中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2011年
36期
77-85
,共9页
高速永磁发电机%温度场%连续量子蚁群优化%冷却系统
高速永磁髮電機%溫度場%連續量子蟻群優化%冷卻繫統
고속영자발전궤%온도장%련속양자의군우화%냉각계통
high speed permanent magnetic generator(HSPMG)%temperature field%continuous quantum ant colonyoptimization%cooling system
以1台117kW高速永磁发电机为例,通过温度场计算分析和连续量子蚁群优化,对其冷却系统进行了优化设计研究。基于电磁分析确定的电机额定负载运行时的损耗分布,建立了电机内三维温度场分析模型,通过流体场与温度场耦合传热分析,得到了定子冷却流道内流体散热系数和温度的变化规律,并确定了电机全域三维温度分布。提出了轴向不等截面冷却通道结构,使电机内温度分布趋于均匀,并研究了流道高度和通道截面变化位置对电机内温度分布的综合作用影响。采用连续量子蚁群优化算法,建立了双目标函数双维度变量的流道优化设计数学模型,通过算法优化设计得到了定子绕组最高温度和轴向温差均为最小的流道结构方案。
以1檯117kW高速永磁髮電機為例,通過溫度場計算分析和連續量子蟻群優化,對其冷卻繫統進行瞭優化設計研究。基于電磁分析確定的電機額定負載運行時的損耗分佈,建立瞭電機內三維溫度場分析模型,通過流體場與溫度場耦閤傳熱分析,得到瞭定子冷卻流道內流體散熱繫數和溫度的變化規律,併確定瞭電機全域三維溫度分佈。提齣瞭軸嚮不等截麵冷卻通道結構,使電機內溫度分佈趨于均勻,併研究瞭流道高度和通道截麵變化位置對電機內溫度分佈的綜閤作用影響。採用連續量子蟻群優化算法,建立瞭雙目標函數雙維度變量的流道優化設計數學模型,通過算法優化設計得到瞭定子繞組最高溫度和軸嚮溫差均為最小的流道結構方案。
이1태117kW고속영자발전궤위례,통과온도장계산분석화련속양자의군우화,대기냉각계통진행료우화설계연구。기우전자분석학정적전궤액정부재운행시적손모분포,건립료전궤내삼유온도장분석모형,통과류체장여온도장우합전열분석,득도료정자냉각류도내류체산열계수화온도적변화규률,병학정료전궤전역삼유온도분포。제출료축향불등절면냉각통도결구,사전궤내온도분포추우균균,병연구료류도고도화통도절면변화위치대전궤내온도분포적종합작용영향。채용련속양자의군우화산법,건립료쌍목표함수쌍유도변량적류도우화설계수학모형,통과산법우화설계득도료정자요조최고온도화축향온차균위최소적류도결구방안。
In this paper, a 117 kW high speed permanent magnetic generator (HSPMG) was studied, and its cooling system was optimal investigated through thermal analysis and the continuous quantum ant colony optimization. Based on the determined losses distributions from the electromagnetic analysis, the analysis model for 3D temperature field analysis was established. Through the fluid-thermal analysis, the variations of heat transfer coefficients and temperatures of fluid in stator grooves along the axial direction were obtained, and so as to the 3D whole region temperature distribution in HSPMG under rated condition. Based on this, a new cooling systems with variational cross section, to made temperature distribute more evenly in HSPMG, was proposed, and the influences of groove height and the axial variation position on HSPMG temperature distributions were studied. Based on the continuous quantum ant colony optimization, a mathematical optimization model with dual objective functions and two dimensional variables for stator slots grooves optimal design was proposed, and a groove structure could make both the windings axial largest temperature and the axial temperature difference were the minimum ones was obtained.