空气动力学学报
空氣動力學學報
공기동역학학보
ACTA AERODYNAMICA SINICA
2015年
2期
239-245
,共7页
直升机%空气动力学%无尾桨%环量控制
直升機%空氣動力學%無尾槳%環量控製
직승궤%공기동역학%무미장%배량공제
helicopter%aerodynamics%NOTARTM%circulation control
基于二维可实现 k—Epsilon 湍流模型模拟计算了直升机环量控制尾梁上的升力,并与试验结果进行了对比,计算结果与试验结果之间显示出了可接受的吻合度。利用已验证的数值计算方法和网格划分方法,分别计算了三组不同截面形状的环量控制尾梁在不同几何参数(喷射角、缝位角、基准直径和狭缝数量)或试验条件(喷射气流速度、下洗流速度)下的升力。结果显示,通过优化尾梁截面形状和狭缝相对位置,引导气流在截面曲率较大的位置处脱离壁面,可以提高尾梁升力并增强附壁气流的稳定性。模拟计算结果还揭示了提高下洗流速度和降低狭缝喷射角可以提高优化尾梁截面和狭缝相对位置的效果。
基于二維可實現 k—Epsilon 湍流模型模擬計算瞭直升機環量控製尾樑上的升力,併與試驗結果進行瞭對比,計算結果與試驗結果之間顯示齣瞭可接受的吻閤度。利用已驗證的數值計算方法和網格劃分方法,分彆計算瞭三組不同截麵形狀的環量控製尾樑在不同幾何參數(噴射角、縫位角、基準直徑和狹縫數量)或試驗條件(噴射氣流速度、下洗流速度)下的升力。結果顯示,通過優化尾樑截麵形狀和狹縫相對位置,引導氣流在截麵麯率較大的位置處脫離壁麵,可以提高尾樑升力併增彊附壁氣流的穩定性。模擬計算結果還揭示瞭提高下洗流速度和降低狹縫噴射角可以提高優化尾樑截麵和狹縫相對位置的效果。
기우이유가실현 k—Epsilon 단류모형모의계산료직승궤배량공제미량상적승력,병여시험결과진행료대비,계산결과여시험결과지간현시출료가접수적문합도。이용이험증적수치계산방법화망격화분방법,분별계산료삼조불동절면형상적배량공제미량재불동궤하삼수(분사각、봉위각、기준직경화협봉수량)혹시험조건(분사기류속도、하세류속도)하적승력。결과현시,통과우화미량절면형상화협봉상대위치,인도기류재절면곡솔교대적위치처탈리벽면,가이제고미량승력병증강부벽기류적은정성。모의계산결과환게시료제고하세류속도화강저협봉분사각가이제고우화미량절면화협봉상대위치적효과。
Lift on circulation control circular cylinder is calculated via numerical simulations based on 2D realizable k—Epsilon viscous model and compared with experimental data.The simu—lation result shows acceptable agreement with test data.With the proved grid and simulation method,lift on series of three different types of cross sections with different geometry parame—ters(blow angles,referenced position of slot,referenced circular cylinder diameters,and number of slots)or testing parameters(jet flow velocities,down wash flow velocities)is simulated.The results show that lift on circulation control tail boom could be increased with same power con—sumption,the stability of the attached flow could be enhanced by optimizing the shape of the cross section of the tail boom and the position of the slot(s)relative to the large curvature zone of the cross section where the attached flow is supposed to separate from the surface.It is also re—vealed that larger down wash velocity or smaller blow angle helps increasing the effect of optimi—zing of the shape and relative position of the slot(s).