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
21期
110-115
,共6页
梁海峰%冯燕闯%刘子兴%高亚静%王成山
樑海峰%馮燕闖%劉子興%高亞靜%王成山
량해봉%풍연틈%류자흥%고아정%왕성산
光伏电站%低电压穿越%并网逆变器%无差拍控制%无功功率输出
光伏電站%低電壓穿越%併網逆變器%無差拍控製%無功功率輸齣
광복전참%저전압천월%병망역변기%무차박공제%무공공솔수출
photovoltaic plant%LVRT%grid-connected inverter%deadbeat control%reactive power output
随着光伏电站接入电网容量的不断增大,在电网发生扰动或故障情况下,光伏并网系统的脱网会进一步给电网带来不利影响。并网光伏电站应具备低电压穿越(Low Voltage Ride Through, LVRT)能力。在电流无差拍预测控制的基础上,对控制系统进行了改进。在低电压期间,通过发出无功功率支撑电网电压的恢复,采用限幅控制防止电流增大,投入并联卸荷电阻限制直流侧电压的升高,实现光伏电站的低电压穿越。最后采用新能源电力系统国家重点实验室中的光伏系统参数,建立仿真模型并进行了验证。结果表明在电网发生电压跌落时,控制系统能够抑制并网电流的增大并能发出无功功率支撑并网点电压,实现了低电压穿越,且系统在故障切除后能够快速恢复,验证了该 LVRT控制策略的有效性,为下一步开展动模实验奠定了基础。
隨著光伏電站接入電網容量的不斷增大,在電網髮生擾動或故障情況下,光伏併網繫統的脫網會進一步給電網帶來不利影響。併網光伏電站應具備低電壓穿越(Low Voltage Ride Through, LVRT)能力。在電流無差拍預測控製的基礎上,對控製繫統進行瞭改進。在低電壓期間,通過髮齣無功功率支撐電網電壓的恢複,採用限幅控製防止電流增大,投入併聯卸荷電阻限製直流側電壓的升高,實現光伏電站的低電壓穿越。最後採用新能源電力繫統國傢重點實驗室中的光伏繫統參數,建立倣真模型併進行瞭驗證。結果錶明在電網髮生電壓跌落時,控製繫統能夠抑製併網電流的增大併能髮齣無功功率支撐併網點電壓,實現瞭低電壓穿越,且繫統在故障切除後能夠快速恢複,驗證瞭該 LVRT控製策略的有效性,為下一步開展動模實驗奠定瞭基礎。
수착광복전참접입전망용량적불단증대,재전망발생우동혹고장정황하,광복병망계통적탈망회진일보급전망대래불리영향。병망광복전참응구비저전압천월(Low Voltage Ride Through, LVRT)능력。재전류무차박예측공제적기출상,대공제계통진행료개진。재저전압기간,통과발출무공공솔지탱전망전압적회복,채용한폭공제방지전류증대,투입병련사하전조한제직류측전압적승고,실현광복전참적저전압천월。최후채용신능원전력계통국가중점실험실중적광복계통삼수,건립방진모형병진행료험증。결과표명재전망발생전압질락시,공제계통능구억제병망전류적증대병능발출무공공솔지탱병망점전압,실현료저전압천월,차계통재고장절제후능구쾌속회복,험증료해 LVRT공제책략적유효성,위하일보개전동모실험전정료기출。
With the increasing of the capacity of photovoltaic plant grid integration, the photovoltaic plant’s off-grid will have a more adverse influence on the grid under the grid disturbance or fault. The low voltage ride through (LVRT) capability is necessary for grid-connected photovoltaic plants. In this paper, the control system is improved based on the current deadbeat predictive control method. During low voltage of the system, the control means that increase reactive power to support the system voltage, use the current limiting control to prevent excessive current and put into shunt resistance to limit DC voltage are adopted to realize the LVRT of the photovoltaic plant. Then based on the photovoltaic system parameters of the State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources of China, the simulation model is founded. The simulation results show that the increase of grid current and DC voltage are effectively restricted and the system voltage is supported by the reactive power from the inverter, when the grid voltage drop occurs. The photovoltaic system can fast recover after fault clearing. The aim of LVRT is realized and the effectiveness of the control strategy is verified. It lays a foundation for dynamic model experiments in next step.