电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2014年
17期
73-79,97
,共8页
毕锐%吴建锋%丁明%陈中%朱承治%赵波
畢銳%吳建鋒%丁明%陳中%硃承治%趙波
필예%오건봉%정명%진중%주승치%조파
微网(微电网)%超级电容%蓄电池%柴油发电机%多元互补系统%协调分享%能量管理
微網(微電網)%超級電容%蓄電池%柴油髮電機%多元互補繫統%協調分享%能量管理
미망(미전망)%초급전용%축전지%시유발전궤%다원호보계통%협조분향%능량관리
microgrid%ultracapacitors%battery%diesel generator%multiple complementary system%coordinated sharing%energy management
为实现孤立微网的长期稳定运行,采用超级电容、蓄电池和柴油发电机组成多元互补系统协调分享差额功率。根据机组的不同特性,提出按优先级设计的双层能量管理协调策略,提升多元系统的整体性能;通过爬坡限制控制,设计基于当前超级电容荷电状态与差额功率实时波动程度的功率分配法;规范了蓄电池的出力,减少其承担频繁功率波动,同时可以确保超级电容能量优先级;柴油发电机根据蓄电池荷电状态配合协助蓄电池的运行,保证储能系统能量充足。算例结果表明,所述策略具有较好的优势,分配算法实时快速,便于实现工程应用。
為實現孤立微網的長期穩定運行,採用超級電容、蓄電池和柴油髮電機組成多元互補繫統協調分享差額功率。根據機組的不同特性,提齣按優先級設計的雙層能量管理協調策略,提升多元繫統的整體性能;通過爬坡限製控製,設計基于噹前超級電容荷電狀態與差額功率實時波動程度的功率分配法;規範瞭蓄電池的齣力,減少其承擔頻繁功率波動,同時可以確保超級電容能量優先級;柴油髮電機根據蓄電池荷電狀態配閤協助蓄電池的運行,保證儲能繫統能量充足。算例結果錶明,所述策略具有較好的優勢,分配算法實時快速,便于實現工程應用。
위실현고립미망적장기은정운행,채용초급전용、축전지화시유발전궤조성다원호보계통협조분향차액공솔。근거궤조적불동특성,제출안우선급설계적쌍층능량관리협조책략,제승다원계통적정체성능;통과파파한제공제,설계기우당전초급전용하전상태여차액공솔실시파동정도적공솔분배법;규범료축전지적출력,감소기승담빈번공솔파동,동시가이학보초급전용능량우선급;시유발전궤근거축전지하전상태배합협조축전지적운행,보증저능계통능량충족。산례결과표명,소술책략구유교호적우세,분배산법실시쾌속,편우실현공정응용。
To achieve long-term and stable running of standalone microgrid,a multiple complementary system composed of ultracapacitors,batteries and diesel generators is proposed to coordinate the share of unbalanced power.In order to enhance the overall performance of the multiple system,a double-layer energy management and coordination strategy based on priority and characteristics of different units is proposed.By the power climbing limit control,a coordinative distribution method based on the current state of charge(SOC) of ultracapacitors and real-time volatility is designed.This method is able to standardize the output power of batteries and reduce the frequent fluctuations they understand as well as ensure the energy priority of ultracapacitors.To guarantee sufficient energy of energy storage,the diesel generator is operated to coordinate the running of battery by its SOC.Case studies indicate that the proposed strategy has preferable advantages;meanwhile,it”s easy for the real-time and fast distribution algorithm to realize engineering applications.
