华南理工大学学报(自然科学版)
華南理工大學學報(自然科學版)
화남리공대학학보(자연과학판)
JOURNAL OF SOUTH CHINA UNIVERSITY OF TECHNOLOGY(NATURAL SCIENCE EDITION)
2015年
4期
104-111
,共8页
马艺玮%杨苹%王月武%赵卓立
馬藝瑋%楊蘋%王月武%趙卓立
마예위%양평%왕월무%조탁립
独立微电网%时间尺度%分层协调控制%柴油发电机%蓄电池储能系统
獨立微電網%時間呎度%分層協調控製%柴油髮電機%蓄電池儲能繫統
독립미전망%시간척도%분층협조공제%시유발전궤%축전지저능계통
islanded microgrid%time scale%hierarchical coordinated control%diesel generator%battery storage sys-tem
针对高渗透率间歇性能源和频繁投切的系统负荷对独立微电网运行控制的影响,在充分考虑柴油发电机和电池储能不同控制特性的基础上,提出一种基于不同时间尺度的独立微电网分层协调控制方案,分别设计了基于蓄电池储能的一级控制器和基于柴油发电机的二级控制器来提高系统电压、频率在不同时间尺度上的稳定性。针对较短时间尺度及较小变化幅度的随机净负荷波动,通过改进蓄电池储能系统的P-f和Q-V下垂控制器来提高系统电压、频率的稳定性;而对于变化周期长和变化幅度大的净负荷波动,分别采用比例积分控制器和辅助无功补偿器来实现柴油发电机组对系统频率和电压的无差控制,从而保证系统稳定性。最后,通过对东澳岛风柴蓄独立微电网在不同运行条件下的运行控制结果分析,验证了所提方法的可行性和有效性。
針對高滲透率間歇性能源和頻繁投切的繫統負荷對獨立微電網運行控製的影響,在充分攷慮柴油髮電機和電池儲能不同控製特性的基礎上,提齣一種基于不同時間呎度的獨立微電網分層協調控製方案,分彆設計瞭基于蓄電池儲能的一級控製器和基于柴油髮電機的二級控製器來提高繫統電壓、頻率在不同時間呎度上的穩定性。針對較短時間呎度及較小變化幅度的隨機淨負荷波動,通過改進蓄電池儲能繫統的P-f和Q-V下垂控製器來提高繫統電壓、頻率的穩定性;而對于變化週期長和變化幅度大的淨負荷波動,分彆採用比例積分控製器和輔助無功補償器來實現柴油髮電機組對繫統頻率和電壓的無差控製,從而保證繫統穩定性。最後,通過對東澳島風柴蓄獨立微電網在不同運行條件下的運行控製結果分析,驗證瞭所提方法的可行性和有效性。
침대고삼투솔간헐성능원화빈번투절적계통부하대독립미전망운행공제적영향,재충분고필시유발전궤화전지저능불동공제특성적기출상,제출일충기우불동시간척도적독립미전망분층협조공제방안,분별설계료기우축전지저능적일급공제기화기우시유발전궤적이급공제기래제고계통전압、빈솔재불동시간척도상적은정성。침대교단시간척도급교소변화폭도적수궤정부하파동,통과개진축전지저능계통적P-f화Q-V하수공제기래제고계통전압、빈솔적은정성;이대우변화주기장화변화폭도대적정부하파동,분별채용비례적분공제기화보조무공보상기래실현시유발전궤조대계통빈솔화전압적무차공제,종이보증계통은정성。최후,통과대동오도풍시축독립미전망재불동운행조건하적운행공제결과분석,험증료소제방법적가행성화유효성。
As the high-penetration intermittent microsource and the frequently-switched load may impact the opera-tion stability of islanded microgrids, a hierarchical coordinated control scheme based on different time scales, which takes into full consideration the control characteristics of both the diesel generator and the battery storage system, is proposed.In this scheme, a primary controller based on the battery storage system and a secondary controller based on the diesel generator are designed to improve the stability of voltage and frequency of islanded microgrids in diffe-rent time scales.Moreover, in order to resist smaller and faster random system net-load disturbances, a modified droop controller with P-f and Q-V controls of the battery storage system is proposed, which helps to improve the sta-bility of system voltage and frequency.At the same time, in order to resist bigger and slower system net-load dis-turbances, a PI controller and an auxiliary reactive power compensator are presented for the diesel generator, which helps to implement the isochronous control of system frequency and voltage and to further restore the system opera-tion stability.The feasibility and effectiveness of the proposed method is finally verified by the analysis of Dong’ ao islanded wind-diesel-battery microgrid operated in various conditions.