实验流体力学
實驗流體力學
실험류체역학
JOURNAL OF EXPERIMENTS IN FLUID MECHANICS
2015年
2期
13-18,25
,共7页
龚红明%陈景秋%李理%田润雨
龔紅明%陳景鞦%李理%田潤雨
공홍명%진경추%리리%전윤우
防热瓦%缝隙%台阶%气动加热%风洞实验
防熱瓦%縫隙%檯階%氣動加熱%風洞實驗
방열와%봉극%태계%기동가열%풍동실험
thermal insulating tiles%gaps%steps%aerodynamic heating%wind tunnel tests
在激波风洞中马赫数6.1、雷诺数6.2×107/m 的流场条件下,基于平板模型开展了防热瓦缝隙热流测量实验,研究了湍流平板边界层情况下 T 字和十字2种布局缝隙的缝壁热流分布,以及流向角、缝隙宽度、缝隙深度和缝口台阶高度的变化对缝隙热环境的影响。结果表明,缝口边缘特别是 T 字口迎风壁存在很高的局部热流,测量峰值达到11.6倍平板值,流向角为30°~60°时2种布局缝隙的热环境相对较好,缝壁及缝底热流随缝隙宽度和缝口台阶增大而升高。
在激波風洞中馬赫數6.1、雷諾數6.2×107/m 的流場條件下,基于平闆模型開展瞭防熱瓦縫隙熱流測量實驗,研究瞭湍流平闆邊界層情況下 T 字和十字2種佈跼縫隙的縫壁熱流分佈,以及流嚮角、縫隙寬度、縫隙深度和縫口檯階高度的變化對縫隙熱環境的影響。結果錶明,縫口邊緣特彆是 T 字口迎風壁存在很高的跼部熱流,測量峰值達到11.6倍平闆值,流嚮角為30°~60°時2種佈跼縫隙的熱環境相對較好,縫壁及縫底熱流隨縫隙寬度和縫口檯階增大而升高。
재격파풍동중마혁수6.1、뢰낙수6.2×107/m 적류장조건하,기우평판모형개전료방열와봉극열류측량실험,연구료단류평판변계층정황하 T 자화십자2충포국봉극적봉벽열류분포,이급류향각、봉극관도、봉극심도화봉구태계고도적변화대봉극열배경적영향。결과표명,봉구변연특별시 T 자구영풍벽존재흔고적국부열류,측량봉치체도11.6배평판치,류향각위30°~60°시2충포국봉극적열배경상대교호,봉벽급봉저열류수봉극관도화봉구태계증대이승고。
The characteristics of aerodynamic heating on tile-to-tile gaps in the flow of Mach number 6.1 with Reynolds number of 6.2×10 7/m was investigated in shock tunnel.Thermal in-sulating tiles and tile-to-tile gaps,arranged in T style and + style,were simulated on a flat plate model.Turbulent boundary layer was obtained upstream of the tile gaps by using a grit strip near the leading edge of the flat plate.Heat transfer was measured at the foward faces,side faces and the bottom surface of these gaps,and also at the tiles’surface.The effect of external flow angu-larity,gap width,gap depth and misalignment between tiles on the heating distribution in gaps was also examined.Experimental data reveal that the peak heating is most likely to appear on the gap top edges,especially on the forward face at the T-crossing,where a localized peak heating with amplitude approximately 11.6 times larger than that of the flat plate case was measured.It is also indicated that both the localized peak heating and the overall heating are reduced when the flow angle is adjusted to be 30°~60°,and are raised with the increasing gap width and tile-to-tile step height.