电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2015年
9期
1-8
,共8页
丁明%田龙刚%潘浩%张雪松%周金辉
丁明%田龍剛%潘浩%張雪鬆%週金輝
정명%전룡강%반호%장설송%주금휘
交直流混合微电网%光伏发电%蓄电池储能%功率平衡
交直流混閤微電網%光伏髮電%蓄電池儲能%功率平衡
교직류혼합미전망%광복발전%축전지저능%공솔평형
hybrid AC/DC microgrid%photovoltaic power generation%battery energy storage%power balance
为解决交直流混合微电网中功率波动、交直流系统之间功率平衡、直流侧源荷比相对较大光伏利用率不高的问题,研究了交直流混合微电网并网运行时,在蓄电池的平抑作用下,直流侧光伏发电以恒定的功率通过交流侧并入大电网,提高直流侧光伏利用率。孤岛运行时,蓄电池作为平衡节点,和双向 AC/DC 变换器一起维持整个系统的电压、频率稳定,并实现交、直流系统之间功率平衡的控制方案。最后利用PSCAD/EMTDC软件对系统功率波动、并网运行向非计划孤岛运行切换、孤岛运行向并网运行切换进行了仿真验证,运行结果表明该控制方案能有效平抑系统功率波动,维持交直流混合微电网稳定运行。
為解決交直流混閤微電網中功率波動、交直流繫統之間功率平衡、直流側源荷比相對較大光伏利用率不高的問題,研究瞭交直流混閤微電網併網運行時,在蓄電池的平抑作用下,直流側光伏髮電以恆定的功率通過交流側併入大電網,提高直流側光伏利用率。孤島運行時,蓄電池作為平衡節點,和雙嚮 AC/DC 變換器一起維持整箇繫統的電壓、頻率穩定,併實現交、直流繫統之間功率平衡的控製方案。最後利用PSCAD/EMTDC軟件對繫統功率波動、併網運行嚮非計劃孤島運行切換、孤島運行嚮併網運行切換進行瞭倣真驗證,運行結果錶明該控製方案能有效平抑繫統功率波動,維持交直流混閤微電網穩定運行。
위해결교직류혼합미전망중공솔파동、교직류계통지간공솔평형、직류측원하비상대교대광복이용솔불고적문제,연구료교직류혼합미전망병망운행시,재축전지적평억작용하,직류측광복발전이항정적공솔통과교류측병입대전망,제고직류측광복이용솔。고도운행시,축전지작위평형절점,화쌍향 AC/DC 변환기일기유지정개계통적전압、빈솔은정,병실현교、직류계통지간공솔평형적공제방안。최후이용PSCAD/EMTDC연건대계통공솔파동、병망운행향비계화고도운행절환、고도운행향병망운행절환진행료방진험증,운행결과표명해공제방안능유효평억계통공솔파동,유지교직류혼합미전망은정운행。
To solve the problems of hybrid AC/DC microgrid power fluctuations, power balance between the AC and DC systems, and low PV utilization because of relatively large DC side power load ratio, this paper proposes that in grid-connected operation,under the stabilizing role of the battery, the DC side outputs photovoltaic power into the grid constantly through the AC side to improve the DC side photovoltaic utilization. In islanded operation,the battery as the balance nodes maintains the entire system voltage, frequency stability, and achieves the power balance between the AC and DC systems with the bi-directional AC/DC converter.Finally the PSCAD/EMTDC software is used for the simulation of system power fluctuations, grid-connected operation switching to non-program islanded operation, and islanded operation switching to grid-connected operation, the result shows that the control scheme can effectively stabilize the system power fluctuations and maintain the hybrid AC/DC microgrid stable operation.
