电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2014年
13期
160-165,181
,共7页
电能质量%非正弦不平衡量检测%谐波检测%瞬时功率法
電能質量%非正絃不平衡量檢測%諧波檢測%瞬時功率法
전능질량%비정현불평형량검측%해파검측%순시공솔법
power quality%detection of nonsinusoidal imbalanced parameters%harmonic detection%instantaneous power method
为了克服传统检测方法在非正弦不平衡系统中检测的单一性,在对称分量法基础上提出一种计算矩阵,可将任意次的正、负、零序电流,广义无功电流,以及各相中的不平衡谐波、不平衡有功、不平衡无功电流,单相基波功率因数等参量一次计算出来。该方法的原理是在检测出基波不平衡电流的基础上利用幅相计算原理建立计算矩阵,即可方便计算出多种电参量。该方法可用于三相三线(四线)制和单相系统中,对电力系统自动化装置的检测及各种拓扑结构的电能质量治理装置的补偿量检测也适用,尤其在要考虑装置补偿容量以及装置能否补偿有功功率不平衡时可进行灵活选择补偿。理论分析和算例实验均表明了该方法的正确性和可行性。
為瞭剋服傳統檢測方法在非正絃不平衡繫統中檢測的單一性,在對稱分量法基礎上提齣一種計算矩陣,可將任意次的正、負、零序電流,廣義無功電流,以及各相中的不平衡諧波、不平衡有功、不平衡無功電流,單相基波功率因數等參量一次計算齣來。該方法的原理是在檢測齣基波不平衡電流的基礎上利用幅相計算原理建立計算矩陣,即可方便計算齣多種電參量。該方法可用于三相三線(四線)製和單相繫統中,對電力繫統自動化裝置的檢測及各種拓撲結構的電能質量治理裝置的補償量檢測也適用,尤其在要攷慮裝置補償容量以及裝置能否補償有功功率不平衡時可進行靈活選擇補償。理論分析和算例實驗均錶明瞭該方法的正確性和可行性。
위료극복전통검측방법재비정현불평형계통중검측적단일성,재대칭분량법기출상제출일충계산구진,가장임의차적정、부、령서전류,엄의무공전류,이급각상중적불평형해파、불평형유공、불평형무공전류,단상기파공솔인수등삼량일차계산출래。해방법적원리시재검측출기파불평형전류적기출상이용폭상계산원리건립계산구진,즉가방편계산출다충전삼량。해방법가용우삼상삼선(사선)제화단상계통중,대전력계통자동화장치적검측급각충탁복결구적전능질량치리장치적보상량검측야괄용,우기재요고필장치보상용량이급장치능부보상유공공솔불평형시가진행령활선택보상。이론분석화산례실험균표명료해방법적정학성화가행성。
In order to overcome the oneness of the traditional detection method in the non-sinusoidal and unbalanced system, this paper presents a new kind of calculation matrix based on the symmetric component method.It can easily calculate the positive/negative/zero-sequence and generalized reactive current,it can also calculate the asymmetric harmonic and asymmetric active/reactive current,and the three-phase power factors,etc at one go.Using the principle of amplitude-phase to build the calculation matrix that can easily calculate many parameters based on unbalanced fundamental current,which is the calculation principle.This method can be used for the three-phase three-wire(or four-wire)system,single-phase system,as it can for the automation of electric power systems,and it may be also convenient for the detection system of a variety of power quality control devices.And we can easily set the function of those devices when considering their compensation capacity and whether they can compensate for the unbalance of the active power.Finally,the theoretical analysis and experimental results both show the validity and feasibility of the method.