Monitoring and control apparatus and method and wind power plant equipped with the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05D-003/12
G05D-005/00
G05D-009/00
G05D-011/00
G05D-017/00
F03D-009/00
H02P-009/04
출원번호
US-0903291
(2010-10-13)
등록번호
US-8108080
(2012-01-31)
발명자
/ 주소
Wakata, Daisuke
Yasugi, Akira
출원인 / 주소
Mitsubishi Heavy Industries, Ltd.
대리인 / 주소
Kanesaka Berner & Partners
인용정보
피인용 횟수 :
3인용 특허 :
9
초록▼
It is an object to reduce influence on a utility grid by reducing a rapid change in active power, and to extend the life of a wind power plant while controlling active power output in response to a request from the utility grid. A monitoring and control apparatus applied to a wind power plant includ
It is an object to reduce influence on a utility grid by reducing a rapid change in active power, and to extend the life of a wind power plant while controlling active power output in response to a request from the utility grid. A monitoring and control apparatus applied to a wind power plant including a plurality of wind turbine generators includes an electric power control unit that controls the wind turbine generators so as to reduce output of the wind power plant in a stepwise manner, when an active power reduction request from a utility grid side is output.
대표청구항▼
1. A monitoring and control apparatus for a wind power plant including a plurality of turbine generators, comprising: a grouping section that groups the wind turbine generators in the wind power plant to form a plurality of groups;an electric power control unit for controlling the wind turbine gener
1. A monitoring and control apparatus for a wind power plant including a plurality of turbine generators, comprising: a grouping section that groups the wind turbine generators in the wind power plant to form a plurality of groups;an electric power control unit for controlling the wind turbine generators and reducing the output of the wind power plant in a stepwise manner by instructing an output limit to the wind turbine generators; and,wherein the electric power control unit selects in sequence target groups of wind turbine generators to which the output limit is instructed when an active power reduction request from a utility grid side is outputted. 2. The monitoring and control apparatus according to claim 1, wherein the grouping section groups each of the wind turbine generators on the basis of a degradation level of each of the wind turbine generators. 3. The monitoring and control apparatus according to claim 2, wherein the degradation level is calculated on the basis of at least one of load fatigue and insulation fatigue of each of the wind turbine generators. 4. A monitoring and control apparatus applied to a wind power plant including a plurality of wind turbine generators, comprising: an estimating section that estimates degradation levels of each of the wind turbine generators;a grouping section that groups the wind turbine generators on the basis of the degradation levels to form wind turbine generator groups; andan electric power control unit that reduces, upon receiving an active power reduction request from a utility grid side, the active power of the wind turbine generators included in a high degradation wind turbine generator group, which is the wind turbine generator group including the wind turbine generators with a high level of degradation, prior to the wind turbine generators included in the other wind turbine generator groups other than the high degradation wind turbine generator group. 5. The monitoring and control apparatus according to claim 4, wherein the estimating section estimates the degradation levels on the basis of the power generation levels of the active power of the wind turbine generators; andthe electric power control unit treats the wind turbine generator group including the wind turbine generators that produce higher power generation levels than the other wind turbine generators as the high degradation wind turbine generator group. 6. The monitoring and control apparatus according to claim 4, wherein in the case where the wind turbine generators each include a load reducing unit that reduces a load imposed on the wind turbine generators,the estimating section estimates the degradation levels on the basis of the numbers of failures of the load reducing units; andthe electric power control unit treats the wind turbine generator group including the wind turbine generators that fail more than the other wind turbine generators as the high degradation wind turbine generator group. 7. The monitoring and control apparatus according to claim 4, wherein the estimating section estimates the degradation levels on the basis of the difference between a temperature detected from an insulator of the wind turbine generators and the temperature of the insulator detected during rated operation; andthe electric power control unit treats the wind turbine generator group including the wind turbine generators in which the temperature difference is large as the high degradation wind turbine generator group. 8. The monitoring and control apparatus according to claim 4, wherein the wind turbine generators each include a counter that counts the number of times the operating mode is switched, during a predetermined period, from a first operating mode, which is an operating mode for the case where a voltage drop on the utility grid side has not occurred, to a second operating mode, which is an operating mode for the case where a grid voltage drop of the utility grid has occurred;the estimating section estimates the degradation levels on the basis of the numbers of times counted by the counter; andthe electric power control unit treats the wind turbine generator group including the wind turbine generators having the number of times more than the other wind turbine generators as the high degradation wind turbine generator group. 9. The monitoring and control apparatus according to claim 4, wherein the wind turbine generators each include a vibration measuring unit that measures the vibration of a drivetrain;the estimating section estimates the degradation levels on the basis of the measured vibration values from the vibration measuring unit; andthe electric power control unit treats the wind turbine generator group including the wind turbine generators having the measured vibration values larger than those of the other wind turbine generators as the high degradation wind turbine generator group. 10. The monitoring and control apparatus according to claim 4, wherein the estimating section calculates indices of each of the wind turbine generators for the whole wind power plant on the basis of the degradation levels; andthe grouping section has threshold values for the indices and forms the wind turbine generator groups on the basis of the threshold values and the indices. 11. The monitoring and control apparatus according to claim 4, wherein the grouping section forms the wind turbine generator groups, upon receiving an active power reduction request from the utility grid side as a trigger. 12. The monitoring and control apparatus according to claim 4, comprising a timer that measures the operation times of the wind turbine generators, whereinthe grouping section forms the wind turbine generator groups at predetermined time intervals measured by the timer. 13. A wind power plant, comprising: a plurality of wind turbine generators;a monitoring and control apparatus;an estimating section that estimates degradation levels of each of the wind turbine generators;a grouping section that groups the wind turbine generators on the basis of the degradation levels to form wind turbine generator groups; andan electric power control unit that reduces, upon receiving an active power reduction request from a utility grid side, the active power of the wind turbine generators included in a high degradation wind turbine generator group, which is the wind turbine generator group including the wind turbine generators with a high level of degradation, prior to the wind turbine generators included in the other wind turbine generator groups other than the high degradation wind turbine generator group. 14. A monitoring and control method applied to a wind power plant including a plurality of wind turbine generators, the monitoring and control method comprising: a first step of estimating the degradation levels of the wind turbine generators;a second step of grouping the wind turbine generators on the basis of the degradation levels to form the wind turbine generator groups; anda third step of controlling, upon receiving an active power reduction request from a utility grid side, reduction of the active power of the wind turbine generators included in a high degradation wind turbine generator group, which is the wind turbine generator group including the wind turbine generators with a high level of degradation, prior to the wind turbine generators included in the other wind turbine generator groups other than the high degradation wind turbine generator group.
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