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
9期
15-20
,共6页
非线性负荷%谐波电能%间谐波%Pisarenko
非線性負荷%諧波電能%間諧波%Pisarenko
비선성부하%해파전능%간해파%Pisarenko
non-linear load%harmonic power%inter-harmonics%Pisarenko
为了减少间谐波存在时带来的电能计量误差,提出了一种含间谐波的电能计量方法。首先分析现有谐波电能计量中的不合理性,给出含间谐波的功率计算式,然后提出了一种基于 Pisarenko 的改进算法。传统 Pisarenko算法能够准确提取频率和幅值分量,却不能提取相位信息,该算法克服了传统算法不能提取相位信息的缺点。仿真结果也表明,该算法能够准确提取电气信号各频率分量参数,特别是相位信息,能滤除虚假频率分量,具有很强的抗干扰能力。功率计算采用考虑潮流方向的Budeanu功率定义。最后运用所提的计量方法对用户和电力企业的影响进行了分析,分析结果表明新的计量方法适用于间谐波存在时的电能计量。
為瞭減少間諧波存在時帶來的電能計量誤差,提齣瞭一種含間諧波的電能計量方法。首先分析現有諧波電能計量中的不閤理性,給齣含間諧波的功率計算式,然後提齣瞭一種基于 Pisarenko 的改進算法。傳統 Pisarenko算法能夠準確提取頻率和幅值分量,卻不能提取相位信息,該算法剋服瞭傳統算法不能提取相位信息的缺點。倣真結果也錶明,該算法能夠準確提取電氣信號各頻率分量參數,特彆是相位信息,能濾除虛假頻率分量,具有很彊的抗榦擾能力。功率計算採用攷慮潮流方嚮的Budeanu功率定義。最後運用所提的計量方法對用戶和電力企業的影響進行瞭分析,分析結果錶明新的計量方法適用于間諧波存在時的電能計量。
위료감소간해파존재시대래적전능계량오차,제출료일충함간해파적전능계량방법。수선분석현유해파전능계량중적불합이성,급출함간해파적공솔계산식,연후제출료일충기우 Pisarenko 적개진산법。전통 Pisarenko산법능구준학제취빈솔화폭치분량,각불능제취상위신식,해산법극복료전통산법불능제취상위신식적결점。방진결과야표명,해산법능구준학제취전기신호각빈솔분량삼수,특별시상위신식,능려제허가빈솔분량,구유흔강적항간우능력。공솔계산채용고필조류방향적Budeanu공솔정의。최후운용소제적계량방법대용호화전력기업적영향진행료분석,분석결과표명신적계량방법괄용우간해파존재시적전능계량。
In order to reduce the error of energy metering, an electric energy metering method is proposed while inter-harmonic exists. First, some deficiency of current electric energy metering method is analysed, then power formula is presented, and an improved algorithm based on Pisarenko is proposed. Frequency and amplitude components can be extracted by traditional Pisarenko algorithm accurately, but phase information can not be extracted. This paper presents an improved algorithm based on Pisarenko. The simulation results show that Pisarenko algorithm can identify parameters for each frequency component of the electrical signal accurately, especially phase information, filter out false frequency component and have a strong anti-jamming capability. Budeanu power definition that considered the direction of flow is used in power calculation. Finally, the influence to customers and power enterprises is analyzed by use of the measurement method based on this paper. The result shows that the new measurement method is suitable for energy metering while inter-harmonic exists.