电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2015年
2期
40-47
,共8页
苏柏松%解大%娄宇成%杨敏霞%王西田%张延迟
囌柏鬆%解大%婁宇成%楊敏霞%王西田%張延遲
소백송%해대%루우성%양민하%왕서전%장연지
风力发电%随机载荷%首次穿越%随机平均法
風力髮電%隨機載荷%首次穿越%隨機平均法
풍력발전%수궤재하%수차천월%수궤평균법
wind turbine system%stochastic load%first-passage%stochastic averaging method
大型化和轻量化发展后的风力发电系统时变复杂度逐渐增大。同时,风电机组所受载荷具有随机性,导致各组件的长时间振动加剧,进而出现严重损坏,破坏系统的稳定性。通过综合风电机组机械传动模型、确定性载荷模型和随机载荷影响,建立了随机载荷下的首次穿越模型。并结合风电机组的电气动态模型,构建了统一的机电动态模型。采用拟不可积Hamilton随机平均法,建立了相应的Hamilton函数和一维It?o扩散过程的随机模型,为后续的风力发电机组稳定性和可靠性研究打下基础。以国产某750 kW机组为例建立了相应的统一的机电动态模型,并通过Matlab仿真验证了随机载荷下风力发电机组的首次穿越现象。算例结果表明,该模型具有较好的适用性和可操作性。
大型化和輕量化髮展後的風力髮電繫統時變複雜度逐漸增大。同時,風電機組所受載荷具有隨機性,導緻各組件的長時間振動加劇,進而齣現嚴重損壞,破壞繫統的穩定性。通過綜閤風電機組機械傳動模型、確定性載荷模型和隨機載荷影響,建立瞭隨機載荷下的首次穿越模型。併結閤風電機組的電氣動態模型,構建瞭統一的機電動態模型。採用擬不可積Hamilton隨機平均法,建立瞭相應的Hamilton函數和一維It?o擴散過程的隨機模型,為後續的風力髮電機組穩定性和可靠性研究打下基礎。以國產某750 kW機組為例建立瞭相應的統一的機電動態模型,併通過Matlab倣真驗證瞭隨機載荷下風力髮電機組的首次穿越現象。算例結果錶明,該模型具有較好的適用性和可操作性。
대형화화경양화발전후적풍력발전계통시변복잡도축점증대。동시,풍전궤조소수재하구유수궤성,도치각조건적장시간진동가극,진이출현엄중손배,파배계통적은정성。통과종합풍전궤조궤계전동모형、학정성재하모형화수궤재하영향,건립료수궤재하하적수차천월모형。병결합풍전궤조적전기동태모형,구건료통일적궤전동태모형。채용의불가적Hamilton수궤평균법,건립료상응적Hamilton함수화일유It?o확산과정적수궤모형,위후속적풍력발전궤조은정성화가고성연구타하기출。이국산모750 kW궤조위례건립료상응적통일적궤전동태모형,병통과Matlab방진험증료수궤재하하풍력발전궤조적수차천월현상。산례결과표명,해모형구유교호적괄용성화가조작성。
With wind turbine system developing larger and lighter, the dimensions of time-varying complexity gradually increase. Meanwhile, the wind turbine loads suffer randomness, which results in stronger prolonged vibration. And then the stability of wind turbine system is seriously damaged. By integrating wind turbine model, deterministic load model and the impact of stochastic load, this paper establishes first-passage model with stochastic load. And combined with the electrical dynamic model of wind turbine, a unified electromechanical dynamic model is built up. By using stochastic averaging method of quasi-non-integrable- Hamiltonian systems, it sets up relevant Hamilton function and the stochastic model of one-dimensional It?o diffusion process, which will lay a good foundation for following stability and reliability study. With an example of a domestic unit of 750 kW wind turbine, the corresponding unified electromechanical dynamic model is established. And the first-passage phenomenon is verified by a simulation in MATLAB. Simulation results show that the model has good applicability and operability.