电源技术
電源技術
전원기술
CHINESE JOURNAL OF POWER SOURCES
2014年
11期
2066-2069
,共4页
汪秋婷%戚伟%肖铎
汪鞦婷%慼偉%肖鐸
왕추정%척위%초탁
混合动力%荷电状态%道路预测%能量管理%NEDC
混閤動力%荷電狀態%道路預測%能量管理%NEDC
혼합동력%하전상태%도로예측%능량관리%NEDC
hybrid system%path forecasting%energy management%NEDC
混合动力电动车能量控制策略是提高车辆性能的关键技术之一,重点研究基于部分道路预测的混合动力电动车(HEV)能量管理策略。通过预测电动车的行驶轨迹优化电池的充电和放电性能,结合不同路段电池的实时荷电状态()值估算燃油消耗量,从而达到提高混合动力整车能量利用效率的目的。新方法将电动车整段行驶轨迹分割成连续相连的部分路段,动态估算每段轨迹的车辆参数值,利用动态编程工具验证可用道路信息的优越性。NEDC工况仿真结果和实际电动车实验结果显示,新算法可动态模拟电动车电池在每个路段的电量消耗情况,在相同路段条件下燃油节省率达到10.8%和12.5%。
混閤動力電動車能量控製策略是提高車輛性能的關鍵技術之一,重點研究基于部分道路預測的混閤動力電動車(HEV)能量管理策略。通過預測電動車的行駛軌跡優化電池的充電和放電性能,結閤不同路段電池的實時荷電狀態()值估算燃油消耗量,從而達到提高混閤動力整車能量利用效率的目的。新方法將電動車整段行駛軌跡分割成連續相連的部分路段,動態估算每段軌跡的車輛參數值,利用動態編程工具驗證可用道路信息的優越性。NEDC工況倣真結果和實際電動車實驗結果顯示,新算法可動態模擬電動車電池在每箇路段的電量消耗情況,在相同路段條件下燃油節省率達到10.8%和12.5%。
혼합동력전동차능량공제책략시제고차량성능적관건기술지일,중점연구기우부분도로예측적혼합동력전동차(HEV)능량관리책략。통과예측전동차적행사궤적우화전지적충전화방전성능,결합불동로단전지적실시하전상태()치고산연유소모량,종이체도제고혼합동력정차능량이용효솔적목적。신방법장전동차정단행사궤적분할성련속상련적부분로단,동태고산매단궤적적차량삼수치,이용동태편정공구험증가용도로신식적우월성。NEDC공황방진결과화실제전동차실험결과현시,신산법가동태모의전동차전지재매개로단적전량소모정황,재상동로단조건하연유절성솔체도10.8%화12.5%。
The energy management strategy for the hybrid electric vehicle (HEV) based on the path forecasting was the key technology and the State of Charge estimation of the lithium battery was the major study. The charge and discharge performance of the battery in the hybrid system was optimized according to the route of the vehicles. The fuel consumption could be estimated by the information of the real-time battery value and sought to improve HEV fuel economy. The characteristics of this new method were: Firstly, the vehicle route was decomposed into a series connection of route segments with known properties. Secondly, the dynamic programming was used to obtain the battery value and the parameters of the hybrid system. The experimental results of the simulation condition and the practical vehicle confirm that the fuel consumption of the hybrid vehicle by estimating the battery value in each route segment can be improved by the new method. The supplementary fuel savings could reach to 10.8%and 12.5%in two different traffic conditions.