A Simple Method of Calculating Power-law Velocity Profile Exponents from Experimental Data1974 - 24 pages |
Common terms and phrases
aloge Analytical expressions calculated and measured calculated directly COMPARISON OF LAMINAR compressibility and heat Compressible Flow curve fitting data plotting displacement and momentum displacement thickness effects of compressibility equation 21 experimental data experimental N values experimental turbulent profiles factors H Figure function H₁ incompressible inserting equations integral parameters laminar and turbulent laminar shape factor Langley Research Center law velocity profile loge Mach number measured values momentum thickness Nc and Nc normal technique number of profiles obtaining experimental obtaining experimental N one-fifth and one-eleventh Performing Organization power law velocity POWER-LAW EXPONENT POWER-LAW VELOCITY PROFILE profile is laminar Reynolds number shape factor equation simple technique slope measuring Solving the turbulent tables of reference technique of obtaining transfer on laminar turbulent equation turbulent shape factor turbulent velocity profiles Tw Taw values of experimental Variation of AH velocity profile exponent Wall Temperature zero heat transfer ΔΗ