiving a reporting signal indicating that a voltage that is sensed by another sensor that is not part of the subset is outside of a respective sensor target component band; andin response to receiving the reporting signal indicating that the voltage sensed by the another sensor is outside of the respective sensor target component band, adding the another sensor to the subset. 19. The method of claim 18, wherein the subset of sensors comprises the sensors of the plurality of sensors that have the lowest sensed voltages. 20. The method of claim 18, wherein the act of adjusting a voltage at the supply point further comprises determining an average voltage by averaging the data received from the subset and adjusting the voltage at the supply point based on the determined average voltage. 21. The method of claim 20, wherein the act of adjusting a voltage at the supply point further comprises adjusting the voltage at the supply point when one of the voltage at a user location or the determined average voltage is below a predetermined minimum voltage value, the predetermined minimum voltage value being based on the safe nominal operating range. 22. The method of claim 18, wherein the safe nominal operating range is between about 114V and about 126V and the user target voltage band is between about 114V and about 120V. 23. The method of claim 18, wherein the safe nominal operating range is between about 114V and about 126V and the user target voltage band is between about 116V and about 121V. 24. The method of claim 18, wherein the safe nominal operating range is between about 111V and about 129V the user target voltage band is between about 111V and about 120V. 25. A controller for an energy conservation system for an electric power transmission and distribution grid configured to supply electric power from a supply point to a plurality of user locations, the controller comprising: at least one processor configured to: receive measurement data that is based on a measured component of electric power from each sensor of a subset of a plurality of sensors, wherein the plurality of sensors are located at respective distribution locations on the distribution grid at or between the supply point and at least one of the plurality of user locations, and wherein the subset includes more than one and substantially fewer than all of the plurality of sensors;generate an energy delivery parameter based on a comparison of a controller target band to the measurement data received from the sensors in the subset wherein the energy delivery parameter is generated such that a voltage at each user location remains within a user target voltage band, the user target voltage band being a lower band of a safe nominal operating range; andprovide the energy delivery parameter to an adjusting device configured to adjust the electric power supplied at the supply point based on the energy delivery parameter; andwherein the controller is configured to receive a signal indicating that the measured component of electric power sensed by at least one other sensor of the plurality of sensors is outside of a sensor target component band, andwherein the controller is further configured to add to the subset the at least one other sensor in response to receiving the signal indicating that the measured component of electric power sensed by the at least one other sensor is outside of the sensor target component band. 26. The controller of claim 25, wherein the subset of sensors comprises the sensors of the plurality of sensors that have the lowest sensed measured component of electric power. 27. The controller of claim 25, wherein the controller is further configured to de-select at least one of the sensors in the subset when adding the at least one other sensor to the subset. 28. The controller of claim 27, wherein the controller is configured to maintain a set number of sensors in the subset. 29. The controller of claim 28, wherein the set number of sensors is approximately twenty. 30. The controller of claim 25, wherein the safe nominal operating range is between about 114V and about 126V and the user target voltage band is between about 114V and about 120V. 31. The controller of claim 25, wherein the safe nominal operating range is between about 114V and about 126V and the user target voltage band is between about 116V and about 121V. 32. The controller of claim 25, wherein the safe nominal operating range is between about 111V and about 129V the user target voltage band is between about 111V and about 120V. 33. The system of claim 1, wherein the voltage controller is further configured to de-select at least one of the sensors in the subset when adding the at least one other sensor to the subset. 34. The method of claim 18, further comprising de-selecting at least one of the sensors in the subset when adding the another other sensor to the subset.
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