空气动力学学报
空氣動力學學報
공기동역학학보
ACTA AERODYNAMICA SINICA
2014年
6期
848-853
,共6页
彭珑%卜雪琴%林贵平%马文涛%赵凯
彭瓏%蔔雪琴%林貴平%馬文濤%趙凱
팽롱%복설금%림귀평%마문도%조개
热气防冰腔%热效率%结构参数%表面传热系数
熱氣防冰腔%熱效率%結構參數%錶麵傳熱繫數
열기방빙강%열효솔%결구삼수%표면전열계수
hot air anti-icing cavity%thermal efficiency%structural parameter%surface heat transfer coef-ficient
采用数值模拟方法,开展了热气防冰系统结构参数对其热性能影响的研究。首先建立了不同管壁距、喷孔排数、喷口喷射角度的防冰腔结构,运用计算流体力学方法对其内部热气流动与换热进行了模拟,得到了防冰腔热效率以及热气喷射蒙皮内表面的对流传热系数的分布。结果表明:管壁距在4mm 至36mm 范围内增大,将降低防冰腔的热效率,并且弱化射流正对冲击表面传热性能;流量一致时,喷孔排数由3排减至2排,提高了防冰腔热效率;3排喷孔射流角度朝上表面方向旋转15°,将会提升防冰腔热效率,表明曲面曲率影响射流表面传热性能。
採用數值模擬方法,開展瞭熱氣防冰繫統結構參數對其熱性能影響的研究。首先建立瞭不同管壁距、噴孔排數、噴口噴射角度的防冰腔結構,運用計算流體力學方法對其內部熱氣流動與換熱進行瞭模擬,得到瞭防冰腔熱效率以及熱氣噴射矇皮內錶麵的對流傳熱繫數的分佈。結果錶明:管壁距在4mm 至36mm 範圍內增大,將降低防冰腔的熱效率,併且弱化射流正對遲擊錶麵傳熱性能;流量一緻時,噴孔排數由3排減至2排,提高瞭防冰腔熱效率;3排噴孔射流角度朝上錶麵方嚮鏇轉15°,將會提升防冰腔熱效率,錶明麯麵麯率影響射流錶麵傳熱性能。
채용수치모의방법,개전료열기방빙계통결구삼수대기열성능영향적연구。수선건립료불동관벽거、분공배수、분구분사각도적방빙강결구,운용계산류체역학방법대기내부열기류동여환열진행료모의,득도료방빙강열효솔이급열기분사몽피내표면적대류전열계수적분포。결과표명:관벽거재4mm 지36mm 범위내증대,장강저방빙강적열효솔,병차약화사류정대충격표면전열성능;류량일치시,분공배수유3배감지2배,제고료방빙강열효솔;3배분공사류각도조상표면방향선전15°,장회제승방빙강열효솔,표명곡면곡솔영향사류표면전열성능。
The hot air anti-icing system is one of the important ways to prevent aircraft icing.Numerical simulation method was carried out to study the influence of the structural parameters on the thermal per-formance of the hot air anti-icing system.The hot air flow and heat transfer in the anti-icing cavities with different nozzle-to-surface height,number of the nozzle rows and hot air jet angle were simulated using the computational fluid dynamics (CFD)method.The thermal efficiency of the anti-icing system and the convec-tive heat transfer coefficient distribution of the skin inner surface were obtained.The results show that:1) with the increase of the nozzle-to-surface height in the range of 4mm to 36mm,the thermal efficiency of the anti-icing system reduces and the heat transfer performance of the hot air impinging on the surface weakens, 2)with consistent flow flux,the thermal efficiency of the anti-icing system increases from three to two noz-zle rows,3)the thermal efficiency improves with the 15°rotation of the hot air jet angle along the upper sur-face direction,indicating that the surface curvature effects the jet surface heat transfer performance.The results presented in this paper can help to the design of the anti-icing cavity.