铁道学报
鐵道學報
철도학보
2015年
1期
37-43
,共7页
地铁%再生制动%节能
地鐵%再生製動%節能
지철%재생제동%절능
the metro%regenerative braking%energy saving
为了研究地铁列车再生能量利用,分析给定运行图的节能潜力,以牵引变电所处总能耗最小为目标,依据再生制动等效电路和牵引计算模型,获得地铁列车两车追踪运行约束。在假设前行列车运行状态已知的条件下,采用二次规划算法,优化追踪列车操纵序列,提高再生制动能量的吸收利用,降低系统总能耗。仿真算例与仅考虑单车优化运行策略的方案对比结果表明:给出的算法能够在保证追踪列车正点、准确停站的前提下,节约3.8%的系统总能耗。通过该算法获得的节能效率与列车追踪间隔密切相关,同时调整追踪间隔和采用该优化算法可获得更好的节能效果。
為瞭研究地鐵列車再生能量利用,分析給定運行圖的節能潛力,以牽引變電所處總能耗最小為目標,依據再生製動等效電路和牽引計算模型,穫得地鐵列車兩車追蹤運行約束。在假設前行列車運行狀態已知的條件下,採用二次規劃算法,優化追蹤列車操縱序列,提高再生製動能量的吸收利用,降低繫統總能耗。倣真算例與僅攷慮單車優化運行策略的方案對比結果錶明:給齣的算法能夠在保證追蹤列車正點、準確停站的前提下,節約3.8%的繫統總能耗。通過該算法穫得的節能效率與列車追蹤間隔密切相關,同時調整追蹤間隔和採用該優化算法可穫得更好的節能效果。
위료연구지철열차재생능량이용,분석급정운행도적절능잠력,이견인변전소처총능모최소위목표,의거재생제동등효전로화견인계산모형,획득지철열차량차추종운행약속。재가설전행열차운행상태이지적조건하,채용이차규화산법,우화추종열차조종서렬,제고재생제동능량적흡수이용,강저계통총능모。방진산례여부고필단차우화운행책략적방안대비결과표명:급출적산법능구재보증추종열차정점、준학정참적전제하,절약3.8%적계통총능모。통과해산법획득적절능효솔여열차추종간격밀절상관,동시조정추종간격화채용해우화산법가획득경호적절능효과。
In order to study the regenerative energy use for metro trains and analyze optimized energy saving po-tential of given operation diagrams,operational constraints against a background of two trains under tracing op-eration were established on the basis of the equivalent regenerative circuit and traction calculation model,and with the obj ective of minimizing total energy consumption at the traction substation.Under the assumption that the operational status of the preceding train was already known,increased absorption and use of regenera-tive braking energy and minimum system energy consumption were achieved by optimizing the speed profile of the following train through quadratic programming.Comparing with the case of j ust considering single train speed optimization,the new algorithm can result in a 3.8% total energy saving for the following train,while ensuring its punctuality and accurate station stop positions.Simulation analysis shows that the energy efficien-cy provided by this algorithm is closely related to the spacing time.Adj ustment of train spacing and its speed profile and application of the new algorithm at the same time can achieve further energy saving effect.