电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2013年
11期
8-12
,共5页
金恩淑%宋晓刚%董辉%李晓娜
金恩淑%宋曉剛%董輝%李曉娜
금은숙%송효강%동휘%리효나
潮流识别%过负荷%系统振荡%后备保护%保护减载
潮流識彆%過負荷%繫統振盪%後備保護%保護減載
조류식별%과부하%계통진탕%후비보호%보호감재
flow identification%overload%power swings%backup protection%protection-load shedding
为了解决现阶段保护减载的潮流转移过负荷识别环节在系统振荡时发生误判的问题,详细研究了系统振荡对潮流转移过负荷识别的影响,分析了过负荷、系统振荡和故障的特点,根据三者之间测量阻抗角、测量阻抗变化率、电流序分量及保护动作情况的差异,提出了潮流转移过负荷识别新方案.即在后备保护启动后,先根据电流序分量的特征和保护 II段动作情况区分出故障,再利用测量阻抗变化率的特征,区分过负荷和系统振荡;或者先根据测量阻抗变化率的特征区分出系统振荡,再利用测量阻抗角的特征,区分过负荷和故障.算例分析结果表明,潮流转移过负荷识别新方案能够有效识别出过负荷,并可以防止系统振荡时的误判,证明了该方案的正确性和有效性.
為瞭解決現階段保護減載的潮流轉移過負荷識彆環節在繫統振盪時髮生誤判的問題,詳細研究瞭繫統振盪對潮流轉移過負荷識彆的影響,分析瞭過負荷、繫統振盪和故障的特點,根據三者之間測量阻抗角、測量阻抗變化率、電流序分量及保護動作情況的差異,提齣瞭潮流轉移過負荷識彆新方案.即在後備保護啟動後,先根據電流序分量的特徵和保護 II段動作情況區分齣故障,再利用測量阻抗變化率的特徵,區分過負荷和繫統振盪;或者先根據測量阻抗變化率的特徵區分齣繫統振盪,再利用測量阻抗角的特徵,區分過負荷和故障.算例分析結果錶明,潮流轉移過負荷識彆新方案能夠有效識彆齣過負荷,併可以防止繫統振盪時的誤判,證明瞭該方案的正確性和有效性.
위료해결현계단보호감재적조류전이과부하식별배절재계통진탕시발생오판적문제,상세연구료계통진탕대조류전이과부하식별적영향,분석료과부하、계통진탕화고장적특점,근거삼자지간측량조항각、측량조항변화솔、전류서분량급보호동작정황적차이,제출료조류전이과부하식별신방안.즉재후비보호계동후,선근거전류서분량적특정화보호 II단동작정황구분출고장,재이용측량조항변화솔적특정,구분과부하화계통진탕;혹자선근거측량조항변화솔적특정구분출계통진탕,재이용측량조항각적특정,구분과부하화고장.산례분석결과표명,조류전이과부하식별신방안능구유효식별출과부하,병가이방지계통진탕시적오판,증명료해방안적정학성화유효성.
In order to solve the problem of misjudgment in the flow transferring overload identification of protection-load shedding when the power swing occurs, this paper specifically analyses the electrical characteristics of the overload, the power swings and the fault to identify the differences among the three characteristics in measured impedance angle, measuring the rate of change in impedance, sequence component, and protection action situations, formulating a new flow transferring overload identification method. After starting backup protection, firstly it can distinguish failure with sequence component and protection action situation, then distinguish overload and swings with the rate of change in impedance; or firstly distinguish swings with the rate of change in impedance, then discern overload and fault with measured impedance angle. Example analysis results show that it can identify the overload and prevent a misjudgment when the system occur power swings, proving the correctness and validity of the method.
