电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2012年
18期
92-96,108
,共6页
吴争荣%王钢%李海锋%潘国清%高翔
吳爭榮%王鋼%李海鋒%潘國清%高翔
오쟁영%왕강%리해봉%반국청%고상
分布式电源%控制策略%故障穿越%等值模型%故障分析%配电网
分佈式電源%控製策略%故障穿越%等值模型%故障分析%配電網
분포식전원%공제책략%고장천월%등치모형%고장분석%배전망
distributed generator%control scheme%ride-through%equivalent model%fault analysis%distribution network
随着分布式电源(DG)的大量接入,DG的故障穿越行为对配电网的故障特性影响很大。而传统的等值模型均未计及DG的控制策略,从而造成含DG的配电网故障分析存在不可忽略的局限性。为此,文中在系统分析DG控制策略和动作行为的基础上,建立了计及控制策略的逆变器并网方式下DG压控电流源等值模型,更加真实地体现出DG故障电流的输出特性。在此基础上,通过建立故障前后电网支路电流和节点电压关系方程,推导出故障穿越时DG输出电流与公共连接点电压的求解方程组,从而建立故障精确分析方法。最后,基于DIgSILENT建立含DG的10kV配电网仿真模型,验证了所述方法的正确性和有效性。
隨著分佈式電源(DG)的大量接入,DG的故障穿越行為對配電網的故障特性影響很大。而傳統的等值模型均未計及DG的控製策略,從而造成含DG的配電網故障分析存在不可忽略的跼限性。為此,文中在繫統分析DG控製策略和動作行為的基礎上,建立瞭計及控製策略的逆變器併網方式下DG壓控電流源等值模型,更加真實地體現齣DG故障電流的輸齣特性。在此基礎上,通過建立故障前後電網支路電流和節點電壓關繫方程,推導齣故障穿越時DG輸齣電流與公共連接點電壓的求解方程組,從而建立故障精確分析方法。最後,基于DIgSILENT建立含DG的10kV配電網倣真模型,驗證瞭所述方法的正確性和有效性。
수착분포식전원(DG)적대량접입,DG적고장천월행위대배전망적고장특성영향흔대。이전통적등치모형균미계급DG적공제책략,종이조성함DG적배전망고장분석존재불가홀략적국한성。위차,문중재계통분석DG공제책략화동작행위적기출상,건립료계급공제책략적역변기병망방식하DG압공전류원등치모형,경가진실지체현출DG고장전류적수출특성。재차기출상,통과건립고장전후전망지로전류화절점전압관계방정,추도출고장천월시DG수출전류여공공련접점전압적구해방정조,종이건립고장정학분석방법。최후,기우DIgSILENT건립함DG적10kV배전망방진모형,험증료소술방법적정학성화유효성。
With the integration of large quantities of distributed generators (DGs) to the grid, the ride-through behavior of DGs has significant impact on the fault characteristics of a distribution network. However, control strategy was not considered in the traditional equivalent model and this caused significant limitations on fault analysis of distribution network with DG.s. By analyzing the control scheme and behavior of DGs, this paper presents a voltage-control current source equivalent model for DGs with an inverter interface taking its control scheme into account. This model reflects the output characteristics of DGs even better. Based on this, the equations between the node voltage and feeder current before and after fault are derived. Then, the equations describing the relationship between fault current of DG and point of common coupling (PCC) are built; and the precise method for fault analysis is thus obtained. A 10 kV distribution network ease is built in DIgSILENT to validate the proposed method.