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1、精品范文模板 可修改删除撰写人:_日 期:_实验数据处理及计算:T=25Pa=96.6Kpa=1.13Kg/m3=1.5810-5m2 /s距前缘X=150mm坐标初值Y0:0.45mm雷诺数232594.9(微压计)边界层厚度5.95mm(微压计)264968.4(差压传感器)6.00mm(差压传感器)边界层距离微压计静压/mmH2O微压计读数/mmH2O边界层内流速m/s速度比u/v差压传感器静压/Pa差压传感器读数/Pa边界层内流速m/s速度比层流理论值u/V紊流理论值u/V0.45-36.30-20.8516.360.67-364.64-210.9418.640.670.110.690
2、.95-36.30-17.2518.170.74-364.64-176.4020.630.740.240.771.45-36.30-15.0019.210.78-364.64-150.3522.010.790.360.821.95-36.30-12.1520.460.84-364.64-125.4623.250.830.470.852.45-36.30-10.2021.260.87-364.64-102.6924.330.870.580.882.95-36.30-7.8022.220.91-364.64-83.4825.210.900.680.913.45-36.30-6.4522.740.9
3、3-364.64-64.8126.030.930.770.933.95-36.30-4.3523.530.96-364.64-47.8926.760.960.850.944.45-36.30-3.6023.800.97-364.64-37.3427.180.970.910.964.95-36.30-2.5524.180.99-364.64-28.5627.560.980.960.975.45-36.30-2.2524.180.99-364.64-23.5527.760.990.990.995.95-36.30-1.6524.501.00-364.64-20.0027.911.001.001.0
4、06.45-36.30-1.6224.511.00-364.64-18.5627.971.001.001.00150mm截面数据250mm截面数据距前缘X=250mm坐标初值Y0:0.45mm雷诺数387658.2(微压计)边界层厚度6.95mm(微压计)390031.6(差压传感器)6.95mm(差压传感器)边界层距离微压计静压/mmH2O微压计读数/mmH2O边界层内流速m/s速度比u/v差压传感器静压/Pa差压传感器读数/Pa边界层内流速m/s速度比层流理论值u/V紊流理论值u/V0.45-36.30-21.0016.280.66-364.640-214.77016.290.6610.0
5、970.6760.95-36.30-18.4517.590.72-364.640-184.27017.870.7250.2040.7691.45-36.30-15.9019.210.78-364.640-165.45018.780.7620.3580.7531.95-36.30-14.2519.550.80-364.640-146.38019.650.7970.4100.8342.45-36.30-12.6020.260.83-364.640-126.65020.520.8320.5070.8622.95-36.30-11.1020.900.85-364.640-106.92021.360.8
6、670.6000.8853.45-36.30-9.3021.630.88-364.640-93.88921.890.8880.6830.9053.95-36.30-7.9522.160.90-364.640-79.70622.460.9110.7610.9224.45-36.30-6.1522.860.93-364.640-66.98722.950.9310.8290.9384.95-36.30-5.2523.190.95-364.640-51.14723.560.9560.8880.9535.95-36.30-3.0024.020.98-364.640-33.36224.210.9860.9
7、700.9786.95-36.30-2.4024.240.99-364.640-23.85124.560.9961.0001.0007.45-36.30-1.6524.501.00-364.640-21.31524.651.0001.0001.000数据结果分析:1. 由雷诺数判断流态:Re微压计差压传感器150mm截面232594.9264968.4250mm截面387658.2390031.6临界雷诺数Re=3*1053*106流态判断:150mm截面为层流流动 250mm截面为层流向紊流过度区域2.根据边界层的速度分布判断流态: 由绘制的曲线分析,实测曲线均与紊流理论曲线吻合较好。判断结
8、果为:150mm截面、250mm截面均为紊流流态3.根据边界层厚度判断流态:层流:=5*xV紊流:=0.37*V*x15*x150mm截面250mm截面微压计实测5.95mm压力传感器实测6.00mm微压计实测6.95mm压力传感器实测6.95mm层流1.551.462.012.00紊流4.694.577.057.05由以上数据判断结果为:150mm截面流态为:紊流250mm截面流态为:紊流实验总结与思考: 通过如上三种方法认为,通过实验,该平板模型在实验流场中,150mm截面处与250mm界面处均为紊流流态。原因可能是风洞中流速过快,以及1截面选择过于靠后,因而测不到或测得层流流态。建议下次试验对100mm截面进行测试。思考题:1.流体的流动状态受到哪些因素的影响?答:Re=LV/,影响因素有特征长度L,,流速u,流体密度,流体粘度.而温度会影响流体的粘度和密度。2.为何层流和紊流呈现不同的速度分布规律? 答:两种状态和流动的雷诺数雷诺数小,意味着流体流动时各质点间的粘性力占主要地位,流体各质点平行于管路内壁有规则地流动,呈层流流动状态.雷诺数大,意味着惯性力占主要地位,流体呈紊流流动状态。第 1 页 共 1 页免责声明:图文来源于网络搜集,版权归原作者所以若侵犯了您的合法权益,请作者与本上传人联系,我们将及时更正删除。
