电力科学与工程
電力科學與工程
전력과학여공정
INFORMATION ON ELECTRIC POWER
2015年
5期
34-41
,共8页
翟云峰%易国伟%王亦%李明%周鹏
翟雲峰%易國偉%王亦%李明%週鵬
적운봉%역국위%왕역%리명%주붕
微网%机会约束规划%动态经济调度%帝国竞争算法%混沌映射
微網%機會約束規劃%動態經濟調度%帝國競爭算法%混沌映射
미망%궤회약속규화%동태경제조도%제국경쟁산법%혼돈영사
microgrid%chance constrained programming%dynamic economic dispatch%imperialist competitive al-gorithm%chaotic map
微网并网模式下,针对微网中光伏、风电及负荷等不确定因素的影响,在满足系统各个约束条件下,建立了基于机会约束规划的微网动态经济调度模型。模型以微网总的运行成本最小为目标,综合考虑了可控机组燃料成本、 CO2排放治理成本、机组维护成本,低压配电网有功购买成本和旋转备用购买成本等。采用概率约束形式刻画了微网系统运行的可靠性,并考虑了可控机组的出力约束及爬坡约束。针对帝国竞争算法存在收敛速度慢和易陷入局部最优的问题,通过引入混沌原理和随机模拟技术,提出改进帝国竞争算法求解所建数学模型。最后,以一个微网系统为例,分析不同可靠性水平对系统经济性和调度结果的影响,同时比较了所提算法和常规算法收敛特性,验证了所提算法的有效性。
微網併網模式下,針對微網中光伏、風電及負荷等不確定因素的影響,在滿足繫統各箇約束條件下,建立瞭基于機會約束規劃的微網動態經濟調度模型。模型以微網總的運行成本最小為目標,綜閤攷慮瞭可控機組燃料成本、 CO2排放治理成本、機組維護成本,低壓配電網有功購買成本和鏇轉備用購買成本等。採用概率約束形式刻畫瞭微網繫統運行的可靠性,併攷慮瞭可控機組的齣力約束及爬坡約束。針對帝國競爭算法存在收斂速度慢和易陷入跼部最優的問題,通過引入混沌原理和隨機模擬技術,提齣改進帝國競爭算法求解所建數學模型。最後,以一箇微網繫統為例,分析不同可靠性水平對繫統經濟性和調度結果的影響,同時比較瞭所提算法和常規算法收斂特性,驗證瞭所提算法的有效性。
미망병망모식하,침대미망중광복、풍전급부하등불학정인소적영향,재만족계통각개약속조건하,건립료기우궤회약속규화적미망동태경제조도모형。모형이미망총적운행성본최소위목표,종합고필료가공궤조연료성본、 CO2배방치리성본、궤조유호성본,저압배전망유공구매성본화선전비용구매성본등。채용개솔약속형식각화료미망계통운행적가고성,병고필료가공궤조적출력약속급파파약속。침대제국경쟁산법존재수렴속도만화역함입국부최우적문제,통과인입혼돈원리화수궤모의기술,제출개진제국경쟁산법구해소건수학모형。최후,이일개미망계통위례,분석불동가고성수평대계통경제성화조도결과적영향,동시비교료소제산법화상규산법수렴특성,험증료소제산법적유효성。
Considering the influences of the uncertainty of the photovoltaic power generation, wind power genera-tion and load in microgrid, this paper sets up a mathematical model of microgrid dynamic economic dispatch based on chance constrained programming on the premise of each constraint of the system.The following costs:the mini-mum total operation costs of the microgrid, the controlled unit fuel costs, the emission control cost of carbon diox-ide, the unit maintenance costs, the active power buying costs and spinning reserve buying costs from distribution network, have been taken into consideration.This paper used probability constraints to depict the reliability of the microgrid operation, and considered the output constraints and climbing constraints of the controlled units.In order to solve the problems that imperialist competitive algorithm tends to fall to local minimum easily and converge slow-ly, an improved imperialist competitive algorithm is proposed to improve the mathematical model by introducing the chaos theory and stochastic simulation technology.Finally, taking an microgrid system as an example, this paper analyses the influence of microgrid economy and the scheduling results in different reliability probability level.It al-so compares the convergence properties of the algorithm with the conventional algorithm in order to verify the effec-tiveness of the algorithm.