An empirical equation for calculatıng the insde heat transfer coefficient, h. for the turbulent flow of liquids in a pipe is given by: 0.023 GO.8 K0.67 Cp0.33 hi DO 2 µ0.47 where h; heat transfer...


An empirical equation for calculatıng the insde heat transfer coefficient, h. for the<br>turbulent flow of liquids in a pipe is given by:<br>0.023 GO.8 K0.67 Cp0.33<br>hi<br>DO 2 µ0.47<br>where h; heat transfer coefficient. Btu/(hr)(ft)²(

Extracted text: An empirical equation for calculatıng the insde heat transfer coefficient, h. for the turbulent flow of liquids in a pipe is given by: 0.023 GO.8 K0.67 Cp0.33 hi DO 2 µ0.47 where h; heat transfer coefficient. Btu/(hr)(ft)²("F) G=mass velocity of the liquid. n (hr)(ft) K=thermal conductivity of the liquid, Btu/(hr)(ft)(CF) = heat capacity of the liquid. Bru (lbm)(F) Cp =Viscosity of the liquid. Ib (ft) D= inside diameter of the pipe. ft) The above empirical equation is dimensionally consistent. O True O False

Jun 09, 2022
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