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
3期
21-25
,共5页
穆子龙%王渝红%彭灿%李兴源%顾威
穆子龍%王渝紅%彭燦%李興源%顧威
목자룡%왕투홍%팽찬%리흥원%고위
次同步振荡%高压直流输电%机组作用系数法%电磁暂态仿真%Prony辨识
次同步振盪%高壓直流輸電%機組作用繫數法%電磁暫態倣真%Prony辨識
차동보진탕%고압직류수전%궤조작용계수법%전자잠태방진%Prony변식
subsynchronous oscillation (SSO)%HVDC%UIF%electromagnetic transient simulation%Prony identification
四川电网正在兴建多条高压直流(HVDC)输电工程,而HVDC可能引发送端交流系统次同步振荡(SSO),造成相关汽轮机组的轴系扭振,缩短大轴寿命.因而评估电网发生SSO的风险迫在眉睫,这对保障电网安全稳定运行意义重大.提出将机组作用系数法(UIF)、Prony辨识算法提取振荡特征和电磁暂态时域仿真相结合,对四川电网由HVDC引起的SSO进行了研究,并在时域和频域两方面互为验证.分析结果表明,个别运行方式下,向家坝——上海±800 kV特高压直流输电系统可能引发泸州火电机组比较严重的轴系扭振情况,应予重视.这一整套分析方法能够很好地评估系统发生SSO的风险,有很高的工程应用价值,值得推广.
四川電網正在興建多條高壓直流(HVDC)輸電工程,而HVDC可能引髮送耑交流繫統次同步振盪(SSO),造成相關汽輪機組的軸繫扭振,縮短大軸壽命.因而評估電網髮生SSO的風險迫在眉睫,這對保障電網安全穩定運行意義重大.提齣將機組作用繫數法(UIF)、Prony辨識算法提取振盪特徵和電磁暫態時域倣真相結閤,對四川電網由HVDC引起的SSO進行瞭研究,併在時域和頻域兩方麵互為驗證.分析結果錶明,箇彆運行方式下,嚮傢壩——上海±800 kV特高壓直流輸電繫統可能引髮瀘州火電機組比較嚴重的軸繫扭振情況,應予重視.這一整套分析方法能夠很好地評估繫統髮生SSO的風險,有很高的工程應用價值,值得推廣.
사천전망정재흥건다조고압직류(HVDC)수전공정,이HVDC가능인발송단교류계통차동보진탕(SSO),조성상관기륜궤조적축계뉴진,축단대축수명.인이평고전망발생SSO적풍험박재미첩,저대보장전망안전은정운행의의중대.제출장궤조작용계수법(UIF)、Prony변식산법제취진탕특정화전자잠태시역방진상결합,대사천전망유HVDC인기적SSO진행료연구,병재시역화빈역량방면호위험증.분석결과표명,개별운행방식하,향가패——상해±800 kV특고압직류수전계통가능인발로주화전궤조비교엄중적축계뉴진정황,응여중시.저일정투분석방법능구흔호지평고계통발생SSO적풍험,유흔고적공정응용개치,치득추엄.
Nowadays a number of HVDC power transmission projects are building in Sichuan power grid. Yet HVDC system will lead to subsynchronous oscillation (SSO) in the sending end of AC systems, and cause the consequent torsional oscillation of relative generators and shorten the life of shaft. So it is extremely urgent to assess the risk of SSO. And this is of great significance for the security and stability of power grid. In this paper, the Unit Interaction Factor (UIF), and Prony identification method which is used to extract oscillation eigenvalues and time domain simulation of electromagnetic transient are used to study the SSO characteristic of Sichuan power grid caused by HVDC. And these methods can be mutual authentications in the time domain and frequency domain. The study results indicate that in several individual mode of operation, the ±800 kV UHVDC system from Xiangjiaba to Shanghai may stimulate torsional oscillation of Luzhou thermal power generator unit more seriously. And the set of analysis methods can well assess the risk of SSO. It has a high application value that can be widely used in engineering.
